Administration of pismatom juice increasing of potassium serum levels and faster of recovery in middle run athletes PASI Denpasar, Bali-Indonesia

I Wayan Juniarsana , Nyoman Adi Putra, Ketut Tirtayasa, Putu Gede Adiatmika, Made Linawati

I Wayan Juniarsana
Doctoral Program, Post-Graduate Program, Faculty of Medicine, Udayana University, Bali-Indonesia.. Email: wyjuniarsana9@gmail.com

Nyoman Adi Putra
Physiology Departement, Faculty of Medicine Udayana University

Ketut Tirtayasa
Physiology Departement, Faculty of Medicine Udayana University

Putu Gede Adiatmika
Physiology Departement, Faculty of Medicine Udayana University

Made Linawati
Histology Department, Faculty of Medicine, Udayana University
Online First: August 01, 2019 | Cite this Article
Juniarsana, I., Putra, N., Tirtayasa, K., Adiatmika, P., Linawati, M. 2019. Administration of pismatom juice increasing of potassium serum levels and faster of recovery in middle run athletes PASI Denpasar, Bali-Indonesia. Bali Medical Journal 8(2). DOI:10.15562/bmj.v8i2.1145

Introduction: Intense prolonged physical exercises such as athletic need more energy. It causes fatigue and sweat excretion which is possibly related to decreasing of electrolyte and recovery delay. This research aimed to prove that administration of mix juice of banana, honey, and tomato (pismatom) increasing of potassium serum levels and faster of recovery in middle run athletes.

Method: This research was an experimental design using randomized pre-test-post-test control group design using 28 middle run athletes. Selected samples divided into two groups using random allocation technique. Treatment group was given pismatom juice before and after physical activity with 240 of volume and control group was given mineral water before and after physical activity with 240 ccs of volume during 14 days. Blood-vein measurement was used to evaluate potassium serum levels and measure of pulse recovery rate. The statistical analysis using SPSS version 20.0 for windows, comparison of electrolyte level and recovery time using t-independent test and General Linear Model (GLM).

Result: The results showed that potassium serum levels increasing significantly (p<0.05) in the Treatment Group (4.90 + 0.17 mmol/L vs 3.69 + 0.15 mmol/L). Pulse rate indicate the recovery more faster in the Treatment Group to 3rd minute recovery pulse (RPR3) (124.21+6.61 x/mnt vs 131.57+12.49 x/mnt), to 4th minute recovery pulse (RPR4) (120.14+8.29 x/mnt vs 126.50+12.13 x/mnt) and to 5th minute recovery pulse  (RPR5) (111.29+6.69 x/mnt vs 123.14+12.06 x/mnt) that was significantly different (p<0.05).

Conclusion: The conclusion of this research was the administration of Pismatom juice increasing potassium serum levels and faster of recovery.


Republic of Indonesia Health Department. Guidelines for Sports Nutrition Training for Achievement. Jakarta: Directorate General of Community Health Development; 2000.

Irawan MA. Body fluids, electrolyte, and minerals. Polton Sports Science Brief & Lab. 2007;1(1):1-5.

Koc G. The effect of acute exercise on blood electrolyte values in handball players. Afr J Pharm Pharmacol. 2011;4(1):93-97.

Borkowski L, Faff J, Starezewska-Czapowska J. Evaluation of the Aerobic and Anaerobic fitness in judoists from the Polish national team. Biology of Sports. 2001;18:107-117

Rianti CR., Syauqy A. The Effect of Giving Banana (Musa Paradisiaca) on Muscle Fatigue (Aerobic and Anaerobic) in Sepak Takraw Athletes. Int J Sci Res. 2006;12(2):140-146.

Astuti Y.The effect of honey on body fitness. J Mut Med. 2004;4(2):34-38.

Bompa S, Tudor V, Harf G, Greg C. Periodization: Theory and Methodology of Training. Human Kinetics Europe. Int J Pharm Sci Res. 2009;3(2):1-8.

Juniarsana W. Giving Tomato Juice Speeds Up the Pulse Rate More Than Compared to Coconut Water in Boxing Athletes. J Scale Hus. 2011;8(3):161-166.

Pocock SJ. Clinical Trials, A Practical Approach. New York: A Willey Medical Publication; 2008.

FTP Laboratory Service Unit. Udayana. 2017. Laboratory Analysis Results of Nutritional Value Composition of Pismatom Juice. Ministry of Research, Technology and Higher Education at Udayana University. November 13, 2017

Guyton AC, Hall JE. Guyton Medical Physiology 12nd edition. Philadelphia: Elsevier; 2008. p. 383-400.

Von-Duvillard SP, Braun WA, Markofski M, Beneke R, and Leithäuser R. Fluids and hydration in prolonged endurance performance. Arch J Physiol. 2004;11(233-238.

Hartanto WW. Perioperative Fluid and Electrolyte Therapy. Bandung: UP Press;2007.

Von-Duvillard SP, Braun WA, Markofski M, Beneke R, and Leithäuser R. Fluids and hydration in athlete prolonged endurance performance. Arch J Exercise. 2003;14:145-149.

Sizer FSS, Whitney EN. Table of food composition. In: Nutrition: Concepts and Controversies. 9th ed. Belmont. Philadelphia: Thomson Learning Inc;2003. p. 87.

Kevin C, and Miller. Plasma Potassium Concentration and Content Changes After Banana Ingestion in Exercised Men. Journal of Athletic Training. 2012;47(6):211-216.

Mitchell JB, Braun WA, Pizza FX, and Forrest M. Pre-exercise carbohydrate and fluid ingestion: influence of glycemic response on 10-km treadmill running performance in the heat. J Sports Med Phys Fitness. 2000;40:41–50.

Casa DJ, National athletic trainer’s association position statement: fluid replacement for athletes. Journal of Athletic Training. 2000;35:212–224.

Ganong WF. Review of medical physiology 21st edition. San Fransisco: McGraw Hill; 2010. p. 65-77.

Arai Y, Saul JP, and Albert P. Cardiac Autonomic Activity During and Immediately After Exercise. Journal of Applied Physiology. 2002;256:132-136.

Lubis RF, Siregar NS. Effect of Giving Watermelon on the Pulse of Recovery after Performing Physical Activity. Sports Scientific Journal. 2017;1(1):1-4.

Murray RK, Granner DK, Mayes PA, Rodwell VW. Harper’s Illustrated Biochemistry. San Fransisco: Mc-Graw Hill Inc; 2006.

David C, Nieman S, Nicholas DG, Wei S, Debora E, Sivapriya R. Metabolic recovery from heavy exertion following banana compared to sugar beverage or water only ingestion: A randomized crossover trial. Plos One. 2018;13(3):e0194843.

Close GL, Ashton T, Cable T, Doran D, Holloway C, McArdle F, and MacLaren DP. Ascorbic acid supplementation does not attenuate post-exercise muscle soreness following muscle-damaging exercise but may delay the recovery process. Br. J. Nutr. 2006;95:976–981.

Wang XD. Lycopene metabolism and it's biological significance. American Journal of Clinical Nutrition. 2012;96:1214S-1222S.

Sousa M, Teixeira VH, Soares J. Dietary strategies to recover from exercise-induced muscle damage. Int. J. Food Sci. Nutr. 2014;65:151–163.

Thomas DT, Erdman KA, Burke LM. Nutrition and Athletic Performance. American College of Sports Medicine. 2016;852(10):543-568.

Banerjee AK, Mandal A, Chanda D, and Chakraborti S. Oxidant, antioxidant and physical exercise. Mol Cell Biochem. 2003;253:307–312.

Laswati H, Subadi I, Andriana M, Kurniawati P, Pangkahila J. Tomato (Lycopersicum commune) Juice and Physical Exercise Increase Number of Neurons and ERβ expression in Post-Ovariectomy Rats Brain. Bali Medical Journal. 2016;5(3):439-445. DOI:10.15562/bmj.v5i3.309.

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