Abstract
Women’s participation in sport and exercise is increasing; therefore, it is imperative that any potential modulations, either positive or negative, in performance, training, and adaptation can be understood and optimized. Indeed, sex hormones can affect physiological processes within the cardiopulmonary and nervous systems, as well as skeletal muscle properties; the integration of these systems determines performance in a variety of tasks. As such, the cyclical changes in endogenous hormones across the menstrual cycle have the potential to affect the underpinnings of exercise performance; thus, women athletes and those working with them require an understanding of this to potentially optimize long-term outcomes. This chapter aims to discuss the physiological effects of the menstrual cycle outside of the reproductive system, as well as highlight the current literature pertaining to the effect of fluctuations in endogenous sex hormones across the menstrual cycle on exercise performance. Thereafter, practical recommendations that can be made based on the available evidence are discussed.
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Abbreviations
- FSH:
-
Follicle-stimulating hormone
- LH:
-
Luteinizing hormone
- MVC:
-
Maximal voluntary contraction
- RER:
-
Respiratory exchange ratio
- V̇E:
-
Ventilatory rate
- V̇O2:
-
Volume of oxygen consumption
- V̇CO2:
-
Volume of carbon dioxide produced
- V̇O2peak:
-
Peak oxygen consumption
References
Adkisson EJ, Casey DP, Beck DT, Gurovich AN, Martin JS, Braith RW. Central, peripheral and resistance arterial reactivity: fluctuates during the phases of the menstrual cycle. Exp Biol Med. 2010;235(1):111–8.
Ansdell P, Brownstein CG, Škarabot J, Hicks KM, Simoes DC, Thomas K, Goodall S. Menstrual cycle-associated modulations in neuromuscular function and fatigability of the knee extensors in eumenorrheic women. J Appl Physiol. 2019;126(6):1701–12.
Ansdell P, Thomas K, Hicks KM, Hunter SK, Howatson G, Goodall S. Physiological sex differences affect the integrative response to exercise: acute and chronic implications. Exp Physiol. 2020;105(12):2007–21.
Bambaeichi E, Reilly T, Cable N, Giacomoni M. The isolated and combined effects of menstrual cycle phase and time-of-day on muscle strength of eumenorrheic females. Chronobiol Int. 2004;21(4–5):645–60.
Bandyopadhyay A, Dalui R. Endurance capacity and cardiorespiratory responses in sedentary females during different phases of menstrual cycle. Kathmandu Univ Med J. 2012;10(4):25–9.
Beidleman BA, Rock PB, Muza SR, Fulco CS, Forte VA Jr, Cymerman A. Exercise V̇ e and physical performance at altitude are not affected by menstrual cycle phase. J Appl Physiol. 1999;86(5):1519–26.
Bemben D, Salm P, Salm A. Ventilatory and blood lactate responses to maximal treadmill exercise during the menstrual cycle. J Sports Med Phys Fitness. 1995;35(4):257–62.
Blagrove RC, Bruinvels G, Pedlar CR. Variations in strength-related measures during the menstrual cycle in eumenorrheic women: A systematic review and meta-analysis. J Sci Med Sport. 2020;23(12):1220–1227.
Campbell S, Angus D, Febbraio M. Glucose kinetics and exercise performance during phases of the menstrual cycle: effect of glucose ingestion. Amer J Physiol-Endocrinol Metabolism. 2001;281(4):E817–25.
Carmichael MA, Thomson RL, Moran LJ, Wycherley TP. The impact of menstrual cycle phase on athlete’s performance: a narrative review. Int J Environ Res Public Health. 2021;18(4):1667.
Collins BC, Laakkonen EK, Lowe DA. Aging of the musculoskeletal system: How the loss of estrogen impacts muscle strength. Bone. 2019;123:137–44.
Constantini NW, Dubnov G, Lebrun CM. The menstrual cycle and sport performance. Clin Sports Med. 2005;24(2):e51–82.
Cowley ES, Olenick AA, McNulty KL, Ross EZ. “Invisible sportswomen”: the sex data gap in sport and exercise science research. Women in Sport and Phys Activity J. 2021;29(2):146–51.
D’Eon TM, Sharoff C, Chipkin SR, Grow D, Ruby BC, Braun B. Regulation of exercise carbohydrate metabolism by estrogen and progesterone in women. Amer J Physiol-Endocrinol Metabolism. 2002;283(5):E1046–55.
Davison R, Smith PM, Hopker J, Price MJ, Hettinga F, Tew G, Bottoms L. Sport and exercise physiology testing guidelines: volume I-sport testing: the british association of sport and exercise sciences guide. Routledge; 2022.
De Souza MJ, Maguire MS, Rubin KR, Maresh CM. Effects of menstrual phase and amenorrhea on exercise performance in runners. Med Sci Sports Exerc. 1990;22(5):575–80.
Dombovy ML, Bonekat HW, Williams TJ, Staats BA. Exercise performance and ventilatory response in the menstrual cycle. Med Sci Sports Exerc. 1987;19(2):111–7.
Dulhunty A. Excitation–contraction coupling from the 1950s into the new millennium. Clin Exp Pharmacol Physiol. 2006;33(9):763–72.
Ekenros L, Hirschberg AL, Heijne A, Fridén C. Oral contraceptives do not affect muscle strength and hop performance in active women. Clin J Sport Med. 2013;23(3):202–7.
Elliott K, Cable N, Reilly T, Diver M. Effect of menstrual cycle phase on the concentration of bioavailable 17-β oestradiol and testosterone and muscle strength. Clin Sci. 2003;105(6):663–9.
Elliott-Sale KJ, Hicks KM. Hormonal-based contraception and the exercising female. The exercising female. Routledge;2018. p. 30–43.
Elliott-Sale KJ, Minahan CL, de Jonge XA, Ackerman KE, Sipilä S, Constantini NW, Hackney AC. Methodological considerations for studies in sport and exercise science with women as participants: a working guide for standards of practice for research on women. Sports Med. 2021;51(5):843–61.
Frandsen J, Pistoljevic N, Quesada JP, Amaro-Gahete FJ, Ritz C, Larsen S, Helge JW. Menstrual cycle phase does not affect whole body peak fat oxidation rate during a graded exercise test. J Appl Physiol. 2020;128(3):681–7.
Fridén C, Hirschberg AL, Saartok T. Muscle strength and endurance do not significantly vary across 3 phases of the menstrual cycle in moderately active premenopausal women. Clin J Sport Med. 2003;13(4):238–41.
Greeves J. Circamensal rhythmicity and muscle function: the role of reproductive hormones in the regulation of strength. Biol Rhythm Res. 2000;31(1):15–28.
Hackney AC, Curley C, Nicklas B. Physiological responses to submaximal exercise at the mid-follicular, ovulatory and mid-luteal phases of the menstrual cycle. Scand J Med Sci Sports. 1991;1(2):94–8.
Hackney AC, Koltun KJ, Williett HN. Menstrual cycle hormonal changes: estradiol-β-17 and progesterone interactions on exercise fat oxidation. Endocrine. 2022;76(1):240–2.
Hackney AC, McCracken-Compton MA, Ainsworth B. Substrate responses to submaximal exercise in the midfollicular and midluteal phases of the menstrual cycle. Int J Sport Nutr Exerc Metab. 1994;4(3):299–308.
Horton TJ, Miller EK, Glueck D, Tench K. No effect of menstrual cycle phase on glucose kinetics and fuel oxidation during moderate-intensity exercise. Amer J Physiol-Endocrinol Metabolism. 2002;282(4):E752–62.
Hulton A, Malone J, Campbell I, MacLaren D. The effect of the menstrual cycle and hyperglycaemia on hormonal and metabolic responses during exercise. Eur J Appl Physiol. 2021;121(11):2993–3003.
Janse De Jonge X. The effect of the menstrual cycle on exercise metabolism. Sports Med. 2003;33(11):833–51.
Janse De Jonge X, Boot C, Thom J, Ruell P, Thompson M. The influence of menstrual cycle phase on skeletal muscle contractile characteristics in humans. J Physiol. 2001;530(Pt 1):161.
Janse De Jonge X, Thompson B, Han A. Methodological recommendations for menstrual cycle research in sports and exercise. Med Sci Sports Exerc. 2019;51(12):2610–7. https://doi.org/10.1249/mss.0000000000002073.
Janse De Jonge XAK, Thompson MW, Chuter VH, Silk LN, Thom JM. Exercise performance over the menstrual cycle in temperate and hot, humid conditions. Med Sci Sports Exerc. 2012;44(11):2190–8. https://doi.org/10.1249/mss.0b013e3182656f13.
Kanaley J, Boileau R, Bahr J, Misner J, Nelson R. Substrate oxidation and GH responses to exercise are independent of menstrual phase and status. Med Sci Sports Exerc. 1992;24(8):873–80.
Kim YJ, Tamadon A, Park HT, Kim H, Ku S-Y. The role of sex steroid hormones in the pathophysiology and treatment of sarcopenia. Osteoporosis and Sarcopenia. 2016;2(3):140–55.
Kolić P, Thomas L, Morse CI, Hicks KM. Presentation of self, impression management and the period: a qualitative investigation of physically active women’s experiences in sport and exercise. J Appl Sport Psychol. 2022;1–20.
Kolić PV, Sims DT, Hicks K, Thomas L, Morse CI. Physical activity and the menstrual cycle: a mixed-methods study of women’s experiences. Women in Sport and Phys Activity J. 2021;29(1):47–58.
Lai S, Collins BC, Colson BA, Kararigas G, Lowe DA. Estradiol modulates myosin regulatory light chain phosphorylation and contractility in skeletal muscle of female mice. Am J Physiol Endocrinol Metab. 2016;310(9):E724-733. https://doi.org/10.1152/ajpendo.00439.2015.
Levine R, Kensler RW, Yang Z, Stull JT, Sweeney HL. Myosin light chain phosphorylation affects the structure of rabbit skeletal muscle thick filaments. Biophys J. 1996;71(2):898–907.
Lowe DA, Baltgalvis KA, Greising SM. Mechanisms behind estrogen’s beneficial effect on muscle strength in females. Exerc Sport Sci Rev. 2010;38(2):61.
MacNutt MJ, De Souza MJ, Tomczak SE, Homer JL, Sheel AW. Resting and exercise ventilatory chemosensitivity across the menstrual cycle. J Appl Physiol. 2012;112(5):737–47.
Martin D, Sale C, Cooper SB, Elliott-Sale KJ. Period prevalence and perceived side effects of hormonal contraceptive use and the menstrual cycle in elite athletes. Int J Sports Physiol Perform. 2018;13(7):926–32.
Mattu AT, Iannetta D, MacInnis MJ, Doyle-Baker PK, Murias JM. Menstrual and oral contraceptive cycle phases do not affect submaximal and maximal exercise responses. Scand J Med Sci Sports. 2020;30(3):472–84.
McNulty KL, Elliott-Sale KJ, Dolan E, Swinton PA, Ansdell P, Goodall S, Hicks KM. The effects of menstrual cycle phase on exercise performance in eumenorrheic women: a systematic review and meta-analysis. Sports Med. 2020;50(10):1813–27.
Moran AL, Nelson SA, Landisch RM, Warren GL, Lowe DA. Estradiol replacement reverses ovariectomy-induced muscle contractile and myosin dysfunction in mature female mice. J Appl Physiol. 2007;102(4):1387–93.
Moran AL, Warren GL, Lowe DA. Removal of ovarian hormones from mature mice detrimentally affects muscle contractile function and myosin structural distribution. J Appl Physiol. 2006;100(2):548–59.
Oosthuyse T, Bosch AN. Oestrogen’s regulation of fat metabolism during exercise and gender specific effects. Curr Opin Pharmacol. 2012;12(3):363–71.
Nicklas BJ, Hackney AC, Sharp RL. The menstrual cycle and exercise: performance, muscle glycogen, and substrate responses. Int J Sports Med. 1989;10(4):264–9.
Qaisar R, Renaud G, Hedstrom Y, Pöllänen E, Ronkainen P, Kaprio J, Bergquist J. Hormone replacement therapy improves contractile function and myonuclear organization of single muscle fibres from postmenopausal monozygotic female twin pairs. J Physiol. 2013;591(9):2333–44.
Rayment I, Holden HM, Whittaker M, Yohn CB, Lorenz M, Holmes KC, Milligan RA. Structure of the actin-myosin complex and its implications for muscle contraction. Science. 1993;261(5117):58–65.
Redman LM, Scroop GC, Norman RJ. Impact of menstrual cycle phase on the exercise status of young, sedentary women. Eur J Appl Physiol. 2003;90(5):505–13.
Rodrigues P, de Azevedo Correia M, Wharton L. Effect of menstrual cycle on muscle strength. J Exercise Physiol Online. 2019;22(5):89–96.
Sarwar R, Niclos BB, Rutherford O. Changes in muscle strength, relaxation rate and fatiguability during the human menstrual cycle. J Physiol. 1996;493(1):267–72.
Schoene RB, Robertson HT, Pierson DJ, Peterson AP. Respiratory drives and exercise in menstrual cycles of athletic and nonathletic women. J Appl Physiol. 1981;50(6):1300–5.
Smith JR, Brown KR, Murphy JD, Harms CA. Does menstrual cycle phase affect lung diffusion capacity during exercise? Respir Physiol Neurobiol. 2015;205:99–104.
Smith M, Keel J, Greenberg B, Adams L, Schmidt P, Rubinow D, Wassermann EM. Menstrual cycle effects on cortical excitability. Neurology. 1999;53(9):2069–2069.
Tenan MS, Hackney AC, Griffin L. Maximal force and tremor changes across the menstrual cycle. Eur J Appl Physiol. 2016;116(1):153–60.
Tenan MS, Peng Y-L, Hackney AC, Griffin L. Menstrual cycle mediates vastus medialis and vastus medialis oblique muscle activity. Med Sci Sports Exerc. 2013;45(11):2151–7.
Traupe T, Stettler CD, Li H, Haas E, Bhattacharya I, Minotti R, Barton M. Distinct roles of estrogen receptors α and β mediating acute vasodilation of epicardial coronary arteries. Hypertension. 2007;49(6):1364–70.
Wagner PD. New ideas on limitations to VO2max. Exerc Sport Sci Rev. 2000;28(1):10–4.
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Hicks, K.M., McNulty, K., Ansdell, P. (2023). The Effect of the Menstrual Cycle on Exercise and Sports Performance. In: Hackney, A.C. (eds) Sex Hormones, Exercise and Women. Springer, Cham. https://doi.org/10.1007/978-3-031-21881-1_11
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