1.7:
Homeostatic Imbalance
Maintaining homeostasis or homeostatic balance is crucial for preserving a stable internal body environment. Feedback loops help to maintain homeostatic balance by regulating physiological responses.
However, aging, infection, or genetic or environmental influences can disturb these feedback loops, leading to homeostatic imbalance. This disruption may result in disorders, diseases, and in severe situations, even death.
For example, when homeostasis is maintained, the hormone insulin regulates blood glucose levels in the body. Insulin signals cells to take up glucose from the blood and helps to maintain normal glucose levels.
A homeostatic imbalance occurs due to insulin resistance or impaired insulin synthesis, resulting in diabetes. In such cases, glucose remains in the blood at elevated levels. Because of this, many people with diabetes take medication or insulin to maintain blood glucose homeostasis.
1.7:
Homeostatic Imbalance
Homeostasis is the maintenance of a stable internal environment within the body, which is crucial for the proper functioning of cells, tissues, organs, and organ systems. The body has various control mechanisms that work together to regulate various physiological parameters such as temperature, blood pressure, pH balance, and fluid balance, to name a few. These control mechanisms are based on feedback loops that can be either positive or negative.
However, sometimes these feedback loops fail, and the body is unable to maintain homeostasis, which results in a condition called homeostatic imbalance. This can occur due to various factors such as injury, disease, environmental changes, genetic mutations, or aging.
Homeostatic imbalance can have detrimental effects on the body and can lead to various diseases and disorders. For example, a disruption in the feedback loop that regulates blood glucose levels can lead to diabetes. Similarly, an imbalance in the body's fluid and electrolyte balance can lead to dehydration, electrolyte imbalances, and other related disorders.
While homeostasis can be disrupted in individuals of all ages, the aging population is more susceptible to homeostatic imbalances. With aging, the hypothalamus becomes less sensitive to feedback signals, causing metabolic, energy, and stress regulation disruptions and increasing the risk of diseases such as heart failure.