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Egzersiz yapan yetişkinlerde 1 saatlik koşu sonrasında KHD'deki 48 saatlik değişimin incelenmesi

Year 2014, , 35 - 42, 01.04.2014
https://doi.org/10.1501/Sporm_0000000251

Abstract

Bu araştırmanın amacı; egzersiz yapan kişilerin KHD’sini 1 saatlik koşu sonrasındaki 48 saat boyunca incelemektir. Araştırmaya 8 sağlıklı erkek gönüllü olarak katılmıştır. Her katılımcı, VO2maks’ının % 70’ine denk gelen KAH’da 1 saat boyunca koşmuştur. KHD ölçümleri koşu öncesinde, tamamlandıktan 30 dk sonrasında, 24 saat sonrasında ve 48 saat sonrasında tekrar edilmiştir. Test sonuçlarına göre; KAH değerinin koşudan 30 dk sonraki alımda diğer ölçümlerden anlamlı olarak yüksek çıktığı görülmüştür. SDNN, TP ve HF için; aktiviteden 30 dk sonraki alımın diğer ölçümlere göre anlamlı olarak düşük çıktığı görülmüştür. SDSD, RMSSD değerlerinde; koşudan 30 dk sonraki ölçümün 24 ve 48 saat sonraki ölçümlerden anlamlı olarak düşük çıktığı anlaşılmıştır. HFnu için; koşudan 30 dk sonraki alımın egzersiz öncesine göre anlamlı olarak düşük çıktığı görülmüştür. LF, yüklenmeden 30 dk sonraki alımda, 24 saat sonraki ölçüme göre anlamlı olarak düşük çıkmıştır. LFnu ise koşudan 30 dk sonraki ölçümde, dinlenik zamana göre anlamlı olarak yüksek kaydedilmiştir. LF/HF’de koşudan 30 dk sonra, öncesi ve 24 saat sonrasına göre artış görülmüştür. Sonuç olarak KAH’da ve KHD parametrelerinde koşudan 30 dk sonra görülen anlamlı değişikliklerden KAH ve LF/HF’deki artış, SDNN, SDSD ve RMSSD’deki azalma, sempatik aktivitedeki artışın koşudan 30 dk sonra da devam ettiğinin göstergesidir. TP, HF, Hfnu ve LF’deki azalma da sempatik aktivitenin baskınlığını gösteren diğer sonuçlardır. Bu araştırmadan çıkarılabilecek başka bir sonuç ise; yoğun fiziksel aktivitenin kalp üzerindeki etkilerinin 24 saat içerisinde normale döndüğü, kalbin bu süre içerisinde toparlandığıdır

References

  • Borresan J, Lambert MI. Autonomic Control of Heart Rate during and after Exercise. Sports Medi- cine 2008; 38(8): 633-646.
  • Lewis MJ, Kingsley M, Short AL, Simpson K. Rate of Reduction of Heart Rate Variability during Exer- cise an Index of Physical Work Capacity. Scandi- navian Journal of Medicine & Science in Sports 2007; 17 (6): 696-702.
  • Lombardi, F. Clinical Implications of Present Phy- siological Understanding of HRV Components. Cardiac Electrophysiology Review 2002; 6 (3): 245-249.
  • Silvilairat S, Wongsathikun J, Sittiwangkul R, Pongprot Y, Chattipakorn N. Heart Rate Variability and Exercise Capacity of Patients with Repaired Tetralogy of Fallot. Pediatr Cardiol 2011; 32 (8): 1158-1163.
  • Kaikkonen P, Rusko H, Martınmakı K. Post- Exercise Heart Rate Variability of Endurance Ath- letes after Different High-Intensity Exercise Inter- ventions. Scandinavian Journal of Medicine & Sci- ence in Sports 2008; 18 (4): 511-519.
  • Sandercock GRH, Brodie DA. The Use of Heart Rate Variability Measures to Assess Autonomic Control during Exercise. Scandinavian Journal of Medicine & Science in Sports 2006; 16 (5): 302-313.
  • Mourot L, Bouhaddı M, Perrey S, Cappelle S, Henrıet MT, Wolf JP, Rouıllon JD, Regnard J. Dec- rease in Heart Rate Variability with Overtraining: Assessment by The Poincare Plot Analysis. Clinical Phsiology and Functional Imaging 2004; 24 (1): 10-18.
  • Myllymäki T, Rusko H, Syväoja H, Juuti T, Kinnu- nen ML, Kyröläinen H. Efects of Exercise Intensity and Duration on Nocturnal Heart Rate Variability and Sleep Quality. Eur J Appl Physiol 2012; 112 (3): 801-809.
  • Costa JYB, Anunciaçao PG, Ruiz RJ, Casonatto J, Polito MD. Effect of Caffeine Intake on Blood Pressure and Heart Rate Variability after a Single Bout of Aerobic Exercise. International SportMed Journal 2012;13 (3): 109-121.
  • Chen JY, Lee YL, Tsai WC, Lee CH, Chen PS, Li YH, Tsai LM, Chen JH, Lin LJ. Cardiac Autonomic Functions Derived from Short-Term Heart Rate Va- riability Recordings Associated with Heart Rate Recovery after Treadmill Exercise Test in Young Individuals. Heart Vessels 2011; 26 (3): 282-288.
  • Oliveira TP, Ferreira RB, Mattos RA, Silva JP, Lima JRP. Influence of Water Intake on Post- Exercise Heart Rate Variabilty Recovery. JEPonline 2011; 14 (4): 97-105.
  • Bailón R, Mainardi L, Orini M, Sörnmo L, Laguna P. Analysis of Heart Rate Variability during Exerci- se Stress Testing Using Respiratory Information. Biomedical Signal Processing and Control 2010; 5 (4): 299-310.
  • Haddah HA, Laursen PB, Ahmaidi S, Buchheit M. Nocturnal Heart Rate Variability Following Supra- maximal Intermittent Exercise. International Jour- nal of Sports Physiology and Performance 2009; 4 (4): 435-447.
  • Alyan Ö, Kaçmaz F, Özdemir Ö, Karahan F, Taşke- sen T, İyem H, Alan S, Karadede A, İlkay D. Sigara İçenlerde Artmış Yüksek Duyarlıklı C-Reaktif Pro- tein Düzeyleri ve Bozulmuş Otonomik Aktivite. Türk Kardiyoloji Derneği Araştırmaları 2008; 36 (6): 368-375.
  • Dubin D. Otonom Sinir Sistemi. Çev. Edt. Okan, T. Hızlı Ekg Yorumu, 6. Baskı, İzmir, Güven Bilimsel Yayınları, 2009, 55-65.
  • Gilder M, Ramsbottom R. Change in Heart Rate Variability Following Orthostasis Relates to Volume of Exercise in Healty Women. Autonomic Neuros- cience: Basic and Clinical 2008; 143 (1-2): 73-76.
  • Piotrowicz E, Baranowski R, Piotrowska M, Zi- elnski T, Piotrowicz R. Variable Effects of Physical Training of Heart Rate Variability, Heart Rate Re- covery and Heart Rate Turbulance in Chronic Heart Failure. Pacing & Clinical Electrophysiology 2009; 32 (1): 113-115.
  • Niederer D, Vogt L, Thiel C, Schmidt K, Bernhös- ter M, Lungwitz A, Jaeger E, Banzer W. Exersice Effect on HRV in Cancer Patients. İnt J Sports Med 2013; 34 (1): 68-73.
  • Pumprla J, Howorka K, Groves D, Chester M, Nolan J. Functional Assessment of Heart Rate Vari- ability: Physiological Basis and Practical Applicati- ons. International Journal of Cardiology 2002;84 (1): 1-14.
  • Parati G, Saul JP, Rienzo MD, Mancia, G. Spectral Analysis of Blood Pressure and Heart Rate Variabi- lity in Evaluating Cardiovascular Regulation. Hy- pertension 1995; 25 (6): 1276-1286.
  • Akgül F, Batyeraliev T, Pershukov I. Kalp Hastala- rında Kalp Hızı Değişkenliği. Türk Kardiyoloji Dergisi 2007; 10 (1): 25-33.
  • Akselrod S, Gordon D, Ubel A, Shannon D, Barger A, Cohen R. Power Spectrum Analysis of Heart Ra- te Fluctuation: a quantitative of beat to beat cardio- vascular control. Science, New Series 1981; 213 (4504): 220-222.
  • Malliani A, Pagani M, Lombardi F, Cerutti S. Car- diovascular Neural Regulation Explored in the Frequency Domain. Circulation 1991;84 (2): 482-492.
  • Pomeranz M, Macaulay RJB, Caudili MA, Kutz I, Adam D, Gordon D, Kilborn KM, Barger AC, Shonnan DC, Cohen RJ, et al. Assessment of Auto- nomic Function in Humans by Heart Rate Spectral Analysis. Am J Physiol 1985; 248 (1-2): 151-153.
  • Lee CM, Mendoza A. Dissociation of Heart Rate Variability and Heart Rate Recovery in Well- Trained Athletes. Eur J Appl Physiol, 2012; 112 (7): 2757–2766.
  • Kelly JS, Delaney J, Wiggins T. Heart Rate Reco- very from Peak Exercise and Cardiac Autonomic Control in Male Coronary Heart Disease Patients. Journal of Exercise Physiology Online, 2011; 14 (4): 64-74.
  • Appel ML, Berger RD, Saul JP, Smith JM, Cohen RJ. Beat to Beat Variability in Cardiovascular Vari- ables: Noise or Music? J Am Coll Cardiol 1989; 14 (5): 1139-1148.
  • Goldberger JJ. Sympathovagal Balance: how should we measure it?, American Journal of Physiology- Heart and Circulatory Physiology 1999; 276 (4-2): 1273-1280.
  • Barak OF, Jakovljevic DG, Gacesa JZP, Ovcin ZB, Brodie DA, Grujic NG. Heart Rate Variability Be- fore and After Cycle Exercise in Relation to Diffe- rent Body Positions. JSSM 2010; 9 (2): 176-182.
  • Kiviniemi AM, Hautala AJ, Kinnuen H, Nissila J, Virtanen P, Karjalainen J, Tulppo MP. Daily Exer- cise Prescription on the Basis of HR Variability among Men and Women, Medicine& Science in Sports & Exercise 2010; 42 (7): 1355-1363.
  • Aras D, Akça F, Akalan C. 50 m Sprint Yüzmenin 13-14 Yaşlarındaki Erkek Yüzücülerde Kalp Hızı Değişkenliğine Etkisi. SPORMETRE 2013; XI (1): 13-18.
  • Millar PJ, Rakobowchuk M, Mccartney N, Macdo- nald MJ. Heart Rate Variability and Non-linear Analysis of Heart Rate Dynamics Following Single and Multiple Wingate Bouts, Applied Physiology, Nutrition & Metabolism 2009; 34 (5): 875-883.
  • Oliveira TP, Mattos RA, Silva RBF, Rezende RA, Lima JRP. Absence of Parasympathetic Reactiva- tion after Maximal Exercise. Clin Physiol Funct Imaging 2013 33 (2): 143-149.
  • Vinet A, Beck L, Nottin S, Obert P. Effect of Inten- sive Training on Heart Rate Variability in Prepuber- tal Swimmers, European Journal of Clinical Inves- tigation 2005; 35 (10): 610-614.
  • Papp ME, Lindfors P, Storck N, Wandell PE. Incre- ased Heart Rate Variability but no Effect on Blood Pressure from 8 Weeks of Hatha Yoga-a Pilot Study, BMC Research Notes 2013; 6 (59): 1-9.

INVESTIGATION OF THE CHANGES IN HRV IN THE IMMEDIATE 48 HOURS FOLLOWING A 1 HOUR RUNNING EXERCISE IN TRAINED ADULTS

Year 2014, , 35 - 42, 01.04.2014
https://doi.org/10.1501/Sporm_0000000251

Abstract

The purpose of this study is to investigate the HRV in trained people during the first 48 hours after a 1 hour running. Eight healthy males voluntarily participated in this study. Each subject ran for 1 hour at 70% VO2max. HRV measurements took 5 min for each person and those were applied before (Be) and after 30 minutes (30min), 24 hours (24h), 48 hours (48h) following a 1 hour-running. According to the test results; HRV at post-30 min was found significantly higher than the others and LF/HF higher than Be and post- 24 h either. For SDNN, TP and HF; results at post-30 min were significantly lower than the others. SDSD and RMSSD results were significantly lower at post-30 min than the ones at post-24 h and post-48 h. For HFnu results, it was found that the result at post-30 min was significantly lower than Be, for LF results at post-30 min was significantly lower than post-24 h and LFnu was found significantly higher at post-30 min than the values in resting period. In conclusion, the rise in HR and LF/HF and the decline in SDNN, SDSD, RMSSD, TP, HF, HFnu and LF were the indicators of the sympathetic system activity which is still active 30 min after the running. Another result of this study is that the effects of an intense physical activity on heart return to normal in 24 hours, so it means the heart recovers in that period

References

  • Borresan J, Lambert MI. Autonomic Control of Heart Rate during and after Exercise. Sports Medi- cine 2008; 38(8): 633-646.
  • Lewis MJ, Kingsley M, Short AL, Simpson K. Rate of Reduction of Heart Rate Variability during Exer- cise an Index of Physical Work Capacity. Scandi- navian Journal of Medicine & Science in Sports 2007; 17 (6): 696-702.
  • Lombardi, F. Clinical Implications of Present Phy- siological Understanding of HRV Components. Cardiac Electrophysiology Review 2002; 6 (3): 245-249.
  • Silvilairat S, Wongsathikun J, Sittiwangkul R, Pongprot Y, Chattipakorn N. Heart Rate Variability and Exercise Capacity of Patients with Repaired Tetralogy of Fallot. Pediatr Cardiol 2011; 32 (8): 1158-1163.
  • Kaikkonen P, Rusko H, Martınmakı K. Post- Exercise Heart Rate Variability of Endurance Ath- letes after Different High-Intensity Exercise Inter- ventions. Scandinavian Journal of Medicine & Sci- ence in Sports 2008; 18 (4): 511-519.
  • Sandercock GRH, Brodie DA. The Use of Heart Rate Variability Measures to Assess Autonomic Control during Exercise. Scandinavian Journal of Medicine & Science in Sports 2006; 16 (5): 302-313.
  • Mourot L, Bouhaddı M, Perrey S, Cappelle S, Henrıet MT, Wolf JP, Rouıllon JD, Regnard J. Dec- rease in Heart Rate Variability with Overtraining: Assessment by The Poincare Plot Analysis. Clinical Phsiology and Functional Imaging 2004; 24 (1): 10-18.
  • Myllymäki T, Rusko H, Syväoja H, Juuti T, Kinnu- nen ML, Kyröläinen H. Efects of Exercise Intensity and Duration on Nocturnal Heart Rate Variability and Sleep Quality. Eur J Appl Physiol 2012; 112 (3): 801-809.
  • Costa JYB, Anunciaçao PG, Ruiz RJ, Casonatto J, Polito MD. Effect of Caffeine Intake on Blood Pressure and Heart Rate Variability after a Single Bout of Aerobic Exercise. International SportMed Journal 2012;13 (3): 109-121.
  • Chen JY, Lee YL, Tsai WC, Lee CH, Chen PS, Li YH, Tsai LM, Chen JH, Lin LJ. Cardiac Autonomic Functions Derived from Short-Term Heart Rate Va- riability Recordings Associated with Heart Rate Recovery after Treadmill Exercise Test in Young Individuals. Heart Vessels 2011; 26 (3): 282-288.
  • Oliveira TP, Ferreira RB, Mattos RA, Silva JP, Lima JRP. Influence of Water Intake on Post- Exercise Heart Rate Variabilty Recovery. JEPonline 2011; 14 (4): 97-105.
  • Bailón R, Mainardi L, Orini M, Sörnmo L, Laguna P. Analysis of Heart Rate Variability during Exerci- se Stress Testing Using Respiratory Information. Biomedical Signal Processing and Control 2010; 5 (4): 299-310.
  • Haddah HA, Laursen PB, Ahmaidi S, Buchheit M. Nocturnal Heart Rate Variability Following Supra- maximal Intermittent Exercise. International Jour- nal of Sports Physiology and Performance 2009; 4 (4): 435-447.
  • Alyan Ö, Kaçmaz F, Özdemir Ö, Karahan F, Taşke- sen T, İyem H, Alan S, Karadede A, İlkay D. Sigara İçenlerde Artmış Yüksek Duyarlıklı C-Reaktif Pro- tein Düzeyleri ve Bozulmuş Otonomik Aktivite. Türk Kardiyoloji Derneği Araştırmaları 2008; 36 (6): 368-375.
  • Dubin D. Otonom Sinir Sistemi. Çev. Edt. Okan, T. Hızlı Ekg Yorumu, 6. Baskı, İzmir, Güven Bilimsel Yayınları, 2009, 55-65.
  • Gilder M, Ramsbottom R. Change in Heart Rate Variability Following Orthostasis Relates to Volume of Exercise in Healty Women. Autonomic Neuros- cience: Basic and Clinical 2008; 143 (1-2): 73-76.
  • Piotrowicz E, Baranowski R, Piotrowska M, Zi- elnski T, Piotrowicz R. Variable Effects of Physical Training of Heart Rate Variability, Heart Rate Re- covery and Heart Rate Turbulance in Chronic Heart Failure. Pacing & Clinical Electrophysiology 2009; 32 (1): 113-115.
  • Niederer D, Vogt L, Thiel C, Schmidt K, Bernhös- ter M, Lungwitz A, Jaeger E, Banzer W. Exersice Effect on HRV in Cancer Patients. İnt J Sports Med 2013; 34 (1): 68-73.
  • Pumprla J, Howorka K, Groves D, Chester M, Nolan J. Functional Assessment of Heart Rate Vari- ability: Physiological Basis and Practical Applicati- ons. International Journal of Cardiology 2002;84 (1): 1-14.
  • Parati G, Saul JP, Rienzo MD, Mancia, G. Spectral Analysis of Blood Pressure and Heart Rate Variabi- lity in Evaluating Cardiovascular Regulation. Hy- pertension 1995; 25 (6): 1276-1286.
  • Akgül F, Batyeraliev T, Pershukov I. Kalp Hastala- rında Kalp Hızı Değişkenliği. Türk Kardiyoloji Dergisi 2007; 10 (1): 25-33.
  • Akselrod S, Gordon D, Ubel A, Shannon D, Barger A, Cohen R. Power Spectrum Analysis of Heart Ra- te Fluctuation: a quantitative of beat to beat cardio- vascular control. Science, New Series 1981; 213 (4504): 220-222.
  • Malliani A, Pagani M, Lombardi F, Cerutti S. Car- diovascular Neural Regulation Explored in the Frequency Domain. Circulation 1991;84 (2): 482-492.
  • Pomeranz M, Macaulay RJB, Caudili MA, Kutz I, Adam D, Gordon D, Kilborn KM, Barger AC, Shonnan DC, Cohen RJ, et al. Assessment of Auto- nomic Function in Humans by Heart Rate Spectral Analysis. Am J Physiol 1985; 248 (1-2): 151-153.
  • Lee CM, Mendoza A. Dissociation of Heart Rate Variability and Heart Rate Recovery in Well- Trained Athletes. Eur J Appl Physiol, 2012; 112 (7): 2757–2766.
  • Kelly JS, Delaney J, Wiggins T. Heart Rate Reco- very from Peak Exercise and Cardiac Autonomic Control in Male Coronary Heart Disease Patients. Journal of Exercise Physiology Online, 2011; 14 (4): 64-74.
  • Appel ML, Berger RD, Saul JP, Smith JM, Cohen RJ. Beat to Beat Variability in Cardiovascular Vari- ables: Noise or Music? J Am Coll Cardiol 1989; 14 (5): 1139-1148.
  • Goldberger JJ. Sympathovagal Balance: how should we measure it?, American Journal of Physiology- Heart and Circulatory Physiology 1999; 276 (4-2): 1273-1280.
  • Barak OF, Jakovljevic DG, Gacesa JZP, Ovcin ZB, Brodie DA, Grujic NG. Heart Rate Variability Be- fore and After Cycle Exercise in Relation to Diffe- rent Body Positions. JSSM 2010; 9 (2): 176-182.
  • Kiviniemi AM, Hautala AJ, Kinnuen H, Nissila J, Virtanen P, Karjalainen J, Tulppo MP. Daily Exer- cise Prescription on the Basis of HR Variability among Men and Women, Medicine& Science in Sports & Exercise 2010; 42 (7): 1355-1363.
  • Aras D, Akça F, Akalan C. 50 m Sprint Yüzmenin 13-14 Yaşlarındaki Erkek Yüzücülerde Kalp Hızı Değişkenliğine Etkisi. SPORMETRE 2013; XI (1): 13-18.
  • Millar PJ, Rakobowchuk M, Mccartney N, Macdo- nald MJ. Heart Rate Variability and Non-linear Analysis of Heart Rate Dynamics Following Single and Multiple Wingate Bouts, Applied Physiology, Nutrition & Metabolism 2009; 34 (5): 875-883.
  • Oliveira TP, Mattos RA, Silva RBF, Rezende RA, Lima JRP. Absence of Parasympathetic Reactiva- tion after Maximal Exercise. Clin Physiol Funct Imaging 2013 33 (2): 143-149.
  • Vinet A, Beck L, Nottin S, Obert P. Effect of Inten- sive Training on Heart Rate Variability in Prepuber- tal Swimmers, European Journal of Clinical Inves- tigation 2005; 35 (10): 610-614.
  • Papp ME, Lindfors P, Storck N, Wandell PE. Incre- ased Heart Rate Variability but no Effect on Blood Pressure from 8 Weeks of Hatha Yoga-a Pilot Study, BMC Research Notes 2013; 6 (59): 1-9.
There are 35 citations in total.

Details

Other ID JA24JZ35ZZ
Journal Section Research Article
Authors

Dicle Aras This is me

Barış Karakoç This is me

Mitat Koz This is me

Publication Date April 1, 2014
Published in Issue Year 2014

Cite

APA Aras, D., Karakoç, B., & Koz, M. (2014). Egzersiz yapan yetişkinlerde 1 saatlik koşu sonrasında KHD’deki 48 saatlik değişimin incelenmesi. SPORMETRE Beden Eğitimi Ve Spor Bilimleri Dergisi, 12(1), 35-42. https://doi.org/10.1501/Sporm_0000000251

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