True Lice : Launching the new Krya Anti-Lice System

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Raise your hand if you are a parent whose child has missed school due to an attack of head lice. I am typing this sentence with one hand, with the other hand raised up. Schools, especially the kindergarten variety, routinely conduct lice checks on their wards and send the kids with lice infections home to get immediate treatment.

Lice (singular: louse) cannot fly but they can crawl really fast. So the principal method by which they spread is close human contact, which is why the smaller kids in school who play together are infected easily by lice. Lice also cannot survive for more than a few hours away from the human scalp – so generally they do not spread fast through personal items like combs and towels.

Nevertheless, sharing combs & towels in a home under lice attack is not a good idea as parents and others in the home could get lice infection from the kids. The Center for Disease Control (CDC) reports that every year 6 million to 12 million children in the age group 3 – 11 years in the U.S.A get an attack of head lice. (As an aside, it would great to have such meticulously collected statistics for India. Since it is not readily available we are using the U.S data to get a idea of the size of the global lice scourge) .

Head lice are wingless, blood-sucking parasitic insects that can only live on the human scalp. They lay their eggs on the human hair shaft, which hatch in about nine days. Lice can live for about a month and the female louse can lay about 10 eggs per day. So it is very easy for the lice infestation to spread really fast on a person’s scalp.

Lice are annoying. Really Really Annoying.

They spread fast and cause severe itching and irritation on the scalp. If left untreated for a long time, chronic lice infestations can cause Iron deficiency anemia due to the constant blood sucking.
Lice also cause secondary trouble by harboring several microbes that can cause other infections to the host human.

For example the typhus bacterium Rickettsia prowazekii can spread through the head louse to the hosts. Typhus , which spread through lice, was a global scourge even till the early part of the 20th Century. In 1812, Napoleon’s army of half a million men was reduced to a mere 35,000 men due to a Typhus outbreak. Typhus, courtesy of lice, killed millions of people in eastern Europe around the time of the first world war. Vladimir Lenin famously complained that “either socialism will defeat the louse or the louse will defeat socialism” .

Thankfully the Typhus epidemic has been nearly eradicated and is not a threat.

But the lice still remain with us. As they have, apparently since the dawn of time.

A wooden comb was discovered in an archaeological dig in Israel’s Negev desert, dating to ~ 100 B.C, covered with 10 head lice & 5 nits. In others finds in Egypt, lice nits were discovered on a mummy dating to 5000 B.C. interestingly the mummy was buried along with lice removing combs. So the preferred method for removing lice even 7000 years later remains the same.

What lice beneath: The problem with current lice treatments

The immediate treatment when you first discover the dreaded lice itch is to physically remove the lice with the eponymous comb. This provides temporary relief and does not carry the risk of spreading the contagion through the comb, since lice cannot survive a few hours away from the human scalp. But these little critters leave several tens of their nits (eggs) attached to the hair shaft, which hatch in the next days to continue the attack on the host’s head. Nits are very difficult to remove with the comb. This necessarily means that apart from the comb, a topical treatment like a lice-oil or shampoo is required to win the battle.

Malathion and Permethrin are two common chemical insecticides used in lice treatment products across the world.

Malathion is a very common organophosphate used as a pesticide in agriculture & in public health programs to kill mosquitoes. It is also now used commonly in head lice products where it works by killing lice and partially killing the nits ( eggs)

Malathion is bad news for human health and for the environment. While manufacturers of malathion claim that it is of low toxicity, it is also known that if malathion is absorbed into the human body, it easily metabolizes into Malaoxon which is 61 times more toxic than its parent compound.

Children who ingest malathion may experience headache, dizziness, fatigue , seizures, muscle weakness and even paralysis. Anti-lice products which contain malathion have to be applied & left on the scalp for several hours before wash off. This provides a route for malathion to easily enter the body especially when applied on small children. These products do not provide permanent relief from lice and have to be used repeatedly which aggravates the risk of absorption into the body.

Malathion is now being replaced by another chemical called permethrin in anti-lice products.

Permethrin is a broad spectrum insecticide and works by killing live lice. Common side effects of permethrin are itching, swelling and redness, stinging, numbness, tingling & skin rash. Permethrin can be absorbed through the skin and is very toxic if it accidentally comes in contact with the eyes. If permethrin is accidentally inhaled, it causes irritation in the nose and lungs, difficulty in breathing, headaches, dizziness, nausea and vomiting. After using a permethrin based product, we must remember to thoroughly wash our hands to prevent accidental ingestion with our food.

krya-anti-lice-system
On the krya blog, we have written on several occasions about the new global risk of “Super Bugs”. These super bugs are created when normal bugs develop resistance to chemicals used to kill them. Due to the indiscriminate wide-spread use of malathion & permethrin in lice products, US & Australia have now reported the emergence of “Super lice” and “ Super Nits” that can survive these chemicals. So now we have a dangerous situation where a permethrin based product is ineffective in controlling lice, causes severe side-effects and after prolonged use creates “Super lice”.

The phenomenon of Super bugs happens only with chemicals because they are inert and fixed in their pathways. However bugs like lice are alive, smart and are capable of mutating fast to evade the chemical pathways and emerge as new super bugs. This does not happen with plant based solutions as plants are intelligent, live beings capable of adapting to the bugs and helping humans fight them without any side-effects.

Now to put this in perspective , most lice products are used on small children, who are experiencing severe itching, irritation and pain due to the infestation. Why do companies formulate products with chemicals like Malathion & Permethrin which can cause irritation when used as advised and are very toxic if accidentally inhaled or ingested ?

On this note, there are several “natural” Anti-lice products which use plant based insecticides like the seeds of the Sitaphal ( Annona Squamosa / Custard Apple). Now this seed is a very effective anti-lice product and has no side-effects. However if it accidentally falls on to the eyes, it is very toxic and can even cause blindness. Due to this at Krya, we strongly advise against the use of Sitaphal seeds in Anti-lice products – the risk is just not worth it.

We have been receiving several Lice Oil requests for sometime now. We finally bit the bug (pun fully intended) last week and made our second batch of the Krya Anti Lice oil (our first test batch was met with a lot of success 2 years ago during our testing phase). For stubborn infestation cases, we’ve added an Anti Lice hair mask and made an anti Lice hairwash to go with this system.

The first people to test out the revised formulations were 2 Krya employees with slightly older school going kids with a severe lice infestation. These kids had been subjected to the usual round of anti lice brands available in the Pharmacy. They reported high eye irritation, feeling of heaviness and headaches with using their previous brands of highly toxic lice oil and shampoo. They were uncomfortable with the lingering smell of these products and also reported slight hairfall after using the commercial anti-lice shampoos. The parents were extremely concerned about the medium and long term safety of using such strong, poisonous substances in such close contact with their children.

After trying out the samples of the Krya anti lice oil, my employees were sent to work with a special request from the kids – to please buy much more of the product for any future Lice infestations!

The kids loved the fragrance of the oil, the way their scalp felt after massage, and most importantly they reported being able to easily comb out both nits and lice after oil application – the lice were not dead, but were incapacitated and were easy to comb out.

We will be talk much more about exactly how we formulate the Krya anti lice system in later posts, but for now, if you are looking for a really natural, non toxic, gentle solution to a lousy problem, explore here:

1. Krya Natural Anti Lice Hair Oil with Thyme & Tamanu –http://bit.ly/kryaantilicehairoil
2. Krya Natural Anti Lice Hair Mask with Sweetflag & Ram Tulasi –http://bit.ly/kryaantilicehairmask
3. Krya Natural Anti Lice Hairwash with Lemon Eucalyptus & Curry Leaf –http://bit.ly/kryaantilicehairwash
4. Krya Natural Anti Lice Hair System – comes with the Oil, Mask and Hairwash (especially recommended for chronic infestation ) –http://bit.ly/kryaantilicehairsystem

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Shampoo Seppuku – Throw away that shampoo part 2

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Reading Time: 7 minutes

Our last post on SLS in a synthetic shampoo has set the cat among the pigeons. We have received a huge number of emails, calls and messages from You stating your concern on the issue ( and you should be concerned!).

We’ve also had several of our consumers sending us pictures of the labels of their current brand of shampoo – and we’ve played Sherlock decoding the labels to them. Almost every brand of “natural” or gentle shampoo label that has been sent to us contained Sodium Laureth sulphate (SLES), that we write about and some other toxic animals like Methyl and Propyl Paraben.

And that is the point of this post. If you thought the only villains hiding in your shampoo were SLS, SLeS and silicones like DiMethicone, well, you were mistaken, weren’t you.

Instead your Shampoo has an entire secret society of villains hiding in it – (yes, we love DC Comics and aren’t ashamed of it !)
If SLS was the Lex Luthor in your shampoo, meet The Wizard, Gorilla Grodd, and the Funky Flashman, right here.

 

MEA, DEA and TEA (Monethanolamine, Diethanolamine and Tri-ethanolamine)

DEA, TEA and EA (Ethanolamine) are produced when aqueous ammonia reacts with ethylene dioxide.

Ethanolamines are clear, colorless, viscous liquids which reduce the surface tension of oil and water combined products so that the oil and water can mix together without separating. Ethanolamines are found therefore in shampoos, face washes, body washes, bubble baths and gels, sunscreens, hair dyes, eyeliners, mascaras and also in dishwashing detergents, liquid detergents, metalworking fluids, paints and printing inks.

TEA is commonly used in cleansing milks or creams – because it is so strongly alkaline (a 1% solution of TEA has a pH of 10), it is used as a dirt remover in ironically named “gentle cleansing creams”.

What the Industry says about MEA, DEA and TEA – rinse fast, and thoroughly:

Even industry supported and funded bodies like the cosmetics Ingredient review Panel (established in 1976 by the Cosmetic, Toiletry and Fragrance association and supported by the U.S FDA), recommended that TEA and DEA concentrations should not exceed 5%.

They also recommend that if you use a product containing any Ethanolamine, you should use the product briefly, and not continually and thoroughly scrub and rinse to ensure there is no ethanolamine lingering on your skin or scalp.

This recommendation does not take into account the fact that most of us linger when we use wash off products (and definitely more than the recommended 5 minutes). It also does not address the issue of continuous usage – many of us have now graduated to shampooing every single day. Nor does it answer the concern of DEA in leave on products like conditioners, and skin care products like mascara or even medicine like ear drops which are supposed to linger.

tea dea lingering prohibited

Why you should keep away from MEA, DEA and TEA

Effect on hair:

The excessive use of shampoos containing TEA and DEA can irritate your scalp, make your hair feel dry and lifeless, and breakdown your hair’s keratin structure,

Contact dermatitis:

3 studies spaced several years apart found that TEA based products occasionally cause contact dermatitis – the products studies were as diverse as a sunscreen, and ear drops.

Environmental toxicity:

When TEA hits water bodies, as is common when the shampoo we use goes down our drains, into our sewers and into our rivers, it can potentially cause acute and chronic toxicity in several aquatic species.

The last word on TEA:

TEA is a scheduled chemical listed in Schedule 3, Part B of the chemical Weapons Convention. This Control treaty outlaws the production or stockpiling of dangerous chemicals or their precursors that can be use to create chemical weapons.

So if we manufactured or used more than 30 tonnes of TEA every year, we have to declare this, and allow ourselves to be inspected just to make sure we weren’t manufacturing weapons. And we cannot export TEA to countries who have not signed off on the Chemical weapons Convention treaty.

Not so Fun fact: TEA is used to manufacture Nitrogen Mustard a chemical warfare weapon. In World War 2, several countries manufactured and stockpiled Nitrogen Mustard but did not use it (thankfully!). Nitrogen Mustard has a strong cytotoxic (cell destroying) effect and is today used in cancer chemotherapy.

Krya WTF moment: What the fish is a chemical scheduled under the chemical Weapons Treaty doing in your shampoo / sunscreen /shaving cream / ear drops?

Here are some avatars of Ethanolamines you could find in synthetic products around your home – our recommendation? Toss em out:

  1. Cocamide DEA
  2. Cocamide MEA
  3. DEA-Cetyl Phosphate
  4. DEA Oleth-3 Phosphate
  5. Linoleamide MEA
  6. Lauramide DEA
  7. Myristamide DEA
  8. Stearamide MEA
  9. Oleamide DEA
  10. TEA-Lauryl Sulfate
  11. Triethanloamine

 Parabens

Parabens are a class of synthetic preservatives widely used in cosmetics, personal care products and medicines. They have been used in these products for about a hundred years now and are the industry standard for anti bacterial and anti fungal properties.

You can find Parabens in almost every single synthetic cosmetic and personal care product from shampoos, to skin creams to under arm deodorants. They are also used in fragrances, but as fragrances are considered trade secrets, manufacturers do not have to disclose what goes into their fragrances, including deadly villains like Parabens.

What the Industry and Governments say about Parabens:

In spite of extensive literature on the hormonal effects of Parabens, the 2006 Cosmetic Industry Review compendium trivializes the problem. They maintain that Parabens “must certainly be considered safe”.

However, after the work of many consumer awareness groups like EWG, companies like Johnson & Johnson pledged to remove both parabens and formaldehyde from its baby care and adult skin care products by 2015 including brands like Aveeno & Neutrogena.

Globally most governments have not re-examined the safety of parabens. Some outliers are the Danish government which has banned the use of products for children below 3 years. In India parabens are commonly used in cosmetic and other applications.

Why you should keep away from Paraben containing products:

Effect on skin and Hair – aging and cell damage

The irony is not lost on us. Parabens are commonly found in anti aging products. However, research shows that they actually accelerate the skin aging process!

Researchers from Meijo University, Japan concluded that Methyl Paraben could cause carcinogenic skin damage when people who used the compound in skin care products were exposed to sunlight irradiation. Similarly, Researchers from Kyoto Prefectural University of Medicine, Japan concluded that UVB exposure to Methyl Paraben when used on skin significantly increased cell death and oxidative stress in human skin.

Endocrine disrupting function

The European Commission on Endocrine disruption have listed Parabens as a category 1 priority substance because they easily penetrate skin, and interfere with the function of the hormones. In our body, Parabens can mimic estrogen.

Penetrative ability into the body:

Parabens have been detected in urine, serum, breast milk and seminal fluid, but the most worrying fact has been their detection in breast tissue from patients with breast cancer. In one important North American study, it was calculated that the average person is exposed to 76 mg of parabens every day, with 50 mg from cosmetics, 25 mg from pharmaceuticals and 1 mg from food.

Research from the CDC’s National Centre for Environmental Health found that the blood of over 60% of the children surveyed during the National Health and Nutrition examination survey was contaminated with more than 8 toxins including significant levels of 3 kinds of parabens.

One alarming property of parabens is their ability to enter the body through the skin, something that most people are not aware of. This has been widely studied in underarm cosmetics like deodorants and whiteners. Breast cancer research shows a higher concentration of parabens in the upper lateral breast near the armpit corresponding to the use of deodorants which contain parabens.60% of breast cancer tumors occur in the precise area where we use deodorant sprays!

 

An important point to note here is the route we allow to Parabens when we apply then on our skin and hair. While eating Parabens in your food is not the best thing to do, in the oral route, Parabens are metabolized better, and are less estrogenic.

However in the dermal route, we allow Parabens to directly enter our blood stream and make their way to our organ systems, increasing our exposure risk.

Effect on Male reproductive health:

In addition to Paraben’s estrogen like properties, this chemical has also been associated with interfering with the Male reproductive system. Studies report low sperm counts, and decreased levels of testosterone in Men linked to the absorption of Parabens form personal care products.

Intersex fish:

Boulder Colorado in 2008 undertook a multimillion dollar upgrade of their waste water effluent plant. Until then, intersex fish were a common sight – stimulated by the chemicals in personal care products like shampoos and pharmaceuticals like steroids, male fish across species developed female characteristics. This multimillion dollar plant has not removed the problem – however, with efficient sewage treatment, the male fish are taking slightly longer to get feminized.

Krya WTF moment: What the fish (pun intended) is a gender bender chemical that has been found in cancerous breast tumors, decreases sperm count and ages skin and hair doing in your shampoo? I mean, really?

krya wtf moment 2 - parabens

Here are some labels Parabens hide under in your shampoo or skin care product:

  1. Benzylparaben
  2. Butylparaben
  3. Propylparaben
  4. Methylparaben
  5. Ethylparaben
  6. Isobutylparaben

This isn’t over – far from it. Look out for our next post on this September on more Super villains hiding in your synthetic shampoo.

A happy hair month to you!

This article is a part of Krya’s series on healthy and happy hair, which we are writing all this September. Through the Krya healthy hair series, we hope to inform, educate and inspire you to restore your hair to its natural state of great health. Synthetic shampoos and hair products contain a huge host of suspect industrial chemicals that are not just toxic for us to use, but are polluting and toxic to the planet as well. The natural world is full of safe, environmentally sustainable, cruelty free options to care for your hair, and our series will try to present atleast a small part of this exciting world to you. 

 

Consumers love our all natural, synthetic free, gentle hair washes- explore more here. We are running an introductory offer on all of our skin and hair care products this month – just subscribe to our super useful newsletter above to get the coupon code in your inbox.

 

If you would like to explore our series further, here’s what We’ve written about hair health before this piece:

  1. What goes into your Shampoo – part 1
  2. What’s the deal with SLS and SLES – and why it shouldn’t come anywhere near you or your hair
  3. What is your hair supposed to be? A trial? A challenge? Or simply, your best friend
  4. Is beauty external? We think not
  5. What should you be looking for on that product label?  
  6. Common carcinogens implicated in breast cancer found in your home 
  7. Is it a conspiracy? A pre-planned genetic supremacy race? Or simply misinformation? Some reasons behind common toxics & why they continue to be used 
  8. Are we putting our children at risk by using these products on them? Here are 3 toxins that plague children through the products we use on them. 
  9. Do the products we buy contain toxins? How do we decode what goes into them? Here’s Urban Survival 102 telling you how to decode a cosmetic label
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Hair hara-kiri – throw away that shampoo Part 1

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Reading Time: 6 minutes

My biggest hair problem as a teenager was hair that wouldn’t dry fast. I had waist length hair back then which was as thick as my palm. My hair literally took hours to dry, and before I started using shampoo, I would sometimes have to comb out clumps of shikakai from my home made hair wash after it dried.

Yup, pretty much a case of my diamond shoes being too tight.

Of course, I grew up. Started to use synthetic shampoos, and then of course, all hell broke loose. Because just a few years later, my biggest hair problem, was that my hair, simply would not grow.

Instead, I grappled with hair that broke easily, was thinning everywhere, and just didn’t grow as fast as it used to. So to keep the focus off my non growing hair, I kept cutting it shorter, until at one point, I sported a pageboy cut.

The reasons for my hair’s state are now quite apparent – I committed every single one of those 5 hair mistakes we wrote about last time on the Blog. If there was a treatment or a new hair product out, you could be sure I was right there, asking for it.

But today I want to focus on the single hair mistake almost all of us are committing – and this one is a hara kiri (a hair-a-kiri?) – using a synthetic shampoo.

A dated report I’m reading tells me that the world spends close to 60 billion dollars every year buying shampoo. Yes, you read that right. We are as a race, spending collectively the equivalent of the GDP of Zambia,or Slovenia, on just Shampoo!

The modern shampoo was “invented” in the 1920s. Of course, this news was not as exciting for people in general because all of us had been washing our hair with herbs, clays and water for time immemorial. Shampoos therefore cleverly position themselves as modern, scientific products that provided a great experience and gave us what we did not have with herbs – Lots & Lots & Lots of Copious lather.

Today’s shampoo formulation has evolved, dangerously from its 1920s version. Besides being actually harmful for your hair, a shampoo today contains ingredients that are extreme irritants, environmental toxins and are even carcinogenic.

 What’s in that foaming, coloured, scented mess?

1. Detergent

The most important ingredient in a shampoo is the part that cleans. And this comes ingredients like SLS, SLES or even ALS (Ammonium lauryl sulphate) and its ethoxylated cousin ALES (ammonium Laureth sulphate).

We are extremely concerned about the all pervasive and toxic nature of SLS and SLES – you will find SLS / SLES in almost everything that foams and is a cleanser of some sort from your laundry detergent to your baby wash and of course your shampoo. We actually spent a whole post talking about the dangers of SLS and SLES .

Sulphates were initially used as cheap detergents – typically in car washes and mechanic workshops to easily cut through axle grease. They are today widely used to lift off grease from hair and to clean your body, face and even your clothes.

We have 3 major concerns over the almost obsessive use of SLS and SLES by the consumer product industry:

Sebum stripping ability

The first is that both these Lauryl Sulfates  are almost too effective at stripping hair (and skin)  of its protective layer of oil – the result, all the vital and necessary sebum in your hair which protects the cuticles and its integrity is stripped out, leaving it dull and lifeless.

Irritant nature

The Journal of the American college of Toxicology notes that concentrations of SLS that are as low as 0.5% (and upto 10%) cause slight to moderate skin irritation, while 10% – 30% routinely causes skin corrosion and severe irritation. Ironically, in lab testing of skin care products like healing creams or lotions, skin is first irritated using SLS before it can be healed with the test product! SLS also causes severe eye irritation which is a point of note if you want to use it in a shampoo that is definitely going to reach your eyes.

Role in cell destruction and premature aging

This should get your interest right now. SLS is described as a protein de-naturing compound. So with consistent use, it will break down the protein matrix of your hair, effectively stopping hair regeneration and impeding its health.On skin, SLS will disrupt the protein structures in it and could hasten skin aging.

2. Silicones

Silicones like dimethicone or PEG-12 dimethicone are often described as “conditioning agents”. Silicones are an interesting addition to shampoos. They were added precisely because of the detergents in shampoos – because the detergents are harsh , strip sebum and break your cuticular scales, the silicones are added to coat hair.

Silicones are laboratory made chemicals which are made from combinations of silicon, carbon, hydrogen and oxygen. They are flexible and plastic like with a rubbery feel and are used in adhesives, sealants, lubricants, cooking utensils, insulation AND personal care products.

It is important to note here that silicone should be accurately described as a “coating agent” and not a “conditioning agent”. So a silicon cannot “penetrate” or “deep condition” your hair. But what it can do is form a layer on top of your hair, hiding the damage caused by the detergent in the shampoo – and this coating is precisely why it takes so long for you to find out that your hair is damaged (hint: its because your shampoo is doing a darn good cover up job after damaging your hair).

Silicones are found both in hair care products and skin care products. It is the primary ingredient in hair conditioners and is also used in make up products like foundations and primers, because it does the same job of coating over the damage on your skin and helps the rest of the product glide smoother.

Because silicone covers the damaged cuticular scales of your hair, it produces a kind of gloss/ shine – which deceives you into thinking your hair is healthier than it is.

And because it coats your hair, it also decreases the ability of natural oils to penetrate your hair or skin – so if you are regularly using a conditioning shampoo or a conditioner, and trying to oil and restore your hair to health, then chances are that your oiling is not going to be very effective.

If you apply a silicone containing product on your skin, you can have similar bad results – because the silicone coats your skin, it prevents healthy skin functions like sweating, and sloughing off dead cells. You are also probably keeping in dirt, dead cells and bacteria much longer leaving them to linger on your skin. This is probably why people with sensitive or acne prone skin suffer greater breakouts when using silicone containing products (which is almost all synthetic skincare products).

We are still not sure about the toxicity of commonly used silicones like dimethicone. Environment Canada have put this ingredient on their toxics watchlist – what we do know is that in the very least it could be a persistent (lingers on for a very long time), bio-accumulative (stays and builds up within the bodies of fishes and organisms that eat it) environmental toxin.

Here are some possible silicone agents you could find in your shampoo / conditioner: Methicone, Phenyl trimethicone, Dimethicone, Cyclomethicone, Dimethiconol, Dimethicone copolyol.

 

blog post graphic sept 4

This isn’t over – far from it. Look out for our next post on Monday for more straight dope on what goes into your synthetic shampoo.

A happy hair month to you!

This article is a part of Krya’s series on healthy and happy hair, which we are writing all this September. Through the Krya healthy hair series, we hope to inform, educate and inspire you to restore your hair to its natural state of great health. Synthetic shampoos and hair products contain a huge host of suspect industrial chemicals that are not just toxic for us to use, but are polluting and toxic to the planet as well. The natural world is full of safe, environmentally sustainable, cruelty free options to care for your hair, and our series will try to present atleast a small part of this exciting world to you. 

 Consumers love our all natural, synthetic free, gentle hair washes- explore more here.

If you would like to explore our series further, here’s what We’ve written about hair health before this piece:

  1. What’s the deal with SLS and SLES – and why it shouldn’t come anywhere near you or your hair
  2. What is your hair supposed to be? A trial? A challenge? Or simply, your best friend
  3. Is beauty external? We think not
  4. What should you be looking for on that product label?  
  5. What are the 5 beauty mistakes you are probably committing right now on your hair

 

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Mindful manufacturing & maximum nutrition

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Reading Time: 11 minutes

I had 2 separate conversations yesterday that were on a topic that We’ve been quite obsessed about in the pre-work leading up the Krya factory. How do we process herbs and grains to ensure that they are easy and convenient to use without sacrificing the nutrients that go into them?

Grain processing for nutrient absorption is an ancient art. Archeological excavations indicate that plant domestication is about 11,000 years old. We first started domesticating vegetables like the bottle gourd, which was used as a vegetable and a container before the evolution of pottery and the art of ceramics. Cereal grains were domesticated around 9000 BC in the Fertile Crescent in the Middle East. Apart from fruit bearing annuals, pulses like peas and grains like wheat were part of this wave of plant domestication.

4. einkorn wheat at the fertile cresecent

 

The domestication of plants and cereals grains led to a great change in our way of life: this paved the way for Man to change from being a nomadic hunter gatherer to a fixed dweller in domesticated groups which slowly evolved to cities and towns. So in a way, the cultivation of cereals and grains created human civilisation itself.

The quern stone is an important landmark in the history of grain processing. Ethnographic evidence indicates that querns were used to grind not only grains for food, but also different kinds of herbs for medicines and cosmetics. Different types of querns existed in the ancient world: saddle querns, beehive querns and rotary querns which we are familiar with in India.

2, syrian quern stone3. egyptian grain grinding

 

The evolution of the water powered mill mechanised the use of the hand quern to some extent. The force of flowing water would generate enough power for the grinding wheel to begin turning. The grinding mechanism was similar to the rotary quern and the grain would be crushed between the rotating wheel and the stationary base of the Water mill. The Barbegal Aqueduct and Mill is a Roman Watermill complex located near the town of Arles in southern France.

 

1. barbegal mill

This mill was strategically located on a Roman aqueduct created to supply drinking water from the Alpilles mountain chain to the town of Arelate (now the town of Arles) on the Rhone River. This aqueduct fed 2 parallel sets of 8 waterwheels to power the attached flourmill. The mills were thought to have been operated almost continuously for 200 years from the 1st century AD and have an estimated capacity of 4.5 tonnes of flour per day – enough to feed the 30,000 inhabitants of Arles.

How fast does it spin? 

One of the ways to analyse the quality of processing is to find out the speed of the grinding mechanism. All rotary based mechanisms where the method involves something rotating around a fixed axis ( a grinding stone in the case of a wet grinder) or even the drum of your washing machine have a measure called RPM (revolutions per minute) to measure the frequency of rotation. The greater the RPM, the greater is the precision and power of the grinding, washing or drilling device.

8. RPM - how fast does it spin

 

A modern ultrasonic dental drill can rotate upto 800,000 RPM. Depending upon the spin cycle you choose in your washing machine the drum can rotate between 500 – 2000 RPM. When cruising at a minimum idle speed, your car engine has an RPM between 750 – 900 RPM. A Formula 1 car’s racing engine is operated at nearly 20,000 RPM. The speed of ancient water mills is estimated to be about 120 RPM.

 

High speed milling machines: devolution?

With the invention of fossil fuel powered electricity, water mills were slowly substituted by electricity powered mills. Milling machines themselves also underwent several technological changes. From the stone based water mills, we moved to roller mills. Roller mills produced a huge technological breakthrough as they were able to separate wheat bran from its endosperm, helping in the introduction of “Maida” or refined wheat flour.

To achieve this super refined flour, slightly wet wheat would be passed through a roller mill. This moisture acts in 2 ways on different parts of the wheat: it softens the endosperm, helping it be ground extremely finely, and it hardens the bran leaving it as a coarse grind. Therefore, you could easily sieve and separate the super refined endosperm from its coarser, much healthier bran and sell super refined flour.

Today’s milling machines are high speed impact pulverisers. Often sold for various purposes from grinding granite and stone for the construction industry to grinding food products like grains and spices, impact pulverisers and hammer mills are sold on 2 counts: speed of food processing (as described through the RPM) and fineness of the material ground.

Krya’s experiments in herb and grain processing and our observations:

We have a line of cleaning products that include a detergent and a dish washing product and a line of personal care products that include a face wash, hair wash and a body wash. Our quest when formulating and manufacturing our products is twofold: are they able to harness all the power of the natural ingredients we use while providing our users with a certain degree of comfort and convenience during use.

The yardstick for determining whether a particular manufacturing process is good or not, really depends on the metrics for measuring a product. Most powdered products are measured on a single metric only: the size reduction of the particles that has been achieved and the evenness of the particle size. Think of any brand of compact powder or even a talcum powder you might use for your child. Apart from the fragrance, perhaps the only way you might measure the quality of your product is the even and smooth feel of the compact on your face or the powder on your child’s skin.Unfortunately this metric of smoothness and evenness has now expanded to cover all powder based products, no matter what they are originally supposed to do.

5. all powders are not the same

Turmeric grinding:

Turmeric, the ubiquitous spice in Indian cooking and medicine is used extensively as is in cooking or as a part of important spice mixes like sambhars powder and rasam powder. Turmeric is a notoriously tough root to grind. Most household mixer grinders cannot get a smooth turmeric powder, so turmeric is usually sent to the neighbourhood flour mill for processing. (Of course the mechanism of the mixer grinder is not suited to grinding at all, as it is designed for a cutting rather than a pounding action). Different kinds of industrial grinders can be used for turmeric grinder.

In very large, high capacity spice grinding operations, an impact mill or a cyclone mill is used to grind turmeric. The RPM of an impact mill starts at 1500 RPM and it can go upto 2800 RPM depending on the purpose of the mill. This kind of mill can dramatically reduce the processing time of grinding hard turmeric roots. This means that greater volumes of turmeric can be ground and processed in this factory.

Ayurvedic medicine processing:

Rasanadi chooranam is an Ayurvedic medicine which is always available at our home. This is an extremely useful preparation to control water accumulation in the sinuses. In Ayurveda, a pinch of Rasanadi chooranam is applied every time you wash your hair at the lymph nodes and certain points on your head. This chooranam helps retain heat in these points and help dry up water before it has a chance to be absorbed internally and reach the sinuses. If you suffer from water accumulation or a feeling of heaviness in your head after washing your hair, in wet weather or if your head sweats a lot, Rasanadi chooranam will make a huge difference to your health and well being.

We tested the physical characteristics and aroma of Rasanadi chooranam bought from 2 different Ayurvedic brands: One came from a government run (presumably lower funded) organisation and the other from a big brand name Ayurvedic company. The Rasanadi chooranam from the government funded Ayurvedic Company was darker in colour and coarser to touch. It was also extremely fragrant and generated a feeling of warmth as soon as it was applied on the head. However the Rasanadi chooranam from the big brand company was much lighter in colour, extremely fine to touch and had little or no aroma. It did not have the immediate warming characteristics of its poorer counterpart.

Both brands have used the same Ayurvedic formulation from the same Ayurvedic text. Both brands use a mixture of conventionally grown / cultivated herbs and forest collected herbs. The major difference lies in the way they have been processed. Clearly the bigger brand has used a more expensive, hi impact, high RPM pulveriser. This pulveriser has, through a combination of high heat, greater number of beating heads and higher energy, achieved fineness of the final product by sacrificing aroma, and some of the products functional characteristics.

Active ingredients and how to release them:

Processing food and natural medicine or cosmetics follow similar principles. The active ingredients in plants are bound up within their cell structure. Our role in creating functional products is to release these active ingredients so that they get to work as soon as you apply, soak or eat them. In grain processing which we spoke about, the active ingredients in the grain like the B vitamins and protein is readily available to the body only when we soak, ferment, or create flour. This very act of creating flour, if done improperly can completely destroy the active ingredients present within the grain.

The active ingredients of soapberry which we depend upon to produce hair magic or laundry magic in the Krya hair wash and Krya detergent is called saponins. These saponins are distributed through the outer shell of the soapberry fruit. To extract these saponins, we need to either soak the fruit in water and extract it as an aqueous extract or powder the shells and make the saponins more bio available so that they are released faster in the presence of water or mechanical action.

6. saponin extraction at krya

 

However saponins, like most active ingredients are sensitive to air, and heat. When processed in a high heat generating milling operation, they get denatured or cooked. These denatured saponins have a lower foaming action and have a completely different aromatic profile when compared to properly processed saponins.

Why process a soapberry at all? Using a whole soapberry is not as effective or convenient as using the powdered soapberry or an aqueous extract. Because it is only through subjecting the whole soapberries to some form of processing, we are able to make the saponins readily available to us.

When is herb or food processing just right? And why you should care

Food or natural products are truly nutritious and provide well being when they have been carefully made, using high quality raw materials and careful processing techniques. High heat and fast processing has 2 negative effects on plant based material: It destroys the volatile, delicate aroma compounds and it denatures vital nutrients like vitamins (some of which are extremely heat sensitive).

For example, thiamine in wheat is one of the first vitamins to be lost in high speed processing. This is especially true in high speed mills where temperatures can reach upto 204 degrees centigrade. In our skin and hair care products, we use several delicate, extremely volatile, aromatic herbs.

Lemongrass for instance, goes into our Kids body wash. Lemongrass is a dry, fibrous grass, and is especially soothing for delicate skin. Its volatile compounds are released by either carefully crushing the grass or through steam distillation to extract its essential oil. When the grass is dried at high temperatures (above 60 deg c) or processed using high speed cutters, the plant loses its vibrant, citrusy top notes. The resulting powder resembles dried hay, and simply adds volume without adding to the therapeutic qualities of our body wash.

9. krya bodywash for kids with lemongrass

 

The Just right level:

Much like Goldilocks and the three bears, there is a “just right” level in all natural product processing. But obviously this varies depends on the kind of product being spoken about.

Here are 3 checks for you to evaluate if your brand of completely natural food, cosmetic or household product has been sourced and processed correctly:

1. Is its colour distinctively lighter compared to the original raw material? The more an ingredient is crushed or processed, or sieved, the lighter it becomes. For example: refine white flour or Maida is super white in colour. This is because the brown coloured bran has been sieved out of the flour, and the endosperm has been moistened and pulverised to a very fine degree.

2. Does it have a characteristic natural aroma? Or does it smell cooked / roasted or burned? Is there any strong, distinctively “un natural” fragrance? If the food or natural cosmetic you’ve bought smells neutral, has no fragrance or has a burned / cooked fragrance, then what you’ve bought has been over processed. Alternatively, if you are buying a brand of natural hair wash and what you smell reminds you of a bubbly lemony synthetic shampoo, then obviously what you’re using is not very natural.

3. Is it extremely even and is the powder of a very high degree of fineness? It should come as no surprise to you that natural ingredients are not identical. No two grains of rice or wheat are alike. No two leaves from the same stalk have identical aromatic compounds of physical characteristics. Similarly, when food or natural products are processed, it is not possible to achieve microscopically identical particle size.

All a manufacturer can do is to sieve the final product to ensure that the particle size achieves a certain minimum or maximum threshold. Within this limit, variations will continue to exist. Complete evenness and near identical particle size can only mean repeated processing and sieving in a high speed mill.

If you are observing this in your flour, then you will be eating nutritionally weak flour. It would make sense to either switch brands or to decide to process your own flour. If you are observing this in your natural hair care or cosmetic product, then your product will not work as well as it could on you. The repeated processing the product has undergone has depleted it of any nutrients that could be absorbed by your skin and hair. Again, switching brands or making your own personal care products would make better sense.

Additional Information:

  • For low heat , carefully processed flour, ask for your organic store’s own brand of flour (to ensure freshness).
  • Krya’s skin and hair care products will be launched commercially in a month’s time. This is why its taking this time.
  • Krya’s all natural cleaning products for the home can be found here.

About the Series:

This article is a part of Krya’s writings on natural products and their sourcing and processing. We are passionate about promoting a truly environmentally sustainable lifestyle and this can be achieved only if we come to rely on using high quality plant based material to clean and care for ourselves and our homes. This follows our earlier series on toxic products in our home and how you could learn to identify and detox your home from the harmful action of more than 100,000 suspect industrial chemicals that surround human life today.

If you would like to explore our toxics series further, here’s what we’ve written before this piece:

  1. An introduction to the series
  2. Common carcinogens implicated in breast cancer found in your home
  3. Is it a conspiracy? A pre-planned genetic supremacy race? Or simply misinformation? Some reasons behind common toxics & why they continue to be used
  4. Are we putting our children at risk by using these products on them? Here are 3 toxins that plague children through the products we use on them.
  5. Do the products we buy contain toxins? How do we decode what goes into them? Here’s Urban Survival 101 telling you what you should look for in food product labels.
  6. Do the cosmetic products we buy contain toxins? How do we decode them? Here’s Urban survival 102 telling you what you should look for in cosmetic labels
  7. Two non toxic cleaner recipes you could try in your home and a Krya factory update
  8. A holistic approach to beauty and health and a fermented Amla drink to make this February for your family

 

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2 non toxic cleaner recipes and a Krya factory update

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Reading Time: 6 minutes

When we started Krya, the life we left behind was hurried, quite thoughtless, filled with consumption and was full of products. I went from a seven step skin care routine and a 4 step hair care routine to a completely natural, simplified life. Having left a life immersed in the opposite of what we wanted to do at Krya, it seemed natural to wonder if we were starting something that was years ahead of its time. If we were in fact, pockets of a parallel universe living in our world.

As time goes by today, I am happy to note that our Parallel Universe is growing. And that our mission to replace harmful, synthetic, often petrochemical derived products that people use in their homes and themselves, is being aided by a growing concern and awareness around the world.

I was struck by this this week as we met different sets of people to buy equipment for the upcoming Krya factory. The manufacturer of our solar drying equipment broke off our technical discussion of the sun’s path and drying angles to tell us to “stick to our noble path”. He told us that while our going might seem slow, and sometimes difficult, what we were doing was right and needed and that we had to keep on working to help cleanse people’s bodies and lives.

He spoke from the bitter experience of watching his Mother suffer through 2 rounds of surgery for intestinal cancer, and how choosing conventional allopathic medicine did not give them the panacea they were promised.

The connection between the diseases we succumb to, the small illnesses we see in our children, and the food we eat or the products that we apply on ourselves, can seem elusive. We certainly do not equate eating a sugary caramel popcorn at our favourite movie hall with fatigue, irritability or our inability to wake up on time the next morning. Neither is the connection between a 2 am visit to the Pediatric hospital with a breathless child and the detergent used in the home, evident.

But the connections are real. And it is our Life’s work at Krya to  educate and inspire people about these connections and create, safe, completely natural alternatives to care for you as a support structure.

The factory we are working on at Siruseri is in support of our Life’s work. We have been working for more than a year on putting together a clean, thoughtfully designed manufacturing location that creates high quality products with great reverence and joy.

Our factory is located within the Sipcot IT Park, in an oasis of calm and greenery called the Golden Jubilee Biotech Park for Women. This is a special Park that has been designed to promote Women Entrepreneurship in Life sciences. Our layout and machines have been thought through to create gently processed products that retain their natural characteristics and aroma. Wherever possible we have used machines that are much slower (and therefore take more time) than their regular commercial counterparts. By reducing the speed of each batch, we are able to retain the unique natural characteristics of our herbs, leaves and fruits that become such wonderful cleaning , skin and hair care aids in the hands of our consumers.

Designing our factory and creating our manufacturing space has come at a cost: I have been unable to write more frequently in the Blog. My intention when we started this series was to provide a lot of useful and impactful information on leading a toxin free life. I apologise for this long gap in writing on this subject.

I spoke earlier about our Parallel Universe growing. In early december, Arathi, the editor of the Week’s “Smart Life” supplement wrote to us asking us to write an article for the Week’s January Issue with information on the toxicity of household cleaning products. “Give our readers some easy to use, inspiring suggestions on replacing these easily at home”, suggested Ararthi.

George Watt, a medical graduate of the University of Glasgow came to Indian in 1873 and published an authoritative 6 volume dictionary of the economic products of India. 10 years later, inspired by his monumental effort, the British Government asked George Watts to organise in 1885, an exhibition of the economically useful plants of India in calcutta. George Watts did not look back and went on to devote the next 25 years of his life in cataloguing India’s natural biodiversity and wealth.

Our true wealth in India lies in our rich, biodiverse flora and fauna. And in the context of creating non toxic cleaners for our home, our trees and plants provide us with a staggering array of formulation options to easily and efficiently clean and care for ourselves.

Here are 2 recipes that you can start with. We wrote this for our article for the Week. They are easy to make, and work extremely well. They are water based, liquid recipes, which we don’t make commercially at Krya, but are easy to make and environmentally sustainable when made by you for your home.

Multi-Purpose Surface Cleaneruse this to mop your floors, counters, bathrooms and to even scrub your toilet

1. Soapberry powder – 100 grams (Cleansing and anti-bacterial agent) (Use the Krya detergent if you have some)

2. Neem Oil – 25 ml (Anti bacterial agent, insect repellant)

3. Citronella Oil – 50 ml (Insect repellant, freshness)

4. Citric Acid – 25 grams (Preservative, mild bleaching agent)

5. Arrowroot powder – 20 grams (Thickening agent, optional)

6. Water -1.2 litres

Instructions

Mix the citric acid crystals in a small cup of warm water and stir until the crystals dissolve completely. Mix the soapberry powder in 1.2 litres of water and bring it to a boil in a thick bottomed vessel. As the liquid begins to boil, add the arrowroot powder and stir until the liquid thickens to the consistency of a watery shampoo. Once the liquid has thickened, take it off the flame and add the dissolved citric acid liquid. Let the soapberry liquid cool before filtering out the soapberry residue.

Now stir in the neem and citronella oil into the filtered soapberry liquid and mix well. Bottle the liquid cleaner and store in a cool, dry place or in the fridge (after labeling it properly!).

This recipe should give you approximately 1 litre of liquid multi purpose cleaner.

This multi-purpose surface cleaner can be used to clean floors, tiles, kitchen tops or even glass surfaces. This is a concentrate and a few spoons of this can be added to a mug of water which can then be used to clean surfaces. As mentioned before always do a patch test on a small portion of the area to be cleaned before proceeding further. If there are pets at home, you can exclude citronella oil from the recipe.

The Natural no-napthalene linen freshener:

sweet basil

A non toxic fragrant alternative to stinky napthalene balls
A handful each of the following dry herbs:
Neem leaves
Thiruneetrupachai (siva tulasi) leaves
Tulasi leaves
Lemongrass stalks
2 balls of pure camphor or edible camphor (pachai kalpuram)
4 sticks of Sweet flag (called vasambu in Tamil)Place all these ingredients in a pillow case, and coarsely crush them together. Shake well so that the ingredients are mixed well together.  Now divide this mixture into equal quantities (about a tablespoon each) and fill into muslin / cotton bags. Use this in your linen cupboard instead of naphthalene balls to keep insects and moths away.
Replace your natural pot pourri pouches every 2 – 3 months or as the fragrance fades. The old herb mixture can be composted.

 

This article is a part of Krya’s series on toxics in household and personal care products. Through this series, we hope to inform, educate and inspire you to look around your home and detox it and yourself from the harmful action of more than 100,000 suspect industrial chemicals that surround human life today. The natural world is full of safe, environmentally sustainable, cruelty free options to care for yourself and your home, and our series will try to present atleast a small part of this exciting world to you. 

If you would like to explore our series further, here’s what we’ve written before this piece:

  1. An introduction to the series
  2. Common carcinogens implicated in breast cancer found in your home
  3. Is it a conspiracy? A pre-planned genetic supremacy race? Or simply misinformation? Some reasons behind common toxics & why they continue to be used
  4. Are we putting our children at risk by using these products on them? Here are 3 toxins that plague children through the products we use on them.
  5. Do the products we buy contain toxins? How do we decode what goes into them? Here’s Urban Survival 101 telling you what you should look for in food product labels.
  6. Do the cosmetic products we buy contain toxins? How do we decode them? Here’s Urban survival 102 telling you what you should look for in cosmetic labels
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6 myths & 3 facts : why toxics continually enter your home

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Reading Time: 12 minutes

In my earlier life, I worked in one of India’s leading biscuit and confectionary companies. My office was near the production facility, so 4 pm would have the odours of baking biscuits and vanilla essence wafting into my room. In the short 6 months that I was there, I came to heartily hate the smell of industrial baking. The stocks of hydrogenated vegetable oil, refined wheat flour and white sugar that went into the facility every single day firmly quashed any notions I had of eating something reasonably healthy every time I opened a freely available pack of biscuits.

Sugar is one of the largest volume ingredients in any food product. Whenever a food product is formulated, especially for children, sugar is the Hail Mary pass – when in doubt, you simply increase the sugar to make sure your consumers love the product.

A recent conversation with a friend who works in another food company had us discussing a popular children’s beverage that is marketed on the promise of giving children a “healthy fruit drink” in the evening. My friend, who is a father himself, spoke to me with some horror about his discussion with his R&D team about the contents of this drink. “They told me it contained 96% sugar, Preethi”, he said with dismay.

And this brings home one of the myths of the food industry. It isn’t “tasty” or going to “appeal to our consumers” unless we super load it with sugar or fat. Most food industry marketers do not have the confidence to launch a product that is not over loaded with sugar or fat. They believe that they cannot achieve a profitable product with mass appeals with less sugar and less oil. Contrary to overwhelming public belief that excess sugar and fat is unnecessary and in fact dangerous, the industry believes that we indiscriminately want high sugar and high fat laden treats.

Similar myths and facts abound in household chemicals. This is why, despite them being researched and found to be dangerous, they continue to be used blithely to create products that you & I use every day.

6 myths and 3 facts in the consumer product industry

 Myth 1: There is a safe permissible limit for toxic chemicals (below which they are harmless)

The general rule followed in establishing safety standards in industrial chemicals is that a higher percentage means more harm. Therefore the assumption is that it is possible to find a level below which even a toxic chemical can be used safely.

Truth 1: There is no safe level for a toxic chemical

This logic has repeatedly failed us in several industrial chemicals. For example, petrochemical derived benzene is considered toxic even in the parts per trillion range. Monsanto’s Roundup herbicide was found to exhibit estrogenecity (the ability to mimic estrogens within the body and replace it) even in the very very low parts per trillion concentration range.

Certain endocrine disrupters like Bisphenol A, found in plastics, and parabens found in several cosmetic products paradoxically have a greater hormone mimicking action as their concentrations decrease.

4. no safe dose of parabens

Nano technology: growing concern

A growing trend which is of concern to us as consumers and parents is the use of Nano technology in industrial chemicals. Titanium dioxide is a naturally occurring oxide and is widely used as a whitening pigment in plastics, and ceramics. Because of its high refractive index it is commonly used in sunscreens to enhance the SPF factor. Titanium dioxide is now being used as nano particles in several applications including food and cosmetic products.

We are also constantly eating nano titanium dioxide as it is now finding its way into making milk whiter, dazzling white toothpastes and in several food products that are marketed to children including cup cakes, hard candy and mints and those meant for adults like coffee creamers and even oatmeal. Researchers at Birmingham and Cornell University report that an average consumer could be ingesting 100 trillion nanoparticles of Titanium dioxide every single day.

3. Titanium dioxide in hh products

Previous cell research has already established that Titanium dioxide is cytotoxic – this means that it damages cells. A new study now reports that Titanium dioxide not only damages cells but is capable of inducing tumour like changes in exposed human cells with an increased rate of cell proliferation and a decrease in programmed cell death (both of which are traits of precancerous or cancerous cells).

Because nanotechnology is relatively new, the existing bio safety norms do not cover the effects of using Nano particles of what were considered generally safe ingredients. A Nano particle is sized between 1 – 100 billionth of a meter in diameter – at this size, their absorption rate into the skin significantly increases and they have extremely potent effects on our body as compared to the larger, non Nano particle size of the same ingredient.

Non traditional dose response dynamics

The Endocrine society states that one of the most worrying properties of Endocrine disrupter chemicals is their ability to cause reproductive abnormalities at “even infinitesimally low levels of exposure, indeed any level of exposure” particularly if this exposure occurs at a critical developmental phase. They have also stated that low doses often exert more potent damage compared to high doses.

Myth 2: You can get poisoned only if you swallow a product. Your risk of exposure is very little apply it on your skin

Truth 2: The skin is a living organ. It can absorb a wide variety of substances and pass it on to teh bloodstream inside.

We continue to believe that the skin is a non porous physical barrier. Nothing else explains why we continue to carelessly apply extremely toxic substances directly on our skin.

Nicotine patches and contraceptive patches are marketed and have been used by millions of consumers. The route here of absorption is direct dermal absorption, i.e. the skin.

The dermal route of chemical absorption is often faster and more deadly compared to the oral route where you swallow the ingredient in question. The body’s digestive system with its strong acid barrier can help filter out many deadly toxins. However the skin application route has no digestive system to filter out potential toxins. When we use nano particles to further reduce the size of our toxic ingredients, they are able to penetrate faster into the body through the skin, and directly enter the blood and lymphatic systems and our fat reserves where they can bio accumulate and persist.

 Myth 3: If something has been advertised on television, and is available in supermarkets, it is probably safe and has been tested

The U.S FDA lists that household and personal care products use over 100,000 industrial chemicals.  In its entire functioning history, the US EPA has managed to ban or restrict only 5 substances and that too only in specific applications.

Industrial chemical do not need to be tested before combined with other chemicals and launched as products into the market. If a new chemical is used, companies are rarely required by law to disclose safety data, and voluntary disclosure is almost never practised. In the U.S the burden of safety testing is put on the FDA. If the understaffed and stretched FDA does not block a new chemical within 90 days or ask for safety data, then the chemical is cleared by default.

Truth 3: Product testing by companies or the government is not fool proof. It is rarely able to simulate the effect of chemicals over a long period.

Pharmaceutical history is rife with instances of companies learning after launch that the products they marketed were actually toxic and dangerous.

The tragic history of DES – how a drug marketed to protect pregnancies caused vaginal cancer

Diethylstilbestrol (DES), was routinely given to pregnant women between 1940 – 1971 (for more than 30 years!), to help reduce the risk of pregnancy complications and losses. Originally considered safe for both pregnant women and their foetuses, DES was aggressively marketed and routinely prescribed.

In 1971, DES was found to cause a rare form of vaginal tumour among girls and women who had been exposed to the drug in their mother’s womb. It is to be noted that this research was first reported in the New England Journal of Medicine and action was taken by the FDA. The companies involved in marketing the drug neither funded nor did this research or took the effort to withdraw the drug.

Subsequently the US FDA withdrew DES for use on pregnant women. The drug itself was only very slowly taken off the market. It continued to be prescribed for different medical conditions some of which were later found to be not approved at all by the FDA. During the 1960s, it was even used as a growth hormone in the beef and poultry industry until it was phased out in the late 1970s after its carcinogenic properties came to light. The last remaining manufacturer and marketer of DES in the U.S, Eli Lilly, finally stopped making it in 1997; a full 26 years after the FDA banned its use on pregnant women.

Estimates suggest that more than 2 million people may have been exposed to DES across the United States, France, Great Britain and the Netherlands in the period between 1940 – 1971. DES is one of the first transplacental carcinogens discovered in human beings, a toxin that could actually cross the placenta and harm the foetus. Besides vaginal cancer, daughters exposed in utero were also found to have “an increased risk of moderate to severe cervical squamous cell dysplasia and an increased risk of breast cancer”.

The most recent published research in 2011, lists the cumulative risks of women exposed to DES as follows:  33.3% infertility rates compared to 1% in the general population, spontaneous abortion 50.3% vs. 38.6%, preterm delivery, 53.3% vs. 17.8%; loss of second-trimester pregnancy, 16.4% vs. 1.7%; ectopic pregnancy, 14.6% vs. 2.9%; preeclampsia, 26.4% vs. 13.7%; stillbirth, 8.9% vs. 2.6%; early menopause, 5.1% vs. 1.7%; grade 2 or higher cervical intraepithelial neoplasia, 6.9% vs. 3.4%; and breast cancer at 40 years of age or older, 3.9% vs. 2.2%.

The study also states that Daughters with prenatal exposure to DES may also have an increased risk of uterine fibroids, and incompetent cervix in adulthood. In the 1970s and early 1980s, studies published on prenatally DES-exposed males investigated increased risk of testicular cancer, infertility and urogenital abnormalities in development, such as cryptorchidism and hypospadias.

By studying the history and tragic consequences of just one drug, we are able to see how ill informed and unprepared governments and the companies are. This extends to both understanding the consequences of the chemicals they use and their efforts to make amends once they understand these consequences.

If we do not learn from the mistakes of history, we will be condemned to repeat it.

Myth 4: It is impossible to formulate without manmade chemicals

Although the cosmetics industry is more than 4500 years old, today, we entirely depend upon industrial chemicals synthesized in the last 100 years for all our daily products.

Methyl, ethyl and propyl paraben, are common preservatives used in the food, cosmetic and pharmaceutical industries. They are found in shampoos, moisturizing products, shaving gels, toothpaste and make-up.

However, the ester bearing form of parabens have been found in breast cancer tumours indicating that they have migrated from a product that has been applied on the skin (deodorants, creams) into the body.

Most cosmetic and personal care products available today use paraben preservatives. Even products marketed under the guise of being natural or sometimes even organic use these deadly chemicals.

Truth 4: Natural alternatives are available & have always been used

Natural alternatives have always existed. It is the responsibility of companies to use them and protect the health of their consumers. Some of the exciting options include grapefruit seed extract, vitamin e and extracts of plants with powerful anti-bacterial and fungicidal properties like neem, turmeric, thyme and rosemary.

Formulation path followed at Krya

The more water a product contains, the shorter its shelf life becomes, necessitating the use of cheap and dangerous preservatives like the paraben family. A powder or a solid formulation is more stable and depending on the ingredients used does not need synthetic preservatives.

When we formulate our skin and hair care line at Krya, we eliminate water. Our consumers add water when using our products. Therefore, we are able to create formulations without synthetic preservatives. We also use plant ingredients that offer powerful anti-bacterial and anti-fungicidal properties – for example, rosemary goes into the Krya Kids body wash, and thyme and peppermint go into the Krya hair wash.

5. krya natural formulation pathway

Myth 5: There are no long term ill effects in the products I use everyday

Truth 5: There are many long term ill effects caused by everyday products

Gene disruption, bio accumulation , transplacental migration & latency of exposure are some of the ways products as innocuous as a sunscreen can affect you in the long term.

Epigenetic disruption

As we saw in the case of DES, the exposure of the first generation affected not just the second generation but also continued to have effect on the third generation or the grand children of those who had been exposed to DES. This makes chemicals like DES epigenetic disrupters- where they modify gene copies ensuring that these modified / mutant genes get passed down from generation to generation with the same tragic consequences.

Bioaccumulation

Persistent endocrine disrupters have a high lipid solubility, therefore they bio accumulate in fat tissue. No endocrine system is immune to this class of chemicals so every one of us is likely to have this class of chemicals in our body.

Latency of exposure

The  Endocrine Society refers to Chemical endocrine disrupters as having “latency” of exposure”.  This means that there is a lag between the time someone has been exposed to the chemical to the manifestation of a disorder.

So we would not be able to observe the effects of this exposure immediately. It may manifest as we become adults or as we age.

Myth 6: I have been using these products for years; I cannot see any ill effects, so I must be safe.

Endocrine disrupter chemicals (EDCs) have extremely diverse and complex mechanisms of acting out in the body. A single EDC could be both estrogenic and androgenic.  Some could break down or metabolise to generate sub products with different properties. Sex steroids target many organ systems in the body including the hypothalamic-pituitary-gonadal system, the breast, uterus, cervix, vagina and other non reproductive tissues like the bone, muscle, and skin.

Truth 6: You could have several ill effects later that could never be traced back to the detergent or face wash you once used.

The many organs targeted and the long gestation may lead to a diverse set of symptoms that could never get traced back to the toxic chemicals we have been exposed to.

 We looked at some myths. Now here are some facts.

Fact 1: There is too much money at stake

We discussed the effect of several human carcinogens which are implicated in breast cancer in our last post. In 2004, a tally of all the research done on BPA showed that of the 104 independent studies done, 94 found adverse effects and 10 found no effects. However, of the 11 studies conducted or funded by the manufacturers of BPA, none showed BPA to have any adverse effects.

Let’s understand the economics behind this.

In 2002, U.S companies produce 2.8 million tons of Bisphenol A.  The value of BPA sales in 2002 in the US was 5.3 billion dollars, a single year.

Simply put, the stakes are too high. These high stakes are applicable to all industrial chemicals.

Fact 2: Depending on how the tests were conducted, the results can vary

Why is it that independent studies and industry funded studies always differ?

3 straight explanations exist for this:

  • Lab animal diet – If the rates / mice in question have been fed on a diet of soy, which can itself be mildly estrogenic, the results are skewed in endocrine disrupter studies. For example in a study testing the effect of paraben on cancer, the lab rats should not be fed soy.
  • Housing rats in plastic cages or stainless steel cages can again skew results as plastics disrupt endocrine levels but metals do not. So a study on Bisphenol A should house a rat only in metal cages and not the cheaper plastic cages.
  • What breed of rat was used?

o    Independent researchers have found that industry funded research almost always uses the Sprague Dawley rat supplied by one particular company. Apart from being chosen for its calmness and ease of handling, this breed of rat is so tough that its response to estrogenic compounds is extremely muted. This practice obviously severely tones down the results of endocrine disrupter studies resulting in claims that these chemicals are extremely safe.

2. Sprague dawley rat

Fact 3: Industrial chemicals need to be studied as a system and not in isolation

In 2005, Kevin Croft an EPA researcher published a chilling finding. Kevin Croft gave rats different doses of mixtures of 3 classes of common industrial chemicals – dioxins, PCBs and dibenzofurans at different concentrations, from those commonly found in human exposure to 100 times higher. At the time of his research, even the highest dose was considered safe when studied in isolation.

These chemicals were chosen as they are common industrial contaminants found in human foods from fish to breast milk.

At the lower doses, the researchers found that the effect of the mixture was additive and it significantly reduced the animal’s thyroxine levels, which is the most common thyroid hormone. At higher doses, the thyroxine reduction had a stronger multiplicative effect – the sum of their effect was greater than simple addition.

This means that any study that singly examines an industrial chemical is not sufficient. Neither is a ban or elimination of one type of chemical enough to guarantee our safety. We have to look a radical new products that completely eliminate the use of ALL harmful chemicals.

A new paradigm

There is grudging and reluctant response from the industry to consumer protests on safety. It is appalling to read the official statements given by companies when they commit to removing toxins like parabens. They give themselves atleast a 2 – 3 year window to “phase out” something that is toxic.

It is not practical to depend on governments to look after what goes into our detergents or moisturizers. Our government is still working on basic sustenance issues like food, water and sanitation and do not have the resources or the bandwidth to get into the complications caused by industrial chemicals. Investigative reports suggest that cosmetics and skin care products sold in India are still fighting basic norms like heavy metal contamination. We have not begun to go into the effects of leachates and feedstock industrial chemicals like parabens, phthalates, etc.

Our education today should not end with subjects like Mathematics, Physics and Geography. We have to expand our mind and begin exploring the connections our health has to food, and the products we use around ourselves.

We end this piece with a quote by Masanobu Fukuoka.

1. Fukuoka quote.

 This article is a part of Krya’s series on toxics in household and personal care products. Through this series, we hope to inform, educate and inspire you to look around your home and detox it and yourself from the harmful action of more than 100,000 suspect industrial chemicals that surround human life today. The natural world is full of safe, environmentally sustainable, cruelty free options to care for yourself and your home, and our series will try to present atleast a small part of this exciting world to you. 

If you would like to explore our series further, here’s what We’ve written before this piece:

  1. An introduction to the series
  2. Common carcinogens implicated in breast cancer found in your home
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Pink Predators: Common carcinogens in your home

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Reading Time: 11 minutes

Last month I attended a meeting of women entrepreneurs. On the sidelines, we were invited to a breast cancer awareness campaign organized by one of the entrepreneurs who had been diagnosed and treated for breast cancer. This young lady is a passionate advocate of early diagnosis of breast cancer. As a part of the worldwide pink ribbon day, her team conducted awareness camps for women employed in the major IT parks in Chennai.

As she spoke, a palpable tremor ran through the women in the room. Many had some encounter with the dreaded “c” word, having watched a loved one suffer.

I lost a favourite aunt in 2009 to breast cancer, or perhaps the aggressive chemotherapy given to her. I watched my bright, active danseuse Aunt shrivel away, lose her hair, her energy and eventually her life after four repeated chemotherapy assaults on her body. Breast cancer is one of the most common and fast growing cancers in India today and forms nearly half of all the cancer detected in India . In 2012, 70,000 Indian women died due to breast cancer.

The Pink Ribbon movement

In 1985 in the US , the breast cancer awareness month (BCAM) was created as a partnership between American Cancer Society & a pharma company that is now part of Astra Zeneca. The main aim of the BCAM is to promote mammography as the weapon of choice to diagnose and fight breast cancer. Such partnerships are fraught with ethical dilemmas. Astra Zeneca is the manufacturer of the breast cancer blockbuster drugs Arimidex and Tamoxifen. Some have argued the overly visible and alarmist tone of breast cancer awareness pushes for over reporting and aggressive promotion of the treatment which are the drugs. Worse still, it is now understood that X-ray mammography to detect breast cancer is dangerous and is a carcinogen.

The breast cancer awareness movement came into its own in the early 1990’s with promotion of the pink ribbon as the symbol. In 1993, Evelyn Lauder, Senior Vice-president of Estee Lauder and a  breast cancer survivor herself founded the Breast Cancer Research Foundation and widely popularized the pink ribbon as its symbol. In that year, Estee Lauder make up counters handed out 1.5 million pink ribbons with a information card describing the steps to construct a self breast exam.

Pink marketing

Since then, the pink ribbon has become one of the most visible symbols of cause related marketing across the world. Research shows that given parity cost and quality, more than 50% of consumers would switch to a brand associated with a good cause. Going by the popularity of the pink ribbon, breast cancer certainly seems to be a popular and profitable cause for the brands piggybacking on this cause.

1Pinkmarketing.jpg

From NFL costumes to cosmetics, from shoe sellers to cricketers, the pink ribbon has engulfed them all during the awareness month. While many critics and naysayers tend to dismiss this as pink washing, there are positives. Millions of dollars have been raised from these campaigns due to which early warning signs are now part of the general lexicon.

But one critical issue continues to trouble the general public.

Despite the top management support, and marketing muscle thrown behind breast cancer awareness, several cosmetic companies who support this cause, continue to use ingredients that are suspected to be carcinogenic. In many cases these suspect ingredients have been found in breast cancer tissues. Think about it. The very brands that raise money for awareness continue to use suspected carcinogens in their products.

Pink washing?

In 2013, 15 beauty brands devoted to defeating breast cancer got together to start an offshoot campaign called “we are stronger together”. But according to EWG’s Skin Deep cosmetic database, 12 of these companies, including Aveda, Bobbi Brown, Clinique, and Estee Lauder & Origins sell a wide assortment of cosmetics that contain known carcinogens and other toxics.

The carcinogenic impact of these toxic ingredients is relevant to the study of what causes breast cancer. Research suggests that genetic causes form only 5 – 10 % to breast cancer develops. 90 – 95% of cancer exposure is thought to develop from a series of environmental causes including radiation exposure, excess alcohol consumption, and of course exposure to dozens of carcinogenic chemicals.

The Krya series on toxics

This Krya series on toxic chemicals in household products has been developed as a result of hundreds of queries from concerned users, very often in categories where Krya does not have any product yet. We are asked for our opinion on product categories on the potential hazards of chemicals and more importantly, recommendations for safer natural alternatives.

For the last 4 years on the krya blog, we have maintained our stand that the consumer products industry in India is dangerously under-regulated. Many products are sold widely with little understanding of long term human safety or environmental protection. In our personal experience, we have seen that R&D in global consumer products companies operates in silos, with a narrow focus on cost and immediate consumer gratification. Their safety standards are decades old. They continue to play with the boundaries of safety and often wait for a public outcry or a government order to cut back on toxic ingredients. This laissez-faire attitude has introduced to the trusting public a set of new, potentially dangerous, hydra headed monsters.

With October just gone by, we start our toxics series by examining common industrial chemicals that we could enter in our homes that are suspected to lead to breast cancer.

The Pink Predators

 Parabens

Parabens are a big family of preservatives found widely in the cosmetic, pharmaceutical and food industries. and have been around for nearly 100 years. They are the industry standard for anti-bacterial and anti-fungal properties.

Parabens have been detected in urine, serum, breast milk and seminal fluid, but the most worrying fact has been their detection in breast tissue from patients with breast cancer. In one important north American study, it was calculated that the average person is exposed to 76 mg of parabens every day, with 50 mg from cosmetics, 25 mg from pharmaceuticals and 1 mg from food.

Research from the CDC’s National Centre for Environmental Health found that the blood of over 60% of the children surveyed during the National Health and Nutrition examination survey was contaminated with more than 8 toxins including significant levels of 3 kinds of parabens.

One alarming property of parabens is their ability to enter the body through the skin, something that most people are not aware of. This has been widely studied in underarm cosmetics like deodorants and whiteners. Breast cancer research shows a higher concentration of parabens in the upper lateral breast near the armpit corresponding to the use of deodorants which contain parabens.

3deo caution

After the work of many consumer awareness groups like EWG, Johnson & Johnson pledged to remove both parabens and formaldehyde from its baby care and adult skin care products by 2015 including brands like Aveeno & Neutrogena. But Johnson & Johnson continues to re-assert the safety of parabens and made this decision to eliminate parabens only to assuage certain consumer groups.

Globally most governments have not re-examined the safety of parabens. Some outliers are the Danish government which has banned the use of products for children below 3 years. In Indian parabens are commonly used in cosmetic and other applications.

While we can go back and forth on the safety of parabens , we certainly do not want to be learn 30 or 40 years later that the early researchers who warned against the use of parabens were absolutely right. This is exactly what happened in the global debate on smoking and lung cancer. While the debate raged, many were smoking their way to cancer hoping that the warnings would turn out to be false alarms.

On the other hand it is important to note that parabens do not have any beneficial or therapeutic whatsoever to humans. So the question to ask is this, are there safe alternatives to parabens ? The answer is YES! Paraben free products are available globally and are waiting for you to discover them.

 

Phthalates

Phthalates are chemicals used as plasticizers, to make physical products pliant and flexible – they are widely found, in vinyl flooring, raincoats, adhesives, detergents, nail polishes, soaps, toys and skin care lotions. For example, DEHP, a common phthalate, is added to PVC at concentrations between 1 – 40% to make it soft and pliant. Unplasticized PVC without DEHP is hard and brittle.

Phthalates are physically bound into plastics using a heating process, which means that they are very easily released into the environment when this physical bond breaks. This happens in many innocuous ways when phthalate containing products are kept near heat or exposed to strong solvents. For example : when phthalate containing plastic dishes are washed with harsh chemical cleaners.

Phthalates are cheap and versatile: so they are found in products as diverse as children’s toys, and utensils, coatings in pills and nutritional supplements, emulsifying and suspending agents in lotions and shampoos, binders and gelling agents in liquid detergent and dishwash. Other personal care products that contain phthalates are liquid soap, perfumes, deodorant sprays, hair sprays, eye shadow, nail colours and moisturizers.

When used in vinyl flowing, phthalates like DEHP easily leach into the atmosphere, contaminating indoor household air. Once released this toxic air can be inhaled by babies crawling on the floor or pets. A 2008 Bulgarian study found that higher dust concentrations of DEHP was found in the homes of children with asthma and allergies compared to non- asthmatic children.

While a lot of the present phthalate research focuses on infants and children, it is believed women are at a much higher risk of phthalate exposure due to their higher consumption of cosmetic products and exposure to household cleaning products. Recent (2010) in-vivo and observational studies show an association between phthalate exposure and breast cancer. Also, phthalates like many other endocrine disrupters are both bio-accumulative and additive – when mixed with other classes of chemicals like BPA or nonyl-phenols, they exhibit a deadly chemical synergistic effect. Essentially this means that all these toxic chemicals gang up against your body with a multiplier effect.

2Nail paints caution

A recent published study for the first time studied the positive correlation of DEP (diethyl phthalate), positive correlation with breast cancer. DEP is found in a high proportion of perfume carrying products like deodorants, hair sprays and moisturizing lotions because of its ability to make fragrance “linger” for a long time. DEP is also used as denaturant in alcohol and is found worryingly in products like mouthwash.

Endocrine disrupter

Why are phthalates dangerous to human health? Simply put, they are endocrine disruptors. Their behaviour can mimic endocrine hormones like estrogen , which really confuses our bodies , leading to disease.

In 2000, Puerto Rican scientists reported an association between DEHP & premature breast development in young girls signifying an early onset of puberty. At the same time the CDC in the United States tested blood samples of 289 Adult Americans and found phthalates in all of them. The levels of some phthalates, including DEHP in women of childbearing age far exceeded government mandated safe levels to prevent birth defects.

Two studies published in Environmental Health perspectives in 2003 found that pregnant women with phthalate exposure on average give birth one week earlier than those without significant phthalate exposure.

A 2006 study among Indian women with endometriosis showed a significantly high level of phthalates in their blood – this included phthalates which are restricted for use in the EU like DEHP, DBT, BBP and DnOP.

Regulations around Phthalates:

Most restriction around phthalates today focuses on children. The EU has restricted the use of certain phthalates like DEHP, DBP, in children’s toys from 1999. Phthalates like DINP, DIDP and DNOP are restricted in toys that can be put into a child’s mouth. The restriction allows these phthalates to be present only upto 0.1% of the plasticized mass of the toy.A similar act was passed in the United States in 2008.

5childrens toys post

Phthalates in the Cauvery river.

A study published this year studied water and sediment samples of the Cauvery River, one of South India’s major rivers. A two year soil sediment and water study found DEHP in 92% of the water samples and DEP and DMP in every water sample. Similarly 94% of soil sediment samples also contained DEHP. While the contamination percentage was said to be below USEPA guidelines for water, the soil concentration exceeded this guideline.

The Cauvery river basin covers Karnataka, Kerala , Tamilnadu and Pondicherry.  It is the source for both an extensive irrigation and hydroelectric system and also supplies drinking water for many towns and villages. Bangalore, Mysore and Mandya depend almost completely on the Cauvery for their drinking water. In this situation, the fact that some of the most toxic phthalates like DEHP have so comprehensively contaminated this river cannot be ignored.

Nonylphenols (NP ) and  Nonyl phenol ethoxylate (NPE)

Nonyl phenols come from a class of chemicals called Alkyphenols. Alkylphenols, including nonyl phenol are precursors to chemical detergents , and are used as additive to fuels, lubricants and other polymers.

All alkylphenols including Nonylphenol ethoxylate are xenoestrogens. They mimic the effect of estrogen in the body and they can disrupt the normal process of reproduction. Xenoestrogens can increase the growth of the endometrium, leading to endometriosis, and can also increase breast cancer tissue in tissue culture studies.

Precocious puberty or puberty among young girls below 8 years is one of the effects of Xeno estrogens. Studies across America, Europe and Asia suggest that irrespective of race and economic conditions, the earlier onset of puberty is attributed to the environmental chemical exposure. Precocious puberty has been studied to lead to significant psychological distress, poor self image and poor self esteem in a young girl. It has also shown to lead to reduced adult height, paediatric & adult obesity, gynaecological disorders like endometriosis, poly cystic ovarian disorder and infertility.

Nonylphenols are chemicals used in laundry and dish detergents, cleaners and emulsifiers, paints, pesticides and in personal wash products. Since the discovery of Nonyl phenol in 1940, its production has been growing every year – it is now a high production volume chemical, with 100 million- 500 million pounds of NPE being produced globally every year.

4synthetic dishwash

Nonylphenol persists in aquatic environments and can take months or longer to degrade in water and soil. Because Nonylphenol is used in so many cleaning products which “go down the drain” like dishwash products and detergent products, it is a ready contaminant into sewage and water supply. Nonyl phenol bio-accumulates inside the body, and is a potent endocrine disrupter.

Synergistic effects:

As already mentioned, one of the most troubling problems of ingredients like Nonyl phenol which are used as filler in pesticides for their “inert” properties is their ability to work synergistically with other chemicals and multiply their toxic effect on humans.

Current regulations:

The EU has eliminated the use of Nonyl Phenol and its ethoxylate in most industrial and product sectors. Canada has implemented a pollution prevention plant to drastically reduce the use of NP/NPE.  The US EPA plans to encourage voluntary phase of using NP/NPE in industrial laundry detergents.

In India this is not yet regulated.

Products that contain NP / NPE:

Used as a surfactant in shaving creams, detergents, dishwash, hair dyes, hair styling products and pesticides. It is difficult to ascertain if your brand contains this chemical as it is a feedstock chemical which is usually unlisted.

 

Pink could be the colour of happiness

But it is not in the case of beauty or consumer products.  Our article discusses just 3 kinds of toxic chemicals that are commonly found in Indian homes today in their cleaning, skin or hair care products. The US FDA lists over 100,000 industrial chemicals in use today!

This blog cannot cover all these chemicals in depth, but what we will do is to look at products and ingredients that are extremely toxic to you and suggest alternatives. Children and their toxic exposure is a grave concern for us at Krya, and one of our posts will examine the products that we surround our children with today , their current toxic load and examine better alternatives.

Having read this post, you may be left with a deep feeling of “why”. Why do companies use these chemicals? Is it out of malice? Are they out to get us? Are they as unaware as we are? Our next post will look at common myths and facts when formulating household products. Hopefully some more answers will emerge there.

 

This article is a part of Krya’s series on toxics in household and personal care products. Through this series, we hope to inform, educate and inspire you to look around your home and detox it and yourself from the harmful action of more than 100,000 suspect industrial chemicals that surround human life today. The natural world is full of safe, environmentally sustainable, cruelty free options to care for yourself and your home, and our series will try to present atleast a small part of this exciting world to you. 

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Try this instead – the new series on toxic free living

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Reading Time: 9 minutes

One of my most memorable trips was a visit to Officina Profumo Farmaceutica of the  Santa Maria Novella Church in Florence. Listed as one of the world’s oldest pharmacies, this apothecary & pharmacy was founded in 1221 A.D. by the Dominican Friars who started making herbal remedies and potions for use in the monastery. With a growing reputation that crossed borders, the Santa Maria Novella Pharmacy finally opened its doors to the general public in 1612, sponsored by the Grand Duke of Tuscany.

When I visited the Pharmacy in 2009, I was in awe of the nearly 400 year old heritage of creating creams, lotions, soaps and scents. This acute sense of history was heightened as we had just visited the church next door where we took in works by Botticelli, Vasari & Brunelleschi among others. The products continued to be plant based, many of their best sellers were recipes crafted hundreds of years ago by the Dominican Friars, and they continued to be made in small batches, by hand using locally available plant based ingredients.

4. SMN apothecary jars

In the medieval time Western homes, beauty and household care products were the realm of the Women of the home. A “still room” was an essential part of a home’s building plans, and it would be carefully constructed in a cold, dry part of the home, often in the basement, to store the medicines, potions, remedies and special food that were concocted in the home.

The cleaning products for the home like the concoction used to clean the silver, the special shaving soap used by the gentlemen of the home, the healing tisanes and teas, and the many many remedies for taking care of both large and small aches, pains and diseases were created in the “Still Room”. The recipes were carefully handed down the generations and were often a closely guarded, secret.

2. Still room at Harewood House

The Indian tradition was somewhat different from the western tradition especially in the plains. Because of the large bounty of plants across seasons with specific properties tailored for the seasons, our basket of remedies was very wide and varied. Given the hot and humid climate in our plains, our method of preparing our remedies and mixtures was also different from the western herbalism – we preferred tinctures or decoctions to tisanes. Apart from standardised products and medicines for hair and skin care and to cure ailments that were used from the Ayurveda, Siddha and Unani texts, we also had an Indian system of herbalism that was used for treating small ailments and personal care routines. This system of herbalism differed by geography and depended upon the local flora peculiar to the region.

So someone living in the South of India may have made hibiscus flower hair oil to prevent hair fall and other problems. Whereas, someone living in Chattisgarh, might have used the locally available dried Safflower in coconut oil to prevent hair fall and related problems.

As I continue to research India’s intricate connection with plants and nature and how we depended on the banquet offered by nature to clean, care for and maintain our homes and ourselves, I also realise that this connection is now becoming very tenuous.

Surveys done among several tribal groups across India reveal that the younger generation prefer to buy OTC or prescription capsules or pills to treat their ailments. And far from taking the trouble to pick a safflower and boil it in oil, they prefer to resort to an advertised cure for hair fall or a hair treatment product.

The columns in popular magazines and newspapers on beauty reveal our fascination with natural remedies – despite the onslaught of advertising and claims of superiority, we continue to faintly remember our tradition of the power of plants to take care of our hair, skin and bodies. But when it comes to taking care of our homes or treating our ailments, we have nearly forgotten the wealth of plants that we have around us.

As we like to say at Krya, Man (and Woman) has thrived for thousands of years before the arrival synthetic, industrially manufactured products. The chemical consumer product industry is about 150 years old and really started coming into its own during the First World War with shortages in basic commodities forcing inventions.

The first archaeological proof of the existence of soap in the Western world was in ancient Babylon, 4800 years ago. A ancient soap vat was found with inscriptions detailing how animal fat was to be boiled with ash to produce soap. The Ebers Medical Papyrus dated from 1500 BCE in ancient Egypt describes creating soap like material by mixing animal and vegetable oils with alkaline salts like, Natron, a naturally occurring mixture of different sodium salts.

Natron was a panacea in Ancient Egypt. It was harvested from dried lake beds, typically in Wadi El Natrun, a valley in the Beheira govern ate in Egypt, and was used for thousands of years in ancient Egypt to clean both the home and the body. Blended with oil, it formed an early form of soap which softens water and helps remove oil and grease. Undiluted it helped clean teeth and was made into a simple mouthwash. It was used variously in the home from an antiseptic for minor cuts and wounds, to helping preserve and dry fish and meat. Natron was also used in Egyptian mummification procedures to absorb water and ensure dry conditions.

5. Natural natron

Since India was blessed with an abundance of plant life, different parts of India developed combinations of plants, with some minerals and ashes as cosmetic aids and to maintain clean homes.

The Soapberry tree has long been revered in Indian tradition and in Ayurveda as being an excellent cleanser for skin and hair. Sapindus trifoliatus, the south Indian soapberry, which we use extensively in our formulations at Krya, has been noted as a healing cleansing ingredient and has been recommended in Ayurveda to cure specific skin conditions like psoriasis.

Different species of Acacia form the soap pod or the Shikakai bush. It continues to be grown as a hedge plant in remote villages where its extensive set of thorns protects homes from the entry of wild animals like wild pigs. The soap pod is again extensively documented in both Ayurveda and Siddha. With its mild cleansing action and a varied set of saponins, Shikakai is used in hair and skin cleaning formulations, as a wound healer and bactericidal agent in infusions for oral care.

3. Acacia concinna flowers

Our research at Krya aims to create new and interesting formulations to help you care safely and sustainably, have thrown up many more natural soap substitutes. These include different kinds of wild tubers, other fruits, and sometimes even ashes of particular plants that have long been used inventively by the communities that have access to them. And all of these plant soaps are used to variously wash woollens, as a safe shampoo, to clean dishes, and to bathe the delicate skin of babies.

We are facing a crisis of great proportion today. And this crisis has to do with the choices we have made collectively as a race. By voting to put our faith and money behind products that have been manufactured inside a chemical facility without a long-term understanding of their safety, we have given away control of our life, our health and our planet. This lack of control has led to several alarming consequences for us and the planet.

Researchers from the U.S studied a small sample of 6 cleaning products used in a typical home and found that this group emitted 133 Volatile organic compounds (VOCs). Each of the 6 cleaning products tested emitted between 1 to 8 chemicals that are classified as toxic or hazardous under US Federal Laws.

Ammonia

Ammonia is a common substance found in homes, emitted from synthetics like toilet cleaners, drain cleaners, window cleaners and specialised oven & stainless steel cleaners. These vapours may irritate the skin, throat, eyes, and lungs and can irritate people with asthma.

Coal tar dyes, are commonly found in almost all cleaning products giving them the bright, shiny, metallic colours that we seem to like. Your bright green dishwash or shampoo derives its colour from petrochemicals which can be contaminated with traces of heavy metals like arsenic, lead and cadmium. There is a concern that these synthetic dyes may be carcinogenic and the heavy metal contamination in them can harm the nervous system. These dyes can be absorbed through your skin or even worse, ingested as residue when your dishes or plates are not rinsed thoroughly. Worse still, from the point of view of the effectiveness, these dyes are completely unnecessary and have no relevance to how well a product cleans.

1. allura red in cosmetics

2-Butoxyethanol (or 2-BE, also known as Butyl Cellosolve)

This is a skin and eye irritant that is associated with blood disorders and has caused reproductive problems in lab animal experiments. This chemical is listed as a toxic substance under the Canadian Environmental Protection act as it is harmful to human health. The main way it enters our system is by inhaling the air inside our homes (which are contaminated by the use of the products that contain this chemical) and by direct skin contact with the leaning products we use. In Canada, 2-BE concentration is limited to 6%, but certain products like laundry stain digesters and stain removers can carry this chemical upto 22%.

Consumer product industry in India – still poorly regulated

The consumer product Industry in India continues to be under regulated. While the manufacturing of certain household products like detergents are classified by the ministry of Environments and Forests as a polluting industry with the symbol “Red” (highly polluting), there is still a lot of work to be done before we can reach the safety and human health standards set by countries like Canada.

Cleaning and consumer products do not require any ingredient listing. Safety standards have not taken into account the continuing research and environmental implications of using the multitude of chemicals that go into the products we use today. Companies are penalised only when they fail to follow basic hygiene standards, such as a bacterial count that exceeds permissible limits or the presence of a foreign object inside the product to be used.

Environmental activists continue to wage a war to get companies to follow decent standards of formulation that are followed as a matter of course all over the world. For example, phosphates which have been banned in many developed countries as their excessive use in cleaning products leads to water pollution and eutrophication are used in excess in India. Regulations in U.S and Canada limit the use of phosphates in foaming cleaning products like detergents and dishwash products to fewer than 2.5%. In India the phosphate levels in these products routinely exceeds 40% – Phosphate is used as a cheap builder and water softener to productive large amounts of lather in a cleaning product. Of course, as with the example of coal tar dyes, this lather is unnecessary and does not signify better cleaning.

The Krya “Try this instead” series has 3 aims: Information, Hope & Inspiration

1. To inform you about the dicey and nasty chemicals used many of the products that enter our homes today. We believe that this information will empower you to make better choices. So we aim to arm you with information, facts and research to help you navigate your way through the Chemical wasteland of products when you next navigate your supermarket.

2. To give hope (and safe alternatives) – Sometimes when confronted with information like the above, we tend to fall into an abyss of despair. Are we to no more have fun and use shiny fragrant products we ask ourselves? Will I never have a sweet, gel-based toothpaste again? How are we supposed to now clean ourselves and our homes?  This series hopes to give you good workable alternatives: in the form of ingredients, hacks or products that you can use in multiple ways across your home. For example, we use the Krya detergent like a swiss army knife in various combinations to clean our clothes, dishes, floor, bathrooms, hair and teeth by adding simple herbs for each of these functions. We will be writing about simple ideas and recipes such as the above.

3. Most importantly, to inspire you. The true Wealth of India, its plants, herbs and trees, have been variously catalogued by the British in their time and several ethno botanists and anthropologists today as its rich biodiversity of plants and the rich native knowledge of how these herbs can be used to lead a healthy, happy and clean life. In our quest to create Krya and lead a more natural and clean life, we have been amazed and inspired by this true Wealth of India – we celebrate this wealth every day, and hope to inspire you with this series to do the same.

We hope you will enjoy and appreciate this new series as you have with our past writings. Please do write to us and let us know if there are any particular areas you would like us to cover within the scope of the subject and we will be happy to do so. A happy, organic, natural, safe and clean day to you too.

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Khadi Chronicles – at Krac-a-dawna farm

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Reading Time: 7 minutes

We work only with organic plant based materials to create our formulations at Krya. So we take the process of sourcing and building relationships with our farms very seriously. Every single raw material we source is traceable. And we have a name and a face to match this source.

Traceability is important for many reasons. For one, natural materials have glorious variations depending upon the rain, soil conditions etc. Traceability helps us understand how the final Krya formulation performs.

A direct relationship with the farmers helps us practise fair trade, as we bypass middlemen and traders, and pay the farmer directly.

Because of the perishable nature of the materials we use, a direct relationship with the farm enables us to process them in a precise and timely manner to ensure optimal performance. For example, Fruit peels, especially those sourced from organic farms are extremely rich in aromatic essential oils. But if they are not shade dried carefully under low temperatures, these essential oils can evaporate removing all the aroma. And if they are not dried carefully, the peels can catch mildew and fungus before they reach our factory in Chennai.

Of course, an important, unstated reason for our farm trips is the inspiration it gives us. The beautiful environs of an organic farm or a plantation inspires us and reminds us of the reason why we do our work at Krya. To help keep these beautiful patches of land clean, and green, and perhaps lead a similar change in our crowded, not so green urban spaces.

The icing on the cake is the wonderful, like minded people we get to meet. The organic farmers we meet are committed to their vision, and have stuck to poison free farming through the lows and highs of the agricultural cycle. None of the challenges they continue to face, dampen their spirit and they continue to inspire us with their enthusiasm, positivity and reverence for the land.

Our farm and plantation trail had us exploring sources of organic cotton fabric and medicinal herbs. And took us to Krac-a-dawna farm, started by its custodians, Juli and Vivek Cariappa.

Krack-a-dawna Farm

Vivek and Juli met as students at the Delhi University. Juli tells me that she always wanted to be a farmer, and so in 1986 the two of them at ages 20, and 21, decided to live off the land in their own piece of land just off Mysore.

3. juli cariappa krac a dawna

A loan helped them purchase a barren piece of land with four trees, a cow, a dilapidated hut and a stream. Today this humble beginning has grown into a beautiful, verdant, 30 acre farm which produces 30 kinds of crops including organic cotton and the farm produce includes value added products like organic cotton garments which have been designed by the family, and dyed in house using natural plant based dyes, organic food products like jams jellies, butters, marmalades and pickles and personal care products like soap and bathing aids.

1. dyeing shed at krac a dawna

Vivek is a Krishi Pandit awardee, and Juli has played a central role in the initial years in drafting the Organic standards document to help certify farms for the OFAI.

Sathya Khadi

Krac-a-dawna’s organic cotton is especially relevant to our continuing series on sustainable fabric. Juli and Vivek grow their own cotton which is a hybrid of Indian and Caribbean cotton which is grown because it is long stapled, soft cotton.

2. Non Gmo Organic cotton at Krac a dawna

The feel of this fabric is outstanding, and Juli and Vivek get this cotton woven into many finishes including honeycomb waffle for towels and airy, light voile that gets made into flowing skirts.

 

The mechanised handloom & the master weaver

A conversation with Vivek and Juli leaves us feeling edgy and unsettled when we discuss the state of textiles and organic food produce in India. Krac-a-dawna’s organic cotton is sent to weavers to be woven in a powered handloom, which is a modified, “slightly mechanised” version of a handloom. This is easier on the weaver compared to a pure handloom, and allows each weaver to run 2 – 3 looms at a time, improving their wage earning capacity and productivity. Most importantly for the Cariappas, this frees the weaver from the master weaver, who is the first middleman we encounter in the textile world. Typically, a master weaver controls the output of several weaver families and often pays them a fixed wage and controls their output.

In many villages, master weavers are moneylenders, into whose debt weavers are trapped in exchange for funds to procure raw material or improve their looms. As a result, their output is forever tied to the moneylender who in this case acts as the master weaver, sourcing fabric at low rates from the indebted craftsmen.

We have spoken about the problems around powerloom and availability of hank yarn at length in India. Our conversation with Juli reveals another unknown fact about powerloom weaving.

Beef tallow and yarn sizing

Handloom weavers strengthen the yarn by dipping it into a mixture of starch derived from plant material like arrowroot and tapioca. This process, called sizing, helps give a protective coating to the yarn as it is woven, and helps keep in place during the weaving process.

The speed of powerloom weaving is so high that sizing the fabric is not enough. Instead, mutton fat or beef tallow is used to grease the machine and sizing is done using imported starch, typically from GM corn.

Powerloom sizing of fabric is not an organic process, as it is in handloom weaving. In handloom weaving, sizing is done from left over starch which comes from the rice or tubers that the weavers eat. In contrast, powerloom sizing uses nearly 1.6 Kg of firewood to heat and prepare the starch for every kilo of cotton.

Juli and Vivek call this whole value chain of conventional textile fabric, “violent”. It is harmful to our environment and eco system, and robs us of our seed sovereignty.

5.satyakhadi

Say NO to GMO

The war against GMOs is active and all over Krac-a-dawna. The labels which I help Juli stick onto the jam bottles reminds us to “say no to GMOs”. Vivek and Juli’s bookshelves and work apart from stewarding their farm include monitoring and being a part of several action committees to recommend next steps in suicide belts like Vidharba.

This activism is not restricted to GMOs alone. Juli is a licensed homeopath, and has eschewed vaccinations for her children. The farm animals are treated by Juli and her second son Azad using only gentle homeopathic medicines. Her bookshelves are filled with treatises on nutrition, making bread ,tofu and soaps, and have helped the residents of Krac a dawna stay completely self sufficient.

As we sit down to eat a fresh nutritious lunch made from scratch from the produce grown on the farm, Vivek proudly tells us that everything except the salt in our meal was grown and prepared on their farm.

The quest for self sufficiency

In a strange way, our series on sustainable fabric mirrors our quest for self sufficiency as well. Our nation once clothed the world, and was responsible for providing fabric for the entire world, exquisitely made, tailored and dyed. Our weavers were master craftsmen who occupied an important place in society. The sophistication of our textile produce was vast. The germplasm of our cotton was vast and varied and different parts of India produced different types of cotton. The linkages in our textile world were strong and every part of the textile producing chain was linked to both upstream and downstream. We used every single resource available to us from the dung produced by our cattle to the leaves, fruits and seeds to colour, strengthen and polish our fabric.

2. natural dye colour palette

And yet here we are today. 93% of India’s cotton is now genetically modified BT cotton. Vivek and Juli Cariappa maintain that the cotton germplasm across our country has been contaminated by BT, so much of the balance 7% cotton is also suspect. They tell us that UAS –Dharwad is the only source for uncontaminated cotton germplasm today. The path of Bt Cotton is violent and unsustainable. The cotton belt in India is marked in red by waves of farmer suicides. The handloom industry which would weave this cotton into fine fabric is languishing, underpaid and under supported. The dyeing industry has morphed into a chemically derived industry polluting our water, soil and air.

Krac-a-dawna’s model is a beacon of hope for us as we walk along the cotton trail. It tells us that it is possible to wear sustainable fabric. And that there is passion, joy and science in its production, as much there is in its wearing.

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End notes:

Krac-a-dawna’s sustainable cotton garments & farm produce can be bought from Elements, Cochin and Casablanca, Pondicherry. Vivek and Juli also sell directly to groups of families who can guarantee a bulk order of atleast Rs.10,000 and above – in this case, you could also buy their organic rice, pulses, jaggery and fresh produce. Juli Cariappa also makes a great range of jams, jellies, marmalades, pickles and soaps.

The minimum bulk purchase quoted above depends upon where you stay in relation to their farm. The farm is in a remote location off Mysore, with little connectivity, so sending small parcels is not an option for Krac-a-dawna.

Vivek and Juli Cariappa may be contacted at krac_a_dawna@yahoo.com .

This post is a part of our continuing series on Sustainable fabric and India’s textile traditions. The rest of our series can be read here: 

  1. Our introductory post on the sustainable fabric series
  2. On the One Person Satyagraha and why you should start one
  3. On the environmental and human health hazards of chemical dyes
  4. The primer to sustainable Indian fabric is here
  5. The first part of the textile traditions of India that suit Spring and Summer is here
  6. The second part of the textile traditions of India that suit Monsoons and Winter is here.
  7. Our post interviewing Lata Ganapathy-Ravikiran on Handloom love and why she chooses to support this industry is here.
  8. Our post on the warped state of Handlooms in India and what ails the sector is here.
  9. Our post on the dangers and all pervasiveness of Bt Cotton is here .
  10. Our post on Onam, the Mundum neriyathum and wearing your culture is here.
  11. Our post on the Sustainable Fabric Workshop conducted at the Green Bazaar exploring natural dyes is here.
  12. Our post with notes on Kalakshetra’s Natural dyeing workshop and a guest post by Kavita Rayirath of Indian by design on inspiring Handloom appreciation is here.
  13. Rashmi Vittal of Little Green Kid’s guest post on why organic cotton is so essential for everyone can be found here.
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A little green goes a long way – a guest post by Rashmi Vittal

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Reading Time: 12 minutes

And we are off on a field visit. We are going to be spending this week visiting 2 organic farms in Karnataka and round it off with a visit to a hand loom weaving centre. In this trip we will be following an organic and Khadi trail of sorts. One of the organic farms we are going to be visiting is a passionate advocate of using indigenous cotton seeds, growing the cotton organically, hand spinning it and weaving it to make Khadi fabric. The weaving centre we are going to be visiting is the centre which weaves all of Tula’s magical rain fed cotton fabric.

Our blog posts this week will be filed from more exotic locations than our office in Chennai. We will be “reporting” live from the field and are excited about meeting these passionate custodians of the land who have been generous to offer to share their time and expertise with us.

Which brings me back to a basic question: why organic fabric? Most of us now understand the need to eat poison free food. Is choosing organic cotton an esoteric exercise? Isn’t it going to be un-findable? Is the expense worth it?

To answer these and many more questions, I’m happy to introduce you to Rashmi Vittal, founder of Little Green Kid. Rashmi’s passion for environmentally sustainable living led her to start Little Green Kid in the quest to help parents replace their current basket of toxic-full clothing for their children with safe, sustainable alternatives.

1. rashmi vittal founder

Started little over a year ago, Rashmi is building a strong team of designers at Little Green Kid along with resources from the export garment industry to create a company that is focused on great design and good quality.

Here is Rashmi Vittal talking about a subject very close to her heart, Organic cotton.

Why I prefer organic cotton over diamonds

Sometimes you use something every single day without much thought and then you suddenly learn something new about it and go, ‘Wow – I never knew that’.  Organic cotton was like that for me. It was paradigm shifting to learn that the humble cotton that you take for granted has a very interesting story.

Cotton, as we know it, is yet another crop – just like any other vegetable. But this one single crop uses 20% of entire world’s pesticide production. Yes, that’s right – that much of pesticide for just one crop.  The first time I read it, I had to re-read it to really understand the magnitude. ‘But why so much?’ Just because nobody eats cotton, there are no limits on the harshness or the amount of the pesticides used on it. While it is a proud fact that India is one the largest producers of cotton in the world and fluffy white cotton is made into garments and sent off across the world, the flip side is that all those harsh pesticides and chemicals remain behind on Indian soil and water.

1024px-CottonPlant

I don’t eat cotton, so why do I need Organic Cotton?

 When I tell people that we run Little Green Kid, an organic cotton clothing company focusing on kidswear, people often ask, ‘I don’t eat cotton, why should I bother if it is organic or not? I can understand that organic food grown without harsh pesticides and chemicals has direct benefits on my health. But how does wearing something made of organic cotton give me any benefits?’ A very good question.

When we look at a t-shirt or that cool kurta in a shop, we look at it in its singularity. As shoppers we do not want to be bothered with the comprehension of how that piece of garment came to be on that shelf.  We want to trust the store where we bought it at and let them worry about how it was made. But today we will ask you to join us take a peek behind the scenes and share a few secrets. If you think about it, cotton is everywhere – the dress that we are wearing at this moment, the sheets that we slept through last night, the diapers on our baby, the towels we used to wipe ourselves and more – all made from cotton. What we may not know is that sometimes even the food that we eat, like chips and other snacks, are fried in derivatives of cotton seed oil. Nothing from cotton goes a waste and is used in some form or the other that you may not explicitly be made aware of. So where does the journey of this omnipresent cotton begin? What are its dirty little secrets that we need to know as a consumer?

Lets zoom out a bit and start with the macro picture. The demand for cotton rises every year and to meet that demand, the worldwide production has been rapidly increasing as well. When there is high demand for a commodity, companies in that space come up with ways to rapidly increase the supply, often via unconventional means. So what did they do to cotton? How successful was their attempt?

Long time ago farmers in India used to set aside a small portion of their cotton flowers for seeds for the next season. Seeing the great potential for high yielding and pesticide resistant seeds, big companies poured money into research and came up with genetically modified (GM) seeds. In 2002, the Indian Government introduced Bacillus Thuringiensis (Bt) cotton trying to encourage farmers to grow more. The farmer abandoned the natural seeds and bought the GM seeds with dreamy eyes. The yield in the first year of adoption was good, but the crop was highly susceptible to damage due to variation in climatic conditions. As well intentioned as it seemed, the seeds did more harm than good in the long run for cotton. Remember those automobile pamphlets that tell you X kms/liter mileage but only run X-y kms in real conditions? It was and is the same with these seeds. In Indian agricultural conditions the seeds did not thrive and created controversies instead because it was not just the yield that was disappointing. These genetically modified seeds are four and half times more expensive than the traditional seeds. Specially formulated chemical pesticides and fertilizers were recommended whose expense constitutes almost 60% of the cost of growing cotton. What was worse was that not all promised were warded off.

While the GM seed companies made money, on the other side, with low yield, dropping cotton prices in the market, huge debts and a land that is ripped off all fertility (due to the use of super harsh chemical fertilizers and pesticides) the farmers entered what is called a ‘Death Spiral’ – a few years of which lead the farmer to commit suicide. Today the so-called ‘Cotton Belt’ of India has become a ‘Suicide belt’. In 2012 alone 13,754 farmers committed suicides in India. Suicide is only the tip of the problem iceberg.

8. vidharbha farmer suicide

As of 2014, Bt Cotton has taken over more than 93% of the seed distribution and original seeds are very hard to find, making it immensely difficult for farmers to go back to original seeds even if they want to.

If you think, ‘Well, the Government needs to take care of the farmers as I am paying my taxes and how does organic cotton have anything to do with me?’. Well, lets now dive right in. The customized harsh synthetic pesticide and fertilizer concoctions that were developed to go hand in hand with the genetically modified crops do not vanish after the cotton is harvested. They are left behind in the soil, are carried through water and dispersed through air – pretty much as expected. It is the magnitude of this toxicity that is worrisome. The land is so toxic that it requires three years of pesticide-free cultivation just to detox the land. Give this a thought – if it takes three years with three seasons a year to get rid of those harsh chemicals, do you think that a few washes during manufacturing would have gotten rid of all of those harsh chemicals on the cotton fabric? Laboratory tests reveal that they don’t. Have we stopped to ask why do we see more incidences of skin disorders in children today – irritations and issues that we as children did not face?

7 of the top 15 pesticides used on cotton contain “likely” or “known” human carcinogens (cancer causing). Almost half of the pesticides sprayed on cotton is classified as ‘hazardous’ by the WHO even today. Aldicarb is a toxic nerve agent developed in WWII and termed as ‘extremely hazardous’ by WHO. US$112 million worth of this chemical is applied on cotton crops alone. Endosulfan was used in huge amounts in India until banned recently. The damage that it has done to a generation of farmers in India is beyond anything we could agree as humane. Even in the United States DDT and Toxaphene were banned recently, but continues to be used in India, China and other countries. Insecticides like Parathion is 60 times more toxic that DDT! . Carbofuran, one insecticide kills one-two million birds annually and whole colonies of honeybees have been wiped out. We, the human race, continue to grow cotton at all costs – environment, animals and ourselves. I suppose you remember that your favorite crispies may have been fried in derivatives of cottonseed oil – the same, which comes from these pesticide sprayed farms and may not even know about it.

The GM cottonseed manufacturers argue that they have a seed formulation for fewer pesticides. What they conveniently do not tell you is that the pests grow pesticide-resistant with every passing year and they have to make harsher and harsher pesticides every single year. It is like drug abuse. It only gets worse. Ironically, for all the effort that these GM companies invested in it is estimated that less than 10% of the chemicals applied to cotton accomplish their task, the rest are absorbed into the plant, air, soil, water and eventually, our bodies. While these companies started with a good intention of creating a win-win situation for themselves and the farmer, their product has gone horribly wrong. It is as if they opened the Pandora’s Box. To continue on the same path is being both ignorant and stupid.

What we should really ask ourselves about the Bt Cotton seeds is that – can we have dinner made from the veggies grown on the same field that Bt Cotton is being grown with the toxic pesticides? Before toxic pesticides and before Bt Cotton the answer would have been an undoubted ‘yes’. That is how our grandfathers cultivated their land – which we now call ‘Organic farming’. While Organic cotton might seem like a respite there is more than that which completes the picture today – lets hold on to that thought a bit longer and see what else is in store on the journey of cotton once it has left the pesticide ridden field today.

I died dyeing

Once the cotton is harvested, it is washed and spun into yarn and then made into fabric. To keep the costs low, conventional methods use harsh bleach chemicals. While that does not sound good, they are not the monsters yet. The big bad ugly monster is the chemical used in dyeing. Dyeing is the act of adding color to fabric. As simple as it sounds, it harbors another dirty little secret of this industry.

2.noyyal runs black

Tirupur in Tamil Nadu, which is dubbed as the t-shirt hub of the world, houses a very large amount of dyeing units all of whom got there because of easy access to the Noyyal River. The dyeing chemicals are harsh and again fall in the ‘carcinogenic’ category. Noyyal River, downstream from Tiruppur, found blackish water in their tender coconuts, as hard it is to believe. They fought a case against the dyeing units in Tirupur, which was finally presented at the Supreme Court of India. Dyeing units are now required to filter their waste. During inspection the effluents were found to be so toxic that 20,000 acres of land downstream had to be declared unfit for cultivation. The locals are still working with the government to enforce laws to ensure filtration of water before it is let into the river. The effort is still in progress.

 Organic Cotton clothes: A good way forward

 World over farmers and consumers have woken up to realize that the current way of cultivating cotton with pesticides or GM seeds has been a recipe for disaster as tricking nature is not so easy. What can the solutions be? What started as a small experiment about going back to basics with natural farming methods and scientific ways of bio pest management is going very well today. It is called Organic Cotton. The farmers are happy, the environment is not compromised and the customers are happy. Today, 30% of the babywear in the European market is made of organic cotton. India produces 70% of the world’s organic cotton today. But organic cotton is still merely 0.7% of the entire world’s cotton production and but is a growing phenomenon. We have a long way to go, but meanwhile people are striving to do the right thing and learn from the mistakes.

 Why is organic cotton better?

When you buy organic cotton clothing today – it is more than just non-GM seeds or using fertilizers available in nature or using biological methods of pest control.

Organic cotton clothing is about  ‘Sustainability’ – creating clothing with a 360-degree approach to ensure that all involved parties including the environment, the consumer and future generations are kept in mind. It’s a philosophy of ‘Sarve sukhino bhavantu’ (May everyone live happily).

An organic cotton garment means that

1 – The farmer is looking beyond immediate yield and is willing to detoxify his land of harsh chemicals and fertilizers by making it a pesticide-free zone for three years at a minimum

2 – Various third party certifying agencies such as SA Certification (Soil Association) help test and evaluate the authenticity of the land during these three years. Some of these certification agencies are NGOs themselves that initially started working in this field to prevent farmer suicides and have now progressed to do more. Various NGOs also help the farmer with tools and training during this period.

3- Seeds used are heirloom/natural seeds, which help preserve the diversity of cotton. This stops seed or company monopoly as well

4 – Various bio PMTs (Pest Management Techniques) that are scientifically proven are used to maintain yield

5 – Better irrigation techniques are practiced for better yield among other seasonal techniques to ensure better yield

6 – Dyes are either natural dyes (which are yet to be widely available and gain popularity) or certified eco-friendly dyes, which upon using a purifier will not release any chemicals harmful to the flora and fauna of a water ecosystem

7 – Every little detail like – the threads used during the stitching of the garment, the water used during ironing just before packing, etc – are all checked for eco-friendly measures

8 – Some of the standards even include additional check points – if the garment factory workers were paid fairly, if they have adequate sanitation, if their children are attending school, so on and so forth. Pretty cool, isn’t it?

9 – Last, but not the least, surprise checks are made at any point in the lifecycle by picking a random shirt of the rack at any step to check for prohibited chemicals.

Buying organic cotton clothing

Organic cotton is new to a lot of people and just catching up. As a shopper try and look for an established organic cotton certification. Since this is still a developing category, all organic cotton may not be certified as yet.  So we encourage you, as a shopper, to always ask your shop for the source of organic cotton if the certification label is not available. Companies like Disney who support organic cotton on some of their collection even let you track the farm where the cotton was organically grown.

Little Green Kid

At Little Green Kid, we thought that it would be a shame to leave behind a polluted earth for our children. We started this company in 2013 because of our interest in creating ecofriendly products that will help people make better choices. We believe in a better tomorrow!

2. safe organic clothing

Little Green Kid offers cute organic cotton clothes for children of ages 0 to 5. Our mission is to give parents a choice of great looking clothes that were made without harming any one or any thing.

We are on this journey and we are more than happy to share our knowledge or vice versa. Please write in to us. Our favorite question in the world is ‘What is organic cotton?’ . That lights up our faces. We hope that answering this question is a short lived excitement as we look forward to the day, sooner than later, when all cotton is organic cotton – cotton that is grown responsibly without resulting in any harmful side effects to people or the environment.

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End Notes:

Thank you Rashmi for that educative and inspirational piece on organic cotton. You can find out more about Little Green Kid either by looking up their facebook page or writing to them at thelittlegreenkid@gmail.com. Do consider supporting their work by buying their well designed, and comfortable clothing for children.

Our organic cotton and Khadi trail series continues tomorrow from the field.

This post is a part of our continuing series on Sustainable fabric and India’s textile traditions. The rest of our series can be read here: 

  1. Our introductory post on the sustainable fabric series
  2. On the One Person Satyagraha and why you should start one
  3. On the environmental and human health hazards of chemical dyes
  4. The primer to sustainable Indian fabric is here
  5. The first part of the textile traditions of India that suit Spring and Summer is here
  6. The second part of the textile traditions of India that suit Monsoons and Winter is here.
  7. Our post interviewing Lata Ganapathy-Ravikiran on Handloom love and why she chooses to support this industry is here.
  8. Our post on the warped state of Handlooms in India and what ails the sector is here.
  9. Our post on the dangers and all pervasiveness of Bt Cotton is here .
  10. Our post on Onam, the Mundum neriyathum and wearing your culture is here.
  11. Our post on the Sustainable Fabric Workshop conducted at the Green Bazaar exploring natural dyes is here.
  12. Our post with notes on Kalakshetra’s Natural dyeing workshop and a guest post by Kavita Rayirath of Indian by design on inspiring Handloom appreciation is here.

 

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