Objectives: The laboratory mouse is presently the most common model for examining mechanisms of human physiology and disease. Housing temperatures can have a large impact on the outcome of such experiments and on their translatability to the human situation. Humans usually create for themselves a thermoneutral environment without cold stress, while laboratory mice under standard conditions (≈20° C) are under constant cold stress. In a well-cited, theoretical paper by Speakman and Keijer in Molecular Metabolism, it was argued that housing mice under close to standard conditions is the optimal way of modeling the human metabolic situation. This tenet was mainly based on the observation that humans usually display average metabolic rates of ab...
Mice have their lowest (basal) metabolic rate when housed at thermoneutrality, which starts above 29...
Mice, rats, and nearly all mammals and birds are classified as homeothermic, meaning that their core...
Development of obesity and associated disorders is caused by imbalance between energy intake and ene...
Objectives: Ambient temperature impinges on energy metabolism in a body size dependent manner. This ...
Mice under standard laboratory conditions are generally housed between 20 and 24°C, which are below ...
Access restricted to the OSU CommunityMice under standard laboratory conditions are generally housed...
It has been argued that mice should be housed at 30 °C to best mimic the thermal conditions experien...
Objectives: We quantified the effect of environmental temperature on mouse energy homeostasis and bo...
the argument has been made that this housing temperature is not optimal to provide the best model fo...
1. Data of Resting Metabolic Rate (RMR) of random bred (RB) mice and mice divergently selected towar...
Objective: To improve understanding of mouse energy homeostasis and its applicability to humans, we ...
Laboratory mice housed in modern vivariums are chronically cold-stressed. Cold-stressed mice exhibit...
Endothermic organisms such as mammals and birds rely on high energy budgets to regulate body tempera...
Obesity and associated metabolic diseases have become a priority area of study due to the exponentia...
The components of energy expenditure, total metabolic rate (TMR), resting metabolic rate (RMR), ther...
Mice have their lowest (basal) metabolic rate when housed at thermoneutrality, which starts above 29...
Mice, rats, and nearly all mammals and birds are classified as homeothermic, meaning that their core...
Development of obesity and associated disorders is caused by imbalance between energy intake and ene...
Objectives: Ambient temperature impinges on energy metabolism in a body size dependent manner. This ...
Mice under standard laboratory conditions are generally housed between 20 and 24°C, which are below ...
Access restricted to the OSU CommunityMice under standard laboratory conditions are generally housed...
It has been argued that mice should be housed at 30 °C to best mimic the thermal conditions experien...
Objectives: We quantified the effect of environmental temperature on mouse energy homeostasis and bo...
the argument has been made that this housing temperature is not optimal to provide the best model fo...
1. Data of Resting Metabolic Rate (RMR) of random bred (RB) mice and mice divergently selected towar...
Objective: To improve understanding of mouse energy homeostasis and its applicability to humans, we ...
Laboratory mice housed in modern vivariums are chronically cold-stressed. Cold-stressed mice exhibit...
Endothermic organisms such as mammals and birds rely on high energy budgets to regulate body tempera...
Obesity and associated metabolic diseases have become a priority area of study due to the exponentia...
The components of energy expenditure, total metabolic rate (TMR), resting metabolic rate (RMR), ther...
Mice have their lowest (basal) metabolic rate when housed at thermoneutrality, which starts above 29...
Mice, rats, and nearly all mammals and birds are classified as homeothermic, meaning that their core...
Development of obesity and associated disorders is caused by imbalance between energy intake and ene...