A Troponin Detection-combined Study of Rabbit Experiment for Evaluating Cardiac Fatigue_Journal of Biomedical Engineering

Authors：

YANXiaobo ¹ ,  LUOLinmei ¹ , XIAOShouzhong ² , LIULeichu ¹ , DENGSuyuan ¹ , ZHANGCong ¹ , XIAGuoxiang ¹

1. Cardiac Fatigue Laboratory of Physical Education, Chongqing University, Chongqing 400044, China;
2. Chongqing Bo-Jing Medical Informatics Institute, Chongqing 400044, China;

Corresponding author：

LUOLinmei, Email: 394794472@qq.com

Keywords：

cardiac fatigue; sudden cardiac death; troponin; physiological release; amplitude ratio of the first to second heart sound

DOI：

10.7507/1001-5515.20140161

Video：

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The objective of this study is to combine troponin and indicators of cardiac acoustics for synthetically evaluating cardiac fatigue of rabbits, analyzing exercise-induced cardiac fatigue (EICF) and exercise-induced cardiac damage (EICD). New Zealand white rabbits were used to conduct a multi-step swimming experiments with load, reaching an exhaustive state for evaluating if the amplitude ratio of the first to second heart sound (S1/S2) and heart rate (HR) during the exhaustive exercise would decrease or not and if they would be recovered 24-48 h after exhaustive exercise. The experimental end point was to complete 3 times of exhaustions or death from exhaustion. Circulating troponin I (cTnI) were detected from all of the experimental rabbits at rest [(0.02±0.01) ng/mL], which, in general, indicated that there existed a physiological release of troponin. After the first exhaustive swim, cTnI of the rabbits increased. However, with 24-hour rest, S1/S2, HR, and cTnI of the tested rabbits all returned toward baseline levels, which meant that the experimental rabbits experienced a cardiac fatigue process. After repeated exhaustion, overloading phenomena were observed, which led to death in 3 out of 11 rabbits, indicating their cardiac damage; the troponin elevation under this condition could be interpreted by pathological release. Evaluation of myocardial damage can not be based on the troponin levels alone, but can only be based on a comprehensive analysis.

Citation： YANXiaobo, LUOLinmei, XIAOShouzhong, LIULeichu, DENGSuyuan, ZHANGCong, XIAGuoxiang. A Troponin Detection-combined Study of Rabbit Experiment for Evaluating Cardiac Fatigue. Journal of Biomedical Engineering, 2014, 31(4): 855-860. doi: 10.7507/1001-5515.20140161 Copy

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2.	MATTSSON C M, LIND B, ENQVIST J K, et al. No evidence of cardiac fatigue in tissue velocity curves at rest after 6 days of ultra-endurance exercise[J]. Eur Heart J, 2010, 31(Suppl) : S304-S305.
3.	DOUGLAS P S, O'TOOLE M L, HILLER W D, et al. Cardiac fatigue after prolonged exercise[J]. Circulation,1987,76(6):1206-1213.
4.	严小波,罗麟梅,刘磊矗,等.心脏疲劳家兔实验模式的初步研究[J].生物医学工程学杂志,2013,30(2):287-291.
5.	NEUMAYR G, PFISTER R, MITTERBAUER G, et al. Effect of competitive marathon cycling on plasma N-terminal pro-brain natriuretic peptide and cardiac troponin T in healthy recreational cyclists[J]. Am J Cardiol, 2005, 96(5): 732-735.
6.	WELSH R C, WARBURTON D E, HUMEN D P, et al. Prolonged strenuous exercise alters the cardiovascular response to dobutamine stimulation in male athletes[J].J Physiol, 2005,569(Pt 1):325-330.
7.	SHAVE R E, DAWSON E, WHYTE G, et al. Effect of prolonged exercise in a hypoxic environment on cardiac function and cardiac troponin T[J]. Br J Sports Med, 2004, 38(2): 86-88.
8.	MIDDLETON N, SHAVE R. Is exercise-induced cardiac fatigue caused by damage to the heart muscle?[ EB/OL]. (2004-06-15)[2013-05-04] . http://www.pponline.co.uk/encyc/cardiac-fatigue.html.
9.	NEWBY L K, JESSE R L, BABB J D, et al. ACCF 2012 Expert consensus document on practical clinical considerations in the interpretation of troponin elevations[J]. J Am Coll Cardiol. 2012,60(23):2427-2463.
10.	SHAVE R, BAGGISH A, GEORGE K, et al. Exercise-induced cardiac troponin elevation: evidence, mechanisms, and implications[J]. J Am Coll Cardiol. 2010,56(3):169-176.
11.	VENGE P, JOHNSTON N, LINDAHL B, et al. Normal plasma levels of cardiac troponin I measured by the high-sensitivity cardiac troponin I access prototype assay and the impact on the diagnosis of myocardial ischemia[J]. J Am Coll Cardiol, 2009, 54(13):1165-1172.
12.	丁红香,秦基取,倪孔海,等. 创伤性休克兔血清肌钙蛋白I的动态变化及其应用价值[J].温州医学院学报, 2007,37(2):153-158.
13.	THERES H P,KAISER D R,NELSON S D, et al. Detection of acute myocardial ischemia during percutaneous transluminal coronary angioplasty by endocardial acceleration[J]. Pacing Clin Electrophysiol, 2004, 27(5):621-625.
14.	HOLLAND A E, HILL C J,GLASPOLE I,et al. Impaired chronotropic response to 6-min walk test and reduced survival in interstitial lung disease[J]. Respir Med, 2013, 107(7):1066-1072.

1. WHYTE G P, GEORGE K, SHARMA S, et al. Cardiac fatigue following prolonged endurance exercise of differing distances[J]. Med Sci Sports Exerc, 2000, 32(6):1067-1072.
2. MATTSSON C M, LIND B, ENQVIST J K, et al. No evidence of cardiac fatigue in tissue velocity curves at rest after 6 days of ultra-endurance exercise[J]. Eur Heart J, 2010, 31(Suppl) : S304-S305.
3. DOUGLAS P S, O'TOOLE M L, HILLER W D, et al. Cardiac fatigue after prolonged exercise[J]. Circulation,1987,76(6):1206-1213.
4. 严小波,罗麟梅,刘磊矗,等.心脏疲劳家兔实验模式的初步研究[J].生物医学工程学杂志,2013,30(2):287-291.
5. NEUMAYR G, PFISTER R, MITTERBAUER G, et al. Effect of competitive marathon cycling on plasma N-terminal pro-brain natriuretic peptide and cardiac troponin T in healthy recreational cyclists[J]. Am J Cardiol, 2005, 96(5): 732-735.
6. WELSH R C, WARBURTON D E, HUMEN D P, et al. Prolonged strenuous exercise alters the cardiovascular response to dobutamine stimulation in male athletes[J].J Physiol, 2005,569(Pt 1):325-330.
7. SHAVE R E, DAWSON E, WHYTE G, et al. Effect of prolonged exercise in a hypoxic environment on cardiac function and cardiac troponin T[J]. Br J Sports Med, 2004, 38(2): 86-88.
8. MIDDLETON N, SHAVE R. Is exercise-induced cardiac fatigue caused by damage to the heart muscle?[ EB/OL]. (2004-06-15)[2013-05-04] . http://www.pponline.co.uk/encyc/cardiac-fatigue.html.
9. NEWBY L K, JESSE R L, BABB J D, et al. ACCF 2012 Expert consensus document on practical clinical considerations in the interpretation of troponin elevations[J]. J Am Coll Cardiol. 2012,60(23):2427-2463.
10. SHAVE R, BAGGISH A, GEORGE K, et al. Exercise-induced cardiac troponin elevation: evidence, mechanisms, and implications[J]. J Am Coll Cardiol. 2010,56(3):169-176.
11. VENGE P, JOHNSTON N, LINDAHL B, et al. Normal plasma levels of cardiac troponin I measured by the high-sensitivity cardiac troponin I access prototype assay and the impact on the diagnosis of myocardial ischemia[J]. J Am Coll Cardiol, 2009, 54(13):1165-1172.
12. 丁红香,秦基取,倪孔海,等. 创伤性休克兔血清肌钙蛋白I的动态变化及其应用价值[J].温州医学院学报, 2007,37(2):153-158.
13. THERES H P,KAISER D R,NELSON S D, et al. Detection of acute myocardial ischemia during percutaneous transluminal coronary angioplasty by endocardial acceleration[J]. Pacing Clin Electrophysiol, 2004, 27(5):621-625.
14. HOLLAND A E, HILL C J,GLASPOLE I,et al. Impaired chronotropic response to 6-min walk test and reduced survival in interstitial lung disease[J]. Respir Med, 2013, 107(7):1066-1072.

Journal of Biomedical Engineering

A Troponin Detection-combined Study of Rabbit Experiment for Evaluating Cardiac Fatigue

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