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Chronic Somogyi rebound is a contested explanation of phenomena of elevated blood sugars experienced by diabetics in the morning. Also called the Somogyi effect and posthypoglycemic hyperglycemia, it is a rebounding high blood sugar that is a response to low blood sugar. [1] When managing the blood glucose level with insulin injections, this effect is counter-intuitive to people who experience ...
Triiodothyronine, also known as T3, is a thyroid hormone. It affects almost every physiological process in the body, including growth and development, metabolism, body temperature, and heart rate.
Recent research suggests that moderate-to-vigorous physical activity in the evenings could help maintain blood sugar levels in a healthy range.
Those who have type two diabetes are prone to having higher than normal blood sugar levels; one way to help manage these levels is through exercise. People diagnosed with type two diabetes can use exercise as a way to maintain their blood sugar and it has been shown to work just as well as medications.
Researchers say to focus on moderate- to vigorous-intensity exercise done after 6 p.m. to lower blood glucose levels. Although blood sugar control is essential for those with diabetes, it's also ...
Dawn phenomenon. The dawn phenomenon, sometimes called the dawn effect, is an observed increase in blood sugar (glucose) levels that takes place in the early-morning, often between 2 a.m. and 8 a.m. First described by Schmidt in 1981 as an increase of blood glucose or insulin demand occurring at dawn, [1] this naturally occurring phenomenon is ...
Human body temperature varies. It depends on sex, age, time of day, exertion level, health status (such as illness and menstruation), what part of the body the measurement is taken at, state of consciousness (waking, sleeping, sedated), and emotions. Body temperature is kept in the normal range by a homeostatic function known as thermoregulation, in which adjustment of temperature is triggered ...
The major form of thyroid hormone in the blood is thyroxine (T 4 ), whose half-life of around one week [4] is longer than that of T 3. [5] In humans, the ratio of T 4 to T 3 released into the blood is approximately 14:1. [6] T 4 is converted to the active T 3 (three to four times more potent than T 4) within cells by deiodinases (5′-deiodinase). These are further processed by decarboxylation ...