The role of the reathline in the end noisy system

The realine is the main gland of the end end of the ende ende secret system. This gland uses the information it receives from the brain to transmit information to other glands in the body. It produces many important hormones including growth hormone, prolactin and luteinizing hormone (LH) that manage estrogen in women and testosterone in men.

1. hypophysis

The realine is often called the main gland because its hormones control other parts of the end endome system, namely the thyroid gland, astraceous glands, ovaries and testicles.

The saddle gland is about the size of a pea and weighs 0.5 grams. It is the protrusion from the bottom of the underside of the hill at the base of the brain. The pit pit gland is located on the butterfly bone pit in the center of the middle skull bone. And it is surrounded by a small bone cavity with sural folds. The front sedath gland is a collection of glands that regulate some of the body's biological processes (including stress, growth, reproduction, breastfeeding…).

Synthesis and secretion of melanocyte-stimulating hormones. The back saddle gland is a collection of glands that are functionally connected to the lower hillside by the appearance through a small tube called the saddle gland stalk (also known as the umbilical cord).

Diagnosis of mesathoma

The saddle gland is about the size of a pea and weighs 0.5 grams

2. The role of the reathline in the end noisy system

The dors stationary gland is located behind the nose, near the lower part of the brain. It is associated with the lower hills by the trunk-like structure. The lower hillside is a small area in the brain, and it is important in controlling the balance of body functions. It also controls the release of hormones from the sedath gland.

The mealine is divided into two different parts: the front and rear lobes.

2.1. Front lobe

The front lobe of the sysath gland is made up of several different types of cells that produce and release different hormones, including:

  • Growth hormone (GH). Growth hormone regulates growth and physical development. It can stimulate growth in most body tissues. Its main goal is bone and muscle growth.
  • Thyroid stimulating hormone (TSH). This hormone activates the thyroid gland to release thyroid hormones. The thyroid gland and the hormones it produces are important for metabolism.
  • Amenical shell hormone (AH). The anthitic corti secretion hormone stimulates the athline glands to produce cortisol and other hormones.
  • Follicle-stimulating hormone (FSH). Follicle-stimulating hormones are involved in the regulate of estrogen and the growth of egg cells in women. It is also important in the production of sperm cells in men.
  • Luteinizing hormone (LH). This hormone is involved in the production of estrogen in women and testosterone in men.
  • Prolactin. Prolactin helps breastfeeding women produce better milk.
  • Endorphins. Endorphins have analgesic properties and are believed to be associated with the pleasure centers of the brain.
  • Enkephalin. Enkephalin is closely related to endorphins and has the same effect as an anegesic.
  • Beta-melanocyte-stimulating hormone. This hormone helps stimulate skin pigmentation in response to uv exposure.

Front lobe of the reline

Front lobe of the reline

The back lobe of the sysath gland also secretes hormones. These hormones are usually produced in the lower hills and are stored in the latter until they are released.

Hormones stored in the following lobes include:

  • Dility hormone is also known as anti-urinary hormone. It helps the body save water and prevent dehydration.
  • Oxytocin. The hormone oxytocin stimulates the release of breast milk. At the same time it also has the effect of stimulating the contraction of the uterus during labor.

3. Diseases associated with the quiet gland

Some conditions affect the sedath gland and are mostly caused by a tumor in or around the still gland. This can affect the release of hormones.

Some of the disorders of the quiet gland include:

  • Meathline tumor. Saddle gland tumors are usually non-cancerous. However, they often interfere with the release of hormones. They can also hide in other areas of the brain and lead to vision problems or headaches.

There are two types of mesathoma: the tumor that stimulates excrety and the tumor that does not stimulate excrety. Tumors that stimulate excretion will secrete too much hormones, on the contrary the tumors do not stimulate the secretion of excess hormones.

These enderthormonal imbalances can cause problems in various areas of the body. For example, if there is a tumor that excessively excretes thyroid hormones, there is a high risk of suffering from high thyroid disease.

Symptoms of meathoma

Mealine tumor
  • Rest assured. This condition makes the saddle gland produce little or no of one or more of its hormones. This can affect things like growth or functioning the reproduction system.
  • Enlarged disease. In this condition, the quiet gland produces too much growth hormone. What can lead to excessive growth especially is hands and feet. It is usually associated with meatheas tumors.
  • Diabetes. This can be caused by a problem with the release of the dility hormone. It is usually caused by head injuries, surgery or tumors. As a result, people with this disease must overcome a large amount of much diluted urine. The sick person feels that he or she needs to drink plenty of water or other fluids.
  • Cushing's disease. The disease is caused by too much restaalysis hormone directed at the a hospital. This can lead to easy bruising, high blood pressure, and weight gain. It is usually caused by a tumor near or in the quiet gland.
  • Increased blood prolactin. In this condition, the blood of contains an abnormally high amount of prolactin. This can lead to infertility and a decrease in libido.
  • Traumatic brain injury. This situation is associated with an unexpected blow to the storm. Depending on the injury, the blow can damage the quiet glands and cause memory, communication and behavior problems.

Traumatic brain injury

Traumatic brain injury affects the quiet glands

The saddle gland is extremely important for the overall functioning of the end noisular system and overall health. By working with the area under the hill, the quiet gland ensures that all processes inside the body work normally.

Customers can directly go to Share99 Health System nationwide for examination or contact the hotline here for assistance.

Article reference source: webmd.com, hopkinsmedicine.org, healthline.com, endocrineweb.com

SEE MORE:

  • Treatment of hematoma prolactin
  • Is the mesathoma dangerous?
  • Hormones born from the saddle gland
SEE MORE:

  • Treatment of hematoma prolactin
  • What does increased blood prolactin warn?
  • What does low-blood prolactin warn?

About: Minh Quynh

b1ffdb54307529964874ff53a5c5de33?s=90&d=identicon&r=gI am the author of Share99.net. I had been working in Vinmec International General Hospital for over 10 years. I dedicate my passion on every post in this site.

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