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Osmoreceptor
How Does the Brain Sense Osmolality?
The Effect of High Salt Intake on Osmoreceptor Gain in Salt
L7-Renal Regulation of Body Fluid [PDF]
Study Guide Renal Module
Hypothalamic Disconnection Caudal to Paraventricular Nucleus Affects Cardiovascular and Drinking Responses to Central Angiotensin II and Carbachol
Renal Physiology a Clinical Approach
Regulation of Water and Electrolyte Metabolism During Dehydration and Rehydration in Camels Ali Abdullah Al-Qarawi Iowa State University
The Neural Basis of Sodium Appetite
Selectively Inhibiting the Median Preoptic Nucleus Attenuates Angiotensin II and Hyperosmotic- Induced Drinking Behavior and Vasopressin Release in Adult Male Rats
Fluid Balance
Regulation of Extracellular Fluid Volume and Osmolality
Amplification of Transducer Gain by Angiotensin II- Mediated Enhancement of Cortical Actin Density in Osmosensory Neurons
Application for Amend to License 06-00092-05,Designating FS
Osmoreceptors in the Central Nervous System
Renal-Pathophysiology.Pdf
The Subfornical Organ Is the Primary Locus of Sodium-Level Sensing by Nax Sodium Channels for the Control of Salt- Intake Behavi
Contribution of TRPV Channels to Osmosensory Transduction, Thirst, and Vasopressin Release R Sharif-Naeini1, S Ciura1, Z Zhang1 and CW Bourque1
Central Mechanisms of Osmosensation and Systemic Osmoregulation
Top View
How Does the Brain Sense Osmolality?
Blood Pressure Regulation Evolved from Basic Homeostatic Components
Hypodipsic Hypernatremia with Intact AVP Response to Non-Osmotic Stimuli Induced by Hypothalamic Tumor : a Case Report
Water Intake, Water Balance, and the Elusive Daily Water Requirement
Water Intake and the Neural Correlates of the Consciousness of Thirst Michael J
Validation of an Integrative Mathematical Model of Dehydration and Rehydration in Virtual Humans W
Neural Circuits Underlying Thirst and Fluid Homeostasis
How Does the Brain Sense Osmolality?