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Start Over Descriptor "Skin/metabolism" Journal journal of investigative dermatology
84 results on '"Skin/metabolism"'

1. Dermatopharmacokinetic Prediction of Topical Drug Bioavailability In Vivo

Author

Richard H. Guy, Yogeshvar N. Kalia, Jonathan Hadgraft, Christophe Herkenne, and Aarti Naik

Subjects
Adult, Male, Absorption (pharmacology), Drug, Administration, Topical, media_common.quotation_subject, Biological Availability, Ibuprofen, Dermatology, Pharmacology, Biochemistry, Absorption, Pharmacokinetics, Predictive Value of Tests, In vivo, medicine, Stratum corneum, Humans, Skin/metabolism, Surgical Tape, Molecular Biology, Skin, media_common, ddc:615, Transepidermal water loss, Chromatography, business.industry, Ibuprofen/administration & dosage/pharmacokinetics, Cell Biology, Middle Aged, Bioavailability, Solutions, Forearm, medicine.anatomical_structure, Female, Epidermis, business, Epidermis/metabolism, medicine.drug
Abstract

The overall goal of this study was to explore the potential of using stratum corneum (SC) tape-stripping, post-application of a topical drug formulation, to derive dermatopharmacokinetic parameters describing the rate and extent of delivery into the skin. Ibuprofen was administered in 75:25 v/v propylene glycol-water to the ventral forearms of human volunteers for periods ranging between 15 and 180 minutes. Subsequently, SC was tape-stripped, quantified gravimetrically, and extracted for drug analysis. Together with concomitant transepidermal water loss measurements, SC concentration-depth profiles of the drug were reproducibly determined and fitted mathematically. The SC-vehicle partition coefficient (K) and a first-order rate constant related to ibuprofen diffusivity in the membrane (D/L2, where L=SC thickness) were derived from data-fitting and characterized the extent and rate of drug absorption across the skin. Integration of the concentration profiles yielded the total drug amount in the SC at the end of the application period. Using K and D/L2 obtained from the 30-minute exposure, it was possible to predict ibuprofen uptake as a function of time into the SC. Prediction and experiment agreed satisfactorily suggesting that objective and quantitative information, with which to characterize topical drug bioavailability, can be obtained from this approach.

Published
2007
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2. Ibuprofen Transport into and through Skin from Topical Formulations: In Vitro–In Vivo Comparison

Author

Richard H. Guy, Christophe Herkenne, Aarti Naik, Yogeshvar N. Kalia, and Jonathan Hadgraft

Subjects
Adult, Male, Drug, Swine, Administration, Topical, media_common.quotation_subject, Silicones, Ibuprofen, Dermatology, Pharmacology, Biochemistry, Permeability, Body Water, In vivo, Stratum corneum, medicine, Animals, Humans, Skin/metabolism, Molecular Biology, Skin, media_common, ddc:615, Transepidermal water loss, Chromatography, integumentary system, business.industry, Body Water/metabolism, Biological Transport, Membranes, Artificial, Ibuprofen/administration & dosage/pharmacokinetics, Cell Biology, Middle Aged, Permeation, Membrane, medicine.anatomical_structure, Permeability (electromagnetism), Female, business, medicine.drug
Abstract

The goal was to compare ibuprofen transport into and through skin in vivo in man and in vitro (across silicone membranes and freshly excised pig skin) from four marketed formulations. Ibuprofen gels were administered in vivo for 30 minutes. The stratum corneum (SC) at the application site was then tape-stripped, quantified gravimetrically, and extracted for drug analysis. Together with concomitant transepidermal water loss measurements, SC drug concentration-depth profiles were reproducibly determined and fitted mathematically to obtain a partition coefficient, a first-order rate constant related to ibuprofen diffusivity, and the total drug amount in the SC at the end of the application. All derived parameters were consistent across formulations. Ibuprofen permeation data through both silicone membrane and pig ear skin were also fitted to yield partitioning and diffusion parameters. The former revealed that ibuprofen partitioned differently from the gels into this model barrier. Across pig skin, however, better correlation with in vivo results was found. The dermatopharmacokinetic approach, using SC tape-stripping, offers a valid method to assess equivalency between topical drug formulations. In vitro experiments must be extrapolated cautiously to the clinic, especially when complex interactions between real formulations, which deliver both drug and excipients, and the skin occur.

Published
2007
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3. Development of Skin Barrier Function in Premature Infants

Author

Richard H. Guy, Lourdes B. Nonato, Yogeshvar N. Kalia, and Carolyn Lund

Subjects
Male, medicine.medical_specialty, Birth weight, Physiology, Dermatology, Biochemistry, 030207 dermatology & venereal diseases, 03 medical and health sciences, Glucocorticoids/pharmacology, Fetus, 0302 clinical medicine, Body Water, 030225 pediatrics, Electric Impedance, Stratum corneum, stratum corneum, Skin/metabolism, Humans, Medicine, Fetus/drug effects, Glucocorticoids, Molecular Biology, Barrier function, Skin barrier function, Skin, ddc:615, Transepidermal water loss, business.industry, Body Water/metabolism, Infant, Newborn, transepidermal water loss, Infant, Gestational age, Cell Biology, Surgery, Postnatal age, medicine.anatomical_structure, neonatal development, In utero, impedance, Female, business, Infant, Premature
Abstract

Histologic analysis suggests that epidermal development is complete in utero at approximately 34 wk gestational age. Infants born more prematurely have elevated rates of both transepidermal water loss and transcutaneous heat loss, and have difficulty maintaining homeostasis. The underdeveloped integument is also a portal of entry for infection and the percutaneous uptake of toxins. Previous measurements of transepidermal water loss have suggested that, regardless of gestational age, competent barrier function is attained within 2-4 wk postnatal age. In this study we have utilized another noninvasive biophysical technique, low frequency impedance spectroscopy, to complement transepidermal water loss measurements. We present longitudinal data from infants ranging from 23 to 32 wk gestational age. The results suggest that, for ultra-low birth weight infants (23-25 wk gestational age), the complete development of a fully functional stratum corneum can require significantly longer than 4 wk. In contrast, the data from the older infants suggest that a postnatal existence period of 2-4 wk may not be necessary to attain functional maturity, because infants born at 30 and 32 wk gestational age were found to have barrier function comparable with that of adults.

Published
1998
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45. Water soluble vitamins in normal human skin.

Author

LEE TH, LERNER AB, and HALBERG RJ

Subjects
Humans, Ascorbic Acid analysis, Biotin analysis, Folic Acid analysis, Niacin, Nicotinic Acids, Pantothenic Acid analysis, Riboflavin analysis, Skin metabolism, Thiamine analysis, Vitamin B 12 analysis, Vitamin B Complex, Vitamins
Published
1953
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