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The central nervous system, which includes the brain and spinal cord, has a high metabolic demand. The physiology of the brain is such that it is easily affected by alterations in other systems, which in turn can compromise cerebral blood flow and oxygenation. Together the brain and spinal cord control the automatic function of our body systems. While other systems of body controls individual functions, central nervous system at the same time does many different functions, especially, controlling the function of other systems. This interaction between the brain and other systems is important when it comes to understanding how injuries to the brain can, at times, produce complications in remote organs or systems of the body, such as the lungs. This book explains the lesser-known crosstalks between acutely or chronically affected brain and lung, describing the pathophysiology of the lung following brain injury and discussing in detail the conflicts between the brain and lungs in relation to the tidal volumes, positive end-expiratory pressures, arterial carbon dioxide and oxygen levels, recruitment maneuvers and positioning, as well as potential therapeutic targets.
The central nervous system, which includes the brain and spinal cord, has a high metabolic demand. The physiology of the brain is such that it is easily affected by alterations in other systems, which in turn can compromise cerebral blood flow and oxygenation. Together the brain and spinal cord control the automatic function of our body systems. While other systems of body controls individual functions, central nervous system at the same time does many different functions, especially, controlling the function of other systems. This interaction between the brain and other systems is important when it comes to understanding how injuries to the brain can, at times, produce complications in remote organs or systems of the body, such as the lungs. This book explains the lesser-known crosstalks between acutely or chronically affected brain and lung, describing the pathophysiology of the lung following brain injury and discussing in detail the conflicts between the brain and lungs in relation to the tidal volumes, positive end-expiratory pressures, arterial carbon dioxide and oxygen levels, recruitment maneuvers and positioning, as well as potential therapeutic targets.
This book discusses the underlying mechanisms connecting the brain and heart. The physiology of the brain is such that it is easily affected by any altered physiology of other systems, which in turn may compromise cerebral blood flow and oxygenation. Together, the brain and heart control our body systems, allowing them to function automatically. This interaction between the brain and other systems makes it important for us to understand how any kind of injury to the brain can produce complications in remote organs or systems, such as the heart. The central nervous system is responsible for vegetative function and is central to homeostasis. Further, central nervous system responses are linked to the ongoing function of other organ systems e.g. feeding, thermoregulation, reproduction and muscle activity. It is therefore logical that neural control of the cardiovascular system must also interact with the neural control of other organ systems. This book explains in detail stressed cardiac conditions, discussing the pathophysiology and proposed treatment, and also describing lesser-known crosstalks between the acutely or chronically affected brain and heart.
In this book the recent advancements in understanding the gut-brain interaction as well as gut microbiome and how this interaction plays a vital role in human health and disease are discussed. Each chapter gives an analysis of questions, research directions, and methods within the field of gut-brain axis. The readers will benefit from the latest knowledge about our understanding about how gut-brain axis and modulation of gut microbiome determines predisposition to neurological disorders. The multidisciplinary book is essential reading for anyone interested in the field of gut-brain axis and gut microbiome: from undergraduates to graduate students as well as scientists and physicians having an interest in the new exciting field of gut microbiome and its relationship with brain function.
Genetic alterations in cancer, in addition to being the fundamental drivers of tumorigenesis, can give rise to a variety of metabolic adaptations that allow cancer cells to survive and proliferate in diverse tumor microenvironments. This metabolic flexibility is different from normal cellular metabolic processes and leads to heterogeneity in cancer metabolism within the same cancer type or even within the same tumor. In this book, we delve into the complexity and diversity of cancer metabolism, and highlight how understanding the heterogeneity of cancer metabolism is fundamental to the development of effective metabolism-based therapeutic strategies. Deciphering how cancer cells utilize various nutrient resources will enable clinicians and researchers to pair specific chemotherapeutic agents with patients who are most likely to respond with positive outcomes, allowing for more cost-effective and personalized cancer therapeutic strategies.
Knowledge about the mechanisms of lung development has been growing rapidly, especially with regard to cellular and molecular aspects of growth and differentiation. This authoritative international volume reviews key aspects of lung development in health and disease by providing a comprehensive review of the complex series of cellular and molecular interactions required for lung development. It covers such topics as pulmonary hypoplasia, effects of malnutrition, and pulmaonary angiogenesis. An indispensable reference for all those involved in studying or treating lung disease in neonates and children, the book offers a unique view of the development of this essential organ.
This new textbook is the definitive evidence-based resource for pediatric critical care. It is the first ostensibly evidence-based pediatric critical care textbook and will prove an invaluable resource for critical care professionals across the globe.
This ambitious and comprehensive handbook represents an essential contribution to our current understanding of interactions between heart and brain, a research topic generating growing interest. Despite the increasing awareness that neural mechanisms are the primary cause of cardiac disease and its progression, therapy continues to focus on end-organ protection and does not approach the neural core of the problem. Growing public health problems such as heart failure are still treated with autonomic drugs that are 30-40 years old and simply act on cardiac receptors. However, it has now been shown that the progression of ischemic heart disease to heart failure is mainly due to abnormal central responses to incipient cardiac disease, with neural activation the primary cause rather than the consequence of cardiac remodeling. Written by leading international experts in their respective research areas, the book presents a variety of perspectives on the core topic: from social and philosophical to gender-related aspects. It is designed for a broad readership and includes dedicated sections for cardiologists, psychiatrists, neurologists and psychotherapists looking for a more insightful and targeted approach to neuro-cardiovascular disease.
Brain and Organ Communication: Effects of Crosstalk on Neurophysiology examines the intricate relationship between the brain and other organ systems within the body. With an emphasis on homeostasis of these systems, this book also explores how various systems are related and affected by the brain injury or organ damage from a neurophysiological standpoint. This book will be most useful to researchers in neuroscience and graduate students studying neurophysiology. Those with an interest in endocrinology and clinicians in various branches of neuroscience and physiology will also find this book of interest. - Examines cross talk between the brain and major organ systems - Explores multiple organs, including heart, lungs, kidneys, gut, and more - Identifies how this communication affects neurophysiology - Provides management strategies for injuries to the brain and organs
The current practice of medicine is largely moving toward applying an evidence-based approach. Evidence-based medicine is the integration of best research evidence using systematic reviews of the medical literature and then translating it into practice by selecting treatment options for specific cases based on the best research. Clinicians rely on the availability of evidence and accordingly take decisions to provide best treatment to their patients. Clinical management of neurologically compromised patients is challenging and varied; for this reason, treating physicians including neuroanesthesiologists are always in search of best available evidence for patient management and care. Essentials of Evidence-Based Practice of Neuroanesthesia and Neurocritical Care highlights the various controversies that exist in the practice of neuroanesthesia and provides conclusive evidence-based solutions. This comprehensive resource succinctly discusses evidence-based practice of neuroanesthesia based on systematic reviews in clinical neuroscience research. Topics include neurophysiology: ICP or CPP thresholds; neuropharmacology: intravenous or inhalational anesthetics; and neuromonitoring: ICP monitoring. Evidence-based practice is now an integral part of neuroscience, and this book will help residents and trainees gain knowledge to apply it to their practice. Endorsements/Reviews: "Evidence based practice is facilitating changes at a rapid pace in neuroanesthesia and neurocritical care practice. Its practice is exceedingly crucial in neuroanesthesia and neurocritical care considering the criticality of the neurologically sick patients, which leaves little or no room for error for an acceptable outcome in them. Patient management in Neuroanesthesia and neurocritical care has many contentious issues because of rapidly evolving changes in their management which require treatment guided by the latest available evidence in literature. Dr. Hemanshu Prabhakar is a strong proponent of evidence based practice for the management of neurologically ill patients both for surgical procedures and their management in neurointensive care unit. Undoubtedly, this book will be of enormous benefits to the students as well as teachers of neuroanesthesia and neurocritical care sub-specialties." -- Parmod Bithal, Editor-In-Chief, Journal of Neuroanaesthesiology and Critical Care (JNACC) - Highlights the various controversies that exist in the practice of neuroanesthesia and provides conclusive evidence-based solutions - Topics include neurophysiology: ICP or CPP thresholds; neuropharmacology: intravenous or inhalational anesthetics; and neuromonitoring: ICP monitoring - Provides residents and trainees with the knowledge to apply evidence-based practice of neuroanesthesia to their practice