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Experimental studies of gai...

Experimental studies of gait biomechanics during pregnancy: systematic review of clinical trials. (2000-2018)

Ediciones Complutense 2019-06-17

Background: Pregnancy is a moment in a woman's life whose physiological, hormonal, and morphological changes generate great bodily changes. These changes occur in a very short period of time and cause a loss of stability and a series of kinematic and kinetic changes in their gait that cause falls and musculoskeletal discomfort in the lower limb and foot. Methods: A review of the scientific literature has been carried out to identify possible scientific studies on gait and pregnancy. The main biomedical search engines and databases were consulted: Medline-Pubmed, Enfispo, Scielo and Science Direct. The search period was comprised February-June 2018. Results: In our search we found 912 summaries of articles with the selected keywords. 892 articles of the aforementioned were excluded after reading them because they did not meet the selection criteria of the study. Therefore, we obtained 20 relevant. Conclusion: There are experimental studies that show changes in the kinematics, kinetics of the trunk, pelvis, lower limb and foot in pregnancy and postpartum

Background: El embarazo es un momento en la vida de la mujer cuyos cambios fisiológicos, hormonales, y morfológicos generan grandes cambios corporales. Estos cambios se producen en un periodo de tiempo muy corto y provocan una pérdida de estabilidad y de cambios cinemáticos y cinéticos en su marcha que generan caídas  y molestias musculoesqueléticas en el miembro inferior y pie. Métodos: Se ha realizado una revisión de la literatura científica para identificar los posibles estudios científicos sobre la marcha y embarazo. Se han consultado los principales buscadores y bases de datos biomédicas: Medline-pubmed, Enfispo,  Scielo y Science Direct. El periodo de búsqueda estuvo comprendido  febrero-junio de 2018. Resultados: En nuestra búsqueda hallamos 912 resúmenes de artículos con las palabras clave seleccionadas. 892 artículos de los anteriormente mencionados fueron excluidos tras leerlos por no cumplir los criterios de selección del estudio. Por lo tanto, obtuvimos 20 relevantes. Conclusión: Existen estudios experimentales que evidencian cambios en la cinemática, cinética de la marcha del tronco, pelvis, miembro inferior y pie en el embarazo y postparto

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info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Artículo revisado por pares

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analitica Rebiun28918868 https://catalogo.rebiun.org/rebiun/record/Rebiun28918868 191223s2019 xx o 000 0 spa d https://revistas.ucm.es/index.php/RICP/article/view/64723 10.5209/ricp.64723 S9M S9M dc Experimental studies of gait biomechanics during pregnancy: systematic review of clinical trials. (2000-2018) electronic resource] Estudios experimentales de la biomecánica de la marcha durante el embarazo: revisión sistemática de ensayos clínicos. (2000-2018) Ediciones Complutense 2019-06-17 Ediciones Complutense application/pdf Open access content. Open access content star Background: Pregnancy is a moment in a woman's life whose physiological, hormonal, and morphological changes generate great bodily changes. These changes occur in a very short period of time and cause a loss of stability and a series of kinematic and kinetic changes in their gait that cause falls and musculoskeletal discomfort in the lower limb and foot. Methods: A review of the scientific literature has been carried out to identify possible scientific studies on gait and pregnancy. The main biomedical search engines and databases were consulted: Medline-Pubmed, Enfispo, Scielo and Science Direct. The search period was comprised February-June 2018. Results: In our search we found 912 summaries of articles with the selected keywords. 892 articles of the aforementioned were excluded after reading them because they did not meet the selection criteria of the study. Therefore, we obtained 20 relevant. Conclusion: There are experimental studies that show changes in the kinematics, kinetics of the trunk, pelvis, lower limb and foot in pregnancy and postpartum Background: El embarazo es un momento en la vida de la mujer cuyos cambios fisiológicos, hormonales, y morfológicos generan grandes cambios corporales. Estos cambios se producen en un periodo de tiempo muy corto y provocan una pérdida de estabilidad y de cambios cinemáticos y cinéticos en su marcha que generan caídas  y molestias musculoesqueléticas en el miembro inferior y pie. Métodos: Se ha realizado una revisión de la literatura científica para identificar los posibles estudios científicos sobre la marcha y embarazo. Se han consultado los principales buscadores y bases de datos biomédicas: Medline-pubmed, Enfispo,  Scielo y Science Direct. El periodo de búsqueda estuvo comprendido  febrero-junio de 2018. Resultados: En nuestra búsqueda hallamos 912 resúmenes de artículos con las palabras clave seleccionadas. 892 artículos de los anteriormente mencionados fueron excluidos tras leerlos por no cumplir los criterios de selección del estudio. Por lo tanto, obtuvimos 20 relevantes. Conclusión: Existen estudios experimentales que evidencian cambios en la cinemática, cinética de la marcha del tronco, pelvis, miembro inferior y pie en el embarazo y postparto Derechos de autor 2019 Revista Internacional de Ciencias Podológicas Spanish gait; pregnancy; kinematics; kinetics; lower extremity marcha; embarazo; cinemática; cinética; extremidad inferior info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Artículo revisado por pares Martínez Jiménez, Eva María. cre Díaz Velázquez, José Ignacio. cre Sánchez Gómez, Rubén. cre Santiago Nuño, Fernando. cre Casado Hernández, Israel. cre Garrido Castells, Xavier. cre Revista Internacional de Ciencias Podológicas; Vol. 13 Núm. 2 (2019); 77-86 Revista Internacional de Ciencias Podológicas; Vol. 13 Núm. 2 (2019); 77-86 Revista Internacional de Ciencias Podológicas; Vol. 13 Núm. 2 (2019); 77-86 1989-5151 https://revistas.ucm.es/index.php/RICP/article/view/64723/4564456551884 /*ref*/Weir, Z. et al. Physical activity in pregnancy: A qualitative study of the beliefs of overweight and obese pregnant women. BMC Pregnancy Childbirth (2010). doi:10.1186/1471-2393-10-18 /*ref*/Rodacki, C. L., Fowler, N. E., Rodacki, A. L. & Birch, K. Stature Loss and Recovery in Pregnant Women With and Without Low Back Pain. Arch Phys Med Rehabil 84, (2003) /*ref*/Whitcome, K. K., Shapiro, L. J. & Lieberman, D. E. Fetal load and the evolution of lumbar lordosis in bipedal hominins. Nature (2007). doi:10.1038/nature06342 /*ref*/Rasmussen, K. M., Catalano, P. M. & Yaktine, A. L. New guidelines for weight gain during pregnancy: what obstetrician/gynecologists should know. Curr. Opin. Obstet. Gynecol. (2009). doi:10.1097/GCO.0b013e328332d24e /*ref*/Heslehurst, N. et al. The impact of maternal BMI status on pregnancy outcomes with immediate short-term obstetric resource implications: A meta-analysis. Obesity Reviews (2008). doi:10.1111/j.1467-789X.2008.00511.x /*ref*/Branco, M., Santos-Rocha, R. & Vieira, F. Biomechanics of Gait during Pregnancy. doi:10.1155/2014/527940 /*ref*/Calungueri, M., Bird, H. & Wrigth, V. "Changes in jointlaxity occurring during pregnancy,". Ann. ofthe Rheum. Dis. 41, 126-128 (1982) /*ref*/Schauberger, C. W. et al. Peripheral joint laxity increases in pregnancy but does not correlate with serum relaxin levels. Am. J. Obstet. Gynecol. (1996). doi:10.1016/S0002-9378(96)70447-7 /*ref*/Opala-Berdzik, A., Baszczyk, J. W., Swider, D. & Cieslinska-Swider, J. Trunk forward flexion mobility in reference to postural sway in women after delivery: A prospective longitudinal comparison between early pregnancy and 2- and 6-month postpartum follow-ups. Clin. Biomech. (2018). doi:10.1016/j.clinbiomech.2018.05.009 /*ref*/Whitcome, K. K., Shapiro, L. J. & Lieberman, D. E. Fetal load and the evolution of lumbar lordosis in bipedal hominins. Nature 450, 1075-1078 (2007) /*ref*/Krkeljas, Z. Changes in gait and posture as factors of dynamic stability during walking in pregnancy. Hum. Mov. Sci. 58, 315-320 (2018) /*ref*/Foti, T., Davids, J. R. & Bagley, A. A biomechanical analysis of gait during pregnancy. J. Bone Joint Surg. Am. 82, 625-32 (2000) /*ref*/Fries, E. C. & Hellebrandt, F. A. The influence of pregnancy on the location of the center of gravity, postural stability, and body alignment. Am. J. Obstet. Gynecol. 46, 374-380 (1943) /*ref*/Sociedad Peruana de Obstetricia y Ginecología, J. E. Revista Peruana de ginecología y obstetricia. Rev. Peru. Ginecol. y Obstet. 63, 593-598 (2017) /*ref*/Baszczyk, J. W., Opala-Berdzik, A. & Plewa, M. Adaptive changes in spatiotemporal gait characteristics in women during pregnancy. Gait Posture 43, 160-164 (2016) /*ref*/Branco, M., Santos-Rocha, R., Aguiar, L., Vieira, F. & Veloso, A. Kinematic Analysis of Gait in the Second and Third Trimesters of Pregnancy. J. Pregnancy 2013, 1-9 (2013) /*ref*/Forczek, W., Ivanenko, Y. P., Bielatowicz, J. & Wacawik, K. Gait assessment of the expectant mothers - Systematic review. Gait Posture 62, 7-19 (2018) /*ref*/Hagan, L. & Wong, C. K. Gait in pregnant women: spinal and lower extremity changes from pre- to postpartum. J. Womens. Health Phys. Therap. (2010). doi:10.1097/JWH.0b013e3181e8fd4d /*ref*/Carpes, F., Griebeler, D., Kleinpaul, J., Mann, L. & Mota, C. "Women able-bodied gait kinematics during and post preg- nancy period,". Rev. Bras. Biomecˆanica 9, 16 (2008) /*ref*/Lymbery, J. & Gilleard, W. The stance phase of walking during late pregnancy: temporospatial and ground reaction force variables. J. Am. Podiatr. Med. Assoc. (2005) /*ref*/Gilleard, W. L. Trunk motion and gait characteristics of pregnant women when walking: Report of a longitudinal study with a control group. BMC Pregnancy Childbirth (2013). doi:10.1186/1471-2393-13-71 /*ref*/McCrory, J. L., Chambers, A. J., Daftary, A. & Redfern, M. S. The pregnant "waddle": An evaluation of torso kinematics in pregnancy. J. Biomech. 47, 2964-2968 (2014) /*ref*/Aguiar, L. et al. Comparison between overweight due to pregnancy and due to added weight to simulate body mass distribution in pregnancy. Gait Posture 42, 511-517 (2015) /*ref*/Bertuit, J., Leyh, C., Rooze, M. & Feipe, V. Pregnancy-related changes in center of pressure during gait. Acta Bioeng. Biomech. 19, 95-102 (2017) /*ref*/Hagan, L. & Wong, C. K. Gait in Pregnant Women. J. Womens Heal. Phys. Ther. (2010). doi:10.1097/JWH.0b013e3181e8fd4d /*ref*/Mei, Q., Gu, Y. & Fernandez, J. Alterations of Pregnant Gait during Pregnancy and Post-Partum. Sci. Rep. 8, 2217 (2018) /*ref*/Vilador Pericé, A. Significado de la postura y de la marcha humana : (Teología, Antropología, Patología). (Complutense, 1996) /*ref*/Sekiya, N. & Yamazaki, H. Biomechanics and motor control of normal young adults performing a wheelchair wheelie balance task. Percept. Mot. Skills 110, 825-39 (2010) /*ref*/Sunaga, Y., Kanemura, N., Anan, M., Takahashi, M. & Shinkoda, K. Estimation of inertial parameters of the lower trunk in pregnant Japanese women: A longitudinal comparative study and application to motion analysis. Appl. Ergon. 55, 173-182 (2016) /*ref*/HUANG, T.-H., LIN, S.-C., HO, C.-S., YU, C.-Y. & CHOU, Y.-L. THE GAIT ANALYSIS OF PREGNANT WOMEN. Biomed. Eng. Appl. Basis Commun. 14, 67-70 (2002) /*ref*/Andrade, S. R. de S. et al. Avaliação da inicialização da marcha na gestante de baixo risco nos três trimestres gestacionais. Rev. Bras. Ginecol. e Obs. 34, 376-380 (2012) /*ref*/J.M., F., P., G., F.E., K., B., A. & J., B. Gait coordination in pregnancy: A study in a rural population in Africa. Science and Sports (2009). doi:10.1186/1754-6834-6-22 /*ref*/Forczek, W., Ivanenko, Y. P., Bielatowicz, J. & Wacawik, K. Gait assessment of the expectant mothers - Systematic review. Gait Posture 62, 7-19 (2018) /*ref*/Eldeeb, A. M., Hamada, H. A., Abdel-Aziem, A. A. & Youssef, A. M. The relationship between trunk and pelvis kinematics during pregnancy trimesters. Acta Bioeng. Biomech. (2016). doi:10.5277/ABB-00544-2016-03 /*ref*/Sawa, R. et al. Differences in trunk control between early and late pregnancy during gait. Gait Posture 42, 455-459 (2015) /*ref*/Caniuqueo, A., Fernandes, J., Quiroz, G., Rivas, R. & Vargas, A. C. Revista Peruana de Ginecología y Obstetricia 109 /*ref*/Inanir, A., Cakmak, B., Hisim, Y. & Demirturk, F. Evaluation of postural equilibrium and fall risk during pregnancy. Gait Posture 39, 1122-1125 (2014) /*ref*/Cartier R., L. Caídas y alteraciones de la marcha en los adultos mayores. Rev. Med. Chil. 130, 332-337 (2002) /*ref*/Branco, M., Santos-Rocha, R. & Vieira, F. Biomechanics of gait during pregnancy. ScientificWorldJournal. 2014, 527940 (2014) /*ref*/Ponnapula, P. & Boberg, J. S. Lower Extremity Changes Experienced During Pregnancy. J. Foot Ankle Surg. 49, 452-458 (2010) /*ref*/Hijmans, J. M., Geertzen, J. H. B., Dijkstra, P. U. & Postema, K. A systematic review of the effects of shoes and other ankle or foot appliances on balance in older people and people with peripheral nervous system disorders. Gait and Posture (2007). doi:10.1016/j.gaitpost.2006.03.010

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analitica Rebiun28918868 https://catalogo.rebiun.org/rebiun/record/Rebiun28918868 191223s2019 xx o 000 0 spa d https://revistas.ucm.es/index.php/RICP/article/view/64723 10.5209/ricp.64723 S9M S9M dc Experimental studies of gait biomechanics during pregnancy: systematic review of clinical trials. (2000-2018) electronic resource] Estudios experimentales de la biomecánica de la marcha durante el embarazo: revisión sistemática de ensayos clínicos. (2000-2018) Ediciones Complutense 2019-06-17 Ediciones Complutense application/pdf Open access content. Open access content star Background: Pregnancy is a moment in a woman's life whose physiological, hormonal, and morphological changes generate great bodily changes. These changes occur in a very short period of time and cause a loss of stability and a series of kinematic and kinetic changes in their gait that cause falls and musculoskeletal discomfort in the lower limb and foot. Methods: A review of the scientific literature has been carried out to identify possible scientific studies on gait and pregnancy. The main biomedical search engines and databases were consulted: Medline-Pubmed, Enfispo, Scielo and Science Direct. The search period was comprised February-June 2018. Results: In our search we found 912 summaries of articles with the selected keywords. 892 articles of the aforementioned were excluded after reading them because they did not meet the selection criteria of the study. Therefore, we obtained 20 relevant. Conclusion: There are experimental studies that show changes in the kinematics, kinetics of the trunk, pelvis, lower limb and foot in pregnancy and postpartum Background: El embarazo es un momento en la vida de la mujer cuyos cambios fisiológicos, hormonales, y morfológicos generan grandes cambios corporales. Estos cambios se producen en un periodo de tiempo muy corto y provocan una pérdida de estabilidad y de cambios cinemáticos y cinéticos en su marcha que generan caídas  y molestias musculoesqueléticas en el miembro inferior y pie. Métodos: Se ha realizado una revisión de la literatura científica para identificar los posibles estudios científicos sobre la marcha y embarazo. Se han consultado los principales buscadores y bases de datos biomédicas: Medline-pubmed, Enfispo,  Scielo y Science Direct. El periodo de búsqueda estuvo comprendido  febrero-junio de 2018. Resultados: En nuestra búsqueda hallamos 912 resúmenes de artículos con las palabras clave seleccionadas. 892 artículos de los anteriormente mencionados fueron excluidos tras leerlos por no cumplir los criterios de selección del estudio. Por lo tanto, obtuvimos 20 relevantes. Conclusión: Existen estudios experimentales que evidencian cambios en la cinemática, cinética de la marcha del tronco, pelvis, miembro inferior y pie en el embarazo y postparto Derechos de autor 2019 Revista Internacional de Ciencias Podológicas Spanish gait; pregnancy; kinematics; kinetics; lower extremity marcha; embarazo; cinemática; cinética; extremidad inferior info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion Artículo revisado por pares Martínez Jiménez, Eva María. cre Díaz Velázquez, José Ignacio. cre Sánchez Gómez, Rubén. cre Santiago Nuño, Fernando. cre Casado Hernández, Israel. cre Garrido Castells, Xavier. cre Revista Internacional de Ciencias Podológicas; Vol. 13 Núm. 2 (2019); 77-86 Revista Internacional de Ciencias Podológicas; Vol. 13 Núm. 2 (2019); 77-86 Revista Internacional de Ciencias Podológicas; Vol. 13 Núm. 2 (2019); 77-86 1989-5151 https://revistas.ucm.es/index.php/RICP/article/view/64723/4564456551884 /*ref*/Weir, Z. et al. Physical activity in pregnancy: A qualitative study of the beliefs of overweight and obese pregnant women. BMC Pregnancy Childbirth (2010). doi:10.1186/1471-2393-10-18 /*ref*/Rodacki, C. L., Fowler, N. E., Rodacki, A. L. & Birch, K. Stature Loss and Recovery in Pregnant Women With and Without Low Back Pain. Arch Phys Med Rehabil 84, (2003) /*ref*/Whitcome, K. K., Shapiro, L. J. & Lieberman, D. E. Fetal load and the evolution of lumbar lordosis in bipedal hominins. Nature (2007). doi:10.1038/nature06342 /*ref*/Rasmussen, K. M., Catalano, P. M. & Yaktine, A. L. New guidelines for weight gain during pregnancy: what obstetrician/gynecologists should know. Curr. Opin. Obstet. Gynecol. (2009). doi:10.1097/GCO.0b013e328332d24e /*ref*/Heslehurst, N. et al. The impact of maternal BMI status on pregnancy outcomes with immediate short-term obstetric resource implications: A meta-analysis. Obesity Reviews (2008). doi:10.1111/j.1467-789X.2008.00511.x /*ref*/Branco, M., Santos-Rocha, R. & Vieira, F. Biomechanics of Gait during Pregnancy. doi:10.1155/2014/527940 /*ref*/Calungueri, M., Bird, H. & Wrigth, V. "Changes in jointlaxity occurring during pregnancy,". Ann. ofthe Rheum. Dis. 41, 126-128 (1982) /*ref*/Schauberger, C. W. et al. Peripheral joint laxity increases in pregnancy but does not correlate with serum relaxin levels. Am. J. Obstet. Gynecol. (1996). doi:10.1016/S0002-9378(96)70447-7 /*ref*/Opala-Berdzik, A., Baszczyk, J. W., Swider, D. & Cieslinska-Swider, J. Trunk forward flexion mobility in reference to postural sway in women after delivery: A prospective longitudinal comparison between early pregnancy and 2- and 6-month postpartum follow-ups. Clin. Biomech. (2018). doi:10.1016/j.clinbiomech.2018.05.009 /*ref*/Whitcome, K. K., Shapiro, L. J. & Lieberman, D. E. Fetal load and the evolution of lumbar lordosis in bipedal hominins. Nature 450, 1075-1078 (2007) /*ref*/Krkeljas, Z. Changes in gait and posture as factors of dynamic stability during walking in pregnancy. Hum. Mov. Sci. 58, 315-320 (2018) /*ref*/Foti, T., Davids, J. R. & Bagley, A. A biomechanical analysis of gait during pregnancy. J. Bone Joint Surg. Am. 82, 625-32 (2000) /*ref*/Fries, E. C. & Hellebrandt, F. A. The influence of pregnancy on the location of the center of gravity, postural stability, and body alignment. Am. J. Obstet. Gynecol. 46, 374-380 (1943) /*ref*/Sociedad Peruana de Obstetricia y Ginecología, J. E. Revista Peruana de ginecología y obstetricia. Rev. Peru. Ginecol. y Obstet. 63, 593-598 (2017) /*ref*/Baszczyk, J. W., Opala-Berdzik, A. & Plewa, M. Adaptive changes in spatiotemporal gait characteristics in women during pregnancy. Gait Posture 43, 160-164 (2016) /*ref*/Branco, M., Santos-Rocha, R., Aguiar, L., Vieira, F. & Veloso, A. Kinematic Analysis of Gait in the Second and Third Trimesters of Pregnancy. J. Pregnancy 2013, 1-9 (2013) /*ref*/Forczek, W., Ivanenko, Y. P., Bielatowicz, J. & Wacawik, K. Gait assessment of the expectant mothers - Systematic review. Gait Posture 62, 7-19 (2018) /*ref*/Hagan, L. & Wong, C. K. Gait in pregnant women: spinal and lower extremity changes from pre- to postpartum. J. Womens. Health Phys. Therap. (2010). doi:10.1097/JWH.0b013e3181e8fd4d /*ref*/Carpes, F., Griebeler, D., Kleinpaul, J., Mann, L. & Mota, C. "Women able-bodied gait kinematics during and post preg- nancy period,". Rev. Bras. Biomecˆanica 9, 16 (2008) /*ref*/Lymbery, J. & Gilleard, W. The stance phase of walking during late pregnancy: temporospatial and ground reaction force variables. J. Am. Podiatr. Med. Assoc. (2005) /*ref*/Gilleard, W. L. Trunk motion and gait characteristics of pregnant women when walking: Report of a longitudinal study with a control group. BMC Pregnancy Childbirth (2013). doi:10.1186/1471-2393-13-71 /*ref*/McCrory, J. L., Chambers, A. J., Daftary, A. & Redfern, M. S. The pregnant "waddle": An evaluation of torso kinematics in pregnancy. J. Biomech. 47, 2964-2968 (2014) /*ref*/Aguiar, L. et al. Comparison between overweight due to pregnancy and due to added weight to simulate body mass distribution in pregnancy. Gait Posture 42, 511-517 (2015) /*ref*/Bertuit, J., Leyh, C., Rooze, M. & Feipe, V. Pregnancy-related changes in center of pressure during gait. Acta Bioeng. Biomech. 19, 95-102 (2017) /*ref*/Hagan, L. & Wong, C. K. Gait in Pregnant Women. J. Womens Heal. Phys. Ther. (2010). doi:10.1097/JWH.0b013e3181e8fd4d /*ref*/Mei, Q., Gu, Y. & Fernandez, J. Alterations of Pregnant Gait during Pregnancy and Post-Partum. Sci. Rep. 8, 2217 (2018) /*ref*/Vilador Pericé, A. Significado de la postura y de la marcha humana : (Teología, Antropología, Patología). (Complutense, 1996) /*ref*/Sekiya, N. & Yamazaki, H. Biomechanics and motor control of normal young adults performing a wheelchair wheelie balance task. Percept. Mot. Skills 110, 825-39 (2010) /*ref*/Sunaga, Y., Kanemura, N., Anan, M., Takahashi, M. & Shinkoda, K. Estimation of inertial parameters of the lower trunk in pregnant Japanese women: A longitudinal comparative study and application to motion analysis. Appl. Ergon. 55, 173-182 (2016) /*ref*/HUANG, T.-H., LIN, S.-C., HO, C.-S., YU, C.-Y. & CHOU, Y.-L. THE GAIT ANALYSIS OF PREGNANT WOMEN. Biomed. Eng. Appl. Basis Commun. 14, 67-70 (2002) /*ref*/Andrade, S. R. de S. et al. Avaliação da inicialização da marcha na gestante de baixo risco nos três trimestres gestacionais. Rev. Bras. Ginecol. e Obs. 34, 376-380 (2012) /*ref*/J.M., F., P., G., F.E., K., B., A. & J., B. Gait coordination in pregnancy: A study in a rural population in Africa. Science and Sports (2009). doi:10.1186/1754-6834-6-22 /*ref*/Forczek, W., Ivanenko, Y. P., Bielatowicz, J. & Wacawik, K. Gait assessment of the expectant mothers - Systematic review. Gait Posture 62, 7-19 (2018) /*ref*/Eldeeb, A. M., Hamada, H. A., Abdel-Aziem, A. A. & Youssef, A. M. The relationship between trunk and pelvis kinematics during pregnancy trimesters. Acta Bioeng. Biomech. (2016). doi:10.5277/ABB-00544-2016-03 /*ref*/Sawa, R. et al. Differences in trunk control between early and late pregnancy during gait. Gait Posture 42, 455-459 (2015) /*ref*/Caniuqueo, A., Fernandes, J., Quiroz, G., Rivas, R. & Vargas, A. C. Revista Peruana de Ginecología y Obstetricia 109 /*ref*/Inanir, A., Cakmak, B., Hisim, Y. & Demirturk, F. Evaluation of postural equilibrium and fall risk during pregnancy. Gait Posture 39, 1122-1125 (2014) /*ref*/Cartier R., L. Caídas y alteraciones de la marcha en los adultos mayores. Rev. Med. Chil. 130, 332-337 (2002) /*ref*/Branco, M., Santos-Rocha, R. & Vieira, F. Biomechanics of gait during pregnancy. ScientificWorldJournal. 2014, 527940 (2014) /*ref*/Ponnapula, P. & Boberg, J. S. Lower Extremity Changes Experienced During Pregnancy. J. Foot Ankle Surg. 49, 452-458 (2010) /*ref*/Hijmans, J. M., Geertzen, J. H. B., Dijkstra, P. U. & Postema, K. A systematic review of the effects of shoes and other ankle or foot appliances on balance in older people and people with peripheral nervous system disorders. Gait and Posture (2007). doi:10.1016/j.gaitpost.2006.03.010