This is a step-by-step manual of protocols for ultraviolet light therapy in the dermatologist's office. It provides complete technical information for UVB, PUVA, outpatient daycare (Goeckerman and Ingram), RePUVA, UVA/UVB combination, hand and foot therapy, scalp treatments, and hydrotherapy. It also contains examples of patient education handouts, consent forms, laboratory flow sheets, forms for insurance companies, tools for the quantitative measurement of psoriasis severity, and other useful information sheets. An especially valuable set of appendices provide information about skin type, histopathologic evolution of the psoriatic lesion, differential diagnosis, agents that may cause photosensitivity, equipment, letters for home UVB unit, and the use of ultraviolet light treatment in other conditions. Includes bibliographic references and index.
Organized alphabetically, this concise guide gives emergency room and primary care clinicians the information needed to rapidly screen, identify, treat, and refer problems related to the skin. For each condition, the book provides history, physical exam, diagnosis, differential diagnosis, treatment, management/follow-up, and codes.
The papers in this volume arose out of the workshop Membrane Transport and Renal Physiology, which was conducted as part of the IMA 1998-1999 program year, Mathematics in Biology. The workshop brought together physiologists, biophysicists, and applied mathematicians who share a common interest in solute and water transport in biological systems, especially in the integrated function of the kidney. Solute and water transport through cells involves fluxes across two cell membranes, usually via specialized proteins that are integral membrane components. By means of mathematical representations, transport fluxes can be related to transmembrane solute concentrations and electrochemical driving forces. At the next level of functional integration, these representations can serve as key components for models of renal transcellular transport. Ultimately, simulations can be developed for transport-dependent aspects of overall renal function. Workshop topics included solute fluxes through ion channels, cotransporters, and metabolically-driven ion pumps; transport across fiber-matrix and capillary membranes; coordinated transport by renal epithelia; the urine concetrating mechanism; and intra-renal hemodynamic control. This volume will be of interest to biological and mathematical scientists who would like a view of recent mathematical efforts to represent membrane transport and its role in renal function.
This new text presents the 20 most common dermatologic problems seen in primary practice. From acne to zoster, the book will explain differential diagnosis, management, and referral guidelines for this economically and clinically important class of disease.
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