Hormones are produced by the endocrine glands and then released into the bloodstream. Hormones are essentially chemical messengers. They interact with the body by travelling from the bloodstream to their target organ to cause a specific alteration or impact in that cell. To assist the body cope with various events and pressures, the endocrine glands collaborate with the neurological and immunological systems. What are the endocrine glands? They are the glands in the human body that secrete hormones directly into the bloodstream.
Different Types of Endocrine Glands
What are the endocrine glands? The pituitary gland, hypothalamus, ovary, parathyroid gland, testes, pineal gland, thyroid gland, adrenal gland, and pancreas are the primary glands of the endocrine system. Now you might wonder what are the major endocrine glands of a pregnant woman? Apart from the ovaries, a pregnant woman’s uterus and placenta are also included as the endocrine glands.
Each of these glands serves a specific purpose in the human body. Let’s look into some of these endocrine glands in more detail.
Pituitary Gland
The pituitary is a tiny gland located in the brain’s hypothalamus, behind the nose bridge. It is responsible for producing growth hormones (GH) and a variety of other hormones. These hormones are thyrotropin, prolactin, endorphins, oxytocin, vasopressin, somatotropin, and gonadotropins. Hence, the pituitary regulates various functions in the human body. Some of the essential functions of a few of these pituitary hormones are as follows:
Functions:
- Somatotropin promotes the growth of all bodily tissues, particularly the bone and skeletal muscles. It has the potential to act directly or indirectly through insulin-like growth factors (IGFs). Fats are mobilised, protein synthesis is induced, and glucose absorption and metabolism are inhibited by somatotropin.
- The gonadotropins are the luteinising hormones and the follicle-stimulating hormones. In both sexes, they control the function of the gonads. Sex cell formation is stimulated by follicle-stimulating hormone, while the gonadal hormone production is promoted by luteinising hormone.
- Prolactin stimulates the production of milk in women. Prolactin-releasing hormone causes its release, while its production is prevented by prolactin-inhibiting hormone.
- Oxytocin causes strong uterine contractions, which lead to labour and aids in delivering a baby. It also helps in milk ejection in breastfeeding women. The release of oxytocin is a positive feedback loop, regulated automatically by the hypothalamus.
Hypothalamus
It is a neuroendocrine gland that produces a variety of hormones. Some of these hormones suppress pituitary gland activity, whereas others enhance it.
Functions:
- The hypothalamus influences many biological functions. It is in charge of controlling body temperature.
- It is responsible for regulating hunger based on whether the body requires food.
- The hypothalamus regulates mood.
- It is known to stimulate or inhibit sexual appetite.
- This gland is known for establishing sleep patterns and also regulating heart rate.
Ovary
The ovaries have an endocrine function as well. The gonads in females are positioned in the pelvis. They are involved in secreting progesterone and estrogen, the sex hormones in women, and producing eggs.
Functions:
- The secretion of estrogen affects female sexual traits and the reproductive system’s function.
- Progesterone is a hormone that plays an important function throughout pregnancy. It aids in preparing the uterine lining for the fertilised egg to be implanted.
Adrenal glands
These endocrine glands are positioned on the upper portion of the kidneys. There are two sections of the adrenal glands that have a role in hormone production – the adrenal cortex and the adrenal medulla. The different hormones produced by the adrenal glands are cortisols, testosterone, adrenalin, and aldosterone.
Functions:
- Steroid hormones secreted by the adrenal cortex are recognised to be necessary for sexual maturity and digestion.
- On the contrary, the hormones secreted by the adrenal medulla are not required for survival. However, they do assist the body in managing stress by releasing stress hormones.
Thyroid gland
The thyroid is a small endocrine gland in the neck that generates two thyroid hormones: T3 (triiodothyronine) and T4 (thyroxine). These hormones influence the metabolic rate. The gland is formed like a butterfly, with two wings joined by a central isthmus, and is placed on the front side of the neck. They release hormones that boost the quantity of oxygen utilised by cells and promote protein synthesis in the majority of the tissues in the body.
Functions:
- The thyroid is in charge of regulating and directing the rate of cellular metabolism.
- It aids in the absorption of important nutrients.
- Regulates the heart rate
- Aids in the burning of excess fat.
Pineal gland
The pineal gland is found in the brain’s diencephalon. It is responsible for the
secretion of melatonin.
Functions:
- Melatonin is a hormone that regulates the body’s circadian rhythm.
- It may also affect the skin’s melanocytes and melanotropes.
Conclusion
Our body’s endocrine system is composed of several endocrine glands. As our discussion ends, you now have the answer to the question: what are the endocrine glands? These glands are tissues that release hormones directly into the bloodstream. Some of these hormones control our moods, while others regulate cellular metabolism. The disbalance of these hormones in your body may lead to endocrine disorders. Your doctor can use blood and urine tests to evaluate your hormone levels to check for endocrine diseases.