Reproductive aging & long-term hormone replacement therapy in the rhesus macaque

Reproductive aging & long-term hormone replacement therapy in the rhesus macaque

Menopause is a natural transition heralded by the cessation of menstrual cycles and ovulation, and it occurs in all women at an average of about 50 years of age. While not a disease, menopause is often accompanied by symptoms that interfere with the quality of life and these symptoms are due to the...

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Main Author: Naugle, Michelle Marie
Format: Others
Language:en
Published: 2014
Subjects:
Menopause
Monkey
Estrogen
Progesterone
Gnrh
Hypothalamus
Median eminence
Hormone receptors
Online Access:http://hdl.handle.net/2152/26064
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spelling ndltd-UTEXAS-oai-repositories.lib.utexas.edu-2152-260642015-09-20T17:25:30ZReproductive aging & long-term hormone replacement therapy in the rhesus macaqueNaugle, Michelle MarieMenopauseMonkeyEstrogenProgesteroneGnrhHypothalamusMedian eminenceHormone receptorsMenopause is a natural transition heralded by the cessation of menstrual cycles and ovulation, and it occurs in all women at an average of about 50 years of age. While not a disease, menopause is often accompanied by symptoms that interfere with the quality of life and these symptoms are due to the relatively abrupt deprivation of E2 and P4 experienced during reproductive aging. Reproductive aging consists of changes in the synthesis and release of hormones from the hypothalamus, pituitary and gonad, which make up the HPG axis. Because gonadal hormones play critical roles in many systems throughout the body and brain, not just reproduction, treatment of menopausal symptoms to date largely involves hormone replacement therapy (HRT) with E2, P4 or their combination. While not intended to treat other neurobiological symptoms beyond hot flushes, HRT has the potential to exert widespread actions due to the abundance of hormone receptors throughout the nervous system. Thus, a fuller understanding of the neurobiology of menopause is badly needed. Although much of the research into the mechanisms that underlie reproductive aging focuses on ovarian failure and follicular atresia (cell death), there is evidence that there are significant alterations in the function of the neuroendocrine levels - the hypothalamus and pituitary - that also contribute to this process. As the mean age of the population increases, the number of post-menopausal women continues to grow with broad economic, healthcare and social costs. It is increasingly important to understand the complex mechanisms underlying reproductive aging and the effects of HRT. In this dissertation, I focus on the question of how the female non-human primate hypothalamus changes both with aging and in response to steroid hormone treatments.text2014-09-22T16:05:50Z2014-082014-09-12August 20142014-09-22T16:05:51ZThesisapplication/pdfhttp://hdl.handle.net/2152/26064en
collection NDLTD
language en
format Others
sources NDLTD
topic Menopause
Monkey
Estrogen
Progesterone
Gnrh
Hypothalamus
Median eminence
Hormone receptors
spellingShingle Menopause
Monkey
Estrogen
Progesterone
Gnrh
Hypothalamus
Median eminence
Hormone receptors
Naugle, Michelle Marie
Reproductive aging & long-term hormone replacement therapy in the rhesus macaque
description Menopause is a natural transition heralded by the cessation of menstrual cycles and ovulation, and it occurs in all women at an average of about 50 years of age. While not a disease, menopause is often accompanied by symptoms that interfere with the quality of life and these symptoms are due to the relatively abrupt deprivation of E2 and P4 experienced during reproductive aging. Reproductive aging consists of changes in the synthesis and release of hormones from the hypothalamus, pituitary and gonad, which make up the HPG axis. Because gonadal hormones play critical roles in many systems throughout the body and brain, not just reproduction, treatment of menopausal symptoms to date largely involves hormone replacement therapy (HRT) with E2, P4 or their combination. While not intended to treat other neurobiological symptoms beyond hot flushes, HRT has the potential to exert widespread actions due to the abundance of hormone receptors throughout the nervous system. Thus, a fuller understanding of the neurobiology of menopause is badly needed. Although much of the research into the mechanisms that underlie reproductive aging focuses on ovarian failure and follicular atresia (cell death), there is evidence that there are significant alterations in the function of the neuroendocrine levels - the hypothalamus and pituitary - that also contribute to this process. As the mean age of the population increases, the number of post-menopausal women continues to grow with broad economic, healthcare and social costs. It is increasingly important to understand the complex mechanisms underlying reproductive aging and the effects of HRT. In this dissertation, I focus on the question of how the female non-human primate hypothalamus changes both with aging and in response to steroid hormone treatments. === text
author Naugle, Michelle Marie
author_facet Naugle, Michelle Marie
author_sort Naugle, Michelle Marie
title Reproductive aging & long-term hormone replacement therapy in the rhesus macaque
title_short Reproductive aging & long-term hormone replacement therapy in the rhesus macaque
title_full Reproductive aging & long-term hormone replacement therapy in the rhesus macaque
title_fullStr Reproductive aging & long-term hormone replacement therapy in the rhesus macaque
title_full_unstemmed Reproductive aging & long-term hormone replacement therapy in the rhesus macaque
title_sort reproductive aging & long-term hormone replacement therapy in the rhesus macaque
publishDate 2014
url http://hdl.handle.net/2152/26064
work_keys_str_mv AT nauglemichellemarie reproductiveaginglongtermhormonereplacementtherapyintherhesusmacaque
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