Assessment of the Effect of Pain on Autonomic Nervous System in Human Body Using Heart Rate Variability Analysis_Journal of Biomedical Engineering

Authors：

FUQingbiao ^1,2 , LIUChunlin ² , ZHANGFang ³ , FANGYi ² , SHENDai ² ,  ZHANGJian ²

1. Department of Gradutate, Liaoning Medical University, Jinzhou 121001, China;
2. Stomatological Hospital, Tianjin Medical University, Tianjin 300070, China;
3. Department of Oral and Maxillofacial Surgery, Wannan Medical College, Yijishan Hospital, Wuhu 241000, China;

Corresponding author：

ZHANGJian, Email: zj301doctor@126.com

Keywords：

heart rate variability; capsaicin; pain; human pain model; autonomic nerve

DOI：

10.7507/1001-5515.20150217

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The purpose of this study is to discuss the feasibility of establishing capsaicin pain model and the possibility to evaluate different degrees of pain by the heart rate variability (HRV). It also aims to investigate the changes of autonomic nervous activity of volunteers during the process of pain caused by capsaicin. A total of 30 volunteers were selected, who were physically and mentally healthy, into the study. To assess the effects of capsaicin on the healthy volunteers, we recorded the Visual Analogue Scale (VAS) scores after the capsaicin stimulus. Additionally, the electrocardiogram signals and HRV analysis index before and after stimulating were also recorded, respectively. More specifically, the HRV analysis indexes included the time domain index, the frequency domain index, and the nonlinear analysis index. The results demonstrated that the activity of the autonomic nerves was enhanced in the process of capsaicin stimulus, especially for the sympathetic nerve, which exhibited a significantly differences in HRV. In conclusion, the degree of pain can be reflected by the HRV. It is feasible to establish a capsaicin pain model. And in further experiments, HRV analysis could be used as a reference index for quantitative evaluation of pain.

Citation： FUQingbiao, LIUChunlin, ZHANGFang, FANGYi, SHENDai, ZHANGJian. Assessment of the Effect of Pain on Autonomic Nervous System in Human Body Using Heart Rate Variability Analysis. Journal of Biomedical Engineering, 2015, 32(6): 1223-1226. doi: 10.7507/1001-5515.20150217 Copy

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12.	向勇.交感神经系统在炎症痛中的作用[J].国外医学:麻醉学与复苏分册, 2003, 24(2):73-75.
13.	陈洪波, 刘仁光.心率变异性分析临床应用研究近况[J].新医学, 2010, (6):407-411.
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15.	KAYA D, KARACA S, BARUTCU I, et al. Heart rate variability in patients with essential hyperhidrosis:dynamic influence of sympathetic and parasympathetic maneuvers[J]. Ann Noninvasive Electrocardiol, 2005, 10(1):1-6.
16.	刘彩琼, 高齐, 孙景辉.心率变异性分析在儿科心血管疾病中的临床价值[J].中国实用儿科杂志, 2014, 29(2):151-154.
17.	贾晓宁, 申岱, 李川勇.基于Poincaré散点图的5 s心率变异性分析方法用于实时监测自主神经功能的研究[J].生物医学工程学杂志, 2011, 28(3):597-601, 606.

1. DEANGELIS A F, BARROWMAN R A, HARROD R, et al. Review article:Maxillofacial emergencies:oral pain and odontogenic infections[J]. Emerg Med Australas, 2014, 26(4):336-342.
2. WONG M C, MCMILLAN A S, ZHENG J, et al. The consequences of orofacial pain symptoms:a population-based study in Hong Kong[J]. Community Dent Oral Epidemiol, 2008, 36(5):417-424.
3. YAN J Q, WANG Y, TANG A L, et al. Cross-sectional investiga-tion of postoperative pain in three provincial hospitals in Hunan province[J]. China Journal of Modern Medicine, 2011, 21(11):1384-1387.
4. FRAMPTON C L, HUGHES-WEBB P. The measurement of pain[J]. Clin Oncol (R Coll Radiol), 2011, 23(6):381-386.
5. PITCHER M H, NIETO F R, CERVERO F. Stimulation of cutaneous low threshold mechanoreceptors in mice after intracolonic capsaicin increases spinal c-Fos labeling in an NKCC1-dependent fashion[J]. J Pain, 2013, 14(1):57-65.
6. 孟祥慧, 初金玉, 陈丽丽.辣椒素致幼鼠特应性皮炎模型的建立[J].解剖科学进展, 2012, 18(6):549-551.
7. NAHMAN-AVERBUCH H, CRANOVSKY Y, SPRECHER E, et al. Associations between autonomic dysfunction and pain in chemotherapy-induced polyneuropathy[J]. European Journal of Pain, 2014, 18(1):47-55.
8. LOMBARDI F, STEIN P K. Origin of heart rate variability and turbulence:an appraisal of autonomic modulation of cardiovascular function[J]. Front Physiol, 2011, 2:95.
9. JENSEN M P, KAROLY P, BRAVER S. The measurement of clinical pain intensity:a comparison of six methods[J]. Pain, 1986, 27(1):117-126.
10. KELLY A M. The minimum clinically significant difference in visual analogue scale pain score does not differ with severity of pain[J]. Emergency Medicine Journal, 2001, 18(3):205-207.
11. JARRETT M, HEITKEMPER M, CZYZEWSKI D, et al. Autonomic nervous system function in young children with functional abdominal pain or irritable bowel syndrome[J]. The Journal of Pain, 2012, 13(5):477-484.
12. 向勇.交感神经系统在炎症痛中的作用[J].国外医学:麻醉学与复苏分册, 2003, 24(2):73-75.
13. 陈洪波, 刘仁光.心率变异性分析临床应用研究近况[J].新医学, 2010, (6):407-411.
14. GOLDBERGER J J, CHALLAPALLI S, TUNG R, et al. Relationship of heart rate variability to parasympathetic effect[J]. Circulation, 2001, 103(15):1977-1983.
15. KAYA D, KARACA S, BARUTCU I, et al. Heart rate variability in patients with essential hyperhidrosis:dynamic influence of sympathetic and parasympathetic maneuvers[J]. Ann Noninvasive Electrocardiol, 2005, 10(1):1-6.
16. 刘彩琼, 高齐, 孙景辉.心率变异性分析在儿科心血管疾病中的临床价值[J].中国实用儿科杂志, 2014, 29(2):151-154.
17. 贾晓宁, 申岱, 李川勇.基于Poincaré散点图的5 s心率变异性分析方法用于实时监测自主神经功能的研究[J].生物医学工程学杂志, 2011, 28(3):597-601, 606.

Journal of Biomedical Engineering

Assessment of the Effect of Pain on Autonomic Nervous System in Human Body Using Heart Rate Variability Analysis

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