Dr Dingle's Blog / deodorant
Some people are more likely to have health problems as a result of exposure to cosmetics and personal care products than others, even when the amounts of contaminants present are seemingly quite low. However, when the studies are done, the focus is on one ingredient and its exposure to a healthy animal fed a well-balanced nutritional diet. As individuals, we each have different levels of resilience and tolerance to toxic chemicals based on our genetics and our current level of health, nutrition and even lifestyle factors.
Susceptible groups include:
- The developing foetus
- Infants and newborns
- Pregnant mothers
- People who are already sick or immune-compromised
- Chemically sensitive individuals
- The aged
- Genetically susceptible individuals
- Lower socioeconomic groups
- Stressed individuals
… to list the obvious.
Asthmatics have particular sensitivities. Any chemicals, gases or particulates that cause irritation of the respiratory system’s mucous membranes will aggravate an asthmatic’s condition. Allergy-prone people who already show sensitivity to a substance with reactions such as sinusitis, hay fever, atopic eczema and other forms of atopic dermatitis are likely to react with heightened sensitivity to indoor air pollution. They may experience an aggravation of their allergies or develop additional sensitivities. The increasing number of people who suffer from 21st-century diseases such as chronic fatigue and multiple chemical sensitivities will also react to even very low levels of these chemicals.
Pregnant women, who may themselves enjoy robust health, are at risk because some of these contaminants pass over the placenta to the foetus. People under stress are more at risk because their immune systems are often not functioning at optimum levels. Other factors determining susceptibility include gender, genetic makeup, pre-existing health conditions and predisposition to disease, as well as lifestyle considerations such as work, diet and exercise.
There is little doubt that our kids have a greater susceptibility to toxic chemicals than we do. The younger they are, the more vulnerable they are. Every day we expose our children to hundreds of different chemicals in personal care and cosmetic products and yet remain puzzled as to why they get sick and why the rates of childhood asthma, allergies and cancer are higher than ever. Childhood leukaemia and brain tumours are leading causes of death of children in most developed countries and many studies are now showing a link between these conditions and increased toxic chemical exposure.
Since the 1980's, there has been a growing amount of research toward the potential interaction between these environmental estrogens and wild animals, with a number of reports detailing the emergence of 'feminised wildlife’ around the world, and a range of adverse effects in humans including decreased sperm count, increased cases of testicular cancer and testicular abnormalities, increased breast cancer in men and women and premature or precocious puberty. Other adverse health outcomes linked with EDC’s include headache, migraine, depression, gastrointestinal disturbances, insomnia, changes in breast tissue and in vaginal bleeding. More chronic symptoms affect the cardiovascular system, the skin (itching, rash, abnormal pigmentation), the gallbladder, and tumours particularly of the breast but also uterus, cervix, vagina and liver. While other studies have shown increases in the organ weight of estrogen-sensitive tissues such as the uterus, and calcium and bone metabolism are all examples of the estrogenic effects. Even how we age and age at menopause can be affected by these chemicals. In support of this at least one professional and very conservative group, the Endocrine Society, has concluded that sufficient evidence now exists linking endocrine disrupting chemicals (EDCs) to adverse human reproductive effects, including possible epigenetic and trans-generational effects.
Unfortunately, our babies are being born pre-polluted with chemicals detectable in their blood, in the placenta and in amniotic fluid because of exposure to these chemicals during pregnancy and throughout the mother’s life. The placental barrier has been shown to allow these chemicals to cross, as many of them have been measured in human fetal cord blood, fetal serum, human amniotic fluid and even newborn stools (meconium). Exposure to these chemicals before birth poses a serious health risks to developing fetus, infants and young children as shown by the increasing adverse effects including negative birth outcomes, childhood obesity and increasing intellectual disabilities. It is believed that current levels of environmental estrogen exposure results in lower birth weights, smaller head circumferences, poorer neuromuscular maturity and visual recognition, delays in psychomotor development, short term memory problems, and growth retardation in newborn babies. Fetal exposure to these environmental estrogens are suspected of disrupting thyroid functioning, sexual differentiation of the brain in foetal development and cognitive motor function and cause anxious behaviour. They are also able to bind to neurotransmitters such as epinephrine, neuroepinophrine and dopamine enabling estrogens to influence the body's central nervous system (CNS). Environmental estrogens have also been shown to effect the body’s immune system.
Studies have found strong links with exposure to excessive levels of estrogen in males with penis abnormalities, lower libido, congenital anomalies, failure of the testes to descend and testicular cancer, reduced penis size and increased embryo mortality.
What is most concerning regarding control of these chemicals is that there are no indications given or regulations set regarding the minimal age at which they should be used or exposed to them. Increasingly, pregnant mothers, infants, pre-pubescent and pubescent children are being exposed to a large number of products containing these chemicals, with no research to show that exposure is safe during these critical periods of development.
Equally strong is the evidence that these same chemicals can cause some of the most common cancers: prostate and testicular cancer in men and breast cancer in women. One of the most troubling is their association with breast cancer. Breast cancer is the major cancer affecting women in the Western world and one of the most disturbing and well documented current trends is the alarming increase in breast cancer incidence over the past few decades. Fifty years ago the risk rate was one woman in 20; today it is one in 8 and approximately two-thirds of breast tumors are estrogen receptive, and environmental estrogens like parabens, phthalates and BPA are known to bind to estrogen receptors. Estrogen-dependent cancers, such as breast cancer, are known to be highly responsive to estrogens for growth. Even more disturbing is the increase in numbers of young girls developing breast cancer.
Evidence from animal studies shows that prenatal exposure to bisphenol A (BPA), a ubiquitous endocrine-disrupting chemical, is associated with adverse reproductive outcomes in females and males. In females exposure during early gestation, a critical period for reproductive development, is of particular concern. The Anogenital distance (AGD) is a sensitive biomarker of the fetal hormonal balance and a measure of reproductive toxicity in animal studies. In some studies, the daughters of BPA-exposed dams have shorter AGD than controls.
The results of this study showed BPA was detectable in 94% of women. In analysis of the 381 eligible subjects, maternal BPA concentration was inversely associated with infant AGD-AC
In support of animal studies this human study shows that BPA may have toxic effects on the female reproductive system in humans, as it does in animal models. Higher first-trimester BPA exposure was associated with significantly shorter AGD in daughters, suggesting that BPA may alter the hormonal environment of the female fetus.
Bisphenol A (BPA) is a synthetic chemical widely used in consumer products, including food and drink containers, thermal receipts, medical equipment, and other plastic products. BPA is detectable in over 90% of the population in the United States, and may act on the endocrine system in numerous ways, including binding to and activating numerous nuclear and membrane endocrine receptors, and stimulating changes in estrogen, androgen, progesterone, and thyroid hormone activity.
Dozens of studies in humans have examined BPA exposure in relation to a wide range of health end points, including reproductive, perinatal, and pediatric outcomes. Many animal studies and in vitro studies show that many tissues and organ systems (including the mammary gland, prostate gland, adipose tissue, reproductive system, and brain) are sensitive to BPA. In animal and human studies, BPA can cross the placenta to enter fetal circulation. Because fetal development is a period of rapid cell proliferation and differentiation, tissue development, and organ growth, prenatal exposure to environmental chemicals such as BPA may be of particular concern.
7.00 -9.00 PM. Wednesday nights
445 Charles St North Perth
$12 online/$20 at the door www.drdingle.com
February 1, 2017 : Probiotics, People and Poo
http://tix.yt/probiotics February 8, 2017 : Reducing Toxic Overload in our Kids
http://tix.yt/toxic-kids February 15, 2017 : 7 Steps To Permanent Weight Loss
February 22, 2017 : Living Longer, Ageing Well. The science of living a full life http://tix.yt/ageingwell
Estrogens are a group of naturally occurring hormones present in both male testes and female ovaries, with females producing a considerably higher amount. They are particularly influential during puberty, menstruation and pregnancy; however they also assist in regulating the growth of bones, skin, liver and organs of the cardiovascular system. Estrogens, like all hormones, act as chemical signals and are important in helping cells in various organs to sense and respond to changing physiological conditions; therefore the right balance of hormones is critical in order to carry out the functions required of a healthy, strong body. Estrogen binds to a protein, or estrogen receptor, and the estrogen receptor complex can then bind to specific genes and by this, alter the way they are expressed, resulting in a change in cell programming 1.
Environmental estrogens, are now present in everyday products such as polycarbonate plastics, food packaging and cans. However the greatest source for many people is through cosmetics and personal care products and include chemicals such as triclosan, cyclosiloxanes, parabens and phthalates which are often left on the skin to absorb and accumulate 2. Women are disproportionately exposed to many environmental estrogens like paraben and phthalates because they use more personal care products on average than men 3 and teenage girls tend to use even more products than women, averaging 17 different products per day, compared with 12 for women 4.
Since the 1980's, there has been a growing amount of research toward the potential interaction between these environmental estrogens and wild animals, with a number of reports detailing the emergence of 'feminised wildlife’ around the world, and a range of adverse effects in humans including decreased sperm count, increased cases of testicular cancer and testicular abnormalities, increased breast cancer in men and women and premature or precocious puberty. Other adverse health include headache, migraine, depression, gastrointestinal disturbances, insomnia, mastopathia, changes in vaginal bleeding 5. More chronic symptoms affect the cardiovascular system, the skin (itching, rash, abnormal pigmentation), the gallbladder, and tumours, particularly of the breast but also uterus, cervix, vagina and liver 5.
One of the most troubling is their association with breast cancer 6,7,8. Breast cancer is the major cancer affecting women in the Western world 9 and one of the most disturbing and well documented current trends is the alarming increase in breast cancer incidence over the past few decades. Fifty years ago the risk rate was one woman in 20; today it is one in 8 and approximately two-thirds of breast tumors are estrogen receptive, and environmental estrogens like parabens are known to bind to estrogen receptors. Estrogen-dependent cancers, such as breast cancer, are known to be highly responsive to estrogens for growth. Even more disturbing is the increase in numbers of young girls developing breast cancer. Although many factors such as radiation, alcohol, smoking and diet, add to the risk of developing breast cancer, the predominant influencing factor has been identified as the exposure to estrogens throughout an individual's lifetime 9.
The breast is under hormonal control and a fine balance of hormones is what allows the cell to cell communication. Interaction between these cells and the surrounding fluid of the breast tissue is what controls differentiation and growth of the breast 9. If there is a disruption of those hormones, i.e. through the use of synthetic chemicals, the balance of hormonal control is thrown and the cells do not function normally which may lead to breast cancer. In support of this clinical studies show that estrogen has the capacity to drive breast tumours to grow in laboratory studies. Animal experimental studies have also shown the role of estrogen on the growth of breast cancer cells 9. While chemicals which mimic estrogen have been shown to promote and stimulate the proliferation of breast cancer cells 2,10,11, and activate other processes involved in breast cancer 2,11,12. Recent studies have also shown other factors can dramatically increase the the toxicity of Xenoestrogens and studies of individual estrogens may seriously underestimate their growth and spreading effects in breast tissue cells and their potency to promote breast cancer, particularly at lower doses 13.
Although the vast majority of studies on breast cancer are aimed towards women, men can also suffer from the disease, indicating that they have similar risk factors, with one case in a hundred diagnosed breast cancers being a male 14. Although this number is relatively small, the rate of incidence has increased by 25% in 25 years.
Sperm count of the average male in the US or Europe has been found to be declining continuously over the past four decades, dierectly linked with environmental estrogen exposure, and today it is less than 50% of what it was forty years ago15,16. One result of this lower count is the increased rate of male infertility; which is also the single most common cause of infertility. The rate of infertility has quadrupled in the past forty years, from 4% in 1965 to at least 16% today 15.
Other conditions including undescended testes caused by prenatal estrogen exposure to environmental estrogens have also been found in studies on mice and it has been suggested undescended testes increases the rate of testicular cancer 17. The incidence of testicular cancer, namely affecting males between the ages of 20 to 30, has also seen an increase worldwide. Studies have found strong links with exposure to excessive levels of estrogen with hypospadias (abnormal congenital opening of male urethra upon under surface of the penis) 18,19, lower libido 19, congenital anomalies, cryptorchidism and testicular cancer 20,21,22.
Environmental estrogens have also been linked to early puberty in girls and increasing number of girls experiencing precocious puberty in recent years 15. A study in the United States of 17, 000 girls indicated that 7% of white and 27% of black girls exhibited physical signs of puberty by age seven, and for girls aged 10 the percentages increased to 68 and 95 respectively 16. This trend for earlier puberty has been found to be widespread, with similar cases found in the United Kingdom, Canada and New Zealand (Trankina, M. V L., 2001).
Environmental estrogens are also suspected of disrupting thyroid functioning, sexual differentiation of the brain in foetal development and cognitive motor function 23. It is also believed that high levels of environmental estrogen exposure results in lower birth weights, smaller head circumferences, poorer neuromuscular maturity and visual recognition, delays in psychomotor development, short term memory problems, and growth retardation in newborn babies 24.
Prenatal exposure to environmental estrogens also poses a serious health risks to developing fetus and children as evidence of adverse effect on birth outcomes, childhood obesity, and intellectual disability are increasing 25. The placental barrier has been shown to allow these chemicals to cross as many of them have been measured in human fetal cord blood and tissue. More importantly, because organogenesis begins at the time when the fetus is solely dependent on maternal supply, early life exposure to environmental estrogens may lead to adverse short or long term health outcomes due to fetal reprogramming 26.
From testing on animals it has further been proposed that excessive estrogen levels could cause anxious behaviour 27,28, altered fecundency 29, reduced penis size 30 and increased embryo mortality 24. Environmental estrogens are not only capable of binding to estrogen receptors on cell membranes but are also able to bind to neurotransmitters such as epinephrine, neuroepinophrine and dopamine enabling estrogens to influence the body's central nervous system (CNS) 31. Environmental estrogens have also been shown to effect the body’s immune system 30. A large number of studies have also environmental estrogens to contributing to obesity and diabetes, independent of poor diet and physical inactivity; such chemicals including ingredients found in personal care products and cosmetics such as phthalates and phenols 32,33.
More recently studies have found effects of direct exposure to products instead of just individual chemicals. Extensive observational studies have indicated a relationship between certain hair product use and hormonally imbalances including early menache (puberty) 34,35 and uterine fibroids 36 as well as enlargement of breast tissue in boys and men 37.
However, estrogenic (or anti-estrogenic) effects of the personal care products as commercial mixtures have rarely ever been evaluated. In a study of eight commonly used hair and skin products four of the eight personal care products tested (Oil Hair Lotion, Extra-dry Skin Lotion, Intensive Skin Lotion and Petroleum Jelly demonstrated detectable estrogenic activity 38. The estrogenic activity of these products was not predictable by examining their listed ingredients. However, perhaps the most surprising finding about any one product was the estrogenic activity of SP4 (Petroleum Jelly). Petroleum jelly products are also often used on infants as low-cost therapies for common problems such as diaper rash and is manufactured by refinement of the crude petroleum product. While other studies have shown that hair oil use as a child was significantly associated with earlier menarche and hair relaxer use and uterine fibroids among participants in the 36. A third study found an elevated incidence of endometriosis and use of personal care products containing benzophenone-type UV filters 39.
Fortunately, studies have also shown it is relatively easy to reduce exposure by reducing personal care use or using safer products. In one study of around 100 girls they replaced their personal care products with safer alternatives for 3 days. The replacement products were chosen on the basis of whether their ingredient lists included triclosan, benzophenone-3, or parabens. Phthalates are not listed on ingredient lists, but they are often found in scented products. So the researchers avoided products that listed “fragrance” as an ingredient unless they were specifically labeled as phthalate free. More than 90% of the participants had detectible levels of phthalates, parabens, and benzophenone-3 before they started using the replacement products. After using the alternative products for 3 days urinary concentrations of methyl and propyl paraben decreased by 43.9% and 45.4%, respectively, mono-ethyl phthalate decreased by 27.4%, and triclosan decreased by 35.7%. However, there were increases in concentrations of butyl and ethyl paraben, which were detected in about half the girls. These chemicals might have been unintentional contaminants or unlabeled ingredients in replacement products, which they acknowledge they were unable to ensure were paraben free 40.
- McLachlan, J. A. & Arnold, S. F., 1996
- Darbre, 2003
- February 2015
- 24 September 2008
- Ternes et al 2004
- Darbre and Harvey 2008;
- Vandenberg et al. 2012;
- Zoeller et al. 2012
- Darbe 2006
- Okubo et al. 2001;
- Wróbel and Gregoraszczuk 2013
- Gomez et al. 2005
- Pan S, et al 2016
- Williams, R. M., 2004
- Sax, L., 2001,
- Trankina, M. L., 2001
- Christiansen et al, 1996
- Paulozzi 1999
- Calzolari et al, 1986
- MeLachian et al, 1984)
- Rapp, 1996
- Bernstein, 1988
- Ayotte and Bonefeld‑Jorgensen, 2003
- Trankina, 2003
- Godoy, et al. 2014
- Skinner M. K., et al. 2011
- Arabo et al, 2005
- Caston et al, 2001
- Vos et al, 2000),
- Brooks et al, 2007
- Fuentes et al, 2000
- Song Y, et al 2014;
- Carwile JL, et al 2011
- James-Todd. 2011
- Tiwary CM. 1998
- Wise LA, 2012
- Gottswinter JM, 1984
- Myers et al 2015
- Kunisue T, et al. 2012
- Harley KG, et al. 2016
In November 2008, a 12 year old boy, Daniel Hurley collapsed and died in his bathroom 'after using too much deodorant'. The hearing into his death found that “he was overcome by solvents in the Lynx Vice spray”. Unfortunately there were no repercussions for the company as the warnings are spelt out on the can. Despite the warning being there, my own research shows that around 1% of people actually read and understand the labels. However, this is not the first, nor is it the last. On July 12 1998, 10 years earlier a young boy in the UK, this time 16 years old who had an obsession with smelling nice died after months of spraying his entire body with deodorant. Jonathon Campbell had 10 times the lethal dose of propane and butane in his blood. While these are tragic outcomes, the real problems lies in the millions of kids (and adults) around the world who are slowly poisoning themselves. The warning signs on most cans reads something like “deliberately concentrating may be harmful or fatal” or for cans sold to kids “must be used in the presence of adults” and the company has no other responsibility to your health than these labels. If people really knew what was in these cans and read these labels closely I am sure they would have second thoughts about using them and giving them to their kids. Unfortunately, the ingredients are not listed and the warning is all in the small print on the back.
The problem with deodorants and antiperspirants is three fold. First the propellant gases like propane and butane are toxic and were implicated in the deaths of both boys. This associated with the fact that they are sprayed upward towards the armpit and headspace means you can’t help but breathe them in. The second is the long list of toxic ingredients used in the deodorants and antiperspirants which you don’t know about and which are absorbed through the skin and thirdly the blocking of our pores by the antiperspirants.
To highlight where the problem starts antiperspirants and deodorants are among the top six products causing adverse skin reactions, including itching, burning, dryness, irritant dermatitis and allergic contact dermatitis. They have become one of the most frequently purchased products worldwide, surpassed in market share only by soaps and hair care products. Unfortunately, they are also one of the most widely marketed products constantly playing on kids’ emotional health, sex and relationships to sell their toxic products.
Deodorants act to reduce, cover up, or eliminate the odour that develops when bacteria break down perspiration. This is achieved by the use of anti-microbial agents and fragrances. Antiperspirants are distinguished from deodorants by the presence of sweat retarding agents. These agents are based on aluminium complexes and may include aluminium chlorohydrate (ACH), aluminium zirconium chlorohydrate glycine complexes (AZAP) or aluminium zirconium tetrachlorohydroxy glycine. While the connection between aluminium in antiperspirants and Alzheimer's disease and epilepsy continue to be explored and debated they seem highly unlikely. Other problems such as a link with breast cancer are much more likely. The action of these chemicals limits the levels of perspiration produced in the underarm and other areas, by slowing the action of the sweat glands. Sweat production is reduced due to the fact that the chemicals produce an obstructive hydroxide gel inside the sweat gland ducts, limiting the amount of perspiration that can be excreted. However, we were meant to sweat. Sweating provides a valuable service to our body by eliminating waste products, and cooling down the body. As a result antiperspirants may lead to a build up of toxins in this area just near the breast.
Antiperspirant and deodorant ingredients include anti-microbials such as chlorhexidine d-1-gluconate and triclosan, odour eliminators such as zinc ricitioleate and various perfumes. Other ingredients which may cause contact allergies include formaldehyde, atranorm, evernic acid, fumarprotocetraric acid, cetalkonium chloride, fenticlor, gluteraldehyde, zirconium and dibutyl phthalate. Many of the same chemicals you would find in toilet deodorants. Starting to sound a bit smelly isn’t it. Formaldehyde is a skin irritant and thought to be carcinogenic, and phthalates are suspected of producing endocrine (hormone)‑disrupting effects as they are able to mimic the action of oestrogen and upset our hormone balance. In one study diethyl phthalate, which is a solvent, was detected in 2 out of 8 deodorants. The breast, as a result, is also exposed to a range of these oestrogenic chemicals applied to the underarm and breast area. These cosmetics are left on the skin in the appropriate area, allowing a more direct dermal absorption route for breast exposure to oestrogenic chemicals and allowing absorbed chemicals to escape systemic metabolism. It is also worth noting that the large increase in breast cancer over the last 30 years has been a result of an increase in oestrogen receptive cancers.
Research has shown that repeated application of deodorants permeate the skin resulting in accumulation of some of these chemicals. According to one study butyl paraben was systemically absorbed, metabolized and excreted in urine following application to the skin in a cream preparation. The study conducted over 2 weeks showed concentration peaked in urine 8-12 hours after application. Isn’t it interesting to know that the chemicals you put on the outside of your body get in?
Then the problem is exacerbated even more when they are used in spray containers that we direct towards our face. If your lungs are a uniquely designed sponge for air, they are also a sponge for the contaminants that manage to evade all of your respiratory system’s defenses. All the ingredients and the propellants are rapidly absorbed into the body and detectable throughout the body within minutes to hours.
The safer option is to use roll on deodorant. Unfortunately, it does not look as sexy in the advertisements, but it is much safer. The next step is then to move toward natural products and organic when you can. We have evolved with natural plant products over millions of years and as a general rule they are much safer than synthetic products manufactured from petrol. I also think it is about time we stop overselling these products and teaching kids that too much fragrance can be toxic… and who would want to smell like a toilet block anyway?