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Düşük Doz Kafeinli Kahvenin Fiziksel Olarak Aktif Erkeklerde Anaerobik Güce Etkisi

Year 2017, , 157 - 164, 01.08.2017
https://doi.org/10.1501/Sporm_0000000331

Abstract

Kafeinin, aerobik dayanıklılık performansı üzerine etkisi bilinmektedir fakat anaerobik güç üzerine etkisini inceleyen çok az çalışma mevcuttur ve sonuçlar birbiri ile farklılık göstermektedir. Ayrıca, son yıllarda kafeinli kahve ve toz kafeinin aerobik ve kassal kuvvet performansları üzerine etkilerinde farklılık olmadığını gösteren çalışmalar mevcuttur. Bu çalışmanın amacı, düşük doz kafeinli kahvenin fiziksel olarak aktif erkeklerde 30 saniyelik wingate anaerobik test (Want) performansına etkisinin incelenmesidir. Araştırmaya 11 erkek (yaş: 24,90 ± 3,61 yıl, boy: 177,36 ± 7,55 cm, vücut ağırlığı: 76,35 ± 14,70 kg, vücut yağ yüzdesi: 19,44 ± 4,20) gönüllü olarak katılmıştır. Vücut kompozisyonu ölçümü ve alışma test gününün ardından, randomize, çapraz geçişli, karşıt dengeli ve tek kör çalışma dizaynı ile katılımcılar test başlamadan 60 dakika önce 0,093 gr/kg kafeinli kahve (KAF) veya 0,093 gr/kg kafeinsiz kahve (PLA) alarak veya kahve almadan (KON) toplamda 3 Want testine katılmışlardır. Test öncesinde farklı zaman noktalarında dinlenim kalp atım hızı (KAH) ölçülmüş, Want performans parametreleri olarak zirve güç (ZG) ve ortalama güç (OG) saptanmış ve testten hemen sonra, 50 Watta 5 dakika aktif ve 5 dakika pasif toparlanma periyotlarından sonra KAH, algılanan zorluk derecesi (RPE), ve kas ağrısı (KA) ölçümleri alınmıştır. Verilerin analizinde ZG ve OG parametreleri için tekrarlayan ölçümlerde tek yönlü varyans analizi kullanılmış, RPE, KA ve KAH verilerinin denemeler arası farklarını incelemek için ise tekrarlayan ölçümlerde iki yönlü varyans analizi kullanılmıştır. Sonuç olarak denemeler arası OG ve ZG değerlerinde anlamlı bir fark bulunamamıştır (p>0,05). Ayrıca test protokolü boyunca farklı zaman noktalarında ölçülen RPE, KA ve KAH değerleri arasında da denemeler arası anlamlı bir fark bulunamamıştır (p>0,05). Kafeinli kahvenin fiziksel aktif erkeklerde anaerobik güce bir etkisi olmadığı düşünülmektedir

References

  • Ackerman J, Clifford T ve ark. (2014): The effect of an acute antioxidant supplementation compared with placebo on performance and hormonal res- ponse during a high volume resistance training ses- sion. Journal of International Society Sports Nutri- tion, 11, 10.
  • Astorino AT, Roberson WD (2010): Efficacy of acute caffeine ingestion for short-term high-inten- sity exercise performance:. A systemic review. Jo- urnal of Strength and Conditioning Research, 21(1): 257-265.
  • Astorino TA, Michael NT, ve ark. (2011): Effect of Caffeine Intake on Pain Perception During High-In- tensity Exercise. International Journal of Sport Nut- rition and Exercise Metabolism, 21, 27-32.
  • Atabek HC (2017): Effects of Acute Caffeine Inges- tion on Anaerobic Cycling Performance in Recrea- tionally Active Men. Journal of Exercise Physio- logy, 20(1).
  • Beaumont R, Codery P, Funnell M, Mears S, James L, Watson P (2016): Chronic ingestion of a low dose of caffeine induces tolerance to the performance be- nefits of caffeine. Journal of Sports Sciences. 35, 1920-1927.
  • Bell DG, Jacobs L, Ellerington K (2001): Effect of caffeine and ephedrine ingestion on anaerobic exer- cise performance, Medicine and Science in Sport and Exercise. 33, 1399-1403.
  • Braakuis AJ, Hopkins WG (2015): Impact of dietary antioxidants on sport performance: A review. Sports Medicine, 45, 939-955.
  • Collomp K, Caillaud C, Audran M, ve ark. (1991): Effects of caffeine ingestion on performance and ana- erobic metabolism during the Wingate test. İnternati- onal Journal of Sports Medicine. 85, 1502-1508.
  • Costill D, ve ark. (1978): Effects of caffeine inges- tion on metabolism and exercise performance. Me- dicine and Science in Sport and Exercise, 10: 155- 158
  • Davis JM, ve ark. (2003): Central nerveous system effects of caffeine and adenosine on fatigue. Ameri- can Journal of Physiology Regulatory, Integrative and Comperative Physiology, 284:(2), 399-404
  • Davis JK, Green, JM (2009): Caffeine and anaerobic performance: ergogenic value and mechanisms of action. Sports Med, 39 (10), 813-832.
  • Desbrow B, ve ark. (2012): The Effects of Different Doses of Caffeine on Endurance Cycling Time Trial Performance. Journal of Sports Sciences, 30(2): 115-120
  • Diaz-Lara JF, Del Coso J, ve ark. (2016): Caffeine improves muscular performance in elite brazilian Jiu-jitsu athletes. European Journal of Sport Sci- ence, 18(6), 1079-1086.
  • Engels HJ, Wirth JC, ve ark. (1999): Influence of caffeine on metabolic and cardiovascular fucntions during sustained light intensity cycling. Internatio- nal Journal of Sports Nutrition, 9, 361-370
  • Ganio SM, Klau FJ, et all. (2009): Effect of Caffeine on Sport-Specific Endurance Performance: A Syste- matic Review. Sports medicine, 23(1), 315-324.
  • Glaister M, Muniz-Pumares D, ve ark. (2015): Caf- feine supplementation and peak anaerobic power output. European Journal of Sport Science, 15(5), 400-406.
  • Gonçalves LS, ve ark. (2017): Dispelling the myth that caffeine consumption influences the perfor- mance response to acute caffeine supplementation. Journal of Applied Physiology, 123, 213-220.
  • Graham TE, ve ark. (1998): Metabolic and exercise endurance effects of coffee and caffeine ingestion. Journal of Applied Physiology, 85: 883-889
  • Graham TE (2001): Caffeine and exercise: metabo- lism, endurance and performance. Sports Med, 31(11), 785-807.
  • Greer F, Mclean C, Graham TE (1998): Caffeine, performance and metabolism during repeated Win- gate exercise tests. Journal of Applied Physiology, 85(4), 1502-1508.
  • Hodgson, AB, ve ark. (2013): The metabolic and performance effects of caffeine compared to coffee during endurance exercise. Plos One, 8: e59561
  • Kang H, Kim H, Kim B (1998): Acute effects of caf- feine intake on maximal anaerobic power during the 30s Wingate cycling test. Journal of Exercise Physi- ology Online, 1(3),
  • Latini S, Pedata F (2001): Adenosine in the central nervous system: release mechanisms and extracellu- lar concentrations. Journal of Neurochemistry, 79, 463-484.
  • Medbo JI, Gramvik P, Jebens E (1999): Aerobic and anaerobic energy release during 10 and 30s bicycle sprints. Acta Kinesiol Univ Tartuensis, 3, 122-146.
  • Mohr M, ve ark. (2011): Caffeine intake improves intense intermittent exercise performance and redu- ces muscle interstitial potassium accumulation. Jo- urnal of Applied Physiology, 111: 1372-1379
  • Özkan A, Köklü Y, Ersöz G. (2010): Wingate anae- robik Güç Testi. Uluslarası İnsan Bilimleri Dergisi, 7(1): 207-224.
  • Richardson DL, Clarke ND (2016): Effect of Coffee and Caffeine Ingestion on Resistance Exercise Per- formance. Journal of Strength and Conditioning Re- search, 30(10): 2892-2900.
  • Rogers NL, Dinges DF (2005): Caffeine: İmplicati- ons for alertness in athletes. Clinics in Sports Medi- cine, 24, e1-e13.
  • Sawynok J (1998): Adenosine receptor activation and noniception. European Journal of Pharmaco- logy, 347, 1-11.
  • Sökmen B, ve ark. (2008): Caffeine Use in Sports: Considerations For The Athlete. Journal of Strength and Conditioning Research, 22(3): 978-986
  • Tarnopolsky MA (2008): Effect of caffeine on the neuromuscular system-potential as an ergogenic aid. Applied Physiology Nutrition and Metabolism, 33: 1284-1289
  • Tunnicliffe MJ, ve ark. (2008): Consumption of di- etary caffeine and coffee in physically active popu- lations: physiological interactions. Applied Physio- logy Nutrition and Metabolism, 33: 1301-1310
  • Wang Y, Ho CT (2009). Polyphenolic chemistry of tea and coffee: A century of progress. J Agric Food Chemic, 57, 8109-8114.
  • Warren GL, Park ND, Maresca RD (2010): Effect of Caffeine İngestion on Muscular Strength and En- durance: A Meta-Anaylsis. Medicine and Science in Sport and Exercise, 42(7), 1375-1387.
  • Wiles J, ve ark. (1992): Effect of caffeinated coffee on running speed, respiratory factors, blood lactate and perceived exertion during 1500m treadmill run- ning. British Journal of Sports Medicine, 26: 116- 120
  • Williams JH, Signorile JF, ve ark. (1988): Caffeine, maximal power output and fatigue. British Journal of Sports Medicine, 229, 132-134.
  • Zajac A, Jarzabek R, Waskiewicz Z (1999): The di- agnostic value of the 10- and 30-second Wingate test for competitive athletes. Journal of Strength and Conditionining Research, 13(1), 16-19.

EFFECT OF LOW DOSE CAFFEINATED COFFEE ON ANAEROBIC POWER IN PHYSICALLY ACTIVE MALES

Year 2017, , 157 - 164, 01.08.2017
https://doi.org/10.1501/Sporm_0000000331

Abstract

It is well known that effects of caffeine on aerobic endurance but there isn’t many research that investigating the effect on anaerobic power and the results vary. Furthermore, there are researches that demonstrating caffeinated coffee and anhydrous caffeine has same effects on aerobic and muscular strength performance. The purpose of this study was to investigating the effect of low dose caffeineated coffee on 30 seconds wingate anaerobic test (Want) performance in physically active males. 11 male (age: 24,90 ± 3,61, height; 177,36 ± 7,55 cm, weight: 76,35 ± 14,70 kg; body fat percentage:19,44 ± 4,20) volunteered to participate in this investigation. Following measurement of body composition and familirization, participants totally take part in 3 Want tests while 60 minutes before each Want test, participants ingested 0,093 gr/kg caffeinated coffee (KAF) or 0,093 gr/kg decaffeinated coffee (PLA) or no coffee (KON) with randomized, counter balanced and crossover reseach design. At different time points before test, Heart rate (KAH) was measured, as Want performance parameters peak power (ZG) and mean power (OG) was determined and, KAH, rate of perceived exertion (RPE) and muscle pain(KA) was measured immediately after test and after 5 minutes 50 Watt active and passive recovery periods. To analyse ZG and OG parameters, repeated measure one-way Anova was used, to anaylse RPE, KA and KAH datas, repeated meausure two-way Anova was used. In conclusion, there aren’t significant differences between trials for OG and ZG (p>0,05). Further, it wasn’t found any significant difference between trials for RPE, KA and KAH which was meausured at different time points throughout test protocol (p>0,05). It is believed that there is no effect of caffeinated coffee on anaerobic power in physically active males

References

  • Ackerman J, Clifford T ve ark. (2014): The effect of an acute antioxidant supplementation compared with placebo on performance and hormonal res- ponse during a high volume resistance training ses- sion. Journal of International Society Sports Nutri- tion, 11, 10.
  • Astorino AT, Roberson WD (2010): Efficacy of acute caffeine ingestion for short-term high-inten- sity exercise performance:. A systemic review. Jo- urnal of Strength and Conditioning Research, 21(1): 257-265.
  • Astorino TA, Michael NT, ve ark. (2011): Effect of Caffeine Intake on Pain Perception During High-In- tensity Exercise. International Journal of Sport Nut- rition and Exercise Metabolism, 21, 27-32.
  • Atabek HC (2017): Effects of Acute Caffeine Inges- tion on Anaerobic Cycling Performance in Recrea- tionally Active Men. Journal of Exercise Physio- logy, 20(1).
  • Beaumont R, Codery P, Funnell M, Mears S, James L, Watson P (2016): Chronic ingestion of a low dose of caffeine induces tolerance to the performance be- nefits of caffeine. Journal of Sports Sciences. 35, 1920-1927.
  • Bell DG, Jacobs L, Ellerington K (2001): Effect of caffeine and ephedrine ingestion on anaerobic exer- cise performance, Medicine and Science in Sport and Exercise. 33, 1399-1403.
  • Braakuis AJ, Hopkins WG (2015): Impact of dietary antioxidants on sport performance: A review. Sports Medicine, 45, 939-955.
  • Collomp K, Caillaud C, Audran M, ve ark. (1991): Effects of caffeine ingestion on performance and ana- erobic metabolism during the Wingate test. İnternati- onal Journal of Sports Medicine. 85, 1502-1508.
  • Costill D, ve ark. (1978): Effects of caffeine inges- tion on metabolism and exercise performance. Me- dicine and Science in Sport and Exercise, 10: 155- 158
  • Davis JM, ve ark. (2003): Central nerveous system effects of caffeine and adenosine on fatigue. Ameri- can Journal of Physiology Regulatory, Integrative and Comperative Physiology, 284:(2), 399-404
  • Davis JK, Green, JM (2009): Caffeine and anaerobic performance: ergogenic value and mechanisms of action. Sports Med, 39 (10), 813-832.
  • Desbrow B, ve ark. (2012): The Effects of Different Doses of Caffeine on Endurance Cycling Time Trial Performance. Journal of Sports Sciences, 30(2): 115-120
  • Diaz-Lara JF, Del Coso J, ve ark. (2016): Caffeine improves muscular performance in elite brazilian Jiu-jitsu athletes. European Journal of Sport Sci- ence, 18(6), 1079-1086.
  • Engels HJ, Wirth JC, ve ark. (1999): Influence of caffeine on metabolic and cardiovascular fucntions during sustained light intensity cycling. Internatio- nal Journal of Sports Nutrition, 9, 361-370
  • Ganio SM, Klau FJ, et all. (2009): Effect of Caffeine on Sport-Specific Endurance Performance: A Syste- matic Review. Sports medicine, 23(1), 315-324.
  • Glaister M, Muniz-Pumares D, ve ark. (2015): Caf- feine supplementation and peak anaerobic power output. European Journal of Sport Science, 15(5), 400-406.
  • Gonçalves LS, ve ark. (2017): Dispelling the myth that caffeine consumption influences the perfor- mance response to acute caffeine supplementation. Journal of Applied Physiology, 123, 213-220.
  • Graham TE, ve ark. (1998): Metabolic and exercise endurance effects of coffee and caffeine ingestion. Journal of Applied Physiology, 85: 883-889
  • Graham TE (2001): Caffeine and exercise: metabo- lism, endurance and performance. Sports Med, 31(11), 785-807.
  • Greer F, Mclean C, Graham TE (1998): Caffeine, performance and metabolism during repeated Win- gate exercise tests. Journal of Applied Physiology, 85(4), 1502-1508.
  • Hodgson, AB, ve ark. (2013): The metabolic and performance effects of caffeine compared to coffee during endurance exercise. Plos One, 8: e59561
  • Kang H, Kim H, Kim B (1998): Acute effects of caf- feine intake on maximal anaerobic power during the 30s Wingate cycling test. Journal of Exercise Physi- ology Online, 1(3),
  • Latini S, Pedata F (2001): Adenosine in the central nervous system: release mechanisms and extracellu- lar concentrations. Journal of Neurochemistry, 79, 463-484.
  • Medbo JI, Gramvik P, Jebens E (1999): Aerobic and anaerobic energy release during 10 and 30s bicycle sprints. Acta Kinesiol Univ Tartuensis, 3, 122-146.
  • Mohr M, ve ark. (2011): Caffeine intake improves intense intermittent exercise performance and redu- ces muscle interstitial potassium accumulation. Jo- urnal of Applied Physiology, 111: 1372-1379
  • Özkan A, Köklü Y, Ersöz G. (2010): Wingate anae- robik Güç Testi. Uluslarası İnsan Bilimleri Dergisi, 7(1): 207-224.
  • Richardson DL, Clarke ND (2016): Effect of Coffee and Caffeine Ingestion on Resistance Exercise Per- formance. Journal of Strength and Conditioning Re- search, 30(10): 2892-2900.
  • Rogers NL, Dinges DF (2005): Caffeine: İmplicati- ons for alertness in athletes. Clinics in Sports Medi- cine, 24, e1-e13.
  • Sawynok J (1998): Adenosine receptor activation and noniception. European Journal of Pharmaco- logy, 347, 1-11.
  • Sökmen B, ve ark. (2008): Caffeine Use in Sports: Considerations For The Athlete. Journal of Strength and Conditioning Research, 22(3): 978-986
  • Tarnopolsky MA (2008): Effect of caffeine on the neuromuscular system-potential as an ergogenic aid. Applied Physiology Nutrition and Metabolism, 33: 1284-1289
  • Tunnicliffe MJ, ve ark. (2008): Consumption of di- etary caffeine and coffee in physically active popu- lations: physiological interactions. Applied Physio- logy Nutrition and Metabolism, 33: 1301-1310
  • Wang Y, Ho CT (2009). Polyphenolic chemistry of tea and coffee: A century of progress. J Agric Food Chemic, 57, 8109-8114.
  • Warren GL, Park ND, Maresca RD (2010): Effect of Caffeine İngestion on Muscular Strength and En- durance: A Meta-Anaylsis. Medicine and Science in Sport and Exercise, 42(7), 1375-1387.
  • Wiles J, ve ark. (1992): Effect of caffeinated coffee on running speed, respiratory factors, blood lactate and perceived exertion during 1500m treadmill run- ning. British Journal of Sports Medicine, 26: 116- 120
  • Williams JH, Signorile JF, ve ark. (1988): Caffeine, maximal power output and fatigue. British Journal of Sports Medicine, 229, 132-134.
  • Zajac A, Jarzabek R, Waskiewicz Z (1999): The di- agnostic value of the 10- and 30-second Wingate test for competitive athletes. Journal of Strength and Conditionining Research, 13(1), 16-19.
There are 37 citations in total.

Details

Other ID JA74TT73BY
Journal Section Research Article
Authors

Raci Karayiğit This is me

Burak Çağlar Yaşlı This is me

Hakan Karabıyık This is me

Mitat Koz This is me

Gülfem Ersöz This is me

Publication Date August 1, 2017
Published in Issue Year 2017

Cite

APA Karayiğit, R., Yaşlı, B. Ç., Karabıyık, H., Koz, M., et al. (2017). Düşük Doz Kafeinli Kahvenin Fiziksel Olarak Aktif Erkeklerde Anaerobik Güce Etkisi. SPORMETRE Beden Eğitimi Ve Spor Bilimleri Dergisi, 15(4), 157-164. https://doi.org/10.1501/Sporm_0000000331

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