11 Clinical Trials for Perimenopause
Purpose: The aims of the study are to investigate the effects of high-intensity resistance training (HIRT) with or without creatine monohydrate (CM) supplementation on three key areas: muscle characteristics, brain health, and metabolism/protein dynamics. Participants: 51 healthy, perimenopausal women between 38-60 years old. Procedures: In a randomized double-blind, placebo-controlled design, participants will either consume creatine (CM), a placebo (PL), or no supplement (CON). CM and PL groups will be assigned a HIRT protocol, and the CON will do no training.
The goal of this study is to examine the impact of a diet high in fresh lean pork, compared to a plant-based diet, on cardiovascular function and vasomotor symptoms in perimenopausal women with overweight and obesity. The main questions it aims to answer are: 1. How does a diet high in pork, compared to a plant-based diet, affects blood lipids, endothelial function, and blood pressure? 2. How does a diet high in pork, compared to a plant-based diet, affects blood nitrate, cardiometabolic biomarkers, inflammatory biomarkers, and vasomotor symptoms? Researchers will compare the diet high in pork to a plant-based diet to see if pork helps improve cardiovascular and mesopause symptoms. Participants will: * Consume both of the diets, each for 4 weeks, with a washout period between 2 and 6 weeks in between the diets trials * Visit the clinic 5 times with weekly meal pick ups during the diet trials * Undergo testing procedures including: weight and body composition, blood pressure and pulse, endothelial function using ultrasound of upper arm, microvascular blood flow, blood draws, physical activity measurements, and questionnaires.
Starting in early-perimenopause, changes in systemic and tissue level metabolism result in an accelerated loss of muscle mass and an increase in body fat. Our preliminary work indicates that metabolic alterations, specifically a decrease in whole-body protein balance, increase in abdominal adiposity, and reduced metabolic flexibility during exercise is most evident in perimenopause. Exercise is a potent stimulator of skeletal muscle insulin sensitivity. High intensity interval training (HIIT) has been shown to be an effective exercise strategy to support cardiometabolic health in overweight and obese young women. Skeletal muscle is critical to maintaining metabolic health and functionality across the lifespan, and is considered the primary diver of whole-body insulin resistance.There is a significant decrease in muscle mass across the menopause transition, which is often exacerbated by a significant gain in fat mass and visceral fat. Protein consumption prior to HIIT has resulted in improvements in energy expenditure and fat oxidation in young women. The overarching objective of this study is to determine the metabolic response of HIIT compared to traditional aerobic exercise in early and late perimenopausal women. Aim 1 will examine the metabolic responses (glucose, insulin sensitivity, energy expenditure) of HIIT vs aerobic exercise, combined with pre-exercise carbohydrate or protein ingestion, in overweight/obese (BMI: 28-40 Kg/m\^2) early and late perimenopausal women. Aim 2 will explore the impact of perimenopause on the fat oxidation and protein turnover before and after exercise. Lastly, aim 3 will explore the modulating effect of intramuscular fat on these metabolic outcomes.
Women's blood vessel health gets worse after menopause, or "the change of life". Some women exercise less during menopause. Exercise can improve blood vessel health. The investigators want to know if resistance exercise, like lifting weights, can improve blood vessel health in women who are just starting menopause. The investigators also want to know if lifting weights can improve mood, sleep, and quality of life in women going through menopause. The investigators will have two groups of women for this study. One group will lift weights (do resistance exercise) twice per week, and the other group will get emails with information about menopause. The investigators will measure blood vessel health, sleep, mood, and menopause symptoms at the start and the end of this study and compare women who did and did not exercise.
The purpose of the study is to examine the impact of the hemp-derived minor cannabinoids on symptoms of menopause/perimenopause.
The purpose of this research is to study the effects of 12 weeks of melatonin supplementation compared to placebo in women who are in the menopause transition (perimenopause) and have high blood pressure.
The purpose of this study is to identify the impact of estradiol (E2) on the mechanisms that regulate vascular endothelial function in peri-menopausal (PERI) women. This study is the first step in understanding factors contributing to endothelial dysfunction in women with advancing reproductive age and in response to E2 administration.
This is a longitudinal study to determine the influence of the menopause transition on autonomic and vascular function. PI Keller-Ross has published data demonstrating that postmenopausal females have greater sympathetic neural reactivity during a stressor compared with age-matched males and younger females and males. A paucity of literature exists, however, on the role of the menopause transition in autonomic function because the majority of experimental studies on menopause physiology are cross-sectional and/or focused on older, postmenopausal females . The influence of age on HTN is robust, whereas the effects of menopause are still unclear. Preliminary data demonstrate a clear association between age and sympathetic activity in females; how the transition through menopause influences these relations, however, remains unknown. The study will enroll 80 midlife (45-55 years of age) females to measure longitudinally the trajectory of autonomic and vascular function during the transition through menopause. The study hypothesizes that through the menopause transition, an increase in sympathetic activity and an impaired baroreflex sensitivity and endothelial function will emerge.
The goal of this study is to learn about the role of estrogen and other hormones in bone development in adolescent and young adult women with cystic fibrosis (CF). The study has two main components, an observational study and a feasibility sub-study. The main questions it aims to answer are: * How do different forms of hormonal contraception (e.g. birth control pill or other progesterone only methods) impact bone health? * Is a study of transdermal estradiol (estrogen skin patches) feasible in this group? * How does transdermal estradiol impact bone health and quality of life? Participants in the observational study will have three study visits (baseline, 6 months, and 12 months). At all visits, participants will have blood drawn and will complete questionnaires. At the baseline and 12 month visits, participants will additionally have x-rays and DXAs (bone density assessment). Between visits, participants will complete brief questionnaires. Researchers will compare various measurements over time to assess the impact of different forms of hormonal contraception. Participants in the feasibility sub-study will apply transdermal estradiol patches once weekly for 12 months, fill out brief quality-of-life surveys in between study visits, and complete blood draws and questionnaires at four study visits (baseline, 3 months, 6 months, and 12 months). The participants will also have x-rays and DXAs performed at the baseline and 12 month visits. Researchers will examine changes in various measurements to determine the impact of transdermal estradiol.
Women in the menopause transition (perimenopause) experience substantial day-to-day variability in estradiol and have a 2-4-fold increase in major depression risk. About 40% of perimenopausal women are susceptible to the emergence of affective symptoms tied to changes in estradiol. Among the perimenopausal women with affective impairment, most report irritability, not "depression," is their primary source of impairment and distress. The purpose of this research is to determine the neurophysiologic basis of susceptibility to estradiol fluctuations and irritability symptoms in perimenopausal women.
This proposal will examine the effects of estradiol administration on perimenopausal-onset (PO) anhedonia and psychosis symptoms as well as on brain function using simultaneous positron emission tomography and functional magnetic resonance imaging (PET-MR).