Plain language summary
Diet and exercise are related to a reduction in breast cancer risk, and it is thought that this is at least partly due to their impact on levels of female sex hormones. This study aimed to test the effect that exercise and calorie restriction have on menstruation and sex hormones in premenopausal women. Inactive women aged 25-40 years were recruited for the study, and allocated to two groups. One group was assigned a low-calorie diet that provided 20-35% lower calories than baseline energy needs, plus 4 sessions of moderate-intensity exercise per week. The control group followed a diet designed to ensure weight maintenance, and took part in shorter exercise sessions twice a week. Women in the low-calorie group experienced a 15% reduction in levels of oestradiol and a 20% reduction in the levels of oestrogen metabolite oestrone glucuronide. Larger reductions in oestrone glucuronide were related to higher energy deficits, suggesting that hormone production is sensitive to day-to-day fluctuations in energy balance. There was no change in the menstrual cycles of the participants. The researchers concluded that an energy deficit is a more important factor in reducing oestrogen exposure than losing weight.
Abstract
BACKGROUND Alterations in circulating steroids are believed to be important mediators of the impact that diet and exercise have on breast cancer risk and changes in bone density. This study aimed to test the hypothesis that moderate exercise training combined with caloric restriction would produce significant menstrual disturbances and alterations in ovarian steroids in premenopausal women. METHODS Sedentary premenopausal women (25-40 years; body mass index: 23.6 +/- 0.6 kg/m(2)) assigned to either a light conditioning (LC, n = 9) or an exercise combined with caloric restriction group (EX + CR, n = 24) were studied for one screening, one baseline and four intervention periods equivalent to the length of subjects' menstrual cycles. Exercise consisted of supervised training sessions, i.e. two LC or four EX + CR times per week, 30-60 min at a moderate intensity. The EX + CR group was prescribed a diet representing a caloric restriction of 20-35% below baseline energy requirements, whereas the LC group remained eucaloric. Ovarian steroid exposure was determined with daily urinary estrone-1- and pregnanediol glucuronides (E1G and PdG, respectively) and mid-cycle urinary LH measures. Fitness, body composition, and serum sex hormone binding globulin (SHBG) and serum estradiol (E2) were assessed repeatedly. RESULTS The intervention produced significant increases in VO(2) max and decreases in both body weight (-3.7 +/- 0.5 kg; ranged from -8.8 to +1.8 kg) and percent body fat (-4.5 +/- 0.7%; ranged from -12 to +0.3%), which were attributable primarily to changes in the EX + CR subjects (time x group; P < 0.05). Serum E2 and urinary E1G and PdG concentrations declined significantly across the intervention period (time; P < 0.05), whereas SHBG increased transiently (time; P < 0.05) in the EX + CR subjects, with no significant changes observed in the LC group. The decrease in E1G area under the curve was significantly related to the daily energy deficit (R =0.61; P = 0.003), not the amount of weight lost. There was no significant impact of the intervention on menstrual cyclicity or the incidence of menstrual disturbances in either group. CONCLUSIONS A moderate aerobic exercise training program combined with modest weight loss in accordance with recommended guidelines produces significant reductions in ovarian steroid exposure without disrupting menstrual cyclicity in premenopausal women aged 25-40 years. Exposure to a daily energy deficit is a stronger predictor of the decline in estrogen exposure than decreases in body weight.
Methodological quality
Jadad score
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1
Allocation concealment
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No
