2: Cartilage And Osteoarthritis (methods In Molecular Medicine)
by Massimo Sabatini /
2004 / English / PDF
18.1 MB Download
An indispensable collection of updated classical and emerging
techniques that promise to add critical knowledge to our
understanding of cartilage metabolism in health and disease. Volume
1: Cellular and Molecular Tools describes proven molecular and
cellular techniques for the in vitro study of normal and
osteoarthritic cartilage through biochemical, biomolecular,
immunological, and physical approaches, with emphasis on the
genetic manipulation of cells. Volume 2: Structure and In Vivo
Analysis, offers cutting-edge procedures for the study-at the
tissue level-of turnover, structure, and functioning of normal and
diseased articular cartilage by invasive and noninvasive means.
Comprehensive and up-to-date, the two volumes of Cartilage and
Osteoarthritis provide researchers and bench scientists with
readily reproducible protocols for new experiments to
understand-from the cellular to the animal level-the
pathophysiology of cartilage and to discover molecular targets for
pharmacological intervention.
An indispensable collection of updated classical and emerging
techniques that promise to add critical knowledge to our
understanding of cartilage metabolism in health and disease. Volume
1: Cellular and Molecular Tools describes proven molecular and
cellular techniques for the in vitro study of normal and
osteoarthritic cartilage through biochemical, biomolecular,
immunological, and physical approaches, with emphasis on the
genetic manipulation of cells. Volume 2: Structure and In Vivo
Analysis, offers cutting-edge procedures for the study-at the
tissue level-of turnover, structure, and functioning of normal and
diseased articular cartilage by invasive and noninvasive means.
Comprehensive and up-to-date, the two volumes of Cartilage and
Osteoarthritis provide researchers and bench scientists with
readily reproducible protocols for new experiments to
understand-from the cellular to the animal level-the
pathophysiology of cartilage and to discover molecular targets for
pharmacological intervention.