Top

Published in:

Open Access 01-12-2020 | Coronary Heart Disease | Study protocol

Effect of voluntary breathing exercises on stable coronary artery disease in heart rate variability and rate-pressure product: a study protocol for a single-blind, prospective, randomized controlled trial

Authors: Qing Wu, Lin Liu, Xin Jiang, Yao-Yao Hu, Qiu-Shi Liang, Zhi-Song He, Yuan Xue, Wei Zhu, Zai-Xiang Tang, Yun-Ying Hou, Qi Zhao, Xiao-Hua Wang

Published in: Trials | Issue 1/2020

Abstract

Background

At present, China has more than 11 million patients with stable coronary heart disease and this is becoming a major public health problem. The pathological changes of coronary heart disease can lead to dysfunction of the cardiac autonomic nervous system, which increases the risk of complications such as malignant arrhythmia (ventricular flutter, ventricular fibrillation, etc.), heart rate, systolic blood pressure, and rate-pressure product (RPP), which is highly correlated with myocardial oxygen consumption and indirectly reflects myocardial blood supply and oxygen consumption. Although the guidelines recommend that such patients take drugs to reduce heart rate and myocardial oxygen consumption, the clinical control of heart rate is still not ideal. Thus, in this trial, we will use voluntary breathing exercises as the strategy of exercise rehabilitation for patients with stable coronary artery disease (SCAD), in order to increase the vagus nerve activity and/or reduce the sympathetic nervous activity, help maintain or rebuild the balance of plant nerve system, improve the time-domain index of heart rate variability, reduce the burden on the heart, and relieve patients’ anxiety and other negative emotions.

Methods

This is a 6-month single-blind, randomized controlled clinical trial that will be conducted in the First Affiliated Hospital of Soochow University. A total of 140 patients who fill out the Informed Consent Form are registered and randomized 1:1 into the Voluntary Breathing Exercises (VBE)-based clinical trial monitoring group (n = 70) or the Routine follow-up group (n = 70). The VBE-based clinical trial monitoring group is given VBE training on the basis of conventional treatment and health education, while the control group received conventional health education and follow-up. The primary outcomes will be measured heart rate variability and RPP. Secondary outcomes will include changes in Self-rating Anxiety Scale, total cholesterol, triglyceride, high-density lipoprotein, low-density lipoprotein, weight, and body mass index.

Discussion

This trial will carry out scientific respiratory exercise for patients with SCAD, which belongs to the category of active secondary prevention for patients, and changes from remedial to pre-protective. VBE is easy to operate and is not limited by time and place. It is important and meaningful to carry out VBE for patients with SCAD. This study will provide considerable evidence for further large-scale trials and alternative strategies for the rehabilitation nursing of patients with SCAD.

Trial registration

Chinese Clinical Trials Registry, 1900024043. Registered on 23 June 2019.

Available only for authorised users

Wilkowska A, Rynkiewicz A, Wdowczyk J, Landowski J, Cubała WJ. Heart rate variability and incidence of depression during the first six months following first myocardial infarction. Neuropsychiatr Dis Treat. 2019;15:1951–6.PubMedPubMedCentral

Seki A, Green HR, Chen PS, Hong L, Tan J, Vinters HV. et al.Sympathetic nerve fibers in human cervical and thoracic vagus nerves. Heart Rhythm. 2014;11(8):1411–7.PubMedPubMedCentral

Hu SG, Wang L, Ou YG, Ji P, Yu P, Wang P, et al. The effect of electro-acupuncture on the cardiopulmonary function and the quality of life for patients with coronary heart disease. Chin J Rehab Med. 2016;31(12):1318–23.

Thayer JF, Lane RD. The role of vagal function in the risk for cardiovascular disease and mortality. Biol Psychol. 2007;74(2):224–42.PubMed

Mourya M, Mahajan AS, Singh NP, Jain AK. Effect of slow-and fast-breathing exercises on autonomic functions in patients with essential hypertension. J Altern Complement Med. 2009;15(7):711–7.PubMed

Liu X, Lin QH, Li SR, Yao L, Tan SJ. Relationship between rate-pressure product and blood lactate concentration as well as ST segment level in coronary heart disease patients during exercise-based cardiac rehabilitation. Chin J Rehabil Med. 2013;28(8):735–8.

Feng J, Luo CM, Zhang J, Gao C. Effect of time domain index of heart rate variability on coronary artery stenosis in patients with stable angina pectoris. Anhui Med. 2016;37(12):1480–3.

Nakayama N, Miyachi M, Tamakoshi K, Negi K, Watanabe K, Hirai M. Increased Activity in Patients with Cardiovascular Risk Factors Increases Heart Rate Variability. West J Nurs Res. 2019;22:193945919864700.

Shen YF, Jiang XJ, Lei YH, Huang H. Analysis of heart rate variability in patients with coronary heart disease. Chin J Evid Based Cardiovasc Med. 2014;6(3):302–5.

10.

Sangthong B, Ubolsakka-Jones C, Pachirat O, Jones DA. Breathing Training for Older Patients with Controlled Isolated Systolic Hypertension. Med Sci Sports Exerc. 2016;48(9):1641–7.PubMed

11.

Ublosakka-Jones C, Tongdee P, Pachirat O, Jones DA. Slow loaded breathing training improves blood pressure, lung capacity and arm exercise endurance for older people with treated and stable isolated systolic hypertension. Exp Gerontol. 2018;108:48–53.PubMed

12.

Zhang ZB, Wang BQ, Wu H, Chai X, Wang W, Peng CK. Effects of slow and regular breathing exercise on cardiopulmonary coupling and blood pressure. Med Biol Eng Comput. 2017;55(2):327–41.PubMed

13.

Jones CU, Sangthong B, Pachirat O, Jones DA. Slow Breathing Training Reduces Resting Blood Pressure and the Pressure Responses to Exercise. Physiol Res. 2015;64(5):673–82.PubMed

14.

Cicek S, Basar F. The effects of breathing techniques training on the duration of labor and anxiety levels of pregnant women. Complement Ther Clin Pract. 2017;29:213–9.PubMed

15.

Pal GK, Agarwal A, Karthik S, Pal P, Nanda N. Slow yogic breathing through right and left nostril influences sympathovagal balance, heart rate variability, and cardiovascular risks in young adults. N Am J Med Sci. 2014;6(3):145–51.PubMedPubMedCentral

16.

Arce SC, De Vito EL. More breathing, less fitness: lessons from exercise physiology in chronic obstructive pulmonary disease-heart failure overlap. Am J Respir Crit Care Med. 2017;196(10):1233–4.PubMed

17.

Westerdahl E. Optimal technique for deep breathing exercises after cardiac surgery. Minerva Anestesiol. 2015;81(6):678–83.PubMed

18.

Chang RB, Strochlic DE, Williams EK, Umans BD, Liberles SD. Vagal Sensory Neuron Subtypes that Differentially Control Breathing. Cell. 2015;161(3):622–33.PubMedPubMedCentral

19.

Molkov YI, Rubin JE, Rybak IA, Smith JC. Computational models of the neural control of breathing. Wiley Interdiscip Rev Syst Biol Med. 2017;9(2).

20.

Shi XY, Xu JJ, Wu WJ, Chen YX, Yao HY, Wang WJ, et al. Observation on the effect of fast breathing and slow breathing training on improving exercise endurance of patients with chronic heart failure. Chin J Nurs. 2016;51(10):1161–5.

21.

Diest IV, Aubert AE, Widjaja D, Widjaja D, Vansteenwegen D, Vlemincx E. Inhalation/Exhalation Ratio Modulates the Effect of Slow Breathing on Heart Rate Variability and Relaxation. Appl Psychophysiol Biofeedback. 2014;39(3-4):171–80.PubMed

22.

Wang SL, Wang CL, Wang PL, Xu H, Du JP, Zhang DW, et al. Resting heart rate associates with one-year risk of major adverse cardiovascular events in patients with acute coronary syndrome after percutaneous coronary intervention. Exp Biol Med (Maywood). 2016;241(5):478–84.

23.

Kawecka-Jaszcz K, Bilo G, Drożdż T, Dębicka-Dąbrowska D, Kiełbasa G, Malfatto G, et al. Effects of device-guided slow breathing training on exercise capacity, cardiac function, and respiratory patterns during sleep in male and female patients with chronic heart failure. Pol Arch Intern Med. 2017;127(1):8–15.PubMed

24.

Ettehad D, Emdin CA, Kiran A, Anderson SG, Callender T, Emberson J, et al. Blood pressure lowering for prevention of cardiovascular disease and death:a systematic review and meta-analysis. Lancet. 2016;387(10022):957–67.PubMed

25.

Westerdahl E, Olsén MF. Chest physiotherapy and breathing exercises for cardiac surgery patients in Sweden-A National survey of practice. Monaldi Arch Chest Dis. 2011;75(2):112–9.PubMed

26.

Huang H, Zhang YY, Chen Y, Wang XH, Li YQ. Effects of self breathing exercise on heart rate and systolic blood pressure in adults:a Meta-analysis. Chin J Modern Nurs. 2016;22(17):2408–11.

27.

Zou Y, Zhao X, Hou Y-Y, Liu T, Wu Q, Huang Y-H, et al. Meta-Analysis of Effects of Voluntary Slow Breathing Exercises for Control of Heart Rate and Blood Pressure in Patients With Cardiovascular Diseases. Am J Cardiol. 2017;120(1):148–53.PubMed

28.

Fihn SD, Blankenship JC, Alexander KP, Bittl JA, Byrne JG, Fletcher BJ, et al. 2014 ACC/AHA/AATS/PCNA/SCAI/STS focused update of the Guideline for the Diagnosis and Management of Patients with Stable Ischemic Heart Disease:A report of the American College of Cardiology/American Heart Association Task Force on Practice Guidelines,and the American Association for Thoracic Surgery. Preventive Cardiovascular Nurses Association,Society for Cardiovascular Angiography and Interventions,and Society of Thoracic Surgeons. J Thorac Cardiovasc Surg. 2015;149(3):e5–23.PubMed

29.

Zung WW. A rating instrument for anxiety disorders. Psychosomatics. 1971;12(6):371–9.PubMed

30.

Beard E, Lewis JJ, Copas A, Davey C, Osrin D, Baio G, et al. Stepped wedge randomised controlled trials:systematic review of studies published between 2010 and 2014. Trials. 2015;16:353.PubMedPubMedCentral

31.

Tillmann AC, Andrade A, Swarowsky A, Guimarães ACA. Brazilian Samba Protocol for Individuals With Parkinson’s Disease: A Clinical Non-Randomized Study. JMIR Res Protoc. 2017;6(7):e129.PubMedPubMedCentral

32.

The interventional cardiology group of the cardiovascular branch of the Chinese medical association, the atherosclerosis and coronary heart disease group of the cardiovascular branch of the Chinese medical association, the professional committee of the prevention and treatment of thrombosis of the cardiovascular physicians branch of the Chinese medical association, Editorial board of the Chinese journal of cardiovascular disease. Guidelines for diagnosis and treatment of stable coronary artery disease. Chin J Cardiovasc Dis. 2018;46(9):680–94.

33.

Task Force Members, Montalescot G, Sechtem U, Achenbach S, Andreotti F, Arden C, et al. 2013 ESC guidelines on the management of stable coronary artery disease:the Task Force on the management of stable comnary artery disease of the European Society of Cardiology. Eur Heart J. 2013;34(38):2949–3003.

34.

Ko Y, Sun SH, Han IS, Go HY, Kim TH, Lee JM, et al. The efficacy and safety of Sipjeondaebo-tang in Korean patients with cold hypersensitivity in the hands and feet: a protocol for a pilot, randomized, double-blind, placebo-controlled, parallel-group clinical trial. Trials. 2019;20(1):217.PubMedPubMedCentral

35.

Yang Z, Liu H, Meng F, Guan Y, Zhao M, Qu W, et al. The analysis of circadian rhythm of heart rate variability in patients with drug-resistant epilepsy. Epilepsy Res. 2018;146:151–9.PubMed

36.

Kiviniemi AM, Kenttä TV, Lepojärvi S, Perkiömäki JS, Piira OP, Ukkola O, et al. Recovery of rate-pressure product and cardiac mortality in coronary artery disease patients with type 2 diabetes. Diabetes Res Clin Pract. 2019;150:150–7.PubMed

37.

Perkiömäki J, Ukkola O, Kiviniemi A, Tulppo M, Ylitalo A, Kesäniemi YA, et al. Heart Rate Variability Findings as a Predictor of Atrial Fibrillation in Middle-Aged Population. J Cardiovasc Electrophysiol. 2014;25(7):719–24.PubMed

38.

Xue RQ, Sun L, Yu XJ, Li DL, Zang WJ. Vagal nerve stimulation improves mitochondrial dynamics via an M3 receptor/CaMKKβ/AMPK pathway in isoproterenol-induced myocardial ischaemia. J Cell Mol Med. 2017;21(1):58–71.PubMed

39.

Ferrari R, Fox K. Heart rate reduction in coronary artery disease and heart failure. Nat Rev Cardiol. 2016;13(8):493–501.PubMed

40.

Sammito S, Böckelmann I. Reference values for time- and frequency-domain heart rate variability measures. Heart Rhythm. 2016;13(6):1309–16.PubMed

41.

Russell ME, Scott AB, Boggero IA, Carlson CR. Inclusion of a rest period in diaphragmatic breathing increases high frequency heart rate variability: Implications for behavioral therapy. Psychophysiology. 2017;54(3):358–65.PubMed

42.

Rossi Caruso FC, Arena R, Mendes RG, Reis MS, Papa V, Borghi-Silva A. Heart rate autonomic responses during deep breathing and walking in hospitalised patients with chronic heart failure. Disabil Rehabil. 2011;33(9):751–7.PubMed

43.

Yang JM, Huang ST, Li J, et al. Analytical research of β receptor blockers' clinical application in patients with coronary heart disease. Chin J Cardiovasc Res. 2017;15(5):463–6.

44.

Qiu S, Cai X, Sun Z, Li L, Zuegel M, Steinacker JM, et al. Heart Rate Recovery and Risk of Cardiovascular Events and All-Cause Mortality:A Meta-Analysis of Prospective Cohort Studies. J Am Heart Assoc. 2017;6(5):1–12.

45.

Brito Díaz B, Alemán Sánchez JJ, Cabrera de León A. Resting heart rate and cardiovascular disease. Med Clin (Barc). 2014;143(1):34–8.

46.

Ho JE, Larson MG, Ghorbani A, et al. Long-term cardiovascular risks associated with an elevated heart rate:the Framingham Heart Study. J Am Heart Assoc. 2014;3(3):e000668.PubMedPubMedCentral

47.

Jae SY, Kurl S, Laukkanen JA, Yoon ES, Choi YH, Fernhall B, et al. Relation of heart rate recovery after exercise testing to coronary artery calcification. Ann Med. 2017;49(5):404–10.PubMed

48.

Nuckowska MK, Gruszecki M, Kot J, Wolf J, Guminski W, Frydrychowski AF, et al. Impact of slow breathing on the blood pressure and subarachnoid space width oscillations in humans. Sci Rep. 2019;9(1):6232.PubMedPubMedCentral

49.

Van Criekinge T, Saeys W, Hallemans A, Vereeck L, De Hertogh W, Van de Walle P, et al. Effectiveness of additional trunk exercises on gait performance: study protocol for a randomized controlled trial. Trials. 2017;18(1):249.PubMedPubMedCentral

Title: Effect of voluntary breathing exercises on stable coronary artery disease in heart rate variability and rate-pressure product: a study protocol for a single-blind, prospective, randomized controlled trial
Authors: Qing Wu
Lin Liu
Xin Jiang
Yao-Yao Hu
Qiu-Shi Liang
Zhi-Song He
Yuan Xue
Wei Zhu
Zai-Xiang Tang
Yun-Ying Hou
Qi Zhao
Xiao-Hua Wang
Publication date: 01-12-2020
Publisher: BioMed Central
Keywords: Coronary Heart Disease
Arterial Diseases
Published in: Trials / Issue 1/2020
Electronic ISSN: 1745-6215
DOI: https://doi.org/10.1186/s13063-020-04402-2

At a glance: The STEP trials

Springer Medicine

Effect of voluntary breathing exercises on stable coronary artery disease in heart rate variability and rate-pressure product: a study protocol for a single-blind, prospective, randomized controlled trial

Abstract

Background

Methods

Discussion

Trial registration

At a glance: The STEP trials

Springer Medicine

Abstract

Background

Methods

Discussion

Trial registration

Please log in to get access to this content

Other articles of this Issue 1/2020

Measuring effects on intima-media thickness: an evaluation of rosuvastatin in Chinese subjects with subclinical atherosclerosis—design, rationale, and methodology of the METEOR-China study

Early switch from intravenous to oral antibiotic therapy in patients with cancer who have low-risk neutropenic sepsis (the EASI-SWITCH trial): study protocol for a randomised controlled trial

Engaging adolescents in changing behaviour (EACH-B): a study protocol for a cluster randomised controlled trial to improve dietary quality and physical activity

A prospective double-blinded randomised control trial comparing robotic arm-assisted functionally aligned total knee arthroplasty versus robotic arm-assisted mechanically aligned total knee arthroplasty

CompLement C5 Antibodies for decreasing brain injury after aneurysmal Subarachnoid Haemorrhage (CLASH): study protocol for a randomised controlled phase II clinical trial

Chinese herbal medicine combined with entecavir to reduce the off-therapy recurrence risk in HBeAg-positive chronic hepatitis B patients: a multi-center, double-blind, randomized controlled trial in China