Philippe Vingler scite author profile

Philippe Vingler

5Publications

77Citation Statements Received

102Citation Statements Given

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140

Affiliations

L'Oréal (France)

Publications

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Exploration of scalp surface lipids reveals squalene peroxide as a potential actor in dandruff condition

Jourdain

Moga²,

Vingler

et al. 2016

Arch Dermatol Res

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Dandruff is a common but complex disorder with three major contributing factors: (1) individual predisposition, (2) scalp sebum and (3) Malassezia yeast colonization. To obtain further insights into the role of sebum in dandruff biogenesis, we analyzed scalp lipid species in a cohort of ten dandruff-free (control) and ten dandruff-afflicted volunteers by gas chromatography coupled to mass spectrometry. Lipid peroxidation levels and biochemical markers of oxidative stress were also assessed. Squalene, a major sebum component, was significantly more peroxidized in dandruff-affected scalps, resulting in significantly higher ratios of squalene monohydroperoxide (SQOOH)/squalene. This was observed when comparing dandruff-affected zones of dandruff subjects to both their non-affected zones and control subjects. In addition, other biomarkers such as malondialdehyde indicated that oxidative stress levels were raised on dandruff scalps. Surprisingly, differences regarding either free or bound fatty acids were fairly rare and minor. Certain novel findings, especially squalene peroxidation levels, were then confirmed in a validation cohort of 24 dandruff-affected subjects, by comparing dandruff-affected and non-dandruff zones from the same individuals. As SQOOH can induce both keratinocyte inflammatory responses and hyperproliferation in vitro, we hypothesized that increased SQOOH could be considered as a new etiological dandruff factor via its ability to impair scalp barrier function. Our results also indicated that Malassezia could be a major source of squalene peroxidation on the scalp.Electronic supplementary materialThe online version of this article (doi:10.1007/s00403-016-1623-1) contains supplementary material, which is available to authorized users.

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In vivo and in vitro metabolism of estrone and estradiol-17β and their 3-sulfates in pregnant female guinea-pigs: A plausible prehormone role of estrogen-sulfates in the maternal uterus

Adessi

Nhuan

Vingler³

1982

Journal of Steroid Biochemistry

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Direct quantitative digital autoradiography of testosterone metabolites in the pilosebaceous unit: an environmentally advantageous trace radioactive technology

Vingler¹,

Filthuth

Bague³

et al. 1993

Steroids

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6‐O glucose linoleate supports in vitro human hair growth and lipid synthesis

Vingler

Gautier

Dalko

et al. 2007

Intern J of Cosmetic Sci

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The hair follicle is a very active organ with a complex structure, which produces a hair fibre at a rate of 0.3 mm a day. Accordingly, the hair follicle is highly demanding in energy source, as the hair bulb matrix cells are endowed with one of the highest rates of proliferation in the human body. Moreover, recent data have shown the involvement of lipids in hair follicle function. As in vitro-grown hair follicle keeps producing a hair fibre that closely resembles the natural hair fibre, we decided to use this model to investigate the role of a new of glucose linoleate derivative (6-O-linoleyl-d-glucose: 6-O-GL) as a lipid precursor and energy provider. Our results demonstrated that 6-O-GL was (i) quite stable and surprisingly resistant to oxidative degradation, and (ii) readily taken up and metabolized by the hair follicle into various lipids, namely neutral lipids, ceramides and polar lipids. Moreover, it supported hair follicle growth and survival in a glucose- and linoleic-acid free medium. 6-O-GL thus appeared to be a bi-functional nutrient, ensuring both proper fibre quality and production by the hair follicle.

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Direct quantitative digital autoradiography—thin-layer chromatography of 3α,3β- and 5α-reduced and 17β-dehydrogenated androgens derived from testosterone metabolism

Vingler

Kermici

Krien

1991

Journal of Chromatography B: Biomedical Sciences and Applicatio

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