2 Clinical Trials for Various Conditions
Excess fetal adipose tissue growth during intrauterine development increases future obesity risk. Development of brown adipose tissue, a highly thermogenic organ in utero, may affect postnatal energy expenditure, thus influencing obesity risk. This pilot research study is designed to understand the developmental origins of energy balance by examining maternal and neonatal factors that influence neonatal brown adipose tissue and to quantify its physiological relevance to energy expenditure in human neonates.
Human fat tissue is essentially white fat, the main function of which is to store excess energy intake, and to release it when necessary. Brown fat is far less abundant and is present in the body to burn fat (and thus energy) to generate heat to maintain body temperature around 96 degrees. This phenomenon is called thermogenesis. When humans are exposed to cold on a chronic basis, brown fat expands and becomes more active, and consequently burns more energy. The amount of brown fat is higher during winter, and daily short (20 minutes) exposures to cold might be sufficient to induce its activity. We hypothesized that daily short term (20 minutes) exposure to a cold environment (4 °C) for four weeks increases adaptive BAT-mediated thermogenesis. CIT and DIT will be increased proportionally (the increase in CIT and DIT will be correlated).