The Contribution of Protein Intake and Training Frequency to Cardiovascular Endurance of Kendari Rowing Athletes

A Asmuddin, Muhtar Asshagab, S Sariul, J Jud

Abstract


The aim of the study was to analyze the contribution of protein intake and exercise frequency to the cardiovascular endurance of rowing athletes in the Student Sports Education and Training Center, known as PPLP, in Kendari. The research sample consisted of 50 athletes, including 25 junior PPLP rowing athletes aged 16-19 years and 25 formers senior PPLP rowing athletes aged 25-30 years. This research included an observational study with a cross-sectional design. The collected data were analyzed using the Pearson and Spearman correlation statistics tests. The instrument for measuring protein intake was the Nutrition Adequacy Rate based on WNPG VII 2019. Exercise frequency data were obtained through interviews using a questionnaire. Cardiovascular endurance was measured by the athlete’s maximum mileage from a 15-minute running test. The results of the Spearman correlation test between exercise frequency and cardiovascular endurance showed no significant results (p > 0.05). Exercise frequency had a significant positive relationship with cardiovascular endurance (p = 0.004, r = 0.395). It showed that there was a significant relationship between protein intake and cardiovascular endurance (p = 0.003, r = 0.415). The junior rowing athlete group generally had moderate cardiovascular endurance (80.0%), while the former senior rowing athlete group generally had sufficient (48.0%) and less (44.0%) cardiovascular endurance. On average, the cardiovascular endurance of the junior rowing athlete group (40.1 ml O2/kg BW/min) was higher and significantly different (p <0.05) compared to the former senior rowing athlete group (36.2 ml O2/kg BW/min). Athletes with normal protein intake (75%) had a good cardiovascular endurance. Most athletes with normal protein intake had sufficient cardiovascular endurance (45.4%). Meanwhile, the athlete with a severe protein deficiency had less cardiovascular endurance (38.4%). This study concludes that the higher the sports activity, the higher the need for protein consumption, which eventually increases the work function of the heart, especially in rowing athletes in PPLP Kendari.


Keywords


cardiovascular endurance, protein intake, training frequency

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Agostini, D., Donati Zeppa, S., Lucertini, F., Annibalini, G., Gervasi, M., Ferri Marini, C., et al. (2018). Muscle and bone health in postmenopausal women: role of protein and vitamin D supplementation combined with exercise training. Nutrients , 10 (8), 1103.

Almatsier, S. (2001). Prinsip Dasar Ilmu Gizi. Jakarta: Gramedia Pustaka Utama.

Areta, J., Burke, L., Ross, M., Camera, D., West, D., Broad, E., et al. (2013). Timing and distribution of protein ingestion during prolonged recovery from resistance exercise alters myofibrillar protein synthesis. J. Physiol , 2319–2331.

Arsani, N. L., Agustini, N. N., & Sudarmada, I. N. (2014). Manajemen Gizi Atlet Cabang Olahraga Unggulan Di Kabupaten Buleleng. Jurnal Sains dan Teknologi , 3 (1), 275- 287.

Boegman, S., & Dziedzic, C. (2016). Nutrition and supplements for elite open-weight rowing. Curr. Sports Med. Rep , 15, 252–261.

Budiman. (2007). Perbandingan Tes Lari 12 Menit Cooper dengan Tes Ergometer Sepeda Astrand. Jurnal Kesehatan Masyarakat , 7 (1), 91-94.

Dewi, E. K., & Kuswary, M. (2018). Hubungan Asupan Zat Gizi Makro dan Pemenuhan Protein terhadap Kebugaran Atlet Bulutangkis Jaya Raya pada Atlet Laki-Laki dan Perempuan di Asrama Atlet. Nutrire Diaita , 5 (2), 94-112.

Doering, T., Reaburn, P., Cox, G., & Jenkins, D. (2016). Comparison of postexercise nutrition knowledge and postexercise carbohydrate and protein intake between australian masters and younger triathletes. Int. J. Sport Nutr. Exerc. Metab , 26, 338–346.

Fox, K., Garcia, M., Ardissino, D., Buszman, P., Camici, P., & Crea, F. (2012). Guideline on the management of stable angina pectoris : executive summary : The Task Force on the Management of Stable Angina Pectoris of the European Society of Cardiology. European Heart Journal , 27 (11), 1341-1381.

Heather, H., Lisa, C., & Alan, E. (2006). Endurance and Ultra-Endurance Athletes, in : Practical Applications in Sport Nutrition. Boston: Jones and Bartlett Publisher.

Heikkilä, M., Valve, R., Lehtovirta, M., & Fogelholm, M. (2018). Nutrition knowledge among young finnish endurance athletes and their coaches. Int. J. Sport Nutr. Exerc. Metab , 28, 522–527.

Hoff, J., Wisloff, U., Engen, L., Kemi, O., & Helgerud, J. (2012). Soccer Specific Aerobik Endurance Training. British Journal of Sports Medicine. 36, 218-221.

Husaini, M., Dadang, A., Anie, K., Dangsina, M., & Didit, D. (2006). Gizi Atlet Sepak Bola. Jakarta: Depkes R.I. Dirjen Kesehatan Masyarakat Direktorat Gizi Masyarakat.

Immawati, A. (2012). Pengaruh Pemberian Sport Drink terhadap Performa dan Tes Keterampilan pada Atlet Sepak Bola Usia 15-18 Tahun. [artikel penelitian]. Program Studi Ilmu Gizi Fakultas Kedokteran (p. 241). Semarang: Universitas Diponegoro Semarang.

Irianto, J. (2017). Pedoman Praktis Berolahraga Untuk Kebugaran dan Kesehatan. Yogyakarta: Andi Offset.

Jeukendrup, A. E. (2017). Training the gut for athletes (47 ed.). Am: Sports Med.

Jooyoung, K., & Kim, E.-K. (2020). Nutritional Strategies to Optimize Performance and Recovery in Rowing Athletes. Nutrients , 12, 1685. doi:10.3390/nu12061685.

Kusmawati, W., Lufthansa, L., Sari, R. S., & dan Windriyani, S. M. (2019). Buku Ajar Ilmu Gizi Olahraga. Malang: Uwais Inspirasi Indonesia.

Lee, S., & Lim, H. (2019). Development of an evidence-based nutritional intervention protocol for adolescent athletes (Vol. 23). Biochem: J. Exerc. Nutr.

Levine, B. (2012). VO2Max : What Do We Know, and What Do We Still Need to Know? Journal Physiology Society , 586 (1), 25-34.

Lewis, N., Redgrave, A., Homer, M., Burden, R., Martinson, W., Moore, B., et al. (2018). Alterations in redox homeostasis during recovery from unexplained underperformance syndrome in an elite international rower. Int. J. Sports Physiol. Perform , 13, 107-111.

Martin, L., Lambeth, A., & Scott, D. (2006). Nutritional Practices of National Female Soccer: Analysis and Recommendations. Journal of Sports Science and Medicine , 5 (7), 130.

Moeloek, D. (2011, Mei 21). Dasar Fisiologi Kesegaran Jasmani dan Latihan Fisik. Retrieved Mei 14, 2011, from google: http://www.google.com

Muharam, R. R., Damayantib, I., & Ruhayatic, Y. (2019). Hubungan Antara Pola Makan Dan Status Gizi Dengan Tingkat Kebugaran Atlet Dayung. Journal Of Sport Science And Education (Jossae) , 4 (1), 14-20.

Murray, H. (1997, Maret 22). Physical Education and Health (1997). Retrieved Maret 22, 2011, from www.ncbi.nlm.nih.gov: http:// www.ncbi.nlm.nih.gov/pubmed/

Narici, M. e. (2021). ‘Impact of sedentarism due to the COVID-19 home confinement on neuromuscular, cardiovascular and metabolic health: Physiological and pathophysiological implications and recommendations for physical and nutritional countermeasures. European Journal of Sport Science , 21 (4).

Oktavia, S., & Effendi, H. (2019). Tinjauan Asupan Gizidan Tingkat Kondisi Fisik Atlet Dayung Putri Kabupaten Agam. Jurnal Stamina , 2 (3), 112-120.

Philp, A., Hargreaves, M., & Baar, K. (2012). More than a store: Regulatory roles for glycogen in skeletal muscle adaptation to exercise (Vol. 302). (E. Metab, Ed.) Am: J. Physiol.

Res, P., Groen, B., Pennings, B., Beelen, M., Wallis, G., Gijsen, A., et al. (2012). Protein ingestion before sleep improves postexercise overnight recovery. . (M. Sci., Ed.) Sports Exerc , 44, 1560–1569.

Ridwan, M. ( 2017). Hubungan antara Asupan Energi dan Aktivitas Fisik dengan Kebugaran Jasmani. Journal of Holisticand Health Sciences , 1 (1).

Snijders, T., Res, P., Smeets, J., van Vliet, S., van Kranenburg, J., Maase, K., et al. (2015). Protein ingestion before sleep increases muscle mass and strength gains during prolonged resistance-type exercise training in healthy young men. J. Nutr , 145, 1178–1184.

Stellingwerff, T., Maughan, R., & Burke, L. (2011). Nutrition for power sports: Middle-distance running, track cycling, rowing, canoeing/kayaking, and swimming. J. Sports Sci , 29 ( 2,10), 79–89.

Sumosardjuno, S. (1996). Panduan Lengkap Bugar Total. Jakarta: PT Raja Grafindo Persada.

Trommelen, J., & van Loon, L. (2016). Pre-sleep protein ingestion to improve the skeletal muscle adaptive response to exercise training. Nutrients , 8, 763.

Umasangaji, M. S. (2012). Hubungan antara Asupan Energi Protein, Pemenuhan protein dengan Kesegaran Jasmani pada Anggota Klub Tenis Meja Satelit dan Salero Star Kota Ternate. Ternate: http://calysadly. files.wordpress.com/2013/08/ .

Utoro, B. (2012). Pengaruh Penerapan Carbohydrate Loading Modifikasi terhadap Kesegaran Jasmani Atlet Sepak Bola.[artikel penelitian]. Program Studi Ilmu Gizi Fakultas Kedokteran (p. 1). Semarang: Universitas Diponegoro Semarang.

Widiastuti, P., Kushartanti, B., & Kandarina, I. (2009). Pola Makan dan Kebugaran Jasmani Atlet Pencak Silat Selama Pelatihan Daerah Pekan Olahraga Nasional XVII Provinsi Bali Tahun 2008. Jurnal Gizi Klinik Indonesia , 6 (1), 13-20.




DOI: https://doi.org/10.17509/jpjo.v8i1.49298

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