‘gravitostat’ tag
- See Also
-
Links
- “Regulatory Effect of Osteocytes on Extramedullary and Bone Marrow Adipose Tissue Development and Function”, Lecka-Czernik et al 2024
- “Reduction of Body Weight by Increased Loading Is Associated With Activation of Norepinephrine Neurons in the Medial Nucleus of the Solitary Tract”, Zlatkovic et al 2023
- “Effects of Aquatic Exercise on Appetitive Responses in Adolescents With Obesity: An Exploratory Study”, Miguet et al 2023
- “Obesity and Bone: A Complex Relationship”, Rinonapoli et al 2021
- “The Gravitostat Protects Diet-Induced Obese Rats against Fat Accumulation and Weight Gain”, Bake et al 2021
- “A Body Weight Sensor Regulates Prepubertal Growth via the Somatotropic Axis in Male Rats”, Jansson et al 2021
- “Increased Weight Loading Reduces Body Weight and Body Fat in Obese Subjects—A Proof of Concept Randomized Clinical Trial”, Ohlsson et al 2020
- “Load-Carriage Conditioning Elicits Task-Specific Physical and Psychophysical Improvements in Males”, Wills et al 2019
- “Interactions Between the Gravitostat and the Fibroblast Growth Factor System for the Regulation of Body Weight”, Palsdottir et al 2019
- “Low Volume, Home-Based Weighted Step Exercise Training Can Improve Lower Limb Muscle Power and Functional Ability in Community-Dwelling Older Women”, Mair et al 2019
- “The Gravitostat Regulates Fat Mass in Obese Male Mice While Leptin Regulates Fat Mass in Lean Male Mice”, Ohlsson et al 2018
- “Where Does the Gravitostat Fit In?”, Ohlssona & Jansson 2018
- “Body Weight Homeostat That Regulates Fat Mass Independently of Leptin in Rats and Mice”, Jansson et al 2018
- Wikipedia
- Bibliography
See Also
Links
“Regulatory Effect of Osteocytes on Extramedullary and Bone Marrow Adipose Tissue Development and Function”, Lecka-Czernik et al 2024
“Reduction of Body Weight by Increased Loading Is Associated With Activation of Norepinephrine Neurons in the Medial Nucleus of the Solitary Tract”, Zlatkovic et al 2023
“Effects of Aquatic Exercise on Appetitive Responses in Adolescents With Obesity: An Exploratory Study”, Miguet et al 2023
“Obesity and Bone: A Complex Relationship”, Rinonapoli et al 2021
“The Gravitostat Protects Diet-Induced Obese Rats against Fat Accumulation and Weight Gain”, Bake et al 2021
The gravitostat protects diet-induced obese rats against fat accumulation and weight gain
“A Body Weight Sensor Regulates Prepubertal Growth via the Somatotropic Axis in Male Rats”, Jansson et al 2021
A Body Weight Sensor Regulates Prepubertal Growth via the Somatotropic Axis in Male Rats
“Increased Weight Loading Reduces Body Weight and Body Fat in Obese Subjects—A Proof of Concept Randomized Clinical Trial”, Ohlsson et al 2020
“Load-Carriage Conditioning Elicits Task-Specific Physical and Psychophysical Improvements in Males”, Wills et al 2019
Load-Carriage Conditioning Elicits Task-Specific Physical and Psychophysical Improvements in Males
“Interactions Between the Gravitostat and the Fibroblast Growth Factor System for the Regulation of Body Weight”, Palsdottir et al 2019
“Low Volume, Home-Based Weighted Step Exercise Training Can Improve Lower Limb Muscle Power and Functional Ability in Community-Dwelling Older Women”, Mair et al 2019
“The Gravitostat Regulates Fat Mass in Obese Male Mice While Leptin Regulates Fat Mass in Lean Male Mice”, Ohlsson et al 2018
“Where Does the Gravitostat Fit In?”, Ohlssona & Jansson 2018
“Body Weight Homeostat That Regulates Fat Mass Independently of Leptin in Rats and Mice”, Jansson et al 2018
Body weight homeostat that regulates fat mass independently of leptin in rats and mice