Efficacy of Korean Medicine Combination Treatments for Recurrent Back Pain after Medical Procedures: A Retrospective Study

Article information

J Acupunct Res. 2019;36(4):230-237

Publication date (electronic) : 2019 November 25

doi : https://doi.org/10.13045/jar.2019.00171

Wu-Jin Jeong ¹^,

, Je-Heon Noh ¹, Hyo-Seung Huh ¹, Sun-Ho Lee ¹, Sun-A Kim ², Min-Kyung Kim ², Ji-Ae Roh ³, Ji-Won Lee ³

¹Department of Acupuncture & Moxibustion Medicine, Daejeon Jaseng hospital of Korean Medicine, Daejeon, Korea

²Department of Korean Medicine Obstetrics and Gynecology, Daejeon Jaseng hospital of Korean Medicine, Daejeon, Korea

³Department of Korean Internal Medicine, Daejeon Jaseng hospital of Korean Medicine, Daejeon, Korea

*Corresponding author. Department of Acupuncture & Moxibustion Medicine, Daejeon Jaseng hospital of Korean Medicine, Daejeon, Korea E-mail: mysisi@naver.com

Received 2019 July 25; Revised 2019 September 6; Accepted 2019 September 24.

Abstract

Background

The purpose of this study was to investigate the clinical efficacy of Korean medicine combination treatments for recurring back pain after medical procedures.

Methods

This was a retrospective study performed on 311 patients admitted to Daejoen Jaseng hospital who were diagnosed with lumbar spine herniated intervertebral discs. The patients were divided into 2 groups according to whether or not they had undergone at least one medical procedure on the lumbar spine. They were assessed with Numeric Rating Scale (NRS), Oswestry Disability Index (ODI) and EuroQol-5 Dimensions Index (EQ-5D) before and after treatment.

Results

Patients who experienced a medical procedure on the lumbar spine in the prehospital phase (Group A), statistically significantly improved EQ-5D and ODI scores. The NRS scores also decreased however it was not statistically significant. Patients who had not undergone a medical procedure on the lumbar spine in the prehospital phase (Group B) had statistically significantly improved ODI and NRS scores. The average EQ-5D score decreased however, there was no statistically significant difference before and after scores in Group B. There was no statistically significant difference in variation in EQ-5D, ODI, and NRS scores before and after treatment between the groups.

Conclusions

The results of this study indicated that even after a bilateral procedure and surgery, when pain in patients with lumbar spine herniated intervertebral disc did not decrease, (as in failed back surgery syndrome), Korean medicine combination treatment of postoperative pain was helpful and there was improvement in daily life.

Keywords: acupuncture; failed back surgery syndrome; Korean traditional medicine; pain

Introduction

Low back pain (LBP) is a common clinical condition. Between 80% and 90% of people experience LBP at least once in their lives and they often repeat the recurrence and treatment process. Most LBP is caused by functional abnormalities in the spine or by spinal disorders, and the most common cause is degenerative changes in the intervertebral plate [1]. A lumbar spine herniated intervertebral disc (LHIVD) is one of the common causes of LBP. In the 2017 Health Insurance Statistical Yearbook, the category “Other intervertebral disc disorder (M51)”, which is equivalent to HIVD, was found to be the 15^th most expensive condition regarding medical care, and the 5th most common in terms of high rates of hospitalization [2].

LHIVD is a neurological disorder that usually causes degenerative changes in the lower lumbar vertebrae intervertebral discs or ruptures of the central, inner, or outer fibers of the fibrillary due to external forces. This may cause some or all of the disc to slip, compressing the peritoneal or nerve root, which results in radiative pain, sensory degradation, or weakness in the compressed neuromuscular regions [1,3].

Treatments can be divided into surgical treatment and conservative treatment [4]. Conservative treatment alone showed an improvement in the rate of symptoms of more than 80%, and only 5-10% of cases failed to respond to conservative treatment and required surgery [5]. In the studies of back pain surgery, sufficient pain improvement was not achieved in 30% of patients who received single lumbar segment surgery [6], and only 34% of the reoperation patients who had a high incidence of postoperative pain after the first operation, reported successful results with at least 50% experiencing continuous pain relief and satisfaction with the results [7]. Additionally, difficulties with successive reoperations have been reported where the success rate dropped to 15% after the 3^rd back operation, and 5% after the 4^th back operation [8]. In a 10-22-year follow up study by Yorimitsu et al on the outcomes of discectomy for lumbar herniated nucleus pulposus (HNP), it was reported that 74.6% of patients had residual LBP and 12% required reoperations [9]. Park and Kim reported that 75% of study patients (n = 186) received medical care within 2 years of surgery because of pain, and 35% of those patients required reoperation [10].

Consequently, interest in conservative treatment for LHIVD is increasing, and there have been many studies on the effects of Korean medical combination treatment for LHIVD. Korean medical combination treatment for LHIVD is a representative conser vat ive treatment which includes acupuncture, pharmacopuncture, cupping, moxibustion, herbal medicine, acupotomy and other herbal treatments. Observational studies have reported on the degree of improvement after inpatient Korean medical combination treatment [11], the effect of acupotomy on LHIVD [12], and the effects of bee venom and Shinbaro pharmacopuncture treatment on LHIVD [13]. Many studies have shown significant effects of Korean medical combination treatment for LHIVD.

However, there are few quantitative studies that have been carried out to determine whether outcomes for patients who have received Korean medicine combination treatment after receiving medical procedures, are as good as those with no experience with combination treatment. In this current study, 311 patients who were diagnosed with LHIVD from November 2016 to December 2017 at the Daejeon Jaseng hospital, received traditional Korean medicine treatment. Patients were divided into 2 groups according to whether they had received at least one medical procedure on the lumbar spine or no procedures, and the status of the 2 groups at both admission and discharge was compared.

Materials and Methods

Patients

From November 28^th, 2016 to December 23^rd, 2017, there were a total of 353 patients enrolled in this study who were hospitalized at the Daejeon Jaseng hospital after being diagnosed with lumbar spine and other intervertebral disc disorders accompanied by neurosis.

The exclusion criteria included those who were diagnosed with a severe disease that could cause spinal pain (such as malignant tumors, spinal fractures, spinal infections, inflammatory spondylitis, and mami syndrome), chronic diseases (such as pathological neuropathy, and fibrous root disease) that could interfere with interpretation of the treatment results, progressive neurological defects or neurological symptoms, unstable conditions for acupuncture treatment, and current immunological disorders. Of the 353 patients,. there were 34 who were discharged from hospital within 3 days, and 8 who did not respond to the survey upon being discharged . This left 311 patients in the study population. Of these 311 patients, 96 (Group A) had back-related medical procedures before hospitalization and 215 (Group B) did not (Fig. 1).

Fig. 1.

Flow Chart.

This study was approved by the Institutional Review Board of Jaseng hospital of Korean Medicine. We adhered to commonly accepted research ethics when carrying out this study.

Methods

As a retrospective study, the medical records of 311 patients who received inpatient treatments for LHIVD at Daejeon Jaseng hospital were collected and analyzed. All statistics from this study were analyzed using SPSS 25.0 Windows (IBM Corp., Armonk, USA) software, and details from the medical records that were collected are as follows:

1) Gender and age

2) Onset date

3) Administration date, discharge date, hospitalization period (days)

4) Whether or not back-related medical procedures were received before hospitalization

5) Comorbidities

6) Physical examination before and after treatment

7) L-spine magnetic resonance imaging (MRI) scans

8) Scores from the numeric rating scale (NRS), Oswestry disability index (ODI) and EuroQol-5 dimensions index (EQ-5D), before and after treatment

Treatments

Patients were treated with acupuncture, pharmacopuncture, chuna therapy, herbal medicine therapy, and physical therapy. All treatments were performed by one or two Korean medicine doctors (KMDs) who worked in of Jaseng hospital of Korean Medicine and they were not involved in the evaluation of this study. Score evaluations were performed by another KMD.

Acupuncture treatment

Each patient received acupuncture twice a day using disposable stainless-steel needles that were sized 0.25 × 40 mm² or 0.30 × 60 mm² (Dongbang Inc. Ltd., Boryeong, Korea). The acupuncture points that were used were at Yoyanggwan (GV3), Myeongmun (GV4), Sinsu (BL23), Gihaesu (BL24), Daejangsu (BL25), Gwanwonsu (BL26), and EX-B2 (Hwata Hyeopcheok) [14], and the Ashi points of the lumbar, pelvis and lower limbs were also employed. The mean holding time was 15 minutes twice a day, and the mean depth of the needle insertion was at least 20 mm. Acupuncture was combined with infra-red therapy. Electrical stimulation was performed at 2 acupuncture points using a low-frequency treatment device STN-330 (Stratek, Anyang, Korea) at 1-30 Hz. Electrical stimulation was used to generate a sufficient intensity of muscle contraction, without the patient feeling pain. Two Korean medicine doctors performed the acupuncture treatments once every morning and afternoon from the day of admission.

Pharmacopuncture treatment

Shinbaro pharmacopuncture (from the Jaseng Pharmacopuncture Medicinal Research Institute) was performed by adding and removing medicines of Cheongpa-jeon [15], which control dampness and eliminate swelling, strengthen muscle and bone, improve blood circulation, remove wind energy, and control pain. Bee venom pharmacopuncture (the saline: bee venom ratio was 10,000:1) was applied after a negative hypersensitivity skin test.

Physical examination and radiological images were used as the basis for pharmacopuncture treatments. A total of 1 mL Shinbaro or bee venom pharmacopuncture was injected into the left EX-B2 point, and 1 mL was injected into the right EX-B2 (Hwata Hyeopcheok) point, at the spinal level with the most severe pain.

Pharmacopuncture needles were inserted directly into the skin to a depth of 0.5-1 cm, and each acupuncture point was injected with approximately 0.2 mL to a total of 0.5-1 mL using a disposable syringe (1 mL, 26 G × 1.5 syringe; CPL Co. Ltd., Gyeonggi, Korea). To prevent infection, the treatment area was disinfected with a povidone solution (10%). The number of treatments was consistent on a daily basis from the day of hospitalization.

Chuna treatment

Chuna treatment, such as the flexion-distraction technique, lumbar extension technique, lateral extension rotation technique, and lateral lumbar correction technique, were performed 5 to 7 times a week from the day of admission.

Herbal medicine therapy

Shinbaro herbal medicines (Jaseng hospital prescriptions) were given to patients with LHIVD. Cheongpa-jeon [15] and Cheongshinbaro-hwan were taken 3 times a day, 30 minutes after each meal, from the day of admission.

Other treatments

Manual therapy, traction therapy, or herbal fumigate hot pack was selected individually for each patient’s treatment according to their condition 5 to 7 times a week, from the day of admission.

Evaluation indexes

Patients completed the EQ-5D, NRS, and ODI tests on both the day of admission and the day of discharge.

EQ-5D

The EQ-5D, which was developed by the EuroQol group, measures the health-related quality of life to assess patients’ health status by asking questions about physical and mental well-being and healthy mobility [16]. It is one of the most widely used tools to measure the quality of life. The higher the quality of life, the higher the total score.

NRS

The NRS is used to assess the level of pain a patient is experiencing which is quantified by a 0 to 10 scale where a score of zero is pain-free, and a score of 10 is the most severe pain a patient can experience. The visual analog scale (VAS) is similar, but it does not necessarily require vision or motor skills, so measuring with NRS was a little more useful and easier to implement [17].

ODI

The ODI is a survey that assesses the patient’s degree of functional disability in daily life, and it consists of 10 questions with 6 choices each, corresponding to 0-5 points. The scores for each item are added, divided by 50, and then multiplied by 100 to calculate the degree of disability. The Korean version of the ODI was used in this study, the reliability and validity of which have been verified [18,19].

Statistical analyses

Statistical analyses were performed using the Statistical Program for Social Science v. 25.0 for Windows program (IBM Corp., Armonk, USA). Measurements were expressed as the mean ± SD. To compare the homogeneity between groups, a Chi-squared analysis was used for gender and the comorbidities distribution, hypesthesia, and muscle weakness. An independent two sample t-test was used for age, height, weight and days of hospitalization. To compare differences in the general characteristics and EQ-5D, ODI, and NRS scores between the 2 groups, an independent two sample t-test was carried out. A paired t-test was used to compare variations in EQ-5D, ODI, and NRS scores before and after hospitalization for each group. p < 0.05 were considered to be statistically significant.

Results

General characteristics of patients

Group A (n = 96) consisted of 46 women and 50 men who had previously had back-related medical procedures, with an average age of 49.22 ± 14.26 years. The mean height of Group A was 166.36 ± 10.48 cm and their mean weight was 69.01 ± 14.64 kg. Group B (n = 215) consisted of 121 women and 94 men who did not receive a medical procedure, with an average age of 45.99 ± 12.65 years. The mean height of Group B was 164.42 ± 14.48 cm and their mean weight was 66.36 ± 13.88 kg. The mean hospitalization period was 19.93 ± 13.33 days in Group A, and 18.66 ± 24.59 days in Group B. Group A patients were significantly older than patients in Group B (p < 0.05). Otherwise, other demographics and patient characteristics were broadly similar between the 2 groups (Table 1).

Table 1.

General Characteristics of Subjects.

Comorbidities of patients

The distribution ratio of patients with hypertension, diabetes mellitus, depression, cardiovascular disease, and gastrointestinal disease was greater in Group A than in Group B, although there were no statistically significant differences between groups (Table 2).

Table 2.

Comorbidities of Subjects.

Hypesthesia and muscle weakness in the legs of patients before treatment

There was no statistically significant difference between groups regarding muscle weakness (p = 0.196) but hypesthesia was statistically significantly different between the groups (p = 0.018; Table 3). Patients with hypesthesia comprised of 25.0% in Group A and 14.0% in Group B. Patients with muscle weakness in the leg area comprised of 21.9% in Group A and 15.8% in Group B.

Table 3.

Hypesthesia and Muscle Weakness in the Leg Area of Subjects at Pretreatment.

Types of medical procedure

The types of medical procedure which patients in Group A had received before admission were nerve block (N-block), discectomy, laminectomy, artificial disc replacement (ADR) and posterior lumbar interbody fusion (PLIF).

There were many patients who had received more than one procedure. There were patients who had received n-block and discectomy (n = 29) or n-block and laminectomy (n = 19). In addition, a patient had received a laminectomy and ADR and another patient had received a laminectomy and PLIF (Table 4).

Table 4.

Types of Medical Procedures Done to Group A at Pretreatment.

Distribution of L-spine MRI findings

The number of herniated discs ranged from 1 to 5. In Group A, 14 patients had 1 herniated disc (14.4%), 29 patients (29.9%) had 2 herniated discs, 25 patients (25.8%) had 3 herniated discs, 3 patients (18.6%) had 3 herniated discs and 10 patients’s (10.3%) L-spine discs were all herniated. In Group B, 39 patients had 1 herniated disc (18.1%), 64 patients (29.8%) had 2 herniated discs, 53 patients (24.7%) had 3 herniated discs, 42 patients (19.5%) had 3 herniated discs and 16 patients’s (7.4%) L-spine discs were all herniated.

In both groups, the majority of patients had the most severe grade (extrusion) in the distribution of the L-SPINE [57.2% (Group B)-70.1% (Group A)]. In Group A, there was 1 patient (1.0%) who had the most severe herniated disc at position L1/2 ,3 patients (10.3%) at position L2/3, 10 patients (10.3%) at position L3/4, 45 patients (46.4%) at position L4/5, and 36 patients (37.1%) at position L5/S1. In Group B, there were 4 patients (1.9%) who had severe herniated discs at position L1/2, 4 patients (1.9%) at position L2/3, 15 patients (7.0%) at position L3/4, 92 patients (42.8%) at position L4/5, and 99 patients (46.1%) at position L5/S1 (Table 5).

Table 5.

Distribution of L-spine MRI Findings.

Comparisons of EQ-5D, ODI, and NRS scores

Differences in EQ-5D, ODI, and NRS scores at pretreatment between groups A and B

At pretreatment, the mean EQ-5D score of Group A was 0.57 ± 0.24, and the mean EQ-5D of Group B was 0.85 ± 3.37. The mean ODI score of Group A was 49.08 ± 18.23 and the mean ODI score of Group B was 45.44 ± 17.71. The mean NRS of Group A was 6.71 ± 4.09 and the mean NRS of Group B was 6.56 ± 4.34. There were no statistically significant differences between the groups (Table 6).

Table 6.

Differences in EQ-5D, ODI, and NRS at Pretreatment Between Group A and B.

Differences in EQ-5D, ODI, and NRS scores before and after treatment in Group A

The A statistically significant improvement in Group A EQ-5D scores was shown between pre- and post-treatment (0.57 ± 0.24 to 0.66 ± 0.25; p = 0.000). There was a significant improvement in Group A ODI scores pre- and post-treatment (49.08 ± 18.23 to 36.74 ± 19.17; p = 0.000). The average NRS score was not statistically significantly different in Group A pre- and post-treatment (p = 0.212; Table 7).

Table 7.

Differences in EQ5D, ODI, and NRS Before and After Treatment in Group A.

Differences in EQ-5D, ODI, and NRS scores before and after treatment in Group B

The average EQ-5D score was not statistically significantly different in the scores for Group B pre- and post-treatment (p = 0.693). The improvement in ODI scores in Group B pre- and posttreatment (45.44 ± 17.71 to 29.82 ± 15.76) showed a statistically significant decrease (p = 0.000). The change in NRS scores for group B between before and after treatment (6.56 ± 4.34 to 3.73 ± 3.82) showed a statistically significant decrease (p = 0.000; Table 8).

Table 8.

Differences in EQ5D, ODI, and NRS Before and After Treatment in Group B.

Differences of variation in EQ-5D, ODI, and NRS scores before and after treatment between groups A and B

The difference between EQ-5D scores before and after treatment were -0.10 ± 0.28 in Group A, and 0.09 ± 3.38 in Group B. The difference between ODI scores before and after treatment were 12.33 ± 17.16 in Group A, and 15.62 ± 16.59 in Group B. The difference between NRS scores before and after treatment were 2.95 ± 4.19 in Group A, and 2.82 ± 2.73 in Group B. Each variation of all scores showed no statistically significant differences between the groups (Table 9).

Table 9.

Differences of Variation in EQ-5D, ODI, and NRS Before and After Treatment Between Group A and Group B.

Discussion

LHIVD is a condition in which annulus fibrosus of the vertebral disc is ruptured allowing the inside of the disc to herniate or bulge. This places pressure around the spinal cord or nerve root creating pain that may radiate or cause an inflammatory reaction around the nerve causing pain through the back, buttocks and lower limbs.

The number of people who suffer with LHIVD typically increases with old age. This may be due to fibroids that degenerated over time causing them to be more susceptible to rupture, an increased risk of falls or narrowing of the disc space caused by everyday life (such as lifting, moving, and sitting for a long time) which may lead to dislocation of the intervertebral discs [20].

Recommended treatments for LHIVD include surgery and conservative treatments (such as transforaminal epidural steroid injections) [21]. However, these injections have been linked to various serious adverse events such as dural puncture and infections [22]. In addition, acute pain after lumbar surgery remains a common problem. The incidence of moderate or severe pain is high on the first postoperative day (ranging between 30% and 64%) [23].

Patient care after back surgery is a very important factor for pain management. Various opioid analgesics have been used to treat pain after surgery [24]. However, undesirable side effects of opioids such as nausea and vomiting, are frequently observed [25]. Patients with fewer side effects experience greater satisfaction [26]. Thus, the need for a safe, effective treatment without unpleasant side effects for the management of pain after lumbar surgery is apparent.

There is continuing debate about the controversial term “Failed Back Surgery Syndrome” (FBSS)’ as interest in postoperative pain treatment increases. The term is used to describe a condition in which there is, or appears to be, sciatica pain after one or more lumbar operations. Numerous studies have been published describing interventional pain procedures with a general nonsurgical approach [7,27].

In this study, a retrospective study was conducted on the improvement in the level of pain experienced, and quality of life in patients who suffered with LHIVD and received Korean medicine combination treatments. The treatments performed in this study included acupuncture, pharmacopuncture, chuna treatment, herbal medicine therapy, and physical therapy.

The purpose of this study was to investigate the clinical efficacy of Korean medicine combination treatments. In the analysis of treatment results, pre- and post-treatment scores were compared to be the most objective in the study [28]. This study examined NRS and ODI scores before and after treatment to assess the degree of pain improvement, and the EQ-5D index before and after treatment, to assess the degree of improvement in the quality of life.

There was no difference in the general characteristics and hospitalization period between the patients who had received a medical procedure on the lumbar spine in the prehospital phase and those who had not. In Group A, patients who had received a medical procedure on the lumbar spine in the prehospital phase had EQ-5D and ODI scores that were statistically significantly improved. NRS scores decreased but there was no statistically significant difference observed. In Group B, patients who had not received a medical procedure on the lumbar spine in the prehospital phase, had ODI and NRS scores that were statistically significantly improved. The average EQ-5D score decreased, but there was no statistically significant difference in scores in Group B. There was no difference in variation in EQ-5D, ODI, and NRS scores before and after treatment, between the groups. These results demonstrated that Korean medicine combination treatments can improve recurring back pain after medical procedures as well as in patients who have not experienced undergone a back-related procedure.

This study had several limitations. The mean ages of the 2 groups were statistically significantly different and Group A patients were older than Group B. The lack of long-term assessment of the prognosis was limited because accurate follow-up checks were not conducted after discharge. In addition, there was no consistent treatment intervention, and all patients did not receive the same treatment. Moreover, it was not possible to assess the variables introduced by different practitioners. Furthermore, there was no comparative analysis according to the specific types of medical procedures and no comparison of how long hospitalization occurred after the procedure or operation. In the future, studies should aim to reduce the confounding variables and include more patients.

Conclusion

This study performed a retrospective investigation of patients with LHIVD who complained of lower limb pain who were hospitalized at Daejoen Jaseng hospital from November 2016 to December 2017. Subjects were evaluated with EQ-5D, ODI, and NRS tests at admission and at discharge. The following lists the results:

1. Patients who had received a medical procedure on the lumbar spine in the prehospital phase had statistically significantly improved EQ-5D and ODI scores. NRS scores also decreased but there was no statistically significant difference.

2. Patients who had not received a medical procedure on the lumbar spine in the prehospital phase had statistically significantly improved ODI and NRS scores. The average EQ-5D score decreased, but there was no statistically significant difference in scores in group B between before and after treatment.

3. There was no statistically significant difference in variation in EQ-5D, ODI, and NRS scores before and after treatment between the groups.

In conclusion the results of this study showed that, even after a bilateral procedure when the pain in the LHIVD patients could not be managed, such as in Failed Back Surgery Syndrome, Korean medicine combination treatments were helpful for postoperative pain management and improvement of daily life.

Notes

The authors have no conflicts of interest to declare.

References

1. The Korean Orthopaedic Association. Orthopedics Seoul (Korea): Choisin Medical Publishing Co; 2006. p. 617–630. [in Korean].

2. Kim ST, Kim YI. 2017 National Health Insurance Statistical Yearbook Wonju (Korea): Health Insurance Review & Assessment Service, National Health Insurance Service; 2018. p. 578–631. [in Korean].

3. Korean Acupuncture and Moxibustion Medicine Society Textbook Compilation Committee. Acupuncture Medicine Paju (Korea): Jipmoondang; 2012. p. 250–251. [in Korean].

4. Lee GM, Lee KC, Hwang YJ. Collaborative study of oriental-western medicine on HIVD. J Korean Acupunct Moxib Soc 2000;17:1–10. [in Korean].

5. Shvartzman L, Weingarten E, Sherry H, Levin C, Persaud A. Cost effectiveness analysis of extended conservative therapy versus surgical intervention in the management of herniated lumbar intervertebral disc. Spine (Phila Pa 1976) 1992;17:176–182.

6. Javid MJ, Hadar EJ. Long-term follow-up review of patients who underwent laminectomy for lumbar stenosis: a prospective study. J Neurosurg 1998;89:1–7.

7. North RB, Campbell JN, James CS, Conover-Walker MK, Wang H, Piantadosi S, Rybock JD, et al. Failed back surgery syndrome: 5-year follow-up in 102 patients undergoing repeated operation. Neurosurgery 1991;28:685–691.

8. Hazard RG. Failed back surgery syndrome: surgical and nonsurgical approaches. Clin Orthop Relat Res 2006;443:228–260.

9. Yorimitsu E, Chiba K, Toyama Y, Hirabayashi K. Long-term outcomes of standard discectomy for lumbar disc herniation: a follow-up study of more than 10 years. Spine (Phila Pa 1976) 2001;26:652–659.

10. Park HC, Kim YS. Clinical evaluation of failed back surgery syndrome (FBSS). J Korean Neurosurg Soc 1993;22:48–57. [in Korean].

11. et al. The Effect of Korean Medical Combination Treatment on 72 Cases of Herniated Intervertebral Lumbar Disc Patients : An Observational Study. Acupunct 2015;32:23–33. [in Korean].

12. Kim HS, Kim SY, Kim HJ, Kim ES, Kim YI. The Effect of Acupotomy on Lumbar Herniated Intervertebral Disc : Report of a Case Series. Acupunct 2015;32:185–195. [in Korean].

13. Park OJ, Kim SG, Lee JJ, Lee SM, Kim SJ, Cho NG. The Effect of Shinbaro and Bee Venom Pharmacopuncture in Treating Lumbar Disc Herniations. J Korean Acupunct Moxib Soc 2013;30:41–50. [in Korean].

14. Ahn SG, Lee SR, Yang YS. The treatise research on Hua-Tuo-Jia-Ji-Xue. J Korean Acupunct Moxib Soc 2000;17:139–148. [in Korean].

15. Kim DW, Kim Y, Shin JS. The clinical effect of Cheongpa-jeon on a group of patients who were treated under conservative remedies for LBP(low back pain). J Korea Chuna Man Med Spine Nerves 2004;5:85–92. [in Korean].

16. EQ-5D-5L [Internet]. EQ-5D-5L [Internet]. [cited 2019 Jul 11]. Available from: https://euroqol.org/eq-5d-instruments/eq-5d-5l-about/.

17. Patrick DW, Ronald M. Textbook of Pain Seoul (Korea): Jungdam; 2002. p. 483–484. [in Korean].

18. Jeon CH, Kim DJ, Kim SK, Kim DJ, Lee HM, Park HJ. Validation in the cross-cultural adaptation of the Korean version of the Oswestry Disability Index. J Korean Med Sci 2006;21:1092–1097. [in Korean].

19. Tonosu J, Takeshit K, Hara N, Matsudaira K, Kato S, Masuda K. The normative score and the cut-off value of the Oswestry Disability Index (ODI). Eur Spine J 2012;21:1596–1602.

20. Seidler A, Euler U, Bolm UA, Ellegast R, Grifka J, Haerting J, et al. Physical workload workload and accelerated occurrence of lumbar spine diseases : Risk and Rate Advancement Periods in a German multicenter case control study. Scand J Work Environ Health 2011;37:30–36.

21. Kreiner DS, Hwang SW, Easa JE, Resnick DK, Baisden JL, Bess S, et al. An evidence-based clinical guideline for the diagnosis and treatment oflumbar disc herniation with radiculopathy. Spine J 2014;14:180–191.

22. Shamliyan TA, Staal JB, Goldmann D, Lincoln SM. Epidural steroid injections for radicular lumbosacral pain: A systematic review. Phys Med Rehabil Clin N Am 2014;25:471–489. e1-50.

23. Sommer M, de Rijke JM, van Kleef M, Kessels AG, Peters ML, Geurts JW, et al. The prevalence of postoperative pain in a sample of 1490 surgical inpatients. Eur J Anaesthesiol 2008;25:267–274.

24. Hutchison RW, Chon EH, Tucker WF, Gilder R, Moss J, Daniel P. A comparison of a fentanyl, morphine, and hydromorphone patient- controlled intravenous delivery for acute postoperative analgesia: a multicenter study of opioid-induced adverse reactions. Hosp Pharm 2006;41:659–663.

25. Benyamin R, Trescot AM, Datta S, Buenaventura R, Adlaka R, Sehgal N, et al. Opioid complications and side effects. Pain Physician 2008;11:105–120.

26. Cho YH, Kim CK, Heo KH, Lee MS, Ha IH, Son DW, et al. Acupuncture for acute postoperative pain after back surgery: A systematic review and meta analysis of randomized controlled trials. Pain Pract 2015;15:279–291.

27. Hussain A, Erdek M. Interventional pain management for failed back surgery syndrome. Pain Pract 2014;14:64–78.

28. Kim SY, Park HS, Kim MC, Seo YW, Seo YH, Lee SM, et al. Effects of Korean medical combination treatment for herniated intervertebral lumbar disc patients: an observational study. Acupunct 2014;31:21–28. [in Korean].

Article information Continued

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	Age (y)^§	Gender^\|\|		Height (cm)^§	Weight (kg)^§	Days of hospitalization period^§
	Age (y)^§	Female	Male	Height (cm)^§	Weight (kg)^§	Days of hospitalization period^§
Group A^† (n = 96)	49.22 ± 14.26	46	50	166.36 ± 10.48	69.01 ± 14.64	19.93 ± 13.33
Group B^‡ (n = 215)	45.99 ± 12.65	121	94	164.42 ± 14.48	66.36 ± 13.88	18.66 ± 24.59
p	0.047^*	0.172		0.237	0.128	0.634

Comorbidity	Group A^† (n = 96)	Group B^‡ (n = 215)	p
Hypertension	11 (11.5)	21 (9.8)	0.650
Diabetes mellitus	7 (7.3)	10 (4.7)	0.344
Depression	2 (2.1)	1 (0.5)	0.177
Cardiovascular disease	10 (10.4)	12 (5.6)	0.124
Respiratory disease	2 (2.1)	6 (2.8)	0.716
Gastrointestinal disease	10 (10.4)	22 (10.2)	0.961

	Group A^† (n = 96)	Group B^‡ (n = 215)	p
Hypesthesia	24 (25.0)	30 (14.0)	0.018^*
Muscle weakness	21 (21.9)	34 (15.8)	0.196

Type	Group A^† (n = 96)
N-block	18 (18.8)
Discectomy	14 (14.6)
Laminectomy	9 (9.4)
ADR	2 (2.1)
PLIF	3 (3.1)
N-block and discectomy	29 (30.2)
N-block and laminectomy	19 (19.8)
Laminectomy and ADR	1 (1.0)
Laminectomy and PLIF	1 (1.0)
Total	96 (100.0)

		Group A^† (n = 96)	Group B^‡ (n = 215)
Number	1	14 (14.4)	39 (18.1)
	2	29 (29.9)	64 (29.8)
	3	25 (25.8)	53 (24.7)
	4	18 (18.6)	42 (19.5)
	5	10 (10.3)	16 (7.4)
Grade	Bulging	6 (6.2)	19 (8.8)
	Protrusion	22 (22.7)	73 (34.0)
	Extrusion	68 (70.1)	123 (57.2)
Position	L1/2	1 (1.0)	4 (1.9)
	L2/3	3 (3.1)	4 (1.9)
	L3/4	10 (10.3)	15 (7.0)
	L4/5	45 (46.4)	92 (42.8)
	L5/S1	36 (37.1)	99 (46.1)

Pretreatment	Group A^† (n = 96)	Group B^‡ (n = 215)	p
EQ-5D	0.57 ± 0.24	0.85 ± 3.37	0.402
ODI	49.08 ± 18.23	45.44 ± 17.71	0.099
NRS	6.71 ± 4.09	6.56 ± 4.34	0.775

	Treatment	Group A^† (n = 96)	p
EQ-5D	BEFORE	0.57 ± 0.24	0.000^*
EQ-5D	AFTER	0.66 ± 0.25	0.000^*
ODI	BEFORE	49.08 ± 18.23	0.000^*
ODI	AFTER	36.74 ± 19.17	0.000^*
NRS	BEFORE	6.71 ± 4.09	0.212
NRS	AFTER	3.76 ± 1.56	0.212

Variation	Group A^† (n = 96)	Group B^‡ (n = 215)	p
EQ-5D	-0.10 ± 0.28	0.09 ± 3.38	0.581
ODI	12.33 ± 17.16	15.62 ± 16.59	0.111
NRS	2.95 ± 4.19	2.82 ± 2.73	0.738