In Motor Activity and Movement Disorders thirteen state-of-the-art articles explicate forefront research methodologies for measuring and interpreting motor activity in animals, as well as their applications to preclinical and clinical research involving motor disorders. The contributors emphasize motor asymmetries, turning behavior, and dyskinetic movements. They also present a variety of quantitative approaches designed to assess specific aspects of motor activity and illustrate numerous computerized measuring techniques that permit detailed and objective approaches to quantifying motor behavior. Motor Activity and Movement Disorders will contribute to a greater understanding of brain-behavior relationships through its focus on methodology and its application to current animal models and to human disorders.
In Motor Activity and Movement Disorders thirteen state-of-the-art articles explicate forefront research methodologies for measuring and interpreting motor activity in animals, as well as their applications to preclinical and clinical research involving motor disorders. The contributors emphasize motor asymmetries, turning behavior, and dyskinetic movements. They also present a variety of quantitative approaches designed to assess specific aspects of motor activity and illustrate numerous computerized measuring techniques that permit detailed and objective approaches to quantifying motor behavior. Motor Activity and Movement Disorders will contribute to a greater understanding of brain-behavior relationships through its focus on methodology and its application to current animal models and to human disorders.
Even if the origins of regenerative medicine can be found in Greek mythology, as attested by the story of Prometheus, the Greek god whose immortal liver was feasted on day after day by Zeus' eagle; many challenges persist in order to successfully regenerate lost cells, tissues or organs and rebuild all connections and functions. In this book, we will cover a few aspects of regenerative medicine highlighting major advances and remaining challenges in cellular therapy and tissue/organ engineering.
Encapsulated cells offer enormous potential for the treatment of human disease. This work includes detailed descriptions of chemical properties of encapsulation materials, purification, biocompatibility issues and experimental protocols.
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