Publicaciones
PHASE 1 PUBLICATIONS

Abdollahifard, S., Rahmanian Koshkaki, A., Moazamiyanfar, R.
The effects of vitamin B1 on ameliorating the premenstrual syndrome symptoms.
Global Journal of Health Science. 2014; 6(6):144-53.

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.
Experimental Biology and Medicine (Maywood). 2010; 235(1):111-18.

Bharati, M.
Comparing the effects of yoga & oral calcium administration in alleviating symptoms of premenstrual syndrome in medical undergraduates.
Journal of Caring Sciences. 2016; 5(3):179-85. eCollection 2016.

Bruinvels, G., Burden, R., Brown, N., Richards, T., Pedlar, C.
The prevalence and impact of heavy menstrual bleeding (menorrhagia) in elite and non-elite athletes.
PLoS One. 2016; 11(2):e0149881

Cesar, G.M., Pereira, V.S., Santiago, P.R., et al.
Variations in dynamic knee valgus and gluteus medius onset timing in non-athletic females related to hormonal changes
during the menstrual cycle.
Knee. 2011; 18(4):224-30.

El-Lithy, A., El-Mazny, A., Sabbour, A., El-Deeb, A.
Effect of aerobic exercise on premenstrual symptoms, haematological and hormonal parameters in young women.
Journal of Obstetrics and Gynaecology. 2015; 35(4):389-92.

Gaskins, A.J., Wilchesky, M., Mumford, S.L., et al.
Endogenous reproductive hormones and C-reactive protein across the menstrual cycle: the BioCycle Study.
American Journal of Epidemiology. 2012; 175(5):423-31.

Hausmann, M., Slabbekoorn, D., Van Goozen, S.H., Cohen-Kettenis, P.T., Gunturkun, O.
Sex hormones affect spatial abilities during the menstrual cycle.
Behavioral Neuroscience. 2000; 114(6):1245-50.

Heidari, H., Amani, R., Feizi, A., Askari, G., Kohan, S., Tavasoli, P.
Vitamin D supplementation for premenstrual syndrome-related inflammation and antioxidant markers in students
with vitamin D deficient: a randomized clinical trial.
Scientific Reports. 2019; 9(1):14939.

Hicks, S.D., Jacob, P., Perez, O., Baffuto, M., Gagnon, Z., Middleton, F.A.
The transcriptional signature of a runner's high.
Medicine and Science in Sports Exercise. 2019; 51(5):970-78.

Ispirlidis, I., Fatouros, I.G., Jamurtas, A.Z., et al.
Time-course of changes in inflammatory and performance responses following a soccer game.
Clinical Journal of Sport Medicine. 2008; 18(5):423-31.

Julian, R., Hecksteden, A., Fullagar, H.H., Meyer, T.
The effects of menstrual cycle phase on physical performance in female soccer players.
PLoS One. 2017; 12(3):e0173951.

Lane, D.J., Richardson, D.R.
The active role of vitamin C in mammalian iron metabolism: much more than just enhanced iron absorption!
Free Radical Biology and Medicine. 2014; 75:69-83.

McLay, R.T., Thomson, C.D., Williams, S.M., Rehrer, N.J.
Carbohydrate loading and female endurance athletes: effect of menstrual-cycle phase.
International Journal of Sport Nutrition Exercise and Metabolism. 2007; 17(2):189-205.

Mumford, S.L., Browne, R.W., Schliep, K.C., et al.
Serum antioxidants are associated with serum reproductive hormones and ovulation among healthy women.
The Journal of Nutrition. 2016; 146(1):98-106.

Napolitano, M., Dolce, A., Celenza, G., et al.
Iron-dependent erythropoiesis in women with excessive menstrual blood losses and women with normal menses.
Annals of Hematology. 2014; 93(4):557-63.

Nowak, J., Borkowska, B., Pawlowski, B.
Leukocyte changes across menstruation, ovulation, and mid-luteal phase and association with sex hormone variation.
American Journal of Human Biology. 2016; 28(5):721-28.

Park, S.K., Stefanyshyn, D.J., Ramage, B., Hart, D.A., Ronsky, J.L.
Alterations in knee joint laxity during the menstrual cycle in healthy women leads to increases in joint loads during selected athletic movements. The American Journal of Sports Medicine. 2009; 37(6):1169-77.

Sohrabi, N., Kashanian, M., Ghafoori, S.S., Malakouti, S.K.
Evaluation of the effect of omega-3 fatty acids in the treatment of premenstrual syndrome: "a pilot trial".
Complementary Therapies in Medicine. 2013; 21(3):141-46.

Yeung, E.H., Zhang, C., Mumford, S.L., et al.
Longitudinal study of insulin resistance and sex hormones over the menstrual cycle: the BioCycle Study.
The Journal of Clinical Endocrinology & Metabolism. 2010; 95(12):5435-42.


FASE 2 PUBLICACIONES

Adkisson, EJ., Casey, DP., Beck, DT., Gurovich, AN., Martin, JS., Braith, RW.
Reactividad arterial central, periférica y de resistencia: fluctúa durante las fases del ciclo menstrual.
Experimental Biology and Medicine (Maywood). 2010; 235(1):111-18.

Bryant, A.L., Crossley, K.M., Bartold, S., Hohmann, E., Clark, R.A.
Estrogen-induced effects on the neuro-mechanics of hopping in humans.
European Journal of Applied Physiology. 2011; 111(2):245-52.

Casey, E., Hameed, F., Dhaher, Y.Y.
El reflejo de estiramiento muscular a lo largo del ciclo menstrual.
Medicine and Science in Sports and Exercise. 2014; 46(3):600-09.

Devries, M.C., Hamadeh, M.J., Phillips, S.M., Tarnopolsky, M.A.
La fase del ciclo menstrual y el sexo influyen en la utilización del glucógeno muscular y el recambio de glucosa durante el ejercicio de resistencia de intensidad moderada.
American Journal of Physiology: Regulatory, Integrative and Comparative Physiology. 2006; 291(4):R1120-8.

Fahrenholtz, I.L., Sjodin, A., Benardot, D., et al.
Within-day energy deficiency and reproductive function in female endurance athletes.
Scandinavian Journal of Medicine and Science in Sports. 2018; 28(3):1139-46.

Kerksick, C.M., Arent, S., Schoenfeld, B.J., et al.
Posición de la Sociedad Internacional de Nutrición Deportiva: calendario de nutrientes.
Journal of the International Society of Sports Nutrition. 2017; 14:33. eCollection 2017.

McLay, R.T., Thomson, C.D., Williams, S.M., Rehrer, N.J.
Carga de carbohidratos y atletas de resistencia femeninas: efecto de la fase del ciclo menstrual.
International Journal of Sport Nutrition Exercise and Metabolism. 2007; 17(2):189-205.

Mumford, S.L., Browne, R.W., Schliep, K.C., et al.
Los antioxidantes séricos están asociados a las hormonas reproductivas séricas y a la ovulación en mujeres sanas.
The Journal of Nutrition. 2016; 146(1):98-106.

Oosthuyse, T., Bosch, A.N.
The effect of gender and menstrual phase on serum creatine kinase activity and muscle soreness following downhill running.
Antioxidants (Basel). 2017; 6(1):16.

Oosthuyse, T., Bosch, A.N.
El efecto del ciclo menstrual en el metabolismo del ejercicio: implicaciones para el rendimiento del ejercicio en las mujeres eumenorreicas.
Sports Medicine. 2010; 40(3):207-27.

Peake, J.M., Neubauer, O., Della Gatta P.A., Nosaka K.
Daño muscular e inflamación durante la recuperación del ejercicio.
Journal of Applied Physiology (1985). 2017; 122(3):559-70.

Segura, R., Ventura, J.L.
Effect of L-tryptophan supplementation on exercise performance.
International Journal of Sports Medicine. 1988; 9(5):301-5.

Shaw, G., Lee-Barthel, A., Ross, M.L., Wang, B., Baar, K.
La suplementación de gelatina enriquecida con vitamina C antes de la actividad intermitente aumenta la síntesis de colágeno.
The American Journal of Clinical Nutrition. 2017; 105(1):136-43.

Sung, E., Han, A., Hinrichs, T., Vorgerd, M., Manchado, C., Platen, P.
Efectos del entrenamiento de fuerza basado en la fase folicular frente a la fase lútea en mujeres jóvenes.
Springerplus. 2014; 3:668. eCollection 2014.

Van Pelt, R.E., Gozansky, W.S., Schwartz, R.S., Kohrt, W.M.
Los estrógenos intravenosos aumentan el aclaramiento y la acción de la insulina en mujeres posmenopáusicas.
American Journal of Physiology: Endocrinología y Metabolismo. 2003; 285(2):E311-17.

Wihlback, A.C., Sundstrom Poromaa, I., Bixo, M., Allard, P., Mjorndal, T., Spigset, O.
Influencia del ciclo menstrual en el lugar de captación de serotonina de las plaquetas y la unión del receptor de serotonina2A.
Psychoneuroendocrinology. 2004; 29(6):757-66.



FASE 3 PUBLICACIONES

Adkisson, EJ., Casey, DP., Beck, DT., Gurovich, AN., Martin, JS., Braith, RW.
Reactividad arterial central, periférica y de resistencia: fluctúa durante las fases del ciclo menstrual.
Experimental Biology and Medicine (Maywood). 2010; 235(1):111-18.

Backstrom, T., Bixo, M., Johansson, M., et al.
Allopregnanolone and mood disorders.
Progress in Neurobiology. 2014; 113:88-94.

Baker, F.C., Driver, H.S.
Self-reported sleep across the menstrual cycle in young, healthy women.
Journal of Psychosomatic Research. 2004; 56(2):239-43.

Bendich, A.
Función fisiológica de los antioxidantes en el sistema inmunitario.
Journal of Dairy Science. 1993; 76(9):2789-94.

Campbell, S.E., Angus, D.J., Febbraio, M.A.
Cinética de la glucosa y rendimiento del ejercicio durante las fases del ciclo menstrual: efecto de la ingestión de glucosa.
American Journal of Physiology: Endocrinología y Metabolismo. 2001; 281(4):E817-25.

Faustmann, G., Meinitzer, A., Magnes, C., et al.
Disminución de la arginina asociada a la progesterona en la fase lútea del ciclo menstrual y asociación con los aminoácidos relacionados
y la activación del factor nuclear kB.
PLoS One. 2018; 13(7):e0200489.

Janse, D.E., Jonge, X.A., Thompson, M.W., Chuter, V.H., Silk, L.N., Thom, J.M.
Rendimiento del ejercicio a lo largo del ciclo menstrual en condiciones templadas y cálidas y húmedas.
Medicine and Science in Sports and Exercise. 2012; 44(11):2190-8.

Joo, M.H., Maehata, E., Adachi, T., Ishida, A., Murai, F., Mesaki, N.
La relación entre el estrés oxidativo inducido por el ejercicio y el ciclo menstrual.
European Journal of Applied Physiology. 2004; 93(1-2):82-6.

Kerksick, C.M., Arent, S., Schoenfeld, B.J., et al.
International society of sports nutrition position stand: nutrient timing.
Journal of the International Society of Sports Nutrition. 2017; 14:33. eCollection 2017.

Lovick, T.A., Guapo, V.G., Anselmo-Franci, J.A., et al.
Un perfil específico de progesterona en la fase lútea se asocia con el desarrollo de síntomas premenstruales.
Psychoneuroendocrinology. 2017; 75:83-90.

Mandhane, P.J., Hanna, S.E., Inman, M.D., et al.
Cambios en el óxido nítrico exhalado relacionados con el estrógeno y la progesterona durante el ciclo menstrual.
Chest. 2009; 136(5):1301-7.

Maner, J.K., Miller, S.L.
Hormonas y seguimiento social: los cambios del ciclo menstrual en la progesterona subyacen a la sensibilidad de las mujeres a la información social.
Evolution and Human Behavior. 2014; 35(1):9-16.

Nowak, J., Borkowska, B., Pawlowski, B.
Cambios en los leucocitos a lo largo de la menstruación, la ovulación y la fase lútea media y asociación con la variación de las hormonas sexuales.
American Journal of Human Biology. 2016; 28(5):721-8.

O'Herlihy, C., Robinson, H.P., de Crespigny, L.J.
Mittelschmerz is a preovulatory symptom.
British Medical Journal. 1980; 280(6219):986.

Oosthuyse, T., Bosch, A.N.
The effect of gender and menstrual phase on serum creatine kinase activity and muscle soreness following downhill running.
Antioxidants (Basel). 2017; 6(1):16.

Tenan, M.S., Brothers, R.M., Tweedell, A.J., Hackney, A.C., Griffin, L.
Changes in resting heart rate variability across the menstrual cycle.
Psychophysiology. 2014; 51(10):996-1004.

Wallace, M., Hashim, Y.Z., Wingfield, M., et al.
Effects of menstrual cycle phase on metabolomic profiles in premenopausal women.
Human Reproduction. 2010; 25(4):949-56.

Yeung, E.H., Zhang, C., Mumford, S.L., et al.
Estudio longitudinal de la resistencia a la insulina y las hormonas sexuales a lo largo del ciclo menstrual: el estudio BioCycle.
The Journal of Clinical Endocrinology & Metabolism. 2010; 95(12):5435-42.


PHASE 4 PUBLICATIONS

Abdollahifard, S., Rahmanian Koshkaki, A., Moazamiyanfar, R.
The effects of vitamin B1 on ameliorating the premenstrual syndrome symptoms.
Global Journal of Health Science. 2014; 6(6):144-53.

Baker, F.C., Driver, H.S.
Self-reported sleep across the menstrual cycle in young, healthy women.
Journal of Psychosomatic Research. 2004; 56(2):239-43.

Bharati, M.
Comparing the effects of yoga & oral calcium administration in alleviating symptoms of premenstrual syndrome in medical undergraduates. Journal of Caring Sciences. 2016; 5(3):179-85. eCollection 2016.

Dratva, J., Schindler, C., Curjuric, I., et al.
Perimenstrual increase in bronchial hyperreactivity in premenopausal women: results from the population-based SAPALDIA 2 cohort.
The Journal of Allergy and Clinical Immunology. 2010; 125(4):823-9.

Driver, H.S., Dijk, D., Werth, E., Biedermann, K., Borbely, A.A.
Sleep and the sleep electroencephalogram across the menstrual cycle in young healthy women.
The Journal of Clinical Endocrinology & Metabolism. 1996; 81(2):728-35.

El-Lithy, A., El-Mazny, A., Sabbour, A., El-Deeb, A.
Effect of aerobic exercise on premenstrual symptoms, haematological and hormonal parameters in young women.
Journal of Obstetrics and Gynaecology. 2015; 35(4):389-92.

Farasati, N., Siassi, F., Koohdani, F., Qorbani, M., et al.
Western dietary pattern is related to premenstrual syndrome: a case-control study.
British Journal of Nutrition. 2015; 114(12):2016-21.

Gaskins, A.J., Wilchesky, M., Mumford, S.L., et al.
Endogenous reproductive hormones and C-reactive protein across the menstrual cycle: the BioCycle Study.
American Journal of Epidemiology. 2012; 175(5):423-31.

Gordon, J.L, Girdler, S.S.
Mechanisms underlying hemodynamic and neuroendocrine stress reactivity at different phases of the menstrual cycle.
Psychophysiology. 2014; 51(4):309-18.

Hashim, M.S., Obaideen, A.A., Jahrami, H.A., et al.
Premenstrual syndrome is associated with dietary and lifestyle behaviors among university students: a cross-sectional study from Sharjah, UAE. Nutrients. 2019; 11(8):1939.

Heidari, H., Amani, R., Feizi, A., Askari, G., Kohan, S., Tavasoli P.
Vitamin D supplementation for premenstrual syndrome-related inflammation and antioxidant markers in students with
vitamin D deficient: a randomized clinical trial.
Scientific Reports. 2019; 9(1):14939.

Jacobs E., D'Esposito, M.
Estrogen shapes dopamine-dependent cognitive processes: implications for women's health.
The Journal of Neuroscience. 2011; 31(14):5286-93.

Joo, M.H., Maehata, E., Adachi, T., Ishida, A., Murai, F., Mesaki, N.
The relationship between exercise-induced oxidative stress and the menstrual cycle.
European Journal of Applied Physiology. 2004; 93(1-2):82-6.

Markofski, M.M., Braun, W.A.
Influence of menstrual cycle on indices of contraction-induced muscle damage.
Journal of Strength and Conditioning Research. 2014; 28(9):2649-56.

Meng, X., Li, Y., Li, S., Zhou, Y., et al.
Dietary sources and bioactivities of melatonin.
Nutrients. 2017; 9(4):367.

Petersen, A.M., Pedersen, B.K.
The anti-inflammatory effect of exercise.
Journal of Applied Physiology (1985). 2005; 98(4):1154-62.

Puertollano, M.A., Puertollano, E., de Cienfuegos, G.A., de Pablo, M.A.
Dietary antioxidants: immunity and host defense.
Current Topics in Medicinal Chemistry. 2011; 11(14):1752-66.

Sohrabi, N., Kashanian, M., Ghafoori, S.S., Malakouti, S.K.
Evaluation of the effect of omega-3 fatty acids in the treatment of premenstrual syndrome: "a pilot trial".
Complementary Therapies in Medicine. 2013; 21(3):141-46.

Tsai, S.Y.
Effect of yoga exercise on premenstrual symptoms among female employees in Taiwan.
International Journal of Environmental Research and Public Health. 2016; 13(7):721.

Vaghela, N., Mishra, D., Sheth, M., Dani, V.B.
To compare the effects of aerobic exercise and yoga on premenstrual syndrome.
Journal of Education and Health Promotion. 2019; 8:199.

Wihlback, A.C., Sundstrom Poromaa, I., Bixo, M., Allard, P., Mjorndal, T., Spigset, O.
Influence of menstrual cycle on platelet serotonin uptake site and serotonin2A receptor binding.
Psychoneuroendocrinology. 2004; 29(6):757-66.

Yeung, E.H., Zhang, C., Mumford, S.L., et al.
Longitudinal study of insulin resistance and sex hormones over the menstrual cycle: the BioCycle Study.
The Journal of Clinical Endocrinology & Metabolism. 2010; 95(12):5435-42.
                                                                 
Yuan, T.F., Paes, F., Arias-Carrion, O., Ferreira Rocha, N.B., et al.
Neural mechanisms of exercise: anti-depression, neurogenesis, and serotonin signaling.
CNS & Neurological Disorders Drug Targets. 2015; 14(10):1307-11.