Details
Hypoxia
Translation in ProgressAdvances in Experimental Medicine and Biology, Band 903
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213,99 € |
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| Verlag: | Springer |
| Format: | |
| Veröffentl.: | 24.06.2016 |
| ISBN/EAN: | 9781489976789 |
| Sprache: | englisch |
Dieses eBook enthält ein Wasserzeichen.
Beschreibungen
<p>The latest in a series of books from the International Hypoxia Symposia, this volume spans reviews on key topics in hypoxia, and abstracts from poster and oral presentations. The biannual International Hypoxia Symposia are dedicated to hosting the best basic scientific and clinical minds to focus on the integrative and translational biology of hypoxia. Long before ‘translational medicine’ was a catchphrase, the founders of the International Hypoxia Symposia brought together basic scientists, clinicians and physiologists to live, eat, ski, innovate and collaborate in the Canadian Rockies.</p><p>This collection of reviews and abstracts is divided into six sections, each covering new and important work relevant to a broad range of researchers interested in how humans adjust to hypoxia, whether on the top of Mt. Everest or in the pulmonary or cardiology clinic at low altitude. The sections include:<br></p><p></p><p></p><p></p><p></p><p></p><ul><li>Epigenetic Variations in Hypoxia<br>High Altitude Adaptation<br></li><li>Hypoxia and Sleep<br></li><li>Hypoxia and the Brain<br></li><li>Molecular Oxygen Sensing<br></li><li>Physiological Responses to Hypoxia</li></ul>
<p>Epigenetic Mechanisms as an
Interface Between the Environment and Genome.- Developmental Origins of Hypoxic
Pulmonary Hypertension and Systemic Vascular Dysfunction: Evidence from
Humans.- Acquired Mitochondrial Abnormalities, Including Epigenetic Inhibition
of Superoxide Dismutase 2, in Pulmonary Hypertension and Cancer: Therapeutic
Implications.- Epigenetics in Cardiovascular Regulation.- Why Are High Altitude
Native So Strong at Altitude?: Maximal Oxygen Transport to the Muscle Cell in
Altitude Natives.- Novel Insights into Cardiovascular Regulation in Patients
with Chronic Mountain Sickness.- Why Are High Altitude Natives So Strong at
High Altitude?: Nature vs. Nurture.- Functional Genomic Insights into
Regulatory Mechanisms of High Altitude Adaptation.- Influence of Hypoxia on
Cerebral Blood Flow Regulation.- Imaging the Respiratory Effects of Opioids in the
Human Brain.- Regional Cerebrovascular Responses to Hypercapnia and Hypoxia.-
Implications of Oxygen Homeostasis for Brain Tumors: Biology and Treatment.-
Hyperoxia and Functional MRI.- Astrocytes and Brain Hypoxia.- Bidirectional
Control of Blood Flow by Astrocytes: A Role for Tissue Oxygen and Other
Metabolic Factors.- Hypoxic Adaptation in the Nervous System: Promise for Novel
Therapeutics for Acute and Chronic Neurodegeneration.- Optical Analysis of
Hypoxia Inducible Factor (HIF)-1 Complex Assembly: Imaging of Cellular Oxygen
Sensing.- Modulation of the Hypoxic Response.- Central Sleep Apnea at High
Altitude.- Multigenerational Effects of Reading Atmospheric Oxygen Level on the
Tracheal Dimensions and Diffusing Capacities of Pupal and Adult Drosophila
Melanogaster.- Hypoxia and Its Acid-base Consequences: From Mountains to
Malignancy.- Physiological and Clinical Implications of Adrenergic Pathways at
High Altitude.- Hemoglobin Mass and Aerobic Performance at Moderate Altitude in
Elite Athletes.- Does the Sympathetic Nervous System Adapt to Chronic Altitude
Exposure?.- Integrative Conductance of Oxygen During Exercise at Altitude.-
Modeling Variable Phanerozoic Oxygen Effects on Physiology and Evolution.-
Caudwell Xtreme Everest: An Overview.- Energy Flux, Lactate Shuttling,
Mitochondrial Dynamics, and Hypoxia.- Everest Physiology Pre-2008.</p><p></p>
Interface Between the Environment and Genome.- Developmental Origins of Hypoxic
Pulmonary Hypertension and Systemic Vascular Dysfunction: Evidence from
Humans.- Acquired Mitochondrial Abnormalities, Including Epigenetic Inhibition
of Superoxide Dismutase 2, in Pulmonary Hypertension and Cancer: Therapeutic
Implications.- Epigenetics in Cardiovascular Regulation.- Why Are High Altitude
Native So Strong at Altitude?: Maximal Oxygen Transport to the Muscle Cell in
Altitude Natives.- Novel Insights into Cardiovascular Regulation in Patients
with Chronic Mountain Sickness.- Why Are High Altitude Natives So Strong at
High Altitude?: Nature vs. Nurture.- Functional Genomic Insights into
Regulatory Mechanisms of High Altitude Adaptation.- Influence of Hypoxia on
Cerebral Blood Flow Regulation.- Imaging the Respiratory Effects of Opioids in the
Human Brain.- Regional Cerebrovascular Responses to Hypercapnia and Hypoxia.-
Implications of Oxygen Homeostasis for Brain Tumors: Biology and Treatment.-
Hyperoxia and Functional MRI.- Astrocytes and Brain Hypoxia.- Bidirectional
Control of Blood Flow by Astrocytes: A Role for Tissue Oxygen and Other
Metabolic Factors.- Hypoxic Adaptation in the Nervous System: Promise for Novel
Therapeutics for Acute and Chronic Neurodegeneration.- Optical Analysis of
Hypoxia Inducible Factor (HIF)-1 Complex Assembly: Imaging of Cellular Oxygen
Sensing.- Modulation of the Hypoxic Response.- Central Sleep Apnea at High
Altitude.- Multigenerational Effects of Reading Atmospheric Oxygen Level on the
Tracheal Dimensions and Diffusing Capacities of Pupal and Adult Drosophila
Melanogaster.- Hypoxia and Its Acid-base Consequences: From Mountains to
Malignancy.- Physiological and Clinical Implications of Adrenergic Pathways at
High Altitude.- Hemoglobin Mass and Aerobic Performance at Moderate Altitude in
Elite Athletes.- Does the Sympathetic Nervous System Adapt to Chronic Altitude
Exposure?.- Integrative Conductance of Oxygen During Exercise at Altitude.-
Modeling Variable Phanerozoic Oxygen Effects on Physiology and Evolution.-
Caudwell Xtreme Everest: An Overview.- Energy Flux, Lactate Shuttling,
Mitochondrial Dynamics, and Hypoxia.- Everest Physiology Pre-2008.</p><p></p>
Dr. Robert Roach is the Director of the Altitude Research Center at the University of Colorado. He specializes in the study of physiological adaptations by humans to high altitude, with a recent emphasis on the genomic responses to allow humans to thrive in hypoxia. <div><br></div><div>Dr. Peter Wagner is a Distinguished Professor of Medicine and Bioengineering at the University of California, San Diego. His research addresses the theoretical and experimental basis of oxygen transport and its limitations in the lungs and skeletal muscles in health and disease. </div><div><br></div><div>Dr. Peter Hackett is a world-renowned high altitude expert and altitude research pioneer. He is a leading authority on altitude illness, high altitude climbing, wilderness medicine, and the effects of altitude on people living and working in the mountains.</div>
<p>The latest in a series of books from the International Hypoxia Symposia,
this volume spans reviews on key topics in hypoxia, and abstracts from poster
and oral presentations. The biannual International Hypoxia Symposia are
dedicated to hosting the best basic scientific and clinical minds to focus on
the integrative and translational biology of hypoxia. Long before
‘translational medicine’ was a catchphrase, the founders of the International
Hypoxia Symposia brought together basic scientists, clinicians and
physiologists to live, eat, ski, innovate and collaborate in the Canadian
Rockies. </p>
<p>This collection of reviews and abstracts is divided into six sections,
each covering new and important work relevant to a broad range of researchers
interested in how humans adjust to hypoxia, whether on the top of Mt. Everest
or in the pulmonary or cardiology clinic at low altitude. The sections include:<br></p><p></p>
<p></p><ul><li>Epigenetic Variations in Hypoxia<br></li><li>High Altitude Adaptation<br></li><li>Hypoxia and Sleep<br></li><li>Hypoxia and the Brain<br></li><li>Molecular Oxygen Sensing<br></li><li>Physiological Responses to Hypoxia<br></li></ul><p></p>
<p></p>
<p></p>
<p></p>
<p></p>
<p></p>
<p>Dr. Robert Roach is the Director of the Altitude Research Center at the
University of Colorado. He specializes in the study of physiological
adaptations by humans to high altitude, with a recent emphasis on the genomic responses
to allow humans to thrive in hypoxia. </p><p>Dr. Peter Wagner is a Distinguished Professor
of Medicine and Bioengineering at the University of California, San Diego. His
research addresses the theoretical and experimental basis of oxygen transport
and its limitations in the lungs and skeletal muscles in health and disease. </p><p>Dr. Peter Hackett is a world-renowned high altitude expert and altitude
research pioneer. He is a leading authority on altitude illness, high altitude
climbing, wilderness medicine, and the effects of altitude on people living and
working in the mountains.<br></p><p></p>
this volume spans reviews on key topics in hypoxia, and abstracts from poster
and oral presentations. The biannual International Hypoxia Symposia are
dedicated to hosting the best basic scientific and clinical minds to focus on
the integrative and translational biology of hypoxia. Long before
‘translational medicine’ was a catchphrase, the founders of the International
Hypoxia Symposia brought together basic scientists, clinicians and
physiologists to live, eat, ski, innovate and collaborate in the Canadian
Rockies. </p>
<p>This collection of reviews and abstracts is divided into six sections,
each covering new and important work relevant to a broad range of researchers
interested in how humans adjust to hypoxia, whether on the top of Mt. Everest
or in the pulmonary or cardiology clinic at low altitude. The sections include:<br></p><p></p>
<p></p><ul><li>Epigenetic Variations in Hypoxia<br></li><li>High Altitude Adaptation<br></li><li>Hypoxia and Sleep<br></li><li>Hypoxia and the Brain<br></li><li>Molecular Oxygen Sensing<br></li><li>Physiological Responses to Hypoxia<br></li></ul><p></p>
<p></p>
<p></p>
<p></p>
<p></p>
<p></p>
<p>Dr. Robert Roach is the Director of the Altitude Research Center at the
University of Colorado. He specializes in the study of physiological
adaptations by humans to high altitude, with a recent emphasis on the genomic responses
to allow humans to thrive in hypoxia. </p><p>Dr. Peter Wagner is a Distinguished Professor
of Medicine and Bioengineering at the University of California, San Diego. His
research addresses the theoretical and experimental basis of oxygen transport
and its limitations in the lungs and skeletal muscles in health and disease. </p><p>Dr. Peter Hackett is a world-renowned high altitude expert and altitude
research pioneer. He is a leading authority on altitude illness, high altitude
climbing, wilderness medicine, and the effects of altitude on people living and
working in the mountains.<br></p><p></p>
Discusses the latest up-to-date research and discoveries related to hypoxia Spans reviews on key topics in hypoxia Covers findings revealed at the latest International Hypoxia Symposia Includes supplementary material: sn.pub/extras
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