Carl De Crée scite author profile

This article aims to clarify why, and by which mechanisms, exercise may influence the normal menstrual cycle. Therefore, the vast amount of literature on this subject is reviewed and a critical appraisal of the most widespread hypotheses if offered. The strikingly low body mass which frequently accompanies exercise-related menstrual irregularities (ERMI) has led some authors to develop a hypothesis which postulates that a critical percentage of body fat is essential to trigger normal menstruation. The relevance of any reference to anorexia nervosa to support this view lacks consistency: female athletes differ in many ways from patients with anorexia nervosa, not least in their excellent physical status which is essential to deliver first-class performances. ERMI is not identical to the so-called female athlete triad, a complicated pathology that involves ERMI, premature osteoporosis and disordered eating. ERMI itself does not seem to have any substantial pathological effects as long as attention is paid to preventing osteoporosis or stress fractures which may result from prolonged hypo-estrogenaemia. In the female athlete with ERMI who wishes to conceive, the accompanying subfertility may necessitate a response other than a prompt reduction in training intensity, as this is hardly a first choice for any top athlete. During recent years, a number of prospective studies have greatly contributed to our understanding of the complexity of the mechanisms involved in ERMI. Older hypotheses, such as those considering hyperprolactinaemia as the cornerstone of ERMI, have now been firmly rejected. The present hypotheses emphasise the importance of caloric deficiency and limited energy availability, although they still fail to identify the actual mechanism that causes ERMI. There is, however, evidence that ERMI is produced by a disturbance of the hypothalamic gonadotrophin-releasing hormone oscillator. This disturbance is caused by either an insufficient estrogen or progesterone feedback or by an imbalance of local opioid peptide and catecholamine activities mediated by gamma-aminobutyric acid (GABA), corticotrophin-releasing hormone and insulin-like growth factor-1. More recent experiments have also linked ERMI with changes in steroid metabolism, in particular, an increasing activity of catecholestrogens possibly leading to enhanced intracerebral noradrenaline (norepinephrine) levels that may interfere with normal gonadotrophin release. This article demonstrates that the outcome of the many studies of ERMI is characterised by much controversy and numerous methodological flaws. The importance and complexity of some recent findings necessitate a comprehensive study which links older and newer findings within a critical perspective.

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The Influence of Somatotype, Strength and Flexibility on Injury Occurrence among Female Competitive Olympic Style Gymnasts. A Pilot Study.

Wright

Crée

1998

J Phys Ther Sci

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Abstract. Objectives-A pilot project to investigate somatotype, strength and flexibility as risk factors for injury amongst female competitive gymnasts. Methods-Fifteen subjects (ranging in age from 8 to 18 years) volunteered to participate in the present study. An ex-post facto study design using independent samples was employed. Injury history was established through use of a questionnaire. From this information, each individual's injury status was categorised as either "high" or "low" using a previously designed and validated scoring system. Somatotype ratings were determined, followed by a battery of tests to assess muscular endurance and strength, and flexibility. Results-A multivariate analysis of variance (MANOVA) revealed that there was no significant difference between groups of low and high injury rates and the dependent variables selected. However, univariate analysis suggested trends indicating that the low injury subjects were more flexible (back extension & ankle dorsiflexion) than those who had reported more injuries (both P=0.013). Independent t-tests revealed that between groups of low and high injury rates there were significant differences in age (P=0.002), stature (P=0.006), body mass (P=0.001), and years of gymnastics training (P=0.016). Conclusions-In the present study, strength and somatotype proved not to be good indicators of an individual's susceptibility to injury. However, there were trends suggesting that low levels of flexibility may predispose a gymnast to injury. The incidence of injury may also be related to the number of years an individual has participated in competitive gymnastics. In addition, older, taller and heavier gymnasts may be at greater risk of incurring injuries. It is concluded that training methods should be adapted to suit the needs of each individual, depending on their age, stature and body mass. It is also recommended that coaches become aware of which individuals may be more predisposed to injury by carrying out a physical assessment prior to participation.

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Suitability of Cyproterone Acetate in the Treatment of Osteoporosis Associated with Athletic Amenorrhea

Crée¹,

Lewin²,

Ostyn³

1988

Int J Sports Med

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Responses of Catecholestrogen Metabolism to Acute Graded Exercise in Normal Menstruating Women before and after Training

Crée¹

1997

Journal of Clinical Endocrinology & Metabolism

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It has been hypothesized that exercise-related hypo-estrogenemia occurs as a consequence of increased competition of catecholestrogens (CE) for catechol-O-methyltransferase (COMT). This may result in higher norepinephrine (NE) concentrations, which could interfere with normal gonadotropin pulsatility. The present study investigates the effects of training on CE responses to acute exercise stress. Nine untrained eumenorrheic women (mean percentage of body fat +/-SD: 24.8 +/- 3.1%) volunteered for an intensive 5-day training program. Resting, submaximal, and maximal (tmax) exercise plasma CE, estrogen, and catecholamine responses were determined pre- and post training in both the follicular (FPh) and luteal phase (LPh). Acute exercise stress increased total primary estrogens (E) but had little effect on total 2-hydroxyestrogens (2-OHE) and 2-hydroxyestrogen-monomethylethers (2-MeOE) (= O-methylated CE after competition for catechol-O-methyltransferase). This pattern was not significantly changed by training. However, posttraining LPh mean (+/-SE) plasma E, 2-OHE, and 2-MeOE concentrations were significantly lower (P < 0.05) at each exercise intensity (for 2-OHE: 332 +/- 47 vs. 422 +/- 57 pg/mL at tmax; for 2-MeOE: 317 +/- 26 vs. 354 +/- 34 pg/mL at tmax). Training produced opposite effects on 2-OHE:E ratios (an estimation of CE formation) during acute exercise in the FPh (reduction) and LPh (increase). The 2-MeOE:2-OHE ratio (an estimation of CE activity) showed significantly higher values at tmax in both menstrual phases after training (FPh: +11%; LPh: +23%; P < 0.05). After training, NE values were significantly higher (P < 0.05). The major findings of this study were that: training lowers absolute concentrations of plasma estrogens and CE; the acute exercise challenge altered plasma estrogens but had little effect on CE; estimation of the formation and activity of CE suggests that formation and O-methylation of CE proportionately increases. These findings may be of importance for NE-mediated effects on gonadotropin release.

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The Possible Involvement of Endogenous Opioid Peptides and Catecholestrogens in Provoking Menstrual Irregularities in Women Athletes

Crée

1990

Int J Sports Med

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Carl De Crée

Sex Steroid Metabolism and Menstrual Irregularities in the Exercising Female

The Influence of Somatotype, Strength and Flexibility on Injury Occurrence among Female Competitive Olympic Style Gymnasts. A Pilot Study.

Suitability of Cyproterone Acetate in the Treatment of Osteoporosis Associated with Athletic Amenorrhea

Responses of Catecholestrogen Metabolism to Acute Graded Exercise in Normal Menstruating Women before and after Training

The Possible Involvement of Endogenous Opioid Peptides and Catecholestrogens in Provoking Menstrual Irregularities in Women Athletes

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