Re: Skin physiology

[Guest guest]

>Which ingredients are truly known to penetrate the epidermis,

>and/or assist the skin/body in some way?

I do not knowing use raw materials that will penetrate below the

Stratum Corneum.

I think using a raw material that penetrates below the Stratum Corneum

is a dangerous thing.

> I hear all kinds of

>anecdotal stories about emu oil carrying actives into the skin, and

>similar things, but what ingredients are really useful?

I've heard many claims but little or no substantiation. Emu Oil would

probably be banned from cosmetics if anyone could prove that it

penetrated below the Stratum Corneum.

> For example,

>do vitamins absorb into the skin? Plant actives? Other chemicals?

Dimethyl Sulfoxide (DMSO) penetrates into the blood stream in a matter

of minutes.

Maurice

--------------------------------------------------------

Maurice O. Hevey

Convergent Cosmetics, Inc.

http://www.ConvergentCosmetics.com

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[Guest guest]

Sherry,

Actually, phytosterols and EFA do penetrate the skin. The outer

layer of skin is meant to keep moisture in the skin - it does this

by being very impermeable to water. Therefor, water based products

do not penetrate the skin, however, fat soluble components are able

to pass through the cells very effectively. This is because the

membrane of the cell is made of fat. If this were not true, drugs

like estrogen, would not effectively be transmitted through the skin

using " the patch "

Sagescript Institute, LLC

Microbiology Assays

http://www.sagescript.com

> It's not that I necessarily want anything to penetrate the skin,

I'm

> just wondering how things such as phytosterols and EFAs work if

they

> are just laying on top of the skin and not penetrating it?

>

> Just being a devil's advocate...

> Sherry Boester

> Wildwood BodyWorks

..

[Guest guest]

membrane of the cell is made of fat. If this were not true, drugs

like estrogen, would not effectively be transmitted through the skin

<Thank you very much,

Coral

[Guest guest]

>Actually, phytosterols and EFA do penetrate the skin.

Do you have any literature citations to support that statement?

Maurice

--------------------------------------------------------

Maurice O. Hevey

Convergent Cosmetics, Inc.

http://www.ConvergentCosmetics.com

-------------------------------------------------------

[Guest guest]

Maurice,

Well, we know that the skin barrier is due to cholesterol, fatty

acids and ceramide - there are many reviews that tell us that, here

is one:

Acta Derm Venereol Suppl (Stockh). 2000;208:7-11. Related

Articles, Links

Lipids and barrier function of the skin.

Wertz PW.

Dows Institute University of Iowa, Iowa City 52242, USA. philip-

wertz@...

The purpose of the present manuscript is to review the chemical

and physical properties of epidermal lipids and to relate these

properties to the formation and function of the permeability barrier

of the skin. Lipids accumulate in small organelles known as lamellar

granules as epidermal keratinocytes differentiate. This lipid is

extruded into the intercellular spaces where it undergoes enzymatic

processing to produce a lipid mixture consisting of ceramides,

cholesterol and fatty acids. This intercellular lipid is uniquely

organized into a multilamellar complex that fills most of the

intercellular space of the stratum corneum. The barrier properties

of the stratum corneum are related to the phase behavior of the

intercellular lipids. It has been proposed that a structurally

unusual acylglucosylceramide is thought to be involved in assembly

of the lamellar granules, and a related acylceramide may have a

major influence on the organization of the lamellae in the stratum

corneum.

As chemists we also know that like dissolves like; so logically,

fatty acids would be soluble in the fatty acids of the skin. I don't

think a literature citation is necessary for that. However, here is

one that demonstrates that EFAs improve the permeability of other

drugs:

Int J Pharm. 2003 Aug 11;261(1-2):165-9.

The in vitro delivery of NSAIDs across skin was in proportion to the

delivery of essential fatty acids in the vehicle--evidence that

solutes permeate skin associated with their solvation cages?

Heard CM, Gallagher SJ, Harwood J, Maguire PB.

Welsh School of Pharmacy, Cardiff University, CF10 3XF, Cardiff, UK.

heard1@...

As part of our investigations into novel dual action topical anti-

arthritis systems, the permeation of ibuprofen or ketoprofen plus

eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA) were

determined from a fish oil vehicle across pig ear skin in vitro. The

steady state fluxes of ibuprofen and ketoprofen were 9.17+/-1.98

microgram cm(-2)h(-1) and 6.12+/-2.39 microgram cm(-2)h(-1),

respectively. At 24h, 5.7 microgram cm(-2) EPA and 3.1 microgram cm(-

2) DHA permeated when the solute was ibuprofen; 1.4 microgram cm(-2)

EPA and 1.0 microgram cm(-2) DHA when ketoprofen was the solute. At

12h, the ketoprofen/ibuprofen ratio of the moles permeated was 0.27,

the ratio of EPA permeated simultaneously with ketoprofen and

ibuprofen was 0.22 and the ratio of DHA permeated simultaneously

with ketoprofen and ibuprofen was 0.24. We believe this is the first

time that simultaneous permeation across skin of a solute and its

vehicle has been determined purposefully. The data successfully

demonstrated that simultaneous permeation of NSAIDs and essential

fatty acids, EPA and DHA from a formulation containing fish oil is

feasible. In addition, for both NSAIDs, the relative rates of

permeation of EPA and DHA, were in proportion to their levels in the

fish oil and the permeation rate of either fatty acid was higher

when the permeation rate of the solute was greater. This suggested

that the greater the rate of permeation of the NSAID, the greater

the rate of permeation of the vehicle, and that a solute permeates

skin complete with its vehicular solvation cage. This apparent

relationship between solute and vehicle fluxes may be of more

widespread significance to skin permeation experimentation.

Here are a few citations for phytosterols; interstingly they go both

ways - outside to inside and inside to outside.

Biol Pharm Bull. 1996 Apr;19(4):573-6. Related Articles, Links

Inhibitory effects of sterols isolated from Chlorella vulgaris on 12-

0-tetradecanoylphorbol-13-acetate-induced inflammation and tumor

promotion in mouse skin.

Yasukawa K, Akihisa T, Kanno H, Kaminaga T, Izumida M, Sakoh T,

Tamura T, Takido M.

College of Pharmacy, Nihon University, Japan.

Inhibitory activity against 12-O-tetradecanoylphorbol-13-acetate

(TPA)-induced inflammation in mice was observed in the methanol

extract of Chlorella vulgaris, a green alga. The hexane soluble

fraction obtained from the methanol extract exhibited marked

inhibitory activity from which were isolated two delta(5,7)-sterols

(ergosterol and 7-dehydroporiferasterol), two delta(5,7,9(11))-

sterols [7,9(11)-dehydroergosterol and 7,9(11)-

bisdehydroporiferasterol], two 5 alpha, 8 alpha-epidioxy-delta(6)-

sterols (ergosterol peroxide and 7-dehydroporiferasterol peroxide),

and a 7-oxo-delta(5)-sterol (7-oxocholesterol), among others. The

delta 5'7-sterols, 5 alpha, 8 alpha-epidioxy-delta(6)-sterols and 7-

oxo-delta 5-sterol inhibited TPA-induced inflammation in mice. The

50% inhibitory dose of these compounds for TPA-induced inflammation

was 0.2-0.7 mg/ear. Furthermore, ergosterol peroxide markedly

inhibited the tumor-promoting effect of TPA in 7,12-dimethylbenz[a]

anthracene-initiated mice.

Oncology. 1991;48(1):72-6. Related Articles, Links

Sterol and triterpene derivatives from plants inhibit the effects of

a tumor promoter, and sitosterol and betulinic acid inhibit tumor

formation in mouse skin two-stage carcinogenesis.

Yasukawa K, Takido M, Matsumoto T, Takeuchi M, Nakagawa S.

College of Pharmacy, Nihon University, Chiba, Japan.

A single topical application of 1 microgram of 12-O-

tetradecanoylphorbol- 13-acetate (TPA) to the ears of mice was shown

to induce edema, and this TPA-induced inflammation was inhibited by

4-methylsterol and triterpene derivatives. The ED50 of these

compounds against TPA-induced inflammation was 0.1-3 mumol.

Phytosterols had only slight inhibitory effects. Furthermore,

application of 5 micrograms TPA to mouse skin rapidly caused

accumulation of ornithine decarboxylase (ODC). Similarly, sitosterol

and lupane-type triterpene derivatives markedly inhibited this TPA-

induced ODC accumulation. In addition, 5 mumol betulinic acid

markedly inhibited the promoting effect of 2.5 micrograms TPA

applied twice weekly on skin tumor formation in mice initiated with

50 micrograms of 7,12-dimethylbenz[a]anthracene, and 5 mumol of

sitosterol caused slight suppression. Thus, the inhibitory effects

of sterol and triterpene derivatives on TPA-induced inflammation

roughly parallelled their inhibitory activities against tumor

promotion.

J Invest Dermatol. 1983 Apr;80(4):294-6. Related Articles,

Links

The origin of plant sterols in the skin surface lipids in humans:

from diet to plasma to skin.

Bhattacharyya AK, Connor WE, Lin DS.

To test the hypothesis that plant sterols found in the skin surface

lipids of humans originated from diet after their absorption from

intestine into plasma and then transferred to skin, we studied the

24-h excretion of plant sterols and cholesterol from skin and in

feces in a hyperlipoproteinemic (type IIa) patient fed formula diets

providing varying quantities of plant sterols (0-30 g/day) and

cholesterol (0-1000 g/day). Upon feeding a sterol-free diet, the

beta-sitosterol excretion from the skin decreased progressively,

from about 6 mg/day to 0.08 mg/day by 83 days and then completely

disappeared. With addition of plant sterols (about 30 g/day) to the

diet, beta-sitosterol reappeared in the skin surface lipids and rose

to nearly 5 mg/day by 6 weeks. With feeding of the sterol-free diet,

the fecal excretion of beta-sitosterol and the 2 other plant sterols

decreased gradually and by week 4 disappeared completely from the

feces and continued to be absent from the feces as long as the diet

was free of plant sterols. The results demonstrated clearly that

plant sterols which were absorbed into the plasma from the diet were

excreted into the skin surface lipids after being transferred from

the plasma to the skin.

I actually didn't think it was anything questionable that I said. We

are all aware that drugs can be delivered through the skin. For

instance; nicotine patch, nitroglycerin patch, estradiol patch,

lidocaine patch, scopalamine patch . .

What these drugs have in common is that they are lipid soluble which

allows them to go through the skin. There is also much research

going on to try to encapsulate drugs that are not lipid soloble into

lipid micells (spheres) that will carry these water soluble drugs

through the skin.

cindy jones

> >Actually, phytosterols and EFA do penetrate the skin.

> Do you have any literature citations to support that statement?

> Maurice