You may have to Search all our reviewed books and magazines, click the sign up button below to create a free account.
A superb source of reference reviews as well as a concise overview of the functional cross-talk between neurons and glial cells, this book also focuses on microglia and inflammation in the aging brain and in neurological disorders. The scientific spectrum covered by this book is of key interest, and is recognized by the scientific community as a major competitive area with critical implications for human health.
Population aging and the associated burden of chronic diseases are one of the main challenges in public health worldwide. This Research Topic on "Active Aging and Disease Management" provides a comprehensive overview of population aging through fourteen comprehensive papers. Chapter 1 discusses an overview of health systems in active and healthy aging, while Chapter 2 focuses on the role of lifestyles, exercise and new technologies. Chapter 3 debates psychological and cognitive issues in aging and finally in Chapter 4, an older people self assessment is proposed and the role of communities and supporters are highlighted. We think that real social and health care integration at community level could be the key point to deliver effective health promotion and preventive intervention. Enjoy the reading!
The discovery that mammalian brains contain neural stem cells which perform adult neurogenesis - the production and integration of new neurons into mature neural circuits - has provided a fully new vision of neural plasticity. On a theoretical basis, this achievement opened new perspectives for therapeutic approaches in restorative and regenerative neurology. Nevertheless, in spite of striking advancement concerning the molecular and cellular mechanisms which allow and regulate the neurogenic process, its exploitation in mammals for brain repair strategies remains unsolved. In non-mammalian vertebrates, adult neurogenesis also contributes to brain repair/regeneration. In mammals, neural stem cells do respond to pathological conditions in the so called "reactive neurogenesis", yet without substantial regenerative outcome. Why, even in the presence of stem cells in the brain, we lack an effective reparative outcome in terms of regenerative neurology, and which factors hamper the attainment of this goal? Essentially, what remains unanswered is the question whether (and how) physiological functions of adult neurogenesis in mammals can be exploited for brain repair purposes.
There is an assumption that environmental threats could cause important damages in central nervous system. As a consequence, several forms of brain structural plasticity could be affected. The environmentally mediated risks include generally physical (such as brain and spinal cord injury) and psychological / psychosocial influences (e.g. stress). In general, the response of the organism to these environmental challenges passes via adaptive responses to maintain homeostasis or functional recovery. These processes engage the immune system, the autonomic nervous system (ANS) besides the hypothalamo-hypophyseo-adrenal (HPA) axis via specific hormones, neurotransmitters, neuropeptides and other f...
In the mid-sixties, the discovery by Altman and co-workers of neurogenesis in the adult brain changed the previous conception of the immutability of this organ during adulthood sustained among others by Cajal. This discovery was ignored up to eighty’s when Nottebohm demonstrated neurogenesis in birds. Subsequently, two main neurogenic zones were characterized: the subventricular zone of the lateral ventricle and the subgranular layer of the dentate gyrus. Half century later, the exact role of new neurons in the adult brain is not completely understand. This book is composed by a number of articles by leaders in the filed covering from an historic perspective to potential therapeutic opportunities.
Advances in Stem Cell Research discusses recent advances in stem cell science, including therapeutic applications. This volume covers such topics as biomanufacturing iPS cells for therapeutic applications, techniques for controlling stem cell fate decisions, as well as current basic research in such areas as germ line stem cells, genomics and proteomics in stem cell research. It is a useful book for biology and clinical scientists, especially young investigators and stem cell biology students who are newly entering the world of stem cells research. The editors hope that the new knowledge and research outlined in this book will help contribute to new therapies for a wide variety of diseases that presently afflict humanity.
Aging: From Fundamental Biology to Societal Impact examines the interconnection of the cellular and molecular basis of aging and societal-based challenges and innovative interventions. Sections take a societal-based angle on aging, describing several flagship initiatives for healthy living and active aging in different regions, cover the biology of aging which includes the hallmarks of aging, explain the pathophysiology of aging, describing different comorbidities associated with aging and possible interventions to decrease the impact of aging, and envision future and innovative measures to tackle aging-related morbidities.Contributions from an interdisciplinary panel of experts cover such topics as the biology of aging to physical activity, nutrition, psychology, pharmacology, health care, social care and urban planning. - Provides a cross-disciplinary approach to aging at both the biological and societal level - Highlights frontline scientific knowledge in the biology of aging and its translation into societal interventions - Offers insights on the value of aging research and its future impact from a fundamental and translation point-of-view
Microglial cells play a vital role in the innate immune response occurring in the Central Nervous System (CNS). Under physiologic conditions, microglia dynamically patrol the brain parenchyma and participate in the remodeling of active neuronal circuits. Accordingly, microglia can boost synaptic plasticity by removing apoptotic cells and by phagocytizing axon terminals and dendritic spines that form inappropriate neural connections. Upon brain and spinal cord injury or infection, microglia act as the first line of immune defense by promoting the clearance of damaged cells or infectious agents and by releasing neurotrophins and/ or proneurogenic factors that support neuronal survival and rege...