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Imaging and monitoring astrocytes in health and disease
Astrocytes are key cellular partners to neurons in the brain. They play an important role in multiple processes such as neurotransmitter recycling, trophic support, antioxidant defense, ionic homeostasis, inflammatory modulation, neurovascular and neurometabolic coupling, neurogenesis, synapse formation and synaptic plasticity. In addition to their crucial involvement in normal brain physiology, it is well known that astrocytes adopt a reactive phenotype under most acute and chronic pathological conditions such as ischemia, trauma, brain cancer, epilepsy, demyelinating and neurodegenerative diseases. However, the functional impact of astrocyte reactivity is still unclear. During the last dec...
Glial Cells: Managers of Neuro-immunity
Immune responses within the brain are still scarcely explored. Nerve tissue damage is accompanied by the activation of glial cells, primarily microglia and astroglia, and such activation is responsible for the release of cytokines and chemokines that maintain the local inflammatory response and actively recruit lymphocytes and monocytes to the damaged areas. Theoretically, these responses are designed to repair the brain damage. However, alterations, or a chronic perpetuation of these responses may underlie a number of neuro-pathologies. It is thought that each inflammatory scenario within the brain have a specific biochemical footprint characterized by the release of determined cytokines, c...
Cellular Transplantation
There have been tremendous strides in cellular transplantation in recent years, leading to accepted practice for the treatment of certain diseases, and use for many others in trial phases. The long history of cellular transplantation, or the transfer of cells from one organism or region of the body to another, has been revolutionized by advances in stem cell research, as well as developments in gene therapy. Cellular Transplants: From Lab to Clinic provides a thorough foundation of the basic science underpinning this exciting field, expert overviews of the state-of-the-art, and detailed description of clinical success stories to date, as well as insights into the road ahead. As highlighted b...
Neuroinflammation and Cognition
Aging is one of the major risk factors for the onset and progression of various neurodegenerative diseases. Neuroinflammation is a common feature of virtually every central nervous system disease, and is acknowledged as a likely mediator of cognitive impairments. Systemic inflammation levels are augmented with advanced age and neurodegeneration. The influence of age on neuroinflammatory responses including glial activation, increased production of proinflammatory cytokines, and aberrant neuronal signaling could magnify the deterioration of the central nervous system microenvironment in disease, and may contribute to enhanced cognitive impairment. This eBook is a collection of highly informative original research articles, providing comprehensive aspect of neuroinflammation and possible therapeutic interventions in rescuing cognitive impairments.
Nanoscience
Nanobiotechnology is a rapidly developing field of research with new applications constantly emerging. This book presents the basics, fundamental results and latest achievements of nanobiotechnological research. It extends as far as promising applications of new nanomaterials and newly discovered nanoeffects. Additionally, it presents a large variety of nanobio-analysis methods.
Transcellular Cycles underlying Neurotransmission
Synaptic transmission demands the operation of a highly specialized metabolic machinery involving the transfer of metabolites and neurotransmitters between neurons, astrocytes and microvessels. In the last years, important advances have occurred in our understanding of the mechanisms underlying cerebral activation, neuroglial coupling and the associated neurovascular response. Briefly, exacerbated oxygen consumption in stimulated neurons is thought to trigger glycolytic lactate and glucose transfer from astrocytes which, in turn, obtain these fuels from the microvasculature. Neurotransmitter release is made possible by a combination of transcellular cycles exchanging metabolites between thes...
