Add to ORKGBACKGROUND: Mild cold exposure increases energy expenditure and can influence energy balance, but at the same time it does not increase appetite and energy intake. OBJECTIVE: To quantify dermal insulative cold response, we assessed thermal comfort and skin temperatures changes by infrared thermography. METHODS: We exposed healthy volunteers to either a single episode of environmental mild cold or thermoneutrality. We measured hunger sensation and actual free food intake. After a thermoneutral overnight stay, five males and five females were exposed to either 18°C (mild cold) or 24°C (thermoneutrality) for 2.5 h. Metabolic rate, vital signs, skin temperature, blood biochemistry, cold and hunger scores were measured at baseline and for every ...
Department of Human Biology, Maastricht University, 6200 MD Maastricht, The Netherlands. MarkenLicht...
Muscle glycogen use and glucose uptake during cold exposure increases with shivering intensity. We h...
Objective: Energy expenditure (EE) increases in response to cold exposure, which is called cold indu...
Background: Mild cold exposure increases energy expenditure and can influence energy balance, but at...
INTRODUCTION: In response to mild cold exposure, brown adipose tissue (BAT) produces heat via non-sh...
This thesis reports on the variation in human metabolic and insulative responses to mild cold. Wheth...
The studies in this thesis were to assess whether obese relative to non-obese individuals have blunt...
Objective: Energy expenditure (EE) increases in response to cold exposure, which is called cold indu...
(1) short-term effect of mild decrease in environmental temperature (16°c versus 22°c) on 24 h energ...
Objective To study if repeated cold-exposure increases metabolic rate and/or brown adipose tissue (B...
Inter-individual differences in body temperature and resting metabolic rate (RMR), during comfortabl...
<div><p>The aim of this study was to comprehensively describe the physiological responses to an acut...
Objective: Energy expenditure (EE) increases in response to cold exposure, which is called cold indu...
Context: Adaptive thermogenesis is defined as the increase in energy expenditure in response to over...
Department of Human Biology, Maastricht University, 6200 MD Maastricht, The Netherlands. MarkenLicht...
Muscle glycogen use and glucose uptake during cold exposure increases with shivering intensity. We h...
Objective: Energy expenditure (EE) increases in response to cold exposure, which is called cold indu...
Background: Mild cold exposure increases energy expenditure and can influence energy balance, but at...
INTRODUCTION: In response to mild cold exposure, brown adipose tissue (BAT) produces heat via non-sh...
This thesis reports on the variation in human metabolic and insulative responses to mild cold. Wheth...
The studies in this thesis were to assess whether obese relative to non-obese individuals have blunt...
Objective: Energy expenditure (EE) increases in response to cold exposure, which is called cold indu...
(1) short-term effect of mild decrease in environmental temperature (16°c versus 22°c) on 24 h energ...
Objective To study if repeated cold-exposure increases metabolic rate and/or brown adipose tissue (B...
Inter-individual differences in body temperature and resting metabolic rate (RMR), during comfortabl...
<div><p>The aim of this study was to comprehensively describe the physiological responses to an acut...
Objective: Energy expenditure (EE) increases in response to cold exposure, which is called cold indu...
Context: Adaptive thermogenesis is defined as the increase in energy expenditure in response to over...
Department of Human Biology, Maastricht University, 6200 MD Maastricht, The Netherlands. MarkenLicht...
Muscle glycogen use and glucose uptake during cold exposure increases with shivering intensity. We h...
Objective: Energy expenditure (EE) increases in response to cold exposure, which is called cold indu...