View clinical trials related to Menstrual Cycle.
Filter by:As there are fluctuations in the hormonal balance during the menstrual cycle, it is assumed that due to the interaction between the hormonal system and the immune system, some diseases might be worsened in the course of a cycle. This interaction is particularly important during the phases of the cycle when the corpus luteum is formed and secretes estrogens and progesterone (secretion phase, luteal phase), as well as during menstruation itself. To date, there is no comprehensive review regarding the molecular signaling pathways that are active during and influence the menstrual cycle. The menstrual cycle influences blood glucose levels. Women are subject to greater fluctuations in blood glucose levels than men according to the phases of the menstrual cycle (menstrual phase, proliferative phase, ovulation, luteal phase). Since there are contradictory results regarding the influence of the menstrual cycle on glucose metabolism, the glucose and insulin response, as well as the glucose-dependent intestinal hormone glucagon-like peptide 1(GLP-1) after food intake are determined in the study presented here using an oral glucose tolerance test.
The goal of this clinical trial is to test effect of menstrual cycle (MC) on growth factors of platelet rich fibrin (PRF) in health condition. The main questions it aims to answer are: question 1: Does MC have an effect on growth factors in PRF? question 2: In which menstrual phase are growth factors higher? question 3:Does the change in the number of blood cells in the menstrual cycle have an effect on PRF? Participants will describe the main tasks participants will be asked to do.
The primary purpose of this study is to employ state-of-the-art methods to fill current knowledge gaps on the effects of the menstrual cycle on resistance exercise training adaptations. This work will reduce the sex gap present in exercise physiology, improving women's health information by yielding a deeper understanding of the effect of female physiology on exercise adaptations and subsequent health benefits. Employing a unilateral training design, participant's will have their legs randomized to one of four groups: non-exercise control (CON), exercise control (EX), Follicular based training (FOL), Luteal based training (LUT) Researchers will compare these conditions to see if there are greater benefits to prioritizing resistance training around phases of the menstrual cycle,
Menstruation period, which is accepted as the symbol of fertility, and some problems related to this process covers half of a woman's life. During this period, various changes occur in the female body, especially in the endocrine system. These changes in the menstrual cycle can affect women physiologically and psychologically.
The goal of this clinical trial is to precise the impact of menstrual cycle and physical activity on the hamstrings muscle function in healthy active women. The main question it aims to answer is : is there a moment of the menstrual cycle when the muscle is better able to recover from a strenuous exercise ? Three appointments will be conducted to evaluate the hamstring muscles at difference moments of the menstrual cycle. Echographic and maximal force production measures will be done. Researchers will compare these results with a group taking oral contraceptives.
The menstrual cycle implies a basic difference in the biology of women and men but the effect of the hormonal variation on training protocols and physical performance is still not fully understood. Despite no existing evidence, the advice to periodize exercise according to the menstrual cycle has been widely spread among elite athletes, coaches, and sports federations. The advice is based on underpowered studies with considerable methodological weaknesses regarding determination of cycle phase, inclusion of athletes and lack of adequate control groups. The purpose of this randomized, controlled study is to evaluate the effect of exercise periodization on aerobic fitness during different phases of the menstrual cycle. Further, the effect will be related to premenstrual symptoms, body composition and skeletal muscle morphology, sex hormone receptors, metabolic enzymes, and markers of muscle protein synthesis. This study will be well controlled and follow methodology recommendations for menstrual cycle research in sports and exercise. Female athletes of fertile age will be randomized to different training regimens during three menstrual cycles (12 weeks): Group A: Training three times a week throughout the menstrual cycle. Group B: Follicular phase-based training five times a week during the follicular phase and thereafter once a week during the luteal phase. Group C: Luteal phase-based training five times a week during the luteal phase and once a week in the follicular phase. The exercise will consist of high intensity intermittent spinning classes. Assessment of aerobic fitness and power will be performed at baseline, and again after three completed menstrual cycles. On the same day, body composition will be examined by DXA and blood samples will be collected for analysis of hormones and binding proteins. To confirm menstrual cycle phase, blood samples will be collected for hormone determination, and urinary stick will be used for detection of ovulation. Subjective ratings of menstrual cycle related symptoms will be performed every day. In a subgroup of women, muscle biopsies will be collected from m vastus lateralis at baseline and at the end of the study. This study will contribute to improved knowledge about exercise periodization in relation to the menstrual cycle. Well-grounded data is crucial to give evidence-based recommendations to female athletes when planning their training protocol to optimize training results and performance.
This study will investigate the effect of menstrual cycle (MC) and oral contraceptive pill phase on aspects of exercise physiology and athletic performance in female athletes. Specifically, this study intends to investigate the effects of circulating fluctuations in oestradiol and progesterone, experienced during the menstrual cycle and oral contraceptive pill use, on aspects of exercise physiology and athletic performance in female athletes. This research will help researchers determine if a particular hormonal profile affects physiological functioning such as muscle strength, maximum oxygen uptake and athletic performance in female athletes.
The influence of the menstrual cycle on women's sports performance is still uncertain. Research on this topic shows methodological biases. The aim of the study will be to determine whether the menstrual cycle affects women's physical fitness, measuring this in 3 differentiated stages of the cycle: the early follicular phase, late follicular phase, and luteal phase. For this purpose, a blood test will be carried out in each phase, with hormone determination (oestradiol and progesterone) and a haemogram to determine the existence of possible anemia. After the extraction and other complementary tests (measurement of vital signs, bioimpedance...) the woman will undergo 3 physical tests to compare the results in the 3 phases. A group of women taking hormonal contraception will also be included, performing the same interventions. To determine whether the woman is ovulating or not, urinary luteinizing hormone (LH) strips will be given to the women and they will have to take them from day 8 of the cycle. In addition, women will wear an accelerometer to monitor their daily activity and to be able to observe if there is an influence on this stage of the menstrual cycle.
Skeletal muscle size and function is regulated by various factors, including hormones. While we understand the role of male sex hormones (testosterone), we aren't sure how female sex hormones (estrogen and progesterone) influence muscle mass and strength. Female physiology is unique in that hormones fluctuate throughout the menstrual cycle. In the first phase (follicular phase) following menstruation, estrogen levels are high while progesterone levels are low. In the second phase (luteal phase), progesterone levels are high. Females are often excluded from studies because researchers are concerned that the menstrual cycle might affect the results. The purpose of this study is to investigate the response to resistance exercise in each phase of the menstrual cycle.
High rate of injuries detected during certain periods of menstrual cycle, raised the suggestion of the effecacy of the female sex hormones on soft tissue and neuromuscular control with subsequent deterioration of postural stability and high injury prevalence in post pubertal females so the aim of the present study is to investigate the effect of female sex hormones on postural stability in post pubertal females.