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Implant surfaces and their biological and clinical impact

Provides the reader with the knowledge required in order to understand the chemical, physical, mechanical, and topographical aspects of implant surfaces, as well as their impact on the biological response.

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Hydrological and Biological Responses to Forest Practices : The Alsea Watershed Study

Through analyses of works generated by the study, Hydrological and Biological Responses to Forest Practices: The Alsea Watershed Study addresses the quantification of forest resource sustainability and bolsters the case for long-term monitoring at a time when managers and policy makers are searching for ways to restore the runs of salmon and steelhead to rivers and streams of the Pacific Northwest. Edited by John D. Stednick, a forest hydrologist responsible for the study’s reactivation, this book will be of interest to students in natural resources, land managers, policy makers, and researchers, particularly in water and fishery resources.

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Electromagnetics in Biology

In this book, the authors intended to focus their effort on describing (1) biological responses of human and animals, both in vivo and in vitro methodologies, to magnetic and/or electromagnetic field exposure, (2) characteristics of effective fields, (3) hypotheses to explain possible mechanisms of interaction between the fields and cells, and (4) induced current in ELF and induced heat in RF fields as key interaction mechanisms. The readers can have the present-day comprehensive knowledge about biological responses to electromagnetic field exposure.

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Biomaterials : An Introduction

Biomaterials, an Introduction is intended as a general introduction to the uses of artificial materials in the human body for the purposes of aiding healing, correcting deformities, and restoring lost function. Enhancing on the field developments since the successful last edition, Biomaterials, an Introduction continues in its tradition as an outgrowth of an undergraduate course for senior students in biomedical engineering developed by the authors With 60 years of combined experience, the authors have emphasized the fundamental materials science, structure-property relationships and biological responses as a foundation for a wide array of biomaterials applications.

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