Core temperature

Cutting Edge: Fever-Associated Temperatures Enhance Neutrophil Responses to Lipopolysaccharide: A Potential Mechanism Involving Cell Metabolism 1

Immunology / Fluorescence Microscopy / Cell Adhesion / Immunology of the Gut / Innate immunity / Lipopolysaccharide / Humans / Reactive Oxygen Species / Nitric oxide / Single Cell / Body Temperature / Neutrophils / Lipopolysaccharides / Fever / Core temperature / Extracellular Space / Superoxides / Lipopolysaccharide / Humans / Reactive Oxygen Species / Nitric oxide / Single Cell / Body Temperature / Neutrophils / Lipopolysaccharides / Fever / Core temperature / Extracellular Space / Superoxides

Cutting Edge: Fever-Associated Temperatures Enhance Neutrophil Responses to Lipopolysaccharide: A Potential Mechanism Involving Cell Metabolism

Immunology / Fluorescence Microscopy / Cell Adhesion / Immunology of the Gut / Innate immunity / Lipopolysaccharide / Humans / Reactive Oxygen Species / Nitric oxide / Single Cell / Body Temperature / Neutrophils / Lipopolysaccharides / Fever / Core temperature / Extracellular Space / Superoxides / Lipopolysaccharide / Humans / Reactive Oxygen Species / Nitric oxide / Single Cell / Body Temperature / Neutrophils / Lipopolysaccharides / Fever / Core temperature / Extracellular Space / Superoxides

Hypercapnia increases core temperature cooling rate during snow burial

Carbon Dioxide / Biological Sciences / Disasters / Humans / Mountaineering / Female / Male / Regression Analysis / Cooling Rate / Applied Physiology / SNOW / Respiration / Body Temperature / Adult / Time Factors / Core temperature / Hypercapnia / Female / Male / Regression Analysis / Cooling Rate / Applied Physiology / SNOW / Respiration / Body Temperature / Adult / Time Factors / Core temperature / Hypercapnia
Copyright © 2017 DADOSPDF Inc.