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Arterial Chemoreception

Overview of attention for book
Cover of 'Arterial Chemoreception'

Table of Contents

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    Book Overview
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    Chapter 1 The role of hypoxia-inducible factors in oxygen sensing by the carotid body.
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    Chapter 2 Neuronal Mechanisms of Oxygen Chemoreception: An Invertebrate Perspective
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    Chapter 3 Peripheral Chemoreceptors in Air- Versus Water- Breathers
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    Chapter 4 Sex-Specific Effects of Daily Gavage with a Mixed Progesterone and Glucocorticoid Receptor Antagonist on Hypoxic Ventilatory Response in Newborn Rats
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    Chapter 5 Age-Dependent Changes in Breathing Stability in Rats
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    Chapter 6 Dose Dependent Effect of Progesterone on Hypoxic Ventilatory Response in Newborn Rats
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    Chapter 7 Postnatal Hyperoxia Impairs Acute Oxygen Sensing of Rat Glomus Cells by Reduced Membrane Depolarization
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    Chapter 8 Erythropoietin and the Sex-Dimorphic Chemoreflex Pathway
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    Chapter 9 Time-Course of Ventilation, Arterial and Pulmonary CO 2 Tension During CO 2 Increase in Humans
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    Chapter 10 Oxygen Sensitive Synaptic Neurotransmission in Anoxia-Tolerant Turtle Cerebrocortex
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    Chapter 11 Ion Channel Regulation by the LKB1-AMPK Signalling Pathway: The Key to Carotid Body Activation by Hypoxia and Metabolic Homeostasis at the Whole Body Level
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    Chapter 12 Anoxia Response in Physiological Potassium of the Isolated Inspiratory Center in Calibrated Newborn Rat Brainstem Slices
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    Chapter 13 Hypoxic Redistribution of Iron and Calcium in the Cat Glomus Cells
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    Chapter 14 Acute Hypoxia Does Not Influence Intracellular pH in Isolated Rat Carotid Body Type I Cells
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    Chapter 15 Hydrogen Sulfide (H 2 S): A Physiologic Mediator of Carotid Body Response to Hypoxia
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    Chapter 16 The Retrotrapezoid Nucleus and Breathing
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    Chapter 17 The Interaction Between Low Glucose and Hypoxia in the in vitro , Rat Carotid Body
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    Chapter 18 Do the Carotid Bodies Modulate Hypoglycemic Counterregulation and Baroreflex Control of Blood Pressure In Humans?
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    Chapter 19 Shifting from Hypoxia to Hyperoxia to Assess the Peripheral Chemosensory Drive of Ventilation
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    Chapter 20 CO 2 Signaling in Chemosensory Neuroepithelial Cells of the Zebrafish Gill Filaments: Role of Intracellular Ca 2+ and pH
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    Chapter 21 Hyperplasia of Pulmonary Neuroepithelial Bodies (NEB) in Lungs of Prolyl Hydroxylase −1(PHD-1) Deficient Mice
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    Chapter 22 Precision-Cut Vibratome Slices Allow Functional Live Cell Imaging of the Pulmonary Neuroepithelial Body Microenvironment in Fetal Mice
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    Chapter 23 Oxygen Sensitivity of Gill Neuroepithelial Cells in the Anoxia-Tolerant Goldfish
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    Chapter 24 Interaction of Hypoxia and Core Temperature: Potential Role of TRPV1
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    Chapter 25 Neonatal Intermittent Hypoxia Induces Persistent Alteration of Baroreflex in Adult Male Rats
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    Chapter 26 LPS-induced c-Fos activation in NTS neurons and plasmatic cortisol increases in septic rats are suppressed by bilateral carotid chemodenervation.
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    Chapter 27 Developmental Regulation of Glucosensing in Rat Adrenomedullary Chromaffin Cells: Potential Role of the K ATP Channel
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    Chapter 28 Contribution of Inflammation on Carotid Body Chemosensory Potentiation Induced by Intermittent Hypoxia
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    Chapter 29 Spexin Is Expressed in the Carotid Body and Is Upregulated by Postnatal Hyperoxia Exposure
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    Chapter 30 Cyclic AMP and Epac Contribute to the Genesis of the Positive Interaction Between Hypoxia and Hypercapnia in the Carotid Body
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    Chapter 31 Interactions Between Postnatal Sustained Hypoxia and Intermittent Hypoxia in the Adulthood to Alter Brainstem Structures and Respiratory Function
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    Chapter 32 Brain-Derived Neurotrophic Factor in the Nucleus Tractus Solitarii Modulates Glucose Homeostasis After Carotid Chemoreceptor Stimulation in Rats
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    Chapter 33 Hydrogen Sulfide Acting at the Carotid Body and Elsewhere in the Organism
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    Chapter 34 Purinergic Modulation of Carotid Body Glomus Cell Hypoxia Response During Postnatal Maturation in Rats
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    Chapter 35 Serotonin Dynamics and Actions in the Rat Carotid Body: Preliminary Findings
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    Chapter 36 Human Carotid Body HIF and NGB Expression During Human Development and Aging
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    Chapter 37 Arterial Chemoreception
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    Chapter 38 ATP Release from the Carotid Bodies of DBA/2J and A/J Inbred Mouse Strains
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    Chapter 39 Effect of oxygen on phosphodiesterases (PDE) 3 and 4 isoforms and PKA activity in the superior cervical ganglia.
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    Chapter 40 Arterial Chemoreception
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    Chapter 41 Upregulation of Pituitary Adenylate Cyclase Activating Polypeptide and Its Receptor Expression in the Rat Carotid Body in Chronic and Intermittent Hypoxia
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    Chapter 42 Rabbit ventilatory responses to peripheral chemoexcitators: effects of chronic hypoxia.
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    Chapter 43 Effect of Chronic Caffeine Intake on Carotid Body Catecholamine Dynamics in Control and Chronically Hypoxic Rats
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    Chapter 44 Effects of Cigarette Smoke and Chronic Hypoxia on Ventilation in Guinea Pigs. Clinical Significance
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    Chapter 45 Some Reflections on Intermittent Hypoxia. Does it Constitute the Translational Niche for Carotid Body Chemoreceptor Researchers?
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    Chapter 46 Role of central/peripheral chemoreceptors and their interdependence in the pathophysiology of sleep apnea.
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    Chapter 47 Physiologic Basis for Intermittent Hypoxic Episodes in Preterm Infants
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    Chapter 48 Chronic Intermittent Hypoxia Increases Apnoea Index in Sleeping Rats
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    Chapter 49 Contribution of TASK-Like Potassium Channels to the Enhanced Rat Carotid Body Responsiveness to Hypoxia
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    Chapter 50 Antioxidation and the Hypoxic Ventilatory Response
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    Chapter 51 Differential Regulation of Tyrosine Hydroxylase by Continuous and Intermittent Hypoxia
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    Chapter 52 Heart Failure and Carotid Body Chemoreception
Attention for Chapter 16: The Retrotrapezoid Nucleus and Breathing
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Chapter title
The Retrotrapezoid Nucleus and Breathing
Chapter number 16
Book title
Arterial Chemoreception
Published in
Advances in experimental medicine and biology, August 2012
DOI 10.1007/978-94-007-4584-1_16
Pubmed ID
23080151
Book ISBNs
978-9-40-074583-4, 978-9-40-074584-1
Authors

Patrice G. Guyenet, Ruth L. Stornetta, Stephen B. G. Abbott, Seth D. Depuy, Roy Kanbar, Guyenet, Patrice G., Stornetta, Ruth L., Abbott, Stephen B. G., Depuy, Seth D., Kanbar, Roy, Stephen B.G. Abbott

Abstract

The retrotrapezoid nucleus (RTN) is located in the rostral medulla oblongata close to the ventral surface and consists of a bilateral cluster of glutamatergic neurons that are non-aminergic and express homeodomain transcription factor Phox2b throughout life. These neurons respond vigorously to increases in local pCO(2) via cell-autonomous and paracrine (glial) mechanisms and receive additional chemosensory information from the carotid bodies. RTN neurons exclusively innervate the regions of the brainstem that contain the respiratory pattern generator (RPG). Lesion or inhibition of RTN neurons largely attenuates the respiratory chemoreflex of adult rats whereas their activation increases respiratory rate, inspiratory amplitude and active expiration. Phox2b mutations that cause congenital central hypoventilation syndrome in humans prevent the development of RTN neurons in mice. Selective deletion of the RTN Phox2b-VGLUT2 neurons by genetic means in mice eliminates the respiratory chemoreflex in neonates.In short, RTN Phox2b-VGLUT2 neurons are a major nodal point of the CNS network that regulates pCO(2) via breathing and these cells are probable central chemoreceptors.

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X Demographics

The data shown below were collected from the profile of 1 X user who shared this research output. Click here to find out more about how the information was compiled.
 Mendeley readers

Mendeley readers

The data shown below were compiled from readership statistics for 52 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
United States 1 2%
Unknown 51 98%

Demographic breakdown

Readers by professional status Count As %
Student > Bachelor 10 19%
Student > Ph. D. Student 6 12%
Researcher 6 12%
Student > Doctoral Student 4 8%
Other 3 6%
Other 7 13%
Unknown 16 31%
Readers by discipline Count As %
Medicine and Dentistry 11 21%
Neuroscience 8 15%
Agricultural and Biological Sciences 7 13%
Engineering 3 6%
Pharmacology, Toxicology and Pharmaceutical Science 1 2%
Other 4 8%
Unknown 18 35%
Attention Score in Context

Attention Score in Context

This research output has an Altmetric Attention Score of 1. This is our high-level measure of the quality and quantity of online attention that it has received. This Attention Score, as well as the ranking and number of research outputs shown below, was calculated when the research output was last mentioned on 02 October 2021.
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#20,260,958
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Outputs from Advances in experimental medicine and biology
#3,960
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Outputs of similar age from Advances in experimental medicine and biology
#19
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