Infertility Panel, Female near me in Agra
Understanding Infertility Panel, Female in Agra
What is Infertility Panel, Female in Agra?
Infertility panel females is a group of tests that is designed to diagnose the cause of infertility in females. This will also help in providing the right kind of treatment. It consists of blood tests that measures the amount of several hormones such as estradiol and progesterone that are needed for pregnancy.
What does Infertility Panel, Female measure?
Contains 8 testsProgesterone
The progesterone test measures the levels of progesterone in the blood. Progesterone is a hormone which helps to prepare the female body for pregnancy and maintain normal menstrual cycle and coordinate with other female hormones. Every month, the menstrual cycle begins with an increase in the level of estrogen hormone. This causes thickening of the inner lining of the uterus called endometrium. This coincides with an increase in levels of luteinizing hormone which induces the release of an egg from the ovary. Subsequently, a structure called corpus luteum forms on the ovary at the site where the egg was released. The corpus luteum produces progesterone hormone which arrests the endometrial growth and prepares the uterus for implantation of the fertilized egg.
At this juncture one of two things may happen. If the egg remains unfertilized, the corpus luteum slowly breaks down and progesterone levels fall. This induces breakdown of the endometrial lining and menstrual bleeding starts. However, if the egg is fertilized and attaches to the endometrium, the corpus luteum does not degenerate and continues progesterone secretion, thereby maintaining the thickened endometrial lining. After a few weeks of pregnancy, the placenta becomes fully formed and takes over the function of progesterone secretion till the completion of pregnancy. Therefore, increased progesterone levels are seen in pregnancy.
Levels of progesterone also fluctuates during normal menstrual cycle. Progesterone is secreted in much lower amounts in males, and is considered to play a small role in sperm development.
Few cancers can also result in abnormal progesterone levels in men and women.
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Anti-Mullerian Hormone
The AMH Test measures the levels of Anti Mullerian Hormone or AMH in blood.
Anti Mullerian Hormone or AMH is produced primarily by the testicles in males and the ovaries in females. AMH levels in blood determine and regulate a number of activities of the human reproductive system.
In the first few weeks of the fetal development during pregnancy, the fetus has both the primordial male and female reproductive systems and can develop either as a male or a female. In genetic males, high amounts of AMH are secreted by the testicles, suppressing the formation and development of the female reproductive organs from Mullerian ducts (primordial female reproductive system), and encouraging the development of other male sex organs, which results in the development of a male child. Low or no AMH secreted in the genetically female fetus causes the formation and development of female reproductive organs from the Mullerian duct and a female child is developed. Abnormalities of AMH levels in the fetus may cause the formation of ambiguous genitalia.
After birth, AMH levels remain high in males till puberty, after which they fall slowly and taper off with time. AMH levels in females remain low after birth till puberty. During puberty, AMH is secreted by the ovaries resulting in a sharp increase in its levels. The levels slowly keep falling throughout the female reproductive period and become very low to undetectable after menopause. AMH maintains a balance of the two important female reproductive hormones: Luteinizing Hormone (LH) and Follicle Stimulating Hormone (FSH), which regulate the maturation and release of eggs from the ovaries along with other hormones. Hence, AMH levels during the female reproductive period serve as an indication of the ovarian reserve (number of remaining eggs that can mature fully and be released for reproduction), and hence fertility. It is also an indicator of the onset of menopause, especially in older women.
AMH can also be produced by ovarian cysts formed during PCOS, as well as by some types of ovarian tumors.
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FSH-LH-Prolactin-TSH
FSH, LH, Prolactin, and TSH are the four key reproductive hormones which play an important role in reproduction. These tests are done to analyze any hormonal changes which may cause infertility.
Follicle-stimulating hormone (FSH): This hormone is associated with reproduction and the development of eggs in women and sperm in men. FSH is produced by the pituitary gland, and its production is controlled by a feedback system involving the hypothalamus in the brain, the pituitary gland, and the hormones produced by the ovaries or testicles. The Gonadotropin-releasing hormone (GnRH) from the hypothalamus stimulates the pituitary gland to release FSH and luteinizing hormone (LH; another closely-related hormone also involved in reproduction). FSH affects the growth and maturation of egg follicles in the ovaries during the follicular phase of the menstrual cycle. The menstrual cycle is divided into follicular and luteal phases, each phase lasting for 14 days. During the follicular phase, FSH initiates the production of estradiol by the follicle, and the two hormones work together in the further development of the egg follicle. Near the end of the follicular phase, the production of FSH and luteinizing hormone increases. The release of the egg from the ovary (ovulation) occurs shortly after this increased production of hormones. The hormone inhibin as well as estradiol and progesterone help in controlling the amount of FSH released by the pituitary gland. FSH also facilitates the ability of the ovary to respond to LH. At menopause, ovarian function decreases and eventually stops which results in increased levels of FSH and LH.
In males, the role of FSH is to stimulate the testicles to produce mature sperms and also to promote the production of androgen binding proteins. FSH levels are relatively constant in men after puberty than in women.
In infants and children, FSH levels rise shortly after birth and then fall to very low levels. Generally, in boys, these levels decrease by 6 months and in girls, they take about 1-2 years. These concentrations rise again before the beginning of puberty and the development of secondary sexual characteristics.
Disorders affecting the hypothalamus, pituitary, and/or the ovaries or testicles can cause abnormal production of FSH (too much or too little). This, as a result, can cause conditions such as infertility, abnormal menstrual cycles, or early (precocious) or delayed sexual maturation (puberty).
Luteinizing hormone (LH): This hormone is associated with reproduction and ovulation. In females, it stimulates the release of an egg from the ovary. However, in males, testosterone production is dependent on LH. This test helps in measuring the amount of LH present in the blood.
Just like FSH, LH is produced by the pituitary gland, and its production is controlled by the hypothalamus, pituitary gland, and the hormones produced by the ovaries (in women) or testicles (in men).
In premenopausal women, LH stimulates ovulation and the production of other hormones, namely, estradiol and progesterone. The menstrual cycle is divided into 2 phases, follicular and luteal phases, each of these last for about 14 days. Near the end of the follicular phase, there is a mid-cycle increase in follicle-stimulating hormone (FSH) and LH. This triggers ovulation. During the luteal phase, LH secretion stimulates the corpus luteum to start producing progesterone. At this point, the levels of FSH and LH get reduced, while progesterone and estradiol concentrations rise. If the egg is not fertilized, then the levels of these hormones fall after several days followed by the beginning of the next menstrual cycle. With the onset of menopause ovarian function reduces and eventually discontinues, which results in increased levels of FSH and LH.
In men, LH stimulates Leydig cells in the testicles to produce testosterone. However, the levels of LH remain relatively constant in men after puberty. Due to high levels of testosterone, the pituitary gland and the hypothalamus receives negative feedback which in turn decreases the secretion of LH hormone.
In infants and children, LH levels rise shortly after birth and then fall to very low levels, which is about 6 months in boys and 1-2 years in girls. At about 6-8 years of age, levels again rise before the beginning of puberty and secondary sexual characteristics development.
Prolactin hormone: It is produced by the pituitary gland which is located at the base of the brain. The secretion of this hormone is controlled by the hypothalamus. The primary function of this hormone is to help in the production of milk after childbirth (lactation). Prolactin levels are usually high during pregnancy and after childbirth. During pregnancy, this hormone along with other hormones like estrogen and progesterone stimulates the breasts for milk production. After the childbirth, it helps to maintain breast milk production. Suckling of the breast by the baby is important for the release of prolactin hormone. If a woman stops breastfeeding, the level of prolactin hormone will return to normal.
Abnormally high levels of prolactin are seen in certain disease conditions like prolactinoma (non-cancerous tumor of the pituitary gland) in men and women. Prolactinomas are generally benign (non-cancerous) in nature and are seen more commonly in women. If the tumor is quite large, it can put pressure on the optic nerve and can cause headaches and visual disturbances.
High levels of prolactin are also seen in patients with diseases of the hypothalamus (located in the brain), other pituitary gland disorders and tumors, kidney disease, liver disease, hypothyroidism, polycystic ovary syndrome (PCOD) and conditions like anorexia nervosa (eating disorder).
Low levels of prolactin are seen in patients with pseudohypoparathyroidism, patients taking bromocriptine and in conditions of pituitary deficiency like necrosis or infarction of the pituitary gland.
Thyroid Stimulating Hormone (TSH): TSH is developed in the pituitary gland. There is a feedback system in the body to maintain stable amounts of the thyroid hormones (T3 and T4) in the blood. TSH signals the thyroid gland to make and release thyroid hormones (T3 and T4) into the blood when the level of thyroid hormones is low and can also signal the thyroid gland to lower the production of thyroid hormones when the level of thyroid hormones is very high. So, when the thyroid hormone (T3 and T4) levels decrease, the pituitary gland is stimulated to release TSH and this high TSH levels, in turn, stimulates the thyroid gland to release more thyroid hormone (T3 and T4) from the thyroid gland and the vice-versa happens when the thyroid hormone levels are very high.
In case of hyperthyroidism, the thyroid gland produces very high amounts of thyroid hormones (T3 and T4) and you may experience symptoms of weight loss, rapid heartbeat, tremors, sweating, anxiety, increased sensitivity to heat, etc. In the case of Hypothyroidism, there is a decreased production of thyroid hormones (T3 and T4) which may cause symptoms like weight gain, fatigue, slow heart rate, increased sensitivity to cold, depression, dry and thin hair, etc.
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This further contains
- Follicle Stimulating Hormone
- Luteinising Hormone