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Exploring the influence of skin perfusion on transepidermal water loss (2004)

Rodrigues, Luís Monteiro ; Pinto, Pedro Contreiras ; Magro, José Martins ; [et al.]

Oxford, UK : Munksgaard International Publishers

Skin research and technology 10 (2004), S. 0

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ISSN: 1600-0846

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Background: Eventual relationships between the vascular function and transepidermal water loss (TEWL), in vivo, have not been entirely explored. By promoting local perfusion alterations through a well-known challenge test, the ‘tourniquet-cuff occlusion’ manoeuvre, the present study searches for other dynamical factors influencing the cutaneous barrier, further exploring the applicability of these flow-related variables in dermatological research.Methods: By applying the tourniquet-cuff manoeuvre to a group of healthy volunteers (n=20), transcutaneous (tc) gases (pO2–pCO2), LDF (laser doppler flowmetry) and TEWL were considered as representing the dynamical aspects under study and measured non-invasively.Results and conclusion: An haemodynamical relationship between tcpO2 and LDF in the post-occlusive period was clearly identified, defining the autoregulatory index as a numerical descriptor of the local metabolic-flow adjustment under stress. TEWL was also significantly affected by the manoeuvre, especially during the post-occlusive period, although no significant relationships between TEWL and other tc variables could be found. The present findings seem to suggest that, under the present experimental conditions, local haemodynamics may also influence TEWL measurements and the skin barrier.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1111/j.1600-0846.2004.00080.x

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Quantitative description of human skin water dynamics by a disposition-decomposition analysis (DDA) of trans-epidermal water loss and epidermal capacitance (2003)

Rodrigues, Luis Monteiro ; Pinto, Pedro Contreiras ; Pereira, Luis Marcelo

Oxford, UK : Munksgaard International Publishers

Skin research and technology 9 (2003), S. 0

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ISSN: 1600-0846

Source: Blackwell Publishing Journal Backfiles 1879-2005

Topics: Medicine

Notes: Background: In vivo water assessment would greatly benefit from a dynamical approach since the evaluation of common related variables such as trans-epidermal water loss or “capacitance” measurements is always limited to instantaneous data. Mathematical modelling is still an attractive alternative already attempted with bi-exponential empirical models. A classical two-compartment interpretation of such models raises a number of questions about the underlying fundamentals, which can hardly be experimentally confirmed. However, in a system analysis sense, skin water dynamics may be approached as an ensemble of many factors, impossible to discretize, but conceptually grouped in terms of feasible properties of the system. The present paper explores the applicability of this strategy to the in vivo water dynamics assessment.Methods: From the plastic occlusion stress test (POST) skin water balance is assessed by modelling trans-epidermal water loss (TEWL) and “capacitance” data obtained at skin's surface. With system analysis (disposition-decomposition analysis) the distribution function, H(t), modelled as a sum of exponential terms, covers only the distribution characteristics of water molecules traversing the skin. This may correspond macroscopically to the experimental data accessed by “corneometry”. Separately, the hyperbolic elimination function Q(TEWL) helps to characterise the dynamic aspects of water influx through the skin.Discussion and conclusion: In the observable range there seems to be a linear relationship between the net amount of water lost at the surface by evaporation, and the capability of the system to replenish that loss. This may be a specific characteristic of the system related to what may be described as the skin's “intrinsic hydration capacity” (IHC) a new functional parameter only identified by this strategy. These new quantitative tools are expected to find different applicabilities (from the in vivo skin characterisation to efficacy testing) contributing to disclose the dynamical nature of the skin water balance process.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1034/j.1600-0846.2003.0343.x

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