1. INTRODUCTION
The normal menstrual cycle is 28 days, although normal cycles vary between 22 and 36 days. The menstrual cycle consists of follicular and luteal phases. The follicular phase (menstrual & proliferative phases) begins on the first day of menstruation and ends with ovulation. The luteal phase begins at ovulation and ends with menstruation. The luteal phase lasts 10 - 16 days. In a given woman, luteal phase length is very consistent; the follicular phase is much more variable [1-3].
Many factors (body composition, poor nutrition, exercise, pregnancy, reproductive immaturity, psychological stress, acute and chronic endocrine alteration) can disrupt the menstrual cycle and identifying a single cause has been very difficult [4,5]. The present state of knowledge makes it difficult to determine accurately if exercise or a combination of other factors could alter menstrual function [6].
At present there is no conclusive evidence that participation in exercise or sporting events during menstruation is harmful. In addition, it is unclear whether menstruation per se and the discomfort associated with primary dysmenorrhea affect performance [7]. Regular, asymptomatic menstruation is usually considered a measure of general good health in females after a regular rhythm has been established. Conversely, medical authorities had felt that any deviation from this normal rhythmic pattern may be the first indication of over training. The purpose of the present study was to review the relationship between exercise and menstrual function.
2. EFFECTS OF MENSTRUATION ON ATHLETES’ PERFORMANCE
Although, there is no consensus report on the effect of menstruation on athlete performance [7]. Surveys of athletes have indicated a diversity of opinion regarding the effect of menstruation on athletic performance used, 37% to 73% believing that performance is not affected, 13% to 29% indicating improved performance, particularly during menstruation [8].
Alterations in athletic performance experienced during different phases of the menstrual cycle are subject to considerable individual variability. Some women have absolutely no noticeable change in their performance ability at any time during their menstrual cycle, yet others have considerable difficulty in either the pre-flow or the early flow phases or during both. The number of women who reported impaired performance during the flow phase is approximately the same as those who experienced no difficulty. In fact, some female athletes have repeatedly set world records during the flow phase. Adding to the confusion, much of the information available is based on subjective statement made by athletes during informal surveys [3].
Several studies [9-12], Brutsaert et al. [13] and Redman et al. [14] have suggested that athletic performance is affected by menstrual cycle phases. Several others [15-17] have also reported a contrary notion. The disagreement between these studies could be due to the small number of subjects tested to large individual variations or to inadequately control experimental designs. Dysmenorrhea, in practical terms affects athletic performance more than amenorrhea. Many female athletes suffer from dysmenorrhea. Dysmenorhea distracts from the feeling of well-being. For that reason, it negatively affects performance; some of the problem may be psychological induced [6].
The risk of athletic injury is higher in women with Pre Menstrual Syndrome (PMS). The most important symptoms associated with athletic injuries are irritability, breast swelling and abdominal congestion. Any woman who experiences PMS or dysmenorrhea will likely not perform as well while she is experiencing symptoms. For these women, some degree of control over their menstrual cycle is possible through the use of low dose oral contraceptives [3].
3. EFFECTS OF EXERCISE OR SPORTING EVENTS ON MENSTRUATION
The risks to sportswomen of exercise related menstrual dysfunction and impaired bone health are important and under-recognised. Exercise related menstrual dysfunction may include any abnormality along the continuum of luteal phase deficiency, annovulation, oligomenorrhoea, amenorrhoea, and delayed menarche. Such dysfunction is multifactorial in origin, with a high degree of individual variation, but its main underlying mechanism is hypothalamic inhibition with suppression of gonadotrophin releasing hormone pulsatility (the frequency at which pulses of the hormone are released by the hypothalamus) [4].
When menstrual dysfunction (in particular amenorrhoea) occurs in sportswomen in combination with low bone mass and energy deficit, the syndrome is termed the “female athletic triad.” This is a complex and poorly understood disorder seen in females who exercise intensively [5,18]. Thompson [19] described female Athlete Triad is a life-threatening syndrome defined by disordered eating, amenorrhea, and osteoporosis. Athletes in lightweight sports (distance running, gymnastics, lightweight rowing) are at high risk, although the syndrome can arise in relation to any sport. The energy deficit is usually related to eating disorders and is partly influenced by peer pressure. Genetic, neurochemical, and psychodevelopmental factors may also contribute, along with the physical and psychological effects of training and competition. The long term effects tend to be greatest in young athletes who start intense exercise before menarche. These athletes have an increased chance of delayed menarche, impairment of growth and pubertal progression, subsequent menstrual dysfunction, and suboptimal bone health [4,20].
The incidence of menstrual irregularity is much higher in athletes than in sedentary women. Secondary amenorrhea in athletes is as high as 44%. The incident in general population is only 2% - 5% [4,20]. Many authorities [6, 21] have reported that high training volume and increased intensity increase the incidence of amenorrhea. Women involved in strength sport, such as body building or weight lifting, have an increased incidence of amenorrhea, although the increase is lower than in endurance athletes. Brooks et al. [6] also stated that women who have been pregnant before becoming involved in exercise training have a much lower incidence of amenorrhea than women who have not and those women with previous menstrual irregularity are much more likely to have amenorrhea with training.
Willmore and Costill [3] reported that the prevalence of secondary amenorrhea and oligomenorrhea among athletes is not well documented, but is estimated to vary from approximately 5% to 40% or higher, depending on the sport or activity and the level of competition. This is considerably higher than the estimated 2% to 3% prevalence for amenorrhea and 10% to 12% prevalence for oligomenorrhea in the general population. Athletes who present with amenorrhoea are at the severe end of the spectrum of exercise related menstrual dysfunction. Subtle menstrual disturbances are more common, occurring in nearly four fifths of very active women [12]. The impact of this on bone mineral density is unclear [12], and there is no evidence that women whose menstrual function recovers develop chronic infertility [22].
Giannini, Melemis, Martin & Folts [23] found that PMS may be related to altered B-endorphin metabolism in the central nervous system (CNS). Increased activity or norepinephrine may also be important. PMS symptoms such as backache, headache, cramps and emotional distress may improve with exercise. Exercise may be beneficial because it increases B-endophines in the central nervous system (CNS).
Exercise associated with amenorrhea may also increase the risk of coronary heart diseases. Oestrogen increase the blood levels of high density lipoproteins and apoprotein A-1 (thought to provide some protection against coronary heart disease) and decrease low-density lipoprotein. Intense training, leading to oestrogen suppression and amenorrhea, may decrease the protective effects of oestrogen. No specific threshold at which exercise leads to menstrual dysfunction has been defined because contributing physiological and psychological factors produce considerable individual variation [6].
Menarche: Sexual maturation in females is marked by menarche, the first menstruation. Menarche typically occurs after the peak of the adolescent growth spurt, it may occur when enough gonadotropin hormones are released from the pituitary and hypothalamus. It may occur at approximately 12.9 years and that athletes, particularly in sport such as gymnastics, swimming and running, reach menarche later than non-athletes. It has been reported that menarche occurred later in swimmers than in their sedentary sisters. This suggests that delayed menarche is influenced by genetics as well as training [3,6]. There also exist ethnic differences in the onset of menarche. However, the influence of diet on the onset of menarche is unknown [6,21]. The consequences of delayed menarche in athletes are not known.
Menopause: A reviewed study on the effect of exercise training programme on post-menopausal women by Snow-Heart and Marcus [24] showed that results in the last two decades, has been contradictory and inconclusive. This may be attributed to potential confounders such as oestrogen status, calcium consumption, duration and intensity of the exercise programme which were not controlled. More studies are still needed to further evaluate the effects of exercise training on menopause and vice-versa. Sedentary women are more likely to have moderate to severe hot flushes compared to women who exercise [25]. Hot flush is the sensation of warmth spreading from the trunk to the face and is common after ovarian function has ceased (menopause).
4. MANAGEMENT OF MENSTRUAL DYSFUNCTION
Screening may be useful in women who exercise vigorously. Dietary, medical, and training histories should be taken from any apparently physically fit woman presenting with recurrent or resistant injuries to soft tissue or bone (in particular stress fractures). Urinalysis to detect ketonuria will suggest inadequate caloric intake, and thyroid function tests (yielding normal or raised thyroid stimulating hormone and reduced free thyroxine) will indicate a hypometabolic state in those with feeding disorder [22].
Women who are amenorrhoeic will need the standard investigations. In women with suspected luteal phase deficiency basal body temperature should be monitored, surges in luteinising hormone measured with ovulation predictor kits, multiple samplings of serum progesterone taken, and ideally, endometrial biopsy carried out. Women with suspected bone loss may need a DEXA (dual energy X ray absorptiometry) scan, preferably including peripheral sites such as the tibia and forearm [26].
Management of exercise related menstrual dysfunction aims primarily to restore normal menstrual cycles. Education of athletes, coaches, peers, and managers and parents about the risks of excessive exercise in girls and women is of paramount importance. Dietary counseling to ensure a positive energy balance and adequate calcium and vitamin D intake [27,28] and advice on altering the volume and intensity of training programmes and reducing the stressors of competition, may be effective [4]. Supplementation with combined oestrogen and progesterone should help maintain bone mass, although it will not rebuild what has already been lost [29]. Treatment with recombinant leptin may have a role in the future but evidence is preliminary [30].
5. CONCLUSION
Conclusively, the effect of menstruation on performance is equivocal and unclear, but a woman who is experiencing PMS will likely not perform well while she is experiencing the symptoms. For these women some degree of control over their menstrual cycle is possible through the use of medically prescribed low dose oral contraceptive. Also, the incident of menstrual irregularities is much higher in athletes than in sedentary counterparts; this is as a result of the decrease in GonadotropinReleasing Hormone (GnHR) and Luteinizing Hormone (LH) that leads to reduction in the level of oestrogen that disrupts the menstrual cycle in athletes.
6. RECOMMENDATION
Based on the findings of the present review the following are hereby recommended:
1) Well controlled studies to further evaluate the effects of menstruation on performance and vice-versa, particularly in African population.
2) Female athlete experiencing menstrual irregularities and disturbances should undergo a detailed medical investigation and management before further training.
3) Extensive studies to further evaluate the effect of delayed menarche on athletes’ reproductive health are needed.