Abstract:Heart rate variability (HRV) analysis is a common method to noninvasively evaluate autonomic nervous function. In many studies, low frequency variability (LF, <0.15 Hz as shown in the power spectrum produced by Fast Fourier Transformation) is taken as an indicator of sympathetic function and high frequency variability (HF, ≥0.15 Hz) as an indicator of parasympathetic function. Based on studies on over 20 control subjects and 15 mind/body practitioners, we found that the following are important factors that influence HRV. First, the frequency of the breathing cycle is reflected in the frequency of a peak in the power spectrum produced by respiratory sinus arrhythmia (RSA). In some cases involving younger subjects, multiple peaks can be seen in the power spectrum even though they were strictly controlling their breathing at a single rate. Second, the size of the HRV peak produced by RSA is dependent on the tidal volume of each breath and the posture of the subject. Third, under the same conditions, younger subjects (aging 20s-25s) generally show a larger RSA peak compared to older subjects (aging 50s-70s). This effect often overshadows differences based on other considerations, such as years of experience in mindbody practice. In conclusion, this study shows that HRV analysis can be a useful tool for assessing autonomic nervous function in mindbody research, but great care must be taken to control for all of the factors indicated above.
Shin Lin, 沈仲元, Timothy Ross. 心-身锻炼中影响使用心率变异性评价自主神经功能的因素研究[J]. 实用心电学杂志, 2017, 26(2): 84-93.
Shin Lin, Zhong-Yuan Shen, Timothy Ross. Factors influencing the use of heart rate variability for evaluating autonomic nervous function in mind body -research. JOURNAL OF PRACTICAL ELECTROCARDIOLOGY, 2017, 26(2): 84-93.
[1] Cohen S, Tyrrell DA, Smith AP. Psychological stress and susceptibility to the common cold[J]. N Engl J Med, 1991, 325(9): 606-612.[2] Chida Y, Hamer M, Wardle J, et al. Do stressrelated psychosocial factors contribute to cancer incidence and survival? [J]. Nat Clin Pract Oncol, 2008, 5(8): 466-475.[3] Greenwood DC , Muir KR, Packham CJ, et al.Coronary heart disease: a review of the role of psychosocial stress and social support[J]. J Public Health Med, 1996,18(2): 221-231.[4] Wang F, Lee EK, Wu T, et al. The effects of tai chi on depression, anxiety, and psychological wellbeing: a systematic review and metaanalysis[J]. Int J Behav Med, 2014, 21(4): 605-617.[5] van der Kolk BA, Stone L, West J, et al. Yoga as an adjunctive treatment for posttraumatic stress disorder: a randomized controlled trial[J]. J Clin Psychiatry, 2014, 75(6):e559-565.[6] Chen KW, Berger CC, Manheimer E, et al. Meditative therapies for reducing anxiety: a systematic review and metaanalysis of randomized controlled trials[J]. Depress Anxiety, 2012, 29(7): 545-562.[7] Akselrod S, Gordon D, Ubel FA, et al. Power spectrum analysis of heart rate fluctuations: a quantitative probe of beattobeat cardiovascular control[J]. Science, 1981, 213(4504): 220-222.[8] Pomeranz B, Macaulay RJ, Caudill MA, et al. Assessment of autonomic function in humans by heart rate spectral analysis[J]. Am J Physiol,1985, 248 (1 Pt 2): H151-153. [9] Saul JP. Beattobeat variations of heart rate reflect modulation of cardiac autonomic outflow[J].Physiology, 1990, 5(2): 32-37.[10] Task Force of the European Society of Cardiology,the North American Society of Pacing and Electrophysiology. Heart rate variability: standards of measurement, physiological interpretation, and clinical Use[J]. Circulation, 1996, 93(5): 1043-1065.[11] XWarren JH, Jaffe RS, Wraa CE, et al. Effect of autonomic blockade on power spectrum of heart rate variability during exercise[J]. Am J Physiol, 1997, 273(2): R495-R502.[12] Shen ZY, Lin S, Yu P, et al. The influence of respiratory frequency adjustment to heart rate variability[J]. J Practical Electrocardiology, 2009, 18(5): 323-325.[13] Shen ZY,Liu RG, Lin S, et al. Relationship between cycle and morphological characteristics of nighttime respiratory method and heart rate variability[J]. J Practical Electrocardiology, 2012, 21(3): 157-161.[14] Gasior JS, Sacha J, Jeleń PJ, et al. Heart rate and respiratory rate influence on heart rate variability repeatability: effects of the correction for the prevailing heart rate[J]. Front Physiol, 2016, 7:356.[15] Eckberg DL. The human respiratory gate[J]. J Physiol , 2003, 548(Pt 2): 339-352.[16] Zhu YQ,Shen ZY, Lin S,et al. The influence of autonomic nerve block on rabbits heart rate under respiratory regulation[J]. J Practical Electrocardiology, 2014, 23(6): 405-410.[17] Dekker JM, Crow RS, Folsom AR, et al. Low heart rate variability in a 2minute rhythm strip predicts risk of coronary heart disease and mortality from several causes:the ARIC Study[J]. Circulation, 2000, 102(11): 1239-1244.[18] Reis MS, Arena R, Archiza B, et al. Deep breathing heart rate variability is associated with inspiratory muscle weakness in chronic heart failure[J]. Physiother Res Int, 2014, 19(1): 16-24.[19] Arcentales A, Caminal P, Diaaz I, et al. Classification of patients undergoing weaning from mechanical ventilation using the coherence between heart rate variability and respiratory flow signal[J]. Physiol Meas, 2015, 36(7): 1439-1452.[20] Leite MR, Ramos EM, KalvaFilho CA, et al. Correlation between heart rate variability indexes and aerobic physiological variable in patients with COPD[J]. Respirology, 2015, 20(2): 273-278.[21] Goulart Cda L, Simon JC, Schneiders Pde B, et al. Respiratory muscle strength effect on linear and nonlinear heart rate variability parameters in COPD patients[J]. Int J Chron Obstruct Pulmon Dis, 2016, 11: 1671-1677.[22] Villa MP, Calcagnini G, Pagani J, et al. Effects of sleep stage and age on shortterm heart rate variability during sleep in healthy infants and children[J]. Chest, 2000, 117(2): 460-466.[23] Togo F, Yamanoto Y. Decreased fractal component of human heart rate variability during nonREM sleep[J]. Am J Physiol Heart Circ Physiol, 2001, 280(1): H17-H21.[24] Clifford GD, Tarassenko L. Segmenting cardiacrelated data using sleep stages increases separation between normal subjects and apnoeic patients[J]. Physiol Meas, 2004, 25(6): N27-N35.[25] Aeschbacher S, Bossard M, Schoen T, et al. Heart rate variability and sleeprelated breathing disorders in the general population[J]. Am J Cardiol, 2016, 118(6): 912-917.[26] Kubota Y, Sata W, Toichi M, et al. Frontal midline theta rhythm is correlated with cardiac autonomic activities during the performance of an attention demanding meditation procedure[J]. Brain Res Cogn Brain Res, 2001, 11(2): 281-287.[27] Toichi M, Sugiura T, Murai T, et al. A new method of assessing cardiac autonomic function and its comparison with spectral analysis and coefficient of variation of RR interval[J]. J Auton Nerv Syst , 1997, 62(1-2): 79-84.[28] Peng CK, Mietus JE, Liu Y, et al. Exaggerated heart rate oscillation during two meditation techniques[J]. Int J Cardiol , 1999, 70(2): 101-107.[29] Cole AR, Wijarnpreecha K, Chattipakorn SC,et al. Effects of Tai Chi exercise on heart rate variability[J]. Complement Ther Clin Pract , 2016, 23: 59-63.[30] Shen ZY , Lin S, Yan SB, et al.Relationship between blood pressure instant variability and heart rate variability of rabbits under respiratory control[J]. Shanghai J Tradit Chin Med , 2013, 47(3): 72-75.
2017, Vol. 26 
