Townsend Letter Alternative Medicine Magazine



  FREE e-Edition


 EDTA Chelation Therapy


 E-mail List

From the Townsend Letter
June 2019

The Skin as Exposome: An Underappreciated Route of Entry for Toxicants
by Anne Marie Fine, NMD
Search this site
Share this article...

Page 1, 2

As the research body of evidence between the major role of toxicants and chronic disease continues to grow, the contributions of personal care products applied to and sprayed around the skin are often overlooked. There is persuasive evidence that even low-level toxic exposures cumulatively contribute to chronic diseases, making it even more likely that the single exposure model of toxicology is more the exception rather than the rule. Certain ingredients in personal care products have been found to be endocrine disruptors, neurotoxins, carcinogens, and skin sensitizers. Daily exposure to these products, even if the exposures are considered small dosages, must be considered in evaluating overall body burden of toxicants.

SUPPORTTownsend Letter provides a platform for those examining and reporting on functional and integrative medicine. Please support these independent voices.

This article seeks to provide an integrated understanding of the totality of exposome factors in human health by focusing on the contributions of personal care products via dermal absorption.

Transfer Factor Multi-ImmunityThe Skin Exposome
The exposome as a concept and definition has been around for more than ten years. The exposome consists of external and internal factors and their interactions, affecting a human individual from conception to death.1 It acts on the human genome and is the environmental trigger to the expression of certain genes. However, the exposome of human skin has not received major attention both for effect on the skin itself and for effects on the body through dermal absorption. The skin plays a particularly important role in environmental exposures because it is first and foremost a barrier organ that is subjected to lifelong exposure to a large variety of environmental factors, while acting as a portal to absorb or excrete certain compounds. For this reason, I am expanding the definition of the skin exposome to encompass not only sun exposure, sleep, stress, cigarette smoking, air pollution, nutrition, but also cosmetics and personal care products.
The skin is the body's largest organ, accounting for more than 10% of total body mass. And while its role as an organ of excretion is well-known, an opposite function, that of an organ of absorption is not at all well-known.
Dermal absorption of chemicals depends on the integrity of the skin barrier function, lipophilicity of the compound, with low molecular weight chemicals with good solubility in both water and fat penetrating the skin more readily, and temperature of the skin, with higher temperature allowing more absorption. Compromised barrier function of the skin also results in increased dermal absorption of chemicals, which can lead to the entry of larger molecules such as proteins, inorganic metal compounds, or nanoparticles. Solvents are one class of chemicals that has been shown to reduce barrier function of the skin by damaging lipid and protein structures of the stratum corneum. Many personal care product formulations contain dermal penetration enhancers such as alcohol and propylene glycol, which also carry certain ingredients deeper into the dermis. Medicines, including topically applied hormones or nicotine aids, can also be driven into the skin dermally through patches or creams, which typically contain a penetration enhancer.
The ability of dermally applied ingredients to penetrate the skin and reach the circulatory system has been established. Certain ingredients from personal care products such as parabens, phthalates, and BPA have been found not only in maternal serum, but in cord blood of newborns, amniotic fluid, and breastmilk.2 We can no longer pretend that the skin is an impenetrable barrier. However, the internet and some self-proclaimed "experts" commonly promote the idea that 60% of what is applied to the skin is absorbed into the bloodstream. This derives from a single study in 1984,3 which demonstrated that an average of 60% of solvents from drinking water were absorbed dermally via bathing. However, this study cannot be extrapolated to apply to all substances applied to the skin, because as previously discussed, differences in molecular composition and solubility affect absorption.
In one study of healthy men, it was demonstrated that after applying a body lotion containing 2% each butylparaben, diethyl phthalate (DEP), and dibutyl phthalate (DBP), the butyl paraben was detectable in the serum after only one hour, and in urine with a peak value 8-12 hours later.4 The main phthalate metabolites, monoethyl (MEP) and monobutyl phthalate (MBP), were found in the serum as well.
Bisphenol A (BPA) is another chemical compound that easily and quickly enters the systemic circulation. While it is felt that BPA exposure is largely due to oral ingestion from consuming food or water stored in plastic containers or cans lined with BPA, studies have also demonstrated dermal absorption through thermal receipts that are coated in free BPA.5
More recent evidence now points to dermal absorption through ambient air exposure as a meaningful exposure pathway for phthalates, in addition to the expected mechanisms of oral absorption and dermal application.6
Due to the short half-lives of some of these chemicals found in personal care products, simply removing them and substituting products that don't contain the problematic substances has shown good results in reduction of urinary metabolites in remarkably short periods of time. For example, the Hermosa study was an interventional study of adolescent girls that demonstrated significant reductions in urinary levels of parabens, triclosan, and phthalates, over a three-day period of substituting personal care products that did not contain those chemicals.7

Endocrine Disruptors
Endocrine disrupting chemicals (EDCs) alter hormonal signaling, affect developing reproductive systems, and disrupt mammary development.8 Often the impact of endocrine disruptors is highest at times of greatest developmental growth, such as in utero, puberty, and pregnancy. Epidemiological data show increases in incidence and prevalence of diseases associated with endocrine disrupting chemicals such as breast, prostate and testicular cancers, diabetes, obesity, and decreased fertility over the last 50 years.9 Endocrine disruptors in personal care products include parabens, phthalates, and triclosan.
Paraben esters act as estrogen agonists, androgen antagonists, inhibitors of sulfotransferase enzymes, and have genotoxic activity.10 Recently, parabens were shown to impair human sperm motility, enhance the generation of mitochondrial ROS, and stimulate the formation of oxidative DNA adducts.11 While parabens have never been formally classified as a carcinogen, they have been shown to enable multiple hallmarks of cancer, including resistance to cell death, sustained proliferation, evasion of growth suppressors, invasion and metastasis, genome instability, and deregulation of energy metabolism.12 Parabens have been found in 99% of breast tissue samples and can stimulate sustained proliferation of human breast cancer cells at concentrations measurable in the breast.13
Phthalates are a group of chemical compounds consisting of high molecular weight phthalates and low molecular weight phthalates. The low molecular weight phthalates are found in personal care products as dimethyl phthalate (DMP), diethyl phthalate (DEP), dibutyl phthalate (DBP), and diisobutyl phthalate (DIBP). High molecular weight phthalates such as di(ethylhexyl) phthalate (DEHP) are a ubiquitous type of plasticizers used in a wide range of consumer products including toys, food packaging, cosmetic products, and medical equipment. DEHP represents a particular public health concern because 100% of the US population have measurable levels of this endocrine disrupting compound. Phthalates have been found to be associated with significantly earlier menopause in women, decreased couple fecundity, low birth weight, preterm birth, altered placental methylome and transcriptome, and pregnancy loss.14
In men, phthalates have been associated with altered semen parameters as noted in Table 1.15 In addition to potential contributions to the deterioration of sperm quality, phthalates have also been found to be associated with anatomical abnormalities in male fetuses such as shorter anogenital distances, a marker for potential reproductive problems.16,17

Table 1: Epidemiological studies on semen quality and endocrine disruptors including phthalates, BPA, PCB, and DDT/DDE .pdf
Phthalates also join other environmental exposures that increase the odds of diabetes. Women who were in the third and fourth quartile of phthalates had nearly twice the odds ratio of developing diabetes than women in the first quartile.18 Phthalates during pregnancy also were associated with a higher risk for higher weight gain and glucose intolerance, which are both risk factors for gestational diabetes.19

While phthalate exposure through ingestion, inhalation, and dermal contact are considered important routes of exposure for the general population, recent research has uncovered a new exposure: ambient air.20 This adds another layer of complexity upon the concept of avoidance, as even if a person scrupulously avoids the use of phthalates from cosmetics and plastics, simply being in the vicinity of other phthalate emitters puts that person at risk. This has been borne out by a recent study that examined 23 cosmetics, four perfume, and nine clothing department clerks for changes in urinary phthalates pre and post-shift. Post-shift urinary levels of mono-2-ethylhexyl phthalate (MEHP- a metabolite of DEHP) and monomethyl phthalate (MMP-a metabolite of DMP) were significantly higher for the cosmetics and perfume clerks than for the clothing clerks. Median levels of air diethyl phthalate (DEP) in cosmetics (1.77 μg/m3) and perfume (1.75 μg/m3) groups and di-(2-ethylhexyl) phthalate (DEHP) in perfume group (6.98 μg/m3) were higher than those in clothing group (DEP: 0.89; DEHP: 2.16 μg/m3). Over half of cosmetic (70%) and perfume sale clerks had exceeded cumulative risk of phthalate exposure for anti-androgenic effect. The authors concluded that cosmetic and perfume workers had increased risks of reproductive or hepatic effects for DBP and DEHP exposure and suggest that not only inhalation but dermal exposure through ambient air is important route of phthalate exposure for cosmetics and perfume workers .21

BDNF EssentialsOriginally registered as a pesticide by the EPA, triclosan is a chlorinated aromatic compound that has been used as an antimicrobial agent since the 1970s. It has widespread use in consumer goods like anti-bacterial soaps, kitchen utensils, toys, bedding, and clothing, making it easy to see how 75% of people tested have been exposed.22 In personal care products, it enjoyed a near monopoly on the antimicrobial soaps for home use that came into fashion in the 1990s. The FDA banned triclosan for use in antimicrobial hand soaps in 2016 due to concern about its estrogenic and androgenic activities in vitro, and adverse effects reported on reproductive function in rodents and aquatic species, as well as not being found to be any more effective in neutralizing bacteria than plain soap and water. However, triclosan can still be found in other consumer products such as toothpaste. In more recent findings, triclosan is now being found in indoor air, with concentrations varying according to location; office space was the most contaminated, followed by apartment space, house space, and day nursery space.23

Page 1, 2

Consult your doctor before using any of the treatments found within this site.

Subscriptions are available for Townsend Letter, the Examiner of Alternative Medicine
magazine, which is published 10 times each year. Search our pre-2001 archives for further information. Older issues of the printed magazine are also indexed for your convenience.
1983-2001 indices ; recent indices. Once you find the magazines you'd like to order, please
use our convenient form, e-mail, or call 360.385.6021.


Fax: 360.385.0699

Who are we? | New articles | Featured topics | e-Edition |
Tables of contents
| Subscriptions | Contact us | Links | Classifieds | Advertise |
Alternative Medicine Conference Calendar | Search site | Archives |
EDTA Chelation Therapy | Home

© 1983-2019 Townsend Letter
All rights reserved.
Website by Sandy Hershelman Designs