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Understanding heat facilitated drug transport across human epidermis
D.G. Wood, Marc Brown, S.A. Jones
School of Life and Medical Sciences
Centre for Research into Topical Drug Delivery and Toxicology
Pharmaceutics
Research output
:
Contribution to journal
›
Article
›
peer-review
20
Citations (Scopus)
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Keyphrases
Human Epidermis
100%
Lidocaine
100%
Drug Transport
100%
Human Skin
50%
Epidermis
50%
Local Temperature
50%
Drug Partitioning
50%
Rate Limiting
50%
Upper Layer
25%
Potential Rate
25%
Fluidization
25%
Effective Means
25%
Skin Transport
25%
Transport Processes
25%
Diffusion Coefficient
25%
Moderate Heat
25%
Heating Source
25%
Releasing Drug
25%
Silicone Membrane
25%
Skin Formulation
25%
Drug Diffusion
25%
Temperature Range
25%
Regenerated Cellulose Membrane
25%
Structural Change
25%
Lipids
25%
Engineering
Human Skin
100%
Transport Process
50%
Effective Mean
50%
Temperature Range
50%
Regenerated Cellulose
50%
Release Drug
50%
Cellulose Membrane
50%
Diffusion Coefficient
50%
Fluidization
50%
Biochemistry, Genetics and Molecular Biology
Drug Transport
100%
Lidocaine
100%
Facilitated Diffusion
50%
Diffusion Coefficient
25%
Drug Diffusion
25%
Fluidization
25%
Cellulose
25%
Lipid
25%
Pharmacology, Toxicology and Pharmaceutical Science
Lidocaine
100%
Drug Transport
100%
Silicone
25%
Drug Release
25%
Chemical Engineering
Diffusion
100%
Fluidization
100%