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Therapeutic effects of exercise with overload on lipid profile sedentary adults
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- المصدر:Revista de la Facultad de Medicina; Vol. 63, Núm. 4 (2015); 617-623; 2357-3848; 0120-0011
- نوع التسجيلة:Electronic Resource
- الدخول الالكتروني :
https://revistas.unal.edu.co/index.php/revfacmed/article/view/49688/54030 https://revistas.unal.edu.co/index.php/revfacmed/article/view/49688/54031 https://revistas.unal.edu.co/index.php/revfacmed/article/downloadSuppFile/49688/12779 https://revistas.unal.edu.co/index.php/revfacmed/article/downloadSuppFile/49688/12898 https://revistas.unal.edu.co/index.php/revfacmed/article/view/49688/54030 https://revistas.unal.edu.co/index.php/revfacmed/article/view/49688/54031 https://revistas.unal.edu.co/index.php/revfacmed/article/downloadSuppFile/49688/12779 https://revistas.unal.edu.co/index.php/revfacmed/article/downloadSuppFile/49688/12898
*ref*/Ministerio de Salud Chile. Encuesta Nacional de Salud ENS Chile 2009-2010. Santiago de Chile: MINSAL; 2010.
*ref*/Owen N, Healy GN, Matthews CE, Dunstan DW. Too much sitting: the population health science of sedentary behavior. Exerc. Sport. Sci. Rev. 2010;38(3):105-13. http://doi.org/dzm26z.
*ref*/Booth FW, Laye MJ, Lees SJ, Rector RS, Thyfault JP. Reduced physical activity and risk of chronic disease: the biology behind the consequences. Eur. J. Appl. Physiol. 2008;102(4):381-0. http://doi.org/fbzph8.
*ref*/Hamilton MT, Hamilton DG, Zderic TW. Exercise physiology versus inactivity physiology: an essential concept for understanding lipoprotein lipase regulation. Exerc. Sport Sci. Rev. 2004;32(4):161-6.
*ref*/Owen N, Sparling PB, Healy GN, Dunstan DW, Matthews CE. Sedentary behavior: emerging evidence for a new health risk. Mayo Clin. Proc. 2010;85(12):1138-41. http://doi.org/cf9c2f.
*ref*/Saavedra C. Guía de actividad física para el adulto mayor. Santiago de Chile: Instituto Nacional del Deporte; 2006.
*ref*/Egan B, Zierath JR. Exercise Metabolism and the Molecular Regulation of Skeletal Muscle Adaptation. Cell. Metab. 2013;17(2):162-84. http://doi.org/f25jzv.
*ref*/Gibala MJ, Little JP, MacDonald MJ, Hawley JA. Physiological adaptations to low-volume, high-intensity interval training in health and disease. J. Physiol. 2012;590(5):1077-84. http://doi.org/fx5rrc.
*ref*/Hamilton MT, Healy GN, Dunstan DW, Zderic TW, Owen N. Too Little Exercise and Too much Sitting: Inactivity Physiology and the Need for New Recommendations on Sedentary Behavior. Curr. Cardiovasc. Risk. Rep. 2008;2(4):292-8. http://doi.org/dbfft2.
*ref*/Mancilla R, Torres P, Álvarez C, Schifferli I, Sapunar J, Díaz E. Ejercicio físico interválico de alta intensidad mejora el control glicémico y la capacidad aeróbica en pacientes con intolerancia a la glucosa. Rev. Med. Chil. 2014;142(1):34-9. http://doi.org/7zx.
*ref*/Boutcher SH. High-Intensity Intermittent Exercise and Fat Loss. J. Obes. 2011:1-10. http://doi.org/fc4vgq.
*ref*/Gibala M, McGee S. Metabolic adaptations to short-term high-intensity interval training: a little pain for a lot of gain? Exerc. Sport. Sci. Rev. 2008;36(2):58-63. http://doi.org/cmc45q.
*ref*/Perry CG, Heigenhauser GJ, Bonen A, Spriet LL. High-intensity aerobic interval training increases fat and carbohydrate metabolic capacities in human skeletal muscle. Appl. Physiol. Nutr. Metab. 2008;33(6):1112-23. http://doi.org/fk47pp.
*ref*/Babraj JA, Vollaard NB, Keast C, Guppy FM, Cottrell G, Timmons JA. Extremely short duration high intensity interval training substantially improves insulin action in young healthy males. BMC Endocr. Disord. 2009;9(1):3. http://doi.org/bjvnqm.
*ref*/Little JP, Gillen JB, Percival ME, Safdar A, Tarnopolsky MA, Punthakee Z, et al. Low-volume high-intensity interval training reduces hyperglycemia and increases muscle mitochondrial capacity in patients with type 2 diabetes. J. Appl. Physiol. 2011;111(6):1554-60. http://doi.org/cmw8j8.
*ref*/Little JP, Safdar A, Wilkin GP, Tarnopolsky MA, Gibala MJ. A practical model of low-volume high-intensity interval training induces mitochondrial biogenesis in human skeletal muscle: potential mechanisms. J. Physiol. 2010;588(6):1011-22. http://doi.org/dqgv45.
*ref*/Wojtaszewski JF, Birk JB, Frøsig C, Holten M, Pilegaard H, Dela F. 5'AMP activated protein kinase expression in human skeletal muscle: effects of strength training and type 2 diabetes. J. Physiol. 2005;564(2):563-73. http://doi.org/ct9sdf.
*ref*/Player DJ, Lewis MP. Mechanisms activating PGC-1α and consequential transcriptional mechanisms following exercise: A mini review. Cell. Mol. Exerc. Physiol. 2012;1(1): e2. http://doi.org/8jn.
*ref*/Izquierdo M, Ibáñez J, González-Badillo JJ, Häkkinen K, Ratamess NA, Kraemer WJ, et al. Differential effects of strength training leading to failure versus not to failure on hormonal responses, strength, and muscle power gains. J. Appl. Physiol. 2006;100(5):1647-56. http://doi.org/d8gthx.
*ref*/Celis-Morales CA, Pérez-Bravo F, Ibáñez L, Salas C, Bailey ME, Gill JM. Objective vs self-reported physical activity and sedentary time: effects of measurement method on relationships with risk biomarkers. PloS one. 2012;7(5):e36345. http://doi.org/7z4.
*ref*/Álvarez C, Ramírez R, Flores M, Zúñiga C, Celis-Morales CA. Efectos del ejercicio físico de alta intensidad y sobrecarga en parámetros de salud metabólica en mujeres sedentarias, pre-diabéticas con sobrepeso u obesidad. Rev. Med. Chil. 2012;140(1):1289-96. http://doi.org/7z5.
*ref*/Castaneda C, Layne JE, Munoz-Orians L, Gordon PL, Walsmith J, Foldvari M, et al. A randomized controlled trial of resistance exercise training to improve glycemic control in older adults with type 2 diabetes. Diabetes Care. 2002;25(12):2335-41. http://doi.org/cnxqfq.
*ref*/Dunstan DW, Daly RM, Owen N, Jolley D, De Courten M, Shaw J, et al. High-intensity resistance training improves glycemic control in older patients with type 2 diabetes. Diabetes Care. 2002;25(10):1729-36. http://doi.org/dcdg76.
*ref*/Delgado-Flody P, Caamaño-Navarrete F, Jerez-Mayorga D, Campos-Jara C, Ramírez-Campillo R, Osorio-Poblete A, et al. Efectos de un programa de tratamiento multidisciplinar en obesos mórbidos y obesos con comorbilidades candidatos a cirugía bariátrica. Nutr. Hosp. 2015;31(5):2010-2016. http://doi.org/7z6.
*ref*/Niu C, Chen C, Chen L, Cheng K, Yeh C, Cheng J. Decrease of Blood Lipids Induced by Shan-Zha (Fruit of Crataeguspinnatifida) is Mainly Related to an Increase of PPARα in Liver of Mice Fed High-Fat Diet. Horm.Metab. Res. 2011;43(9):625-30. http://doi.org/bn2cxf.
*ref*/Sillanpää E, Laaksonen DE, Häkkinen A, Karavirta L, Jensen B, Kraemer WJ, et al. Body composition, fitness, and metabolic health during strength and endurance training and their combination in middle-aged and older women. Eur. J. Appl .Physiol. 2009;106(2):285-96. http://doi.org/ccdmhk.
*ref*/Klimcakova E, Polak J, Moro C, Hejnova J, Majercik M, Viguerie N, Berlan M, et al. Dynamic strength training improves insulin sensitivity without altering plasma levels and gene expression of adipokines in subcutaneous adipose tissue in obese men. J. Clin. Endocrinol. Metab. 2006;91(12):5107-12. http://doi.org/dcxqf7.
*ref*/Mohammadi HR, Ghodsbin S, Khoshnam MS, Khoshnam E, Keyali A. The effect of 12 weeks of progressive strength training on lipid profile levels in inactive middle-aged men. Euro. J. Exp. Bio. 2014;4(1):129-132.
*ref*/Balducci S, Zanuso S, Nicolucci A, Fernando F, Cavallo S, Cardelli, P, et al. Anti-inflammatory effect of exercise training in subjects with type 2 diabetes and the metabolic syndrome is dependent on exercise modalities and independent of weight loss. Nutr. Metab. Cardiovasc. Dis. 2010;20(8):608-17. http://doi.org/czbgfj.
*ref*/Cauza E, Hanusch-Enserer U, Strasser B, Ludvik B, Metz-Schimmerl S, Pacini G, et al.The relative benefits of endurance and strength training on the metabolic factors and muscle function of people with type 2 diabetes mellitus. Arch. Phys. Med. Rehabil. 2005;86(8):1527-33. http://doi.org/dj7sqq.
*ref*/Jiménez H, Ramírez-Vélez R. Strength training improves insulin sensitivity and plasma lipid levels without altering body composition in overweight and obese subjects. Endocrinol. Nutr. 2011;58(4):169-74. http://doi.org/f2jstz.
*ref*/Pérez-Gómez J, Vicente-Rodríguez G, Ara Royo I, Martínez-Redondo D, Puzo Foncillas J, Moreno LA, et al. Effect of endurance and resistance training on regional fat mass and lipid profile. Nutr. Hosp. 2013;28(2):340-6. http://doi.org/7z8.
*ref*/Álvarez C, Ramírez-Campillo R, Flores M, Henríquez-Olguín C, Campos C, Carrasco V, et al. Respuestas metabólicas inducidas por ejercicio físico de alta intensidad en mujeres sedentarias con glicemia basal alterada e hipercolesterolemia. Rev. Med. Chil. 2013;141(10):1293-9. http://doi.org/7z9.
*ref*/Álvarez C, Ramírez-Campillo R. Effects of a low intensity strength training program on overweight/obese and premenopausal/menopausal women. Rev. Bras. Cineantropom. Desempenho hum. 2013;15(4):427-36. http://doi.org/72b.
*ref*/Seo DI, So WY, Ha S, Yoo EJ, Kim D, Singh H, et al. Effects of 12 Weeks of Combined Exercise Training on Vis-fatin and Metabolic Syndrome Factors in Obese Middle-Aged Women. J. Sports Sci. Med. 2011;10(1):222-26.
*ref*/Delgado P, Cresp M, Caamaño F, Machuca C, Carter-Thuilie B, Osorio A. Effects of strength exercise program in anthropometric variables on pre-diabetic people with ethnic ancestry. Gac. Med. Bol. 2014;37(2):78-82.
*ref*/Nuri R, Mahmudieh B, Akochakian M, Moghaddasi M. Effect of 15 weeks Combination exercise training on lipid profile and fatty liver indices in Postmenopausal women with breast cancer. Brazilian Journal of Biomotricity. 2012;6(4):297-303.
*ref*/Ghahramanloo E, Midgley AW, Bentley DJ. The Effect of Concurrent Training on Blood Lipid Profile and Anthropometrical Characteristics of Previously Untrained Men. J. Phys. Act. Health. 2009;6(6):760-6.
*ref*/Zapata-Lamana R, Cigarroa I, Díaz E, Saavedra C. Resistance exercise improves serum lipids in adult women. Rev. Med. Chil. 2015;143(3):289-96. http://doi.org/72c.
*ref*/Frajacomo FT, Demarzo MM, Fernandes CR, Martinello F, Bachur JA, Uyemura SA, et al. The effects of high-intensity resistance exercise on the blood lipid profile and liver function in hypercholesterolemic hamsters. Appl. Physiol. Nutr. Metab. 2012;37(3):448-54. http://doi.org/72d.
*ref*/Hübner-Woźniak E, Morgulec-Adamiec N, Malara M, Okęcka-Szymańska J. Effect of training on the serum lipid profile in able-bodied and spinal cord injured rugby players. Biol. Sport. 2010;27(4):269-72. http://doi.org/72f.
*ref*/Álvarez C, Ramírez-Campillo R, Henríquez-Olguín C, Castro-Sepúlveda M, Carrasco V, Martínez C. ¿Pueden ocho semanas de ejercicio físico combinado normalizar marcadores metabólicos de sujetos hiperglicémicos y dislipidémicos? Rev. Med. Chil. 2014;142(4):458-66. http://doi.org/72g.
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