Dayanıklılık Yetisini Etkileyen Parametreler ve Özellikleri

Banfi, G, Colombini, A, Lombardi, G, Lubkowska, A. (2012). Metabolic markers in sports medicine. Adv Clin Chem 56: 1–54.

Berchtold, M.W., Brinkmeier, H., ve Muntener, M. (2000). Calcium ion in skeletal muscle: its crucial role for muscle function, plasticity, and disease. Physiological reviews, 80(3), 1215-1265.

Booth, F.W. ve Thomason, D.B. (1991). Molecular and cellular adaptation of muscle in response to exercise: perspectives of various models. Physiological reviews, 71(2), 541-585.

Borges, G.F., Rama, L.M., Pedreiro, S., Rosado, F., Alves, F., Santos, A.M., vd. (2012). Haematological changes in elite kayakers during a training season. Appl Physiol Nutr Metab 37:1140–1146.

Burden, R.J., Pedlar, C.R., ve Lewis, N.A. (2019). Biomarkers in Elite sport: Where Innovations in technology and application combine, Exp. Physiol. Mar;104(3):275-277.

Cazzola, R, Russo-Volpe, S, Cervato, G. ve Cestaro, B. (2003). Biochemical assessments of oxidative stress, erythrocyte membrane fluidity and antioxidant status in professional football players and sedentary controls. Eur J Clin Invest 33: 924–930.

Dempsey, J.A., Hanson, P.G., ve Henderson, K.S. (1984). Exercise induced arterial hypoxaemia in healthy human subjects at sea level. The Journal of Physiology, 355, 161–175.

Dempsey, J.A., ve Wagner, P.D. (1999). Exercise-induced arterial hypoxemia. Journal of Applied Physiology: Respiratory, Environmental and Exercise Physiology, 87, 1997–2006.

Dündar, K. (2019). Diyafram solunumu ile akciğer solunumu kullanımının özellikleri. Herkes İçin Spor ve Wellness Araştırmaları 2, Akademisyen Kitabevi. Ankara, 39-46.

Dündar, U., Gönülateş, S., Teti̇k, S., Yaan, T. Ve Dündar, K. (2017). Analazing the effects of platelet on the durability training. The Online Journal of Recreation and Sports, 6(4), 101-112.

Dündar, U., Tetik, S., Dündar, K., Gönülateş, S. ve Yaan, T. (2019). “Dayanıklılık Antrenmanları Sonucu Plazma Hacim Değişiklikleri ve Performans İlişkisi”, Manas Sosyal Araştırmalar Dergisi, 8(Ek Sayı 1): 1383-1390.

Esbjörnsson, M.E., Dahlström, M.S., Gierup, J.W. ve Jansson, E.C. (2021). Muscle fiber size in healthy children and adults in relation to sex and fiber types, Muscle Nerve, Apr;63(4):586-592.

Esteve-Lanao, J., Foster, C., Seiler, S. ve Lucia, A. (2007). Impact of training intensity distribution on performance in endurance athletes. J. Strength Cond. Res. 21, 943–949.

Esteve-Lanao, J., San Juan, A. F., Earnest, C. P., Foster, C. ve Lucia, A. (2005). How do endurance runners actually train? Relationship with competition performance. Med. Sci. Sports Exerc. 37, 496–504.

Faude, O., Kindermann, W. ve Meyer, T. (2009). Lactate threshold concepts: how valid are they? Sports Med. 39, 469–490.

Gönülates, S., Tetik, S., Dündar, U., Yaan, T. ve Dündar, K. (2017). Analizing The Before And After Effects Of Endurance Training On ACTH Hormone. Internatıonal Journal of Science Culture and Sport, 5(4), 340- 346.

Gravina, L, Ruiz, F, Lekue, JA, Irazusta, J. ve Gil, SM. (2011). Metabolic impact of a soccer match on female players. J Sports Sci 29: 1345– 1352.

Haas, J.D., ve Brownlie, T. (2001). Iron deficiency and reduced work capacity: A critical review of the research to determine a causal relationship. J Nutr 131: 676S–688S, discussion 688–690.

Harms, C.A., McClaran, S.R., Nickele, G.A., Pegelow, D.F., Nelson, W.B. ve Dempsey, J.A. (1988). Exercise-induced arterial hypoxaemia in healthy young women. The Journal of Physiology, 507, 619–628.

Hawley, J.A., Lundby, C, Cotter, J.D. ve Burke, L.M. (2018). Maximizing cellular adaptation to endurance exercise in skeletal muscle. Cell Metabolism, 27(5):962-976.

Hood, D.A., Kelton, R. ve Nishio, M.L. (1992). Mitochondrial adaptations to chronic muscle use: Effect of iron deficiency. Comp Biochem Physiol Comp Physiol 101: 597–605.

Ingham, S. A., Carter, H.,Whyte, G. P. ve Doust, J. H. (2008). Physiological and performance effects of low- versus mixed-intensity rowing training. Med. Sci. Sports Exerc. 40, 579–584.

Jansson, E., Sjödin, B. ve Tesch, P. (1978). Changes in muscle fibre type distribution in man after physical training: a sign of fibre type transformation?. Acta Physiologica Scandinavica, 104(2), 235-237

Kanstrup, I.L. ve Ekblom, B. (1984). Blood volume and hemoglobin concentration as determinants of maximal aerobic power. Medicine and science in sports and exercise, 16(3), 256-262.

Knaupp, W. Khilnani, S. ve Sherwood, J. (1992). Erythropoietin response to acute normobaric hypoxia in humans. J Appl Physiol, 73 (3), 837-40.

Kong, W.N., Gao, G. ve Chang, Y.Z. (2014). Hepcidin and sports anemia. Cell Biosci 4:19

Kuzucu, M., Tetik Dündar, S. ve Özdal, M. (2023). Düşük-Orta İrtifaya Aklimatize Sporcularda Egzersiz Öncesi ve Sonrası HIF-1⍺ ve EPO Düzeylerinin Karşılaştırılması,Akdeniz Spor Bilimleri Dergisi, Cilt: 6 Sayı: 1-Cumhuriyet'in 100. Yılı Özel Sayısı, 958 – 971.

Neal, C.M., Hunter, A. M., Brennan, L., O’Sullivan, A., Hamilton, D. L., De Vito, G., vd. (2013). Six weeks of a polarized training-intensity distribution leads to greater physiological and performance adaptations than a threshold model in trained cyclists. J. Appl. Physiol. 114, 461–471.

Olson, E.N. ve Williams, R.S. (2000). Remodeling muscles with calcineurin. Bioessays, 22(6), 510-519.

Peeling, P., Dawson, B., Goodman, C., Landers, G. ve Trinder, D. (2008). Athletic induced iron deficiency: New insights into the role of inflammation, cytokines and hormones. Eur J Appl Physiol 103: 381–391.

Peeling, P., Dawson, B., Goodman, C., Landers, G., Wiegerinck, E.T., Swinkels, D.W., vd. (2009). Training surface and intensity: Inflammation, hemolysis, and hepcidin expression. Med Sci Sports Exerc 41: 1138–1145.

Plews, D.J. ve Laursen, P. B. (2017). Training intensity distribution over a fouryear cycle in olympic champion rowers: different roads lead to rio. Int. J. Sports Physiol. Perform. 27, 1–24.

Powers, S.K., Dodd, S., Lawler, J., Landry, G., Kirtley, M., McKnight, T., vd. (1988). Incidence of exercise induced hypoxemia in elite endurance athletes at sea level. European Journal of Applied Physiology, 58, 298–302.

Powers, S.K., Lawler, J., Dempsey, J.A., Dodd, S. ve Landry, G. (1989). Effects of incomplete pulmonary gas exchange on VO2 max. Journal of Applied Physiology, 66, 2491–2495.

Reihmane, D., Jurka, A., Tretjakovs, P. ve Dela, F. (2012). Increase in IL-6, TNF-, and MMP-9, but not sICAM-1, concentrations depends on exercise duration. Graefe’s Arch. Clin. Exp. Ophthalmol. 113, 851–858.

Rice, A.J., Scroop, G.C., Gore, C.J., Thornton, A.T., Chapman, M.-A.J., Greville, H.W., vd. (1999). Exercise-induced hypoxaemia in highly trained cyclists at 40% peak oxygen uptake. European Journal of Applied Physiology, 79, 353–359.

Robergs, R.A. ve Roberts, S.O. (1997). Exercise in extreme environments, exercise physiology, exercise performance and clinical applications. St Louis Mosby, 26, 640-653.

Roecker, L., Meier-Buttermilch, R., Brechtel, L., Nemeth, E. ve Ganz, T. (2005). Iron-regulatory protein hepcidin is increased in female athletes after a marathon. Eur J Appl Physiol 95: 569–571.

San-Millán, I. (2019). Blood Biomarkers in Sports Medicine and Performance and the Future of Metabolomics, Mol Biol.1978:431-446.

Seiler, K.S. ve Kjerland, G.Ø. (2006). Quantifying training intensity distribution in elite endurance athletes: is there evidence for an ‘optimal’ distribution? Scand. J. Med. Sci. Sports 16, 49–56.

Selby, G.B. ve Eichner, E.R. (1986). Endurance swimming, intravascular hemolysis, anemia, and iron depletion. New perspective on athlete’s anemia. Am J Med 81: 791–794.

Semenza, G.L. (2000). HIF-1: mediator of physiological and pathophysiological responses to hypoxia, J Appl Physiol (1985) Apr;88(4):1474-80.

Sinclair, L.M. ve Hinton, P.S. (2005). Prevalence of iron deficiency with and without anemia in recreationally active men and women. J Am Diet Assoc 105: 975–978.

Tetik Dündar, S. (2020). Hipoksik koşullar ve hipoksi ile indüklenen faktörün (HIF) tanımlaması. Spor Bilimlerine Genel Bakış, Akademisyen Kitabevi. Ankara, 35-46.

Tetik Dündar, S. (2022). Hipoksik ortamda egzersize bağlı fizyolojik yanıtlar. Spor Bilimlerine Genel Bakış, Akademisyen Kitabevi. Ankara, 177-186.

Tetik Dündar, S. (2023). Egzersiz Sonrası Biyobelirteçler Üzerindeki Etki Sürecinin İncelenmesi. Editör N. Yılmaz, Spor Bilimlerinde Öncü ve Çağdaş Çalışmalar, 183-218, İzmir, Duvar Yayınları.

Tetik, S. (2019a). İnterval antrenman türevlerinin (HIT-HIIT-SIT) aerobic dayanıklılık fizyolojisi üzerine etkisi. Herkes İçin Spor ve Wellness Araştırmaları-2, Ankara,47-58.

Tetik, S. (2019b). Yüksek şiddetli interval antrenmanların (Hiit) VO2max değeri üzerine etkisi. 2.Herkes İçin Spor ve Wellness Kongresi 25-28 Nisan Antalya.

Tetik, S. ve Dündar, U. (2018). Analyze of the correlation between endurance trainings and some hematological values, Gazzetta Medica Italiana Archivo per le Scienze Mediche April; 177 (4): 117-25.

Wang, G.L., Jiang, B.H., Rue, E.A. ve Semenza, G.L. (1995). Hypoxiainducible factor 1 is a basic-helix-loop-helix- PAS heterodimer regulated by cellular O2 tension. Proceedings of the National Academy of Sciences of the United States of America, 92 (12):5510-5514.

Woodson, R.D. (1984). Hemoglobin concentration and exercise capacity. Am Rev Respir Dis 129: 72–75.

Banfi, G, Colombini, A, Lombardi, G, Lubkowska, A. (2012). Metabolic markers in sports medicine. Adv Clin Chem 56: 1–54.

Berchtold, M.W., Brinkmeier, H., ve Muntener, M. (2000). Calcium ion in skeletal muscle: its crucial role for muscle function, plasticity, and disease. Physiological reviews, 80(3), 1215-1265.

Booth, F.W. ve Thomason, D.B. (1991). Molecular and cellular adaptation of muscle in response to exercise: perspectives of various models. Physiological reviews, 71(2), 541-585.

Borges, G.F., Rama, L.M., Pedreiro, S., Rosado, F., Alves, F., Santos, A.M., vd. (2012). Haematological changes in elite kayakers during a training season. Appl Physiol Nutr Metab 37:1140–1146.

Burden, R.J., Pedlar, C.R., ve Lewis, N.A. (2019). Biomarkers in Elite sport: Where Innovations in technology and application combine, Exp. Physiol. Mar;104(3):275-277.

Cazzola, R, Russo-Volpe, S, Cervato, G. ve Cestaro, B. (2003). Biochemical assessments of oxidative stress, erythrocyte membrane fluidity and antioxidant status in professional football players and sedentary controls. Eur J Clin Invest 33: 924–930.

Dempsey, J.A., Hanson, P.G., ve Henderson, K.S. (1984). Exercise induced arterial hypoxaemia in healthy human subjects at sea level. The Journal of Physiology, 355, 161–175.

Dempsey, J.A., ve Wagner, P.D. (1999). Exercise-induced arterial hypoxemia. Journal of Applied Physiology: Respiratory, Environmental and Exercise Physiology, 87, 1997–2006.

Dündar, K. (2019). Diyafram solunumu ile akciğer solunumu kullanımının özellikleri. Herkes İçin Spor ve Wellness Araştırmaları 2, Akademisyen Kitabevi. Ankara, 39-46.

Dündar, U., Gönülateş, S., Teti̇k, S., Yaan, T. Ve Dündar, K. (2017). Analazing the effects of platelet on the durability training. The Online Journal of Recreation and Sports, 6(4), 101-112.

Dündar, U., Tetik, S., Dündar, K., Gönülateş, S. ve Yaan, T. (2019). “Dayanıklılık Antrenmanları Sonucu Plazma Hacim Değişiklikleri ve Performans İlişkisi”, Manas Sosyal Araştırmalar Dergisi, 8(Ek Sayı 1): 1383-1390.

Esbjörnsson, M.E., Dahlström, M.S., Gierup, J.W. ve Jansson, E.C. (2021). Muscle fiber size in healthy children and adults in relation to sex and fiber types, Muscle Nerve, Apr;63(4):586-592.

Esteve-Lanao, J., Foster, C., Seiler, S. ve Lucia, A. (2007). Impact of training intensity distribution on performance in endurance athletes. J. Strength Cond. Res. 21, 943–949.

Esteve-Lanao, J., San Juan, A. F., Earnest, C. P., Foster, C. ve Lucia, A. (2005). How do endurance runners actually train? Relationship with competition performance. Med. Sci. Sports Exerc. 37, 496–504.

Faude, O., Kindermann, W. ve Meyer, T. (2009). Lactate threshold concepts: how valid are they? Sports Med. 39, 469–490.

Gönülates, S., Tetik, S., Dündar, U., Yaan, T. ve Dündar, K. (2017). Analizing The Before And After Effects Of Endurance Training On ACTH Hormone. Internatıonal Journal of Science Culture and Sport, 5(4), 340- 346.

Gravina, L, Ruiz, F, Lekue, JA, Irazusta, J. ve Gil, SM. (2011). Metabolic impact of a soccer match on female players. J Sports Sci 29: 1345– 1352.

Haas, J.D., ve Brownlie, T. (2001). Iron deficiency and reduced work capacity: A critical review of the research to determine a causal relationship. J Nutr 131: 676S–688S, discussion 688–690.

Harms, C.A., McClaran, S.R., Nickele, G.A., Pegelow, D.F., Nelson, W.B. ve Dempsey, J.A. (1988). Exercise-induced arterial hypoxaemia in healthy young women. The Journal of Physiology, 507, 619–628.

Hawley, J.A., Lundby, C, Cotter, J.D. ve Burke, L.M. (2018). Maximizing cellular adaptation to endurance exercise in skeletal muscle. Cell Metabolism, 27(5):962-976.

Hood, D.A., Kelton, R. ve Nishio, M.L. (1992). Mitochondrial adaptations to chronic muscle use: Effect of iron deficiency. Comp Biochem Physiol Comp Physiol 101: 597–605.

Ingham, S. A., Carter, H.,Whyte, G. P. ve Doust, J. H. (2008). Physiological and performance effects of low- versus mixed-intensity rowing training. Med. Sci. Sports Exerc. 40, 579–584.

Jansson, E., Sjödin, B. ve Tesch, P. (1978). Changes in muscle fibre type distribution in man after physical training: a sign of fibre type transformation?. Acta Physiologica Scandinavica, 104(2), 235-237

Kanstrup, I.L. ve Ekblom, B. (1984). Blood volume and hemoglobin concentration as determinants of maximal aerobic power. Medicine and science in sports and exercise, 16(3), 256-262.

Knaupp, W. Khilnani, S. ve Sherwood, J. (1992). Erythropoietin response to acute normobaric hypoxia in humans. J Appl Physiol, 73 (3), 837-40.

Kong, W.N., Gao, G. ve Chang, Y.Z. (2014). Hepcidin and sports anemia. Cell Biosci 4:19

Kuzucu, M., Tetik Dündar, S. ve Özdal, M. (2023). Düşük-Orta İrtifaya Aklimatize Sporcularda Egzersiz Öncesi ve Sonrası HIF-1⍺ ve EPO Düzeylerinin Karşılaştırılması,Akdeniz Spor Bilimleri Dergisi, Cilt: 6 Sayı: 1-Cumhuriyet'in 100. Yılı Özel Sayısı, 958 – 971.

Neal, C.M., Hunter, A. M., Brennan, L., O’Sullivan, A., Hamilton, D. L., De Vito, G., vd. (2013). Six weeks of a polarized training-intensity distribution leads to greater physiological and performance adaptations than a threshold model in trained cyclists. J. Appl. Physiol. 114, 461–471.

Olson, E.N. ve Williams, R.S. (2000). Remodeling muscles with calcineurin. Bioessays, 22(6), 510-519.

Peeling, P., Dawson, B., Goodman, C., Landers, G. ve Trinder, D. (2008). Athletic induced iron deficiency: New insights into the role of inflammation, cytokines and hormones. Eur J Appl Physiol 103: 381–391.

Peeling, P., Dawson, B., Goodman, C., Landers, G., Wiegerinck, E.T., Swinkels, D.W., vd. (2009). Training surface and intensity: Inflammation, hemolysis, and hepcidin expression. Med Sci Sports Exerc 41: 1138–1145.

Plews, D.J. ve Laursen, P. B. (2017). Training intensity distribution over a fouryear cycle in olympic champion rowers: different roads lead to rio. Int. J. Sports Physiol. Perform. 27, 1–24.

Powers, S.K., Dodd, S., Lawler, J., Landry, G., Kirtley, M., McKnight, T., vd. (1988). Incidence of exercise induced hypoxemia in elite endurance athletes at sea level. European Journal of Applied Physiology, 58, 298–302.

Powers, S.K., Lawler, J., Dempsey, J.A., Dodd, S. ve Landry, G. (1989). Effects of incomplete pulmonary gas exchange on VO2 max. Journal of Applied Physiology, 66, 2491–2495.

Reihmane, D., Jurka, A., Tretjakovs, P. ve Dela, F. (2012). Increase in IL-6, TNF-, and MMP-9, but not sICAM-1, concentrations depends on exercise duration. Graefe’s Arch. Clin. Exp. Ophthalmol. 113, 851–858.

Rice, A.J., Scroop, G.C., Gore, C.J., Thornton, A.T., Chapman, M.-A.J., Greville, H.W., vd. (1999). Exercise-induced hypoxaemia in highly trained cyclists at 40% peak oxygen uptake. European Journal of Applied Physiology, 79, 353–359.

Robergs, R.A. ve Roberts, S.O. (1997). Exercise in extreme environments, exercise physiology, exercise performance and clinical applications. St Louis Mosby, 26, 640-653.

Roecker, L., Meier-Buttermilch, R., Brechtel, L., Nemeth, E. ve Ganz, T. (2005). Iron-regulatory protein hepcidin is increased in female athletes after a marathon. Eur J Appl Physiol 95: 569–571.

San-Millán, I. (2019). Blood Biomarkers in Sports Medicine and Performance and the Future of Metabolomics, Mol Biol.1978:431-446.

Seiler, K.S. ve Kjerland, G.Ø. (2006). Quantifying training intensity distribution in elite endurance athletes: is there evidence for an ‘optimal’ distribution? Scand. J. Med. Sci. Sports 16, 49–56.

Selby, G.B. ve Eichner, E.R. (1986). Endurance swimming, intravascular hemolysis, anemia, and iron depletion. New perspective on athlete’s anemia. Am J Med 81: 791–794.

Semenza, G.L. (2000). HIF-1: mediator of physiological and pathophysiological responses to hypoxia, J Appl Physiol (1985) Apr;88(4):1474-80.

Sinclair, L.M. ve Hinton, P.S. (2005). Prevalence of iron deficiency with and without anemia in recreationally active men and women. J Am Diet Assoc 105: 975–978.

Tetik Dündar, S. (2020). Hipoksik koşullar ve hipoksi ile indüklenen faktörün (HIF) tanımlaması. Spor Bilimlerine Genel Bakış, Akademisyen Kitabevi. Ankara, 35-46.

Tetik Dündar, S. (2022). Hipoksik ortamda egzersize bağlı fizyolojik yanıtlar. Spor Bilimlerine Genel Bakış, Akademisyen Kitabevi. Ankara, 177-186.

Tetik Dündar, S. (2023). Egzersiz Sonrası Biyobelirteçler Üzerindeki Etki Sürecinin İncelenmesi. Editör N. Yılmaz, Spor Bilimlerinde Öncü ve Çağdaş Çalışmalar, 183-218, İzmir, Duvar Yayınları.

Tetik, S. (2019a). İnterval antrenman türevlerinin (HIT-HIIT-SIT) aerobic dayanıklılık fizyolojisi üzerine etkisi. Herkes İçin Spor ve Wellness Araştırmaları-2, Ankara,47-58.

Tetik, S. (2019b). Yüksek şiddetli interval antrenmanların (Hiit) VO2max değeri üzerine etkisi. 2.Herkes İçin Spor ve Wellness Kongresi 25-28 Nisan Antalya.

Tetik, S. ve Dündar, U. (2018). Analyze of the correlation between endurance trainings and some hematological values, Gazzetta Medica Italiana Archivo per le Scienze Mediche April; 177 (4): 117-25.

Wang, G.L., Jiang, B.H., Rue, E.A. ve Semenza, G.L. (1995). Hypoxiainducible factor 1 is a basic-helix-loop-helix- PAS heterodimer regulated by cellular O2 tension. Proceedings of the National Academy of Sciences of the United States of America, 92 (12):5510-5514.

Woodson, R.D. (1984). Hemoglobin concentration and exercise capacity. Am Rev Respir Dis 129: 72–75.