PREVENTION OF MODEL STRATUM-CORNEUM LIPID PHASE-TRANSITIONS INVITRO BY COSMETIC ADDITIVES - DIFFERENTIAL SCANNING CALORIMETRY, OPTICAL MICROSCOPY, AND WATER EVAPORATION STUDIES

被引：0

作者：

MATTAI, J ^{[1
]}

FROEBE, CL ^{[1
]}

RHEIN, LD ^{[1
]}

SIMION, FA ^{[1
]}

OHLMEYER, H ^{[1
]}

SU, DT ^{[1
]}

FRIBERG, SE ^{[1
]}

机构：

[1] CLARKSON UNIV,CTR ADV MAT PROC,POTSDAM,NY 13676

来源：

JOURNAL OF THE SOCIETY OF COSMETIC CHEMISTS | 1993年 / 44卷 / 02期

关键词：

D O I：

暂无

中图分类号：

O69 [应用化学];

学科分类号：

081704 ;

摘要：

Two potential moisturizers (maleated soybean oil, identified here as Glyceridacid, and glycerol) were compared for their effects on the liquid crystalline phase of model stratum corneum lipids at 6% and 92% relative humidities (RH) using differential scanning calorimetry (DSC), water evaporation, and polarized light microscopy. DSC of the model lipid (32% water content) showed a broad endothermic transition at about 52-degrees-C, with an enthalpy of 15 J/g lipid. The enthalpy of the transition and water loss from the model lipid were time-dependent; at 6% RH, the enthalpy increased to 43 J/g lipid, with 29.5% water loss by 24 h. This suggests significant crystallization of the model lipid on dehydration, which was confirmed by microscopy. At 92% RH, both the changes in enthalpy and water loss were significantly reduced by 24 h, indicating maintenance of the liquid crystalline phase of the model lipid with very little crystallization. Incorporation of Glyceridacid (5-15 wt%) into the model lipid produced enthalpies between 17-21 J/g lipid after 24 h at 6% PH, with reduced water loss (20-26%). Therefore, Glyceridacid can function as a skin conditioner at low humidity by maintaining the liquid crystalline phase of the model lipid in addition to preventing water loss. Glycerol (10 wt%), a known skin conditioner in vivo, inhibited the crystallization of the model lipid, despite almost complete dehydration: enthalpy is 30 J/g lipid after 24 h with few solid crystals present. This suggests an alternative mechanism to humectancy for the moisturizing action of glycerol at low humidity, in agreement with our earlier investigation (4) of the model lipid/glycerol system by microscopy. The results clearly show the potential of DSC as a quantitative tool to monitor the phase behavior of the model lipid and its alteration by potential moisturizers, under different humidity conditions.

引用

页码：89 / 100

页数：12

共 7 条

[1] PREVENTION OF STRATUM-CORNEUM LIPID PHASE-TRANSITIONS INVITRO BY COSMETIC ADDITIVES - AN ALTERNATIVE MECHANISM FOR SKIN MOISTURIZATION
MATTAI, J
FROEBE, C
SIMION, FA
RHEIN, LD
OHLMEYER, H
FRIBERG, S
JOURNAL OF INVESTIGATIVE DERMATOLOGY, 1990, 95 (04) : 479 - 479
[2] STRATUM-CORNEUM LIPID PHASE-TRANSITIONS AND WATER BARRIER PROPERTIES
GOLDEN, GM
GUZEK, DB
KENNEDY, AH
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POTTS, RO
BIOCHEMISTRY, 1987, 26 (08) : 2382 - 2388
[3] PREVENTION OF STRATUM-CORNEUM LIPID PHASE-TRANSITIONS INVITRO BY GLYCEROL - AN ALTERNATIVE MECHANISM FOR SKIN MOISTURIZATION
FROEBE, CL
SIMION, FA
OHLMEYER, H
RHEIN, LD
MATTAI, J
CAGAN, RH
FRIBERG, SE
JOURNAL OF THE SOCIETY OF COSMETIC CHEMISTS, 1990, 41 (01): : 51 - 65
[4] BIOMEMBRANE PHASE-TRANSITIONS - STUDIES OF LIPID-WATER SYSTEMS USING DIFFERENTIAL SCANNING CALORIMETRY
CHAPMAN, D
URBINA, J
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JOURNAL OF BIOLOGICAL CHEMISTRY, 1974, 249 (08) : 2512 - 2521
[5] MAGNETIC-RESONANCE (1HNMR AND EPR) STUDIES OF LIPID PHASE-TRANSITIONS IN DRIED AND HYDRATED MURINE STRATUM-CORNEUM
REHFELD, SJ
SIMONIS, U
HOU, SYE
PLACHY, WZ
CLINICAL RESEARCH, 1991, 39 (02): : A541 - A541
[6] STUDIES OF LIPID PHASE-TRANSITIONS OF ESCHERICHIA-COLI BY HIGH SENSITIVITY DIFFERENTIAL SCANNING CALORIMETRY
JACKSON, MB
STURTEVANT, JM
JOURNAL OF BIOLOGICAL CHEMISTRY, 1977, 252 (14) : 4749 - 4751
[7] MAGNETIC-RESONANCE (H-1-NMR AND EPR) STUDIES OF LIPID PHASE-TRANSITIONS IN DRIED AND HYDRATED MURINE STRATUM-CORNEUM
REHFELD, SJ
SIMONIS, U
HOU, SYE
PLACHY, WZ
JOURNAL OF INVESTIGATIVE DERMATOLOGY, 1991, 96 (04) : 582 - 582

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