Epidermal calcium release (ECR) in vivo sampled with a simple washout chamber technique

Background/aims: Epidermis forms the protective barrier of the skin by its outermost layer, stratum corneum. The purpose of this study was to investigate the epidermal barrier in view of epidermal calcium release (ECR), phosphate release, transepidermal water loss (TEWL) and skin surface pH. Calcium is mainly an intracellular ion. Calcium was sampled introducing a new and simple washout chamber technique for the study of epidermal release in vivo. Methods: Test sites on forearms of 13 healthy subjects were pre-treated with 24 h water occlusion, 24 h 2% sodium lauryl sulphate (SLS) or tape stripped. Both untreated and pre-treated test sites were exposed to a water washout chamber with 200µ deionized water as a solvent. Water washout chambers were removed after two hours and calcium and phosphate in the water was analyzed. Transepidermal water loss and pH were measured before and after the trial. Results: pH increased after tape stripping and after exposure to SLS. Transepidermal water loss increased significantly at all test sites. Calcium was significantly released from SLS-treated sites but not from tape stripped sites. There was generally a correlation between ECR, phosphate release, TEWL and pH. In this study ECR is showed to be a barrier marker of high reproducibility. Conclusions: Epidermal calcium release or ECR is found useful as an indicator of skin barrier function. Calcium release and increase of pH appear mainly to illustrate direct and corrosive damage to epidermal cells and functions contrasting TEWL, in this experiment probably reflecting intercellular damage of fracturing as exemplified by mechanical damage resulting from surface stripping. This new distinction of skin barrier damage into cellular damage resulting from a corrosive chemical trauma and intercellular damage and fracturing resulting from a mechanical trauma is exemplified in SLS provocative testing and tape stripping, the former characterized by increased ECR. The washout chamber technique was deemed technically reliable and reproducible, and has a major potential in experimental dermatology and skin pharmacology for the study of in vivo epidermal release of a range of endogenous and exogenous substances.     

Impact of ultraviolet radiation and ozone on the transepidermal water loss as a function of skin temperature in hairless mice

Exposure to ultraviolet radiation or ozone leads to skin damage including oxidation of skin biomolecules, as well as to depletion of constitutive antioxidants. The highly organized stratum corneum forming the main barrier against most xenobiotics is particularly susceptible to such damage and possible barrier perturbation may be the consequence. Whereas ample evidence exists for an increased permeability for different solutes including water after exposure to ultraviolet radiation, such an effect has not yet been reported for ozone. This study reports on the effect of such oxidative stressors using the hairless mouse as the skin model and measuring temperature-controlled transepidermal water loss (TEWL) as an indicator for skin barrier integrity. First, a strong dependency of the TEWL on skin temperature was observed, an effect that was clearly more pronounced than that found in man. Given this temperature dependency in untreated animals, we proceeded to determine the effects of both ultraviolet radiation and ozone on TEWL over a relevant physiological skin temperature range. Solar-simulated ultraviolet radiation (0.75-3 minimal erythemal dose) resulted in a delayed and dose-dependent skin barrier disruption over the entire temperature range investigated. Conversely, daily ozone exposure at 2 ppm for 1 week, however, did not significantly alter TEWL up to 72 h after the last exposure. The results demonstrate a differential response of the epidermis to two environmental stressors associated with oxidative damage; they suggest that chronic ozone exposure at relevant environmental levels does not lead to a detectable skin barrier defect, while solar UV exposure was demonstrated to increase epidermal water loss. Furthermore, experimental evidence clearly suggests that future studies applying TEWL measurements in animal models should be performed under carefully controlled skin temperature conditions.     

An evaluation of Na+,Cl− and pH ion-specific electrodes in the study of the electrolyte contents of epidermal transudate and sweat

Ion-specific electrode detectors have been used to measure electrolytes in various biological fluids, including sweat. As part of a study of skin barrier function, we have used such electrodes to detect the presence of sodium, chloride and hydrogen (pH) in the transepidermal water loss. This paper describes the effects of cellophane tape stripping (of human forearm epidermis in vivo) on surface electrolyte concentrations, in parallel with observations on transepidermal water loss and galvanic skin resistance.     

Comparison of barrier function and lipids in psoriasis and essential fatty acid-deficient rats

Elevated rates of transepidermal water loss (TEWL) in plaques of human psoriasis and in the skin of essential fatty acid (EFA)-deficient rats were compared. Cutaneous application of sunflower seed oil to EFA-deficient rats lowered the rate of TEWL to normal, healed the characteristic scaly skin of this condition and increased the incorporation of linoleic acid of the sunflower seed oil into epidermal phospholipid. Application of sunflower seed oil to psoriatic skin did not lower the TEWL, nor produce clinical improvement, but the linoleic acid of epidermal phospholipid was increased. Local application of a steroid ointment, clobetasol propionate (Dermovate) reduced the elevated TEWL in psoriasis and produced clinical improvement, but had no effect upon skin or plasma lipids. Application of this steroid to EFA-deficient rat skin cleared the skin scaliness but did not restore barrier function or change the composition of the skin lipids. It is concluded that the impaired barrier function in psoriasis is not due to EFA-deficiency.     

Permeability barrier function of skin exposed to ionizing radiation

OBJECTIVE: To characterize the epidermal permeability barrier function of skin during exposure to ionizing radiation. DESIGN: A prospective cohort study. SETTING: University hospital medical center. PATIENTS: Fifteen women receiving local radiation therapy (5000-6000 rad [50-60 Gy]) following breast-conserving surgery for breast cancer. MAIN OUTCOME MEASURES: Clinical symptoms and transepidermal water loss (TEWL). RESULTS: Epidermal permeability barrier function is impaired in patients who exhibit clinical signs of radiation dermatitis. The functional damage to the stratum corneum induced by ionizing radiation occurs with a delayed course, starting within a mean period of 11 days and reaching maximal values after a mean period of 27 days (range, 13-75 days). The onset of TEWL increase precedes the onset of radiation dermatitis and the maximal TEWL measurements precede the peak of skin changes. Patients with an early onset of TEWL increase show a longer duration of skin symptoms. CONCLUSIONS: Skin changes caused by radiation dermatitis are associated with an increase in TEWL. The barrier impairment is comparable to the changes observed with UV radiation exposure but exhibits an even more delayed course. Our results suggest that preservation of the epidermal permeability barrier function by topical treatment may ameliorate radiation dermatitis.     

Transepidermal water loss in dry and clinically normal skin in patients with atopic dermatitis

To obtain data on the function of the epidermal barrier in patients with atopic dermatitis (AD) the transepidermal water loss (TEWL) was studied. Measurements were made on three body locations in two clinically well defined groups of patients with AD and in a control group. The TEWL was found to be increased both in dry non-eczematous skin and in clinically normal skin in patients with AD. The TEWL was highest in patients with dry skin. The result of the study may indicate a primary defect in the epidermal barrier: the stratum corneum.     

Effects of prolonged occlusion on stratum corneum barrier function and water holding capacity.

PURPOSE OF THE STUDY: We aimed to evaluate whether prolonged occlusion can induce stratum corneum barrier damage, alterations in stratum corneum hydration or water-holding capacity (WHC) lasting longer than the occlusion time. MATERIALS AND METHODS: 12 subjects were occluded on the forearm for 24, 48, 72 and 96 h. Two hours after occlusion removal, transepidermal water loss (TEWL) and skin hydration were measured and a sorption-desorption test performed. RESULTS: TEWL showed an increase reaching a plateau on day 2. Hydration and WHC did not show significant changes. Hygroscopicity showed the highest level on day 1, decreasing during the following days. A highly significant correlation between capacitance values and the WHC could be detected (p < 0.0001, r = 0.8206). No correlation could be detected between hygroscopicity and TEWL. CONCLUSIONS: Prolonged occlusion induces barrier damage without skin dryness. Occlusion also induces an increased hygroscopicity. A correlation between these two findings could not be proven.     

Standardized trauma (tape stripping) in human vulvar and forearm skin. Effects on transepidermal water loss, capacitance and pH.

Mechanical trauma to genital skin may favor the transmission of sexually transmitted diseases. To study differences between vulvar and forearm skin in epidermal repair after standardized trauma, transepidermal water loss, capacitance and pH of forearm and vulvar skin in 10 healthy premenopausal women were monitored for 7 days after a standardized trauma induced by tape stripping to glistening. Vulvar and forearm skin showed similar responses immediately after tape stripping: a sudden increase in transepidermal water loss and capacitance. Forearm skin, however, reacted more intensely than vulvar skin; forearm skin readings remained significantly higher than normal values for 2 days after tape stripping, whereas vulvar skin readings were not significantly different from normal. Thus, vulvar skin did not respond as extensively as forearm skin, presumably because it is a less complete barrier against excess body water loss. On the other hand, vulvar skin seemed to recover faster from skin damage than forearm skin, probably because of its higher epidermal cell turnover.     

Skin permeability barrier and occlusion: no delay of repair in irritated human skin *

It has been reported that occlusive treatment of irritated skin results in a reduction of barrier repair activities in hairless mice. In contrast, the clinically observed benefit of occlusion in the treatment of hand eczema and other chronic skin diseases with a perturbed barrier function is well–known. While the beneficial effect of occlusion has been proven for the treatment on psoriasis there are no controlled clinical studies of the effect of occlusion on irritated human skin. We have therefore evaluated the effect of various occlusive treatments on repair of the human skin permeability barrier under controlled experimental conditions. Barrier perturbation was induced either by application of sodium lauryl sulfate (SLS) or by repeated tape stripping. This was followed by treatment with different occlusive and semipermeable dressings, partly alter pre-treatment with petrolatum. Repair of water barrier function was evaluated by daily measurements of transepidermal water loss (TEWL) for 1 week. SLS irritation and tape stripping led to a 6-fold increase in TEWL as a sign of severe water barrier perturbation, followed by a stepwise decrease over the following days. Occlusion did not significantly delay barrier repair as measured by TEWL. Only in tape-stripped skin did TEWL stay at high levels during treatment with self-adhesive dressings. This may be explained by damage of newly formed stratum corneum caused by changing of these membranes. Our results indicate that, in contrast to earlier observations in hairless mouse skin, permeability barrier repair activities are not significantly delayed by occlusive treatment in human skin.     

Influence of skin type, race, sex, and anatomic location on epidermal barrier function

The intact skin represents a barrier to the uncontrolled loss of water, proteins, and plasma components from the organism. Owing to its complex structure, the epidermal barrier with its major layer, the stratum corneum, is the rate-limiting unit for the penetration of exogenous substances through the skin. The epidermal barrier is not a static structure. The status of different functions of the epidermis can be monitored by assessing specific biophysical parameters such as transepidermal water loss, stratum corneum hydration, and skin surface pH. Variables originating from the individual as well as exogenous factors have an important influence on the epidermal barrier parameters.     

【开放获取】皮肤干燥是通透屏障功能受损的表现吗？

【摘要】 有学者认为,皮肤干燥是表皮通透屏障功能受损的表现,但目前尚没有足够的证据证明这一观点。实际上,皮肤干燥是角质层含水量降低的表现。角质层含水量主要由角质层天然保湿因子的量决定,而表皮通透屏障功能则主要由角质层脂质的质和量以及结构蛋白决定。如果皮肤干燥是由表皮通透屏障功能降低所致,那么,角质层含水量应当与透皮失水率呈负相关性。但是研究表明,无论是正常人皮肤、鱼鳞病皮损或皮脂腺缺乏的小鼠皮肤,角质层含水量与透皮失水率均无负相关性。相反,有研究显示,人角质层含水量与透皮失水率呈正相关性。因此,皮肤干燥似乎不是表皮通透屏障功能受损的表现。     

特应性皮炎患儿与健康儿童皮肤屏障功能的对比

目的探讨特应性皮炎(AD)患儿与健康儿童皮肤屏障功能的差异。方法 0～7岁的AD患儿和健康儿童各60名,根据不同年龄段分成2组,0～2岁组和2～7岁组各30例。依次进行角质层含水量、pH值、经表皮水分丢失量(TEWL)的测量,使用SPSS13.0统计软件分析。结果 0～2岁、2～7岁AD患儿与健康儿童比较,角质层含水量除前臂无差异外,前额和颊前均明显低于健康对照组;皮肤表面pH值均明显高于健康对照组;0～2岁的AD患儿TEWL值除前臂无差异外,前额和颊前均明显高于健康对照组,而2～7岁AD患儿TEWL值均明显高于健康对照组。结论 AD患儿与健康儿童比较,皮肤屏障功能存在障碍。表现为角质层含水量、皮肤表面pH值、TEWL值有不同程度的差异。     

Anti-inflammatory effect of pimecrolimus in the sodium lauryl sulphate test

Background Pimecrolimus is a calcineurin inhibitor used for the topical treatment of inflammatory skin diseases. We have shown previously that pimecrolimus cream is not effective on intact skin in the ultraviolet erythema test. Objective To test the anti‐inflammatory effect of pimecrolimus cream after damage of the skin barrier by sodium lauryl sulphate (SLS) in a randomised, placebo‐controlled, observer‐blinded study. Methods SLS (3% v/v) was applied under occlusion on the back of 36 healthy volunteers for 24 h. Subsequently, the test areas were treated for 24 h with pimecrolimus cream, 1% hydrocortisone in a hydrophilic ointment, and the vehicle alone over three consecutive days. One control area remained untreated. The erythema index and the transepidermal water loss (TEWL) served as readout parameters to assess the SLS‐induced skin irritation. Results Pimecrolimus cream and 1% hydrocortisone cream significantly reduced the SLS‐induced erythema. The two test preparations did not have a significant effect on the TEWL. Conclusion After damage to the skin barrier by SLS, pimecrolimus seems to penetrate into the skin as shown by a reduction of the irritation‐induced erythma. These data further support the notion that pimecrolimus is selectively effective in the treatment of skin disorders with an impaired function of the epidermal barrier.     

Oral administration of Bifidobacterium breve attenuates UV-induced barrier perturbation and oxidative stress in hairless mice skin

Recent studies have shown that some probiotics affect not only the gut but also the skin. However, the effects of probiotics on ultraviolet (UV)-induced skin damage are poorly understood. In this study, we aim to examine whether oral administration of live Bifidobacterium breve strain Yakult (BBY), a typical probiotic, can attenuate skin barrier perturbation caused by UV and reactive oxygen species (ROS) in hairless mice. The mice were orally supplemented with a vehicle only or BBY once a day for nine successive days. Mouse dorsal skin was irradiated with UV from days 6 to 9. The day after the final irradiation, the transepidermal water loss (TEWL), stratum corneum hydration, and oxidation-related factors of the skin were evaluated. We elucidated that BBY prevented the UV-induced increase in TEWL and decrease in stratum corneum hydration. In addition, BBY significantly suppressed the UV-induced increase in hydrogen peroxide levels, oxidation of proteins and lipids, and xanthine oxidase activity in the skin. Conversely, antioxidant capacity did not change regardless of whether BBY was administered or not. In parameters we evaluated, there was a positive correlation between the increase in TEWL and the oxidation levels of proteins and lipids. Our results suggest that oral administration of BBY attenuates UV-induced barrier perturbation and oxidative stress of the skin, and this antioxidative effect is not attributed to enhancement of antioxidant capacity but to the prevention of ROS generation.     

Functional assessment of a washing emulsion for sensitive skin: mild impairment of stratum corneum hydration, pH, barrier function, lipid content, integrity and cohesion in a controlled washing test

BACKGROUND/PURPOSE: Sensitive skin has been described as a skin type with higher reactivity than normal skin and exaggerated reactions to external irritants. Washing with soaps is harmful for barrier-related parameters. Cutaneous irritation induced by cleansing products under exaggerated test conditions, e.g. patch testing, is not necessarily predictive of the irritation occurring under standardized daily use conditions. The purpose of the study was to assess the effect of an improved washing solution for sensitive skin in a half-site comparison on barrier-related parameters. METHODS: Thirty healthy volunteers with self-reported sensitive and so-called problematic skin performed standardized washings with a soap-free washing emulsion with mild acidity (pH 5.5) for 3 weeks. Test areas were both forearms and the cheek. Non-invasive biophysical measurements of the following skin parameters, epidermal permeability barrier function measured as transepidermal water loss (TEWL), stratum corneum (SC) hydration, pH value, skin surface lipids, skin temperature and SC integrity/cohesion, were assessed prior to the first washing, on days 7, 14 and 21 after beginning the washing procedure. SC cohesion was quantified using two independent methods on D-Squame tapes: optical spectroscopy measuring the absorbance and a protein assay assessing the total protein (Bradford). Both methods showed a good correlation. SC integrity was quantified by measuring TEWL after sequential stripping with D-Squame tapes. RESULTS: The use of the washing emulsion led to a mild damage of the epidermal permeability barrier function with no marked difference to water application. Furthermore, a mild but significant dehydration was assessed after 21 days vs. baseline without any differences between the water-treated and the washing emulsion-treated forearm. On the cheek no dehydration was detectable but the lipid content was reduced under the washing emulsion. The pH value increased in all three test areas after 21 days, again without significant differences between water and the washing solution. SC cohesion was quantified using two independent methods on D-Squame tapes: optical spectroscopy measuring the absorbance and a protein assay assessing the total protein (Bradford). Both methods showed a good correlation. The SC cohesion decreased after 21 days on the water-treated as well as on the washing emulsion-treated arm. The decrease over time was significant when used the optical spectroscopy measuring. A standardized questionnaire revealed positive characteristics of the washing emulsion and good acceptance. CONCLUSION: The investigated standardized washing model with the endpoints epidermal barrier function, SC hydration, surface pH, skin surface lipids, skin temperature and SC integrity/cohesion showed only mild damage comparable to washing with water.     

The water barrier function of the skin in relation to the water content of stratum corneum, pH and skin lipids. The effect of alkaline soap and syndet on dry skin in elderly, non-atopic patients

Clinical dryness of the skin is a common problem among elderly, dermatological patients. In the present investigation, hydration, surface lipids, skin pH and water barrier function as expressed by the transepidermal water loss (TEWL) were studied in both dry and normal skin. Using these parameters, a comparison of the local effects of acid and alkaline cleansing products was made. In non-atopic elderly patients with dry skin, the TEWL values were lower than in the younger control group but higher than in the older controls. Following one week's topical therapy, the TEWL values in the patient group decreased further and approached the lower values of the older control group. At the same time the skin hydration values increased, indicating a beneficial effect on the skin barrier. An inverse relationship was demonstrated between TEWL and skin hydration. The study indicates that high TEWL values are frequently correlated with high pH, low hydration of the stratum corneum and reduced skin surface lipid content. Despite the intensive use of an acid syndet and lotion, the pH-readings increased but were still within the 'confidence limits' of the control groups.     

Olopatadine hydrochloride accelerates the recovery of skin barrier function in mice

BACKGROUND: The skin barrier function in patients with atopic dermatitis is disrupted and prolonged topical steroid therapy produces epidermal barrier disturbance. Olopatadine hydrochloride (olopatadine; Allelock; Kyowa Hakko Kogyo Co., Ltd, Shizuoka, Japan) is an antiallergic drug with histamine H(1) receptor antagonistic action. This drug alleviates skin inflammation and decreases the number of scratching episodes in a murine model of chronic contact dermatitis. OBJECTIVES: To investigate the effects of olopatadine and a steroid on the recovery of skin barrier function after barrier disruption in mice. METHODS: The skin barrier of the ears of mice was disrupted by tape stripping. The recovery of skin barrier function was monitored by measurement of transepidermal water loss (TEWL) after barrier disruption. Epidermal hyperplasia was induced by repeated tape stripping for 7 days. Olopatadine was administered orally once daily from 3 days before the first barrier disruption. Betamethasone 17-valerate (betamethasone) was applied topically once daily from 3 days before barrier disruption. RESULTS: Tape stripping led to a significant increase in TEWL. TEWL decreased with time after tape stripping and the skin barrier function recovered by over 60% within 9 h after tape stripping. The recovery of skin barrier in olopatadine-treated mice was significantly accelerated, compared with that in vehicle-treated mice. In contrast, the skin barrier recovery in mice treated with topical betamethasone was significantly delayed, compared with that in vehicle-treated mice. Combined treatment with olopatadine and betamethasone ameliorated the delay in barrier recovery induced by topical treatment with betamethasone. In addition, olopatadine significantly prevented the increase in epidermal thickness induced by prolonged barrier disruption. CONCLUSIONS: These results suggest that systemic administration of olopatadine accelerates the recovery of skin barrier function and ameliorates the adverse effects of topical steroids on skin barrier recovery.     

A topical lipophilic niacin derivative increases NAD, epidermal differentiation and barrier function in photodamaged skin

The effects of myristyl nicotinate (MN), a nicotinic acid derivative designed to deliver nicotinic acid to skin without vasodilatation, on subjects with photodamaged skin have been studied. MN increased skin cell nicotinamide adenine dinucleotide (NAD) by 25% (P = 0.001) demonstrating effective delivery of nicotinic acid to skin. Relative to placebo, MN treatment of photodamaged facial skin increased stratum corneum thickness by approximately 70% (P = 0.0001) and increased epidermal thickness by approximately 20% (P = 0.001). In two separate studies, MN treatment increased rates of epidermal renewal by 6% (P = 0.003) to 11% (P = 0.001) and increased the minimal erythemal dose by 8.9 (P = 0.07) and 10% (P = 0.05) relative to placebo. MN treatment resulted in reductions in the rates of transepidermal water loss (TEWL) of approximately 20% relative to placebo on cheeks (P = 0.012) and arms (P = 0.017) of study subjects. Results of a tape stripping challenge before and after MN treatment demonstrated a significant correlation (P = 0.03) between increased skin NAD content and resistance to changes in TEWL for MN treated but not placebo subjects. Rates of TEWL changed more rapidly and to a greater extent in atopic subjects compared with normal subjects. The results indicate that MN enhances epidermal differentiation and barrier function in skin, suggesting that this method of nicotinic acid delivery may prove useful in limiting progression of actinic skin damage and possibly in treating other conditions involving skin barrier impairment.     

Disruption of barrier function in dermatophytosis and pityriasis versicolor

Dermatophytes have the ability to form molecular attachments to keratin and use it as a source of nutrients, colonizing keratinized tissues, including the stratum corneum of the skin. Malassezia species also affect the stratum corneum of the skin. Therefore, dermatophytosis and pityriasis versicolor of the skin are thought to be important factors of profound changes in skin barrier structure and function. We aimed to describe the changes in transepidermal water loss (TEWL), stratum corneum hydration, and skin pH in the lesions of the dermatophytosis and pityriasis versicolor. Thirty-six patients with dermatophytosis (14 with tinea cruris, 13 with tinea corporis and nine with tinea pedis or tinea manus) and 11 patients with pityriasis versicolor were included in this study. TEWL, stratum corneum conductance and skin pH were determined by biophysical methods to examine whether our patients exhibited changes in barrier function. Dermatophytosis and pityriasis versicolor except tinea pedis and tinea manus showed highly significant increase in TEWL compared with adjacent infection-free skin. Hydration was significantly reduced in lesional skin compared with adjacent infection-free skin. From this study, infections with dermatophytes and Malassezia species on the body can alter biophysical properties of the skin, especially the function of stratum corneum as a barrier to water loss. On the contrary, infections with dermatophytes on the palms and soles little affect the barrier function of the skin.     

含透明质酸及白藜芦醇成分护肤品对干性皮肤屏障功能的影响

目的研究含有透明质酸和白藜芦醇的安特柔产品对于干性皮肤屏障功能的影响及保湿效果。方法入选皮肤中度干燥的女性受试者32例,采用自身左右对照的方法,比较安特柔沐浴洗发露与普通洁肤香皂清洁后皮肤屏障功能的差别,遂后使用安特柔保湿霜,观察6 h后及连续试用产品1周后皮肤屏障功能指标的变化。结果相比普通洁肤香皂清洁,安特柔产品清洁后皮肤经皮水分丢失(TEWL)不但没有升高反而下降(P0.05),pH值升高程度低于普通洁肤香皂(P0.05),角质层含水量轻微增加但差异无统计学意义(P=0.480);安特柔保湿霜单次使用后6 h,身体左右两侧皮肤角质层含水量均明显提高、TEWL下降,与基线相比P0.05,皮肤p H值均恢复到基线水平(P=0.094)。连续使用安特柔沐浴洗发露和保湿霜1周后,角质层含水量较基线进一步增加,较单次使用后6 h也有轻度的增加(P0.05);TEWL继续下降,p H值继续维持在偏酸范围内。连续使用1周后干性皮肤者皮肤的光滑度、干燥度和脱屑等均有显著改善;受试者自我评价50%的人认为皮肤的光滑度、干燥度、瘙痒和鳞屑有中度以上改善。结论安特柔系列产品具有很好的保湿效果和帮助屏障功能恢复的作用,单次使用后6 h仍有效,长期使用能很好地改善皮肤干燥。