What is homeostatic regulation?
Homeostatic regulation concerns different ways that the human body maintains the inner state of balance. The initiation of homeostatic processes occurs as a result of stress -causing stress, whether inside the system or externally. Although the organs consist of one particular type of tissue, they cannot maintain the body by themselves, but must cooperate with other tissues to protect the body and distribute, for example, nutrition. The work of homeostasis includes feedback mechanisms necessary for continuous monitoring and checking some states, including temperature and fluid balance.
The stressors are body ways, how to indicate that in homeostasis there is a disruption, generally caused by a change internally or outdoors in the environment. The reactions occur without conscious efforts to induce homeostatic regulation, actions that work to solve the problem causing disturbance. Pollution, hot and colds are examples of environmental stressors, whites in electrolyte levels, breathing and heart rhythm are inner.
Homeostasis maintenance can be achieved through cooperation of organ systems. Since the human body includes billions of organized cells that make up many types of tissues and organs, organ systems combine several organs together and perform associated functions. For example, the primary function of the digestive system is to break down nutrients for absorption into the bloodstream; However, this is achieved by several structures that work together, such as stomach, pancreas and small intestine. Distribution and transport of nutrients would not be impossible without the help of the circulatory system and pick up where the digestive system is leaving.
Negative biofeedback mechanisms maintain homeostatic regulation by responding to fluctuations that are normal outside range. This is the case of RE temperature regulation, which consists of several functions that have to do with thermoregulation of the system. When the body reaches a temperature that is too high or low, they are startingENES of certain reactions that return it to normal. Other internal conditions such as blood glucose, blood pressure and fluid content are also checked in the same way.
works the other way around, a positive biofeedback system creates the momentum of the current state instead of reducing its effects. An example of this is childbirth, because with each uterine contraction, the intensity increases and is usually a repeated cycle without ending until the child is born. As in the example of birth, positive feedback systems often have homeostatic regulation and, as a result, can sometimes cause serious stability problems. The aim of these types of mechanisms is generally to achieve a certain type of goal and return the body to its normal state of balance after what it has been.