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Biological systems have acquired efficient adaptive strategies to cope with physiological challenges and to maximize biochemical processes under imposed constraints. All living organisms possess the inherent ability to change the structural and functional properties of their tissues in accordance to several health or disease-related conditions. Plasticity is the word used since the late 1970 s to designate all the processes and mechanisms behind adaptation. Muscle plasticity, in particular, is an unequivocal example of this biological feature. In fact, muscle is a very specialized tissue with an amazingly high malleability to adapt to distinct functional and metabolic demands by altering key molecular pathways. Moreover, as proposed in this book, muscle plasticity could also be extended to the ability of skeletal muscle to interact with other organs and mediate some of the stimuli-induced changes in other organs. Muscle cells are able to detect mechanical, metabolic, neuronal and hormonal signals which are transduced over multiple pathways to the muscle genome. Examples of muscle plasticity abound, from exercise adaptations, to the effects of environmental stressors, to the aging process, and to an assortment of disease-related conditions. Therefore, muscle plasticity forms a major basis for biological adaptation to physiological and pathophysiological conditions and thus, as we will become aware from the several chapters presented in this book, it can have both beneficial and maladaptive consequences. The goal of this multi-author book is to examine the current understanding regarding some physiological and biochemical events known to be involved in muscle adaptive response to altered health or disease-related circumstances. Notwithstanding the importance of other key organelles in cellular metabolism and function, muscle stimuli-targeting alterations in mitochondrial structure, biochemistry and function assume particular relevance throughout some chapters of this book. Issues related to muscle remodelling by physical exercise/contractile activity including molecular mechanisms of altered muscle use and hypertrophy, muscle disuse, aging processes, conditions of caloric restriction, hypoxia, as well as by some pathophysiological states such as obesity, cachexia, insulin resistance, diabetes mellitus, ischemia and ischemia-reperfusion make the scientific agenda of this book. As free radicals are known as powerful signalling molecules in cellular metabolism, a special emphasis on muscle redox-based modulation is noticeable throughout this book. However, even though this book covers a wide range of knowledge, it does not examine all aspects of physiology and biochemistry of muscle plasticity. Among many others, these would include several issues, such as inflammation, atrophy, satellite cell function in regeneration, regulation of excitation-contraction coupling, muscle architecture, as well as the response of muscle to distinct pharmacological agents. Topics like these are approached in other expertise devoted reviews. We are delighted to be involved in this project and gratefully acknowledged to the outstanding contribution of the authors. We hope that this book will be of interest to a wide basic and applied biomedical science audience, from physiologists to biochemists, especially those that embrace with excitement the wonders of muscle plasticity. Lastly, we also hope that the fascinating scientific platform of muscle plasticity would foster a plasticity of mind in developing new hypotheses and approaching challenges.
This book discusses recent advances and various topics in plasticity of skeletal muscle from the perspectives of morphology, biological function, and clinical applications. Skeletal muscle is a highly plastic organ to adapt to environmental various demands, appears to endocrine various myokines, which flow into blood to protect the recognizing function of brain and inhibit the appearance of several cancer tumorigenesis. The book deals with current stem-cell based, pharmacological, and nutritional therapies for muscle wasting (sarcopenia, cachexia, and muscular dystrophy). It also explains the roles of biological mediators such as PGC-1, transient receptor potential cation channels (TRPC), and AMPK in modulating muscle function. The functional roles of ubiquitin-proteasome system, autophagy-dependent signaling in muscle homeostasis, ribosome biogenesis, and redox regulation of mechanotransduction to modulate skeletal muscle mass are also covered. It is an essential resource for physicians, researchers, post-docs as well as graduate students in the field of sports science including rehabilitation therapy, exercise physiology, exercise biochemistry, and molecular biology dealing with skeletal muscle.
The ability of striated muscle tissue to adapt to changes in activity or in working conditions is extremely high. In some ways it is comparable to the ability of the brain to learn. The interest in muscle adaptation is increasing in relation to the idea that physical fitness helps in the prevention of disease, may counteract the loss of physical performance and generally improves wellbeing. Plasticity is the word used since the late 1970’s to indicate collectively all the processes and mechanisms which form the background of muscle adaptation. This book aims to provide a systematic updating of the available knowledge on molecular and cellular mechanisms, as well as on changes at whole muscle level. The book means to be a guide and a help for people who enter the field as PhD or medical students, but is also a tool for refreshing and updating knowledge for people already active in the field in basic sciences as well as in applied disciplines such as neurology, sports science and rehabilitation.
Muscle and Exercise Physiology is a comprehensive reference covering muscle and exercise physiology, from basic science to advanced knowledge, including muscle power generating capabilities, muscle energetics, fatigue, aging and the cardio-respiratory system in exercise performance. Topics presented include the clinical importance of body responses to physical exercise, including its impact on oxygen species production, body immune system, lipid and carbohydrate metabolism, cardiac energetics and its functional reserves, and the health-related effects of physical activity and inactivity. Novel topics like critical power, ROS and muscle, and heart muscle physiology are explored. This book is ideal for researchers and scientists interested in muscle and exercise physiology, as well as students in the biological sciences, including medicine, human movements and sport sciences. - Contains basic and state-of-the-art knowledge on the most important issues of muscle and exercise physiology, including muscle and body adaptation to physical training, the impact of aging and physical activity/inactivity - Provides both the basic and advanced knowledge required to understand mechanisms that limit physical capacity in both untrained people and top class athletes - Covers advanced content on muscle power generating capabilities, muscle energetics, fatigue and aging
This volume describes the current state of our knowledge on the neurobiology of muscle fatigue, with consideration also given to selected integrative cardiorespiratory mechanisms. Our charge to the authors of the various chapters was twofold: to provide a systematic review of the topic that could serve as a balanced reference text for practicing health-care professionals, teaching faculty, and pre-and postdoctoral trainees in the biomedi cal sciences; and to stimulate further experimental and theoretical work on neurobiology. Key issues are addressed in nine interrelated areas: fatigue of single muscle fibers, fatigue at the neuromuscular junction, fatigue of single motor units, metabolic fatigue studied with nuclear magnetic resonance, fatigue of the segmental motor system, fatigue involving suprasegmental mechanisms, the task dependency of fatigue mechanisms, integrative (largely cardiorespiratory) systems issues, and fatigue of adapted systems (due to aging, under-and overuse, and pathophysiology). The product is a volume that provides compre of processes that operate from the forebrain to the contractile proteins.
A comprehensive reference for biochemists, sport nutritionists, exercise physiologists, and graduate students in those disciplines. Provides information on the metabolic processes that take place during exercise, examining in depth the mobilization and utilization of substrates during physical activity. Focuses primarily on the skeletal muscle, but also discusses the roles of the liver and adipose tissue. Annotation copyright by Book News, Inc., Portland, OR
Exercise training provokes widespread transformations in the human body, requiring coordinated changes in muscle composition, blood flow, neuronal and hormonal signaling, and metabolism. These changes enhance physical performance, improve mental health, and delay the onset of aging and disease. Understanding the molecular basis of these changes is therefore important for optimizing athletic ability and for developing drugs that elicit therapeutic effects. Written and edited by experts in the field, this collection from Cold Spring Harbor Perspectives in Medicine examines the biological basis of exercise from the molecular to the systemic levels. Contributors discuss how transcriptional regulation, cytokine and hormonal signaling, glucose metabolism, epigenetic modifications, microRNA profiles, and mitochondrial and ribosomal functions are altered in response to exercise training, leading to improved skeletal muscle, hippocampal, and cardiovascular function. Cross talk among the pathways underlying tissue-specific and systemic responses to exercise is also considered. The authors also discuss how the understanding of such molecular mechanisms may lead to the development of drugs that mitigate aging and disease. This volume will therefore serve as a vital reference for all involved in the fields of sports science and medicine, as well as anyone seeking to understand the molecular mechanisms by which exercise promotes whole-body health.
How we raise young children is one of today's most highly personalized and sharply politicized issues, in part because each of us can claim some level of "expertise." The debate has intensified as discoveries about our development-in the womb and in the first months and years-have reached the popular media. How can we use our burgeoning knowledge to assure the well-being of all young children, for their own sake as well as for the sake of our nation? Drawing from new findings, this book presents important conclusions about nature-versus-nurture, the impact of being born into a working family, the effect of politics on programs for children, the costs and benefits of intervention, and other issues. The committee issues a series of challenges to decision makers regarding the quality of child care, issues of racial and ethnic diversity, the integration of children's cognitive and emotional development, and more. Authoritative yet accessible, From Neurons to Neighborhoods presents the evidence about "brain wiring" and how kids learn to speak, think, and regulate their behavior. It examines the effect of the climate-family, child care, community-within which the child grows.
Traumatic brain injury (TBI) remains a significant source of death and permanent disability, contributing to nearly one-third of all injury related deaths in the United States and exacting a profound personal and economic toll. Despite the increased resources that have recently been brought to bear to improve our understanding of TBI, the developme
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