Abstract
Degenerative lumbar spine disease is becoming increasingly prevalent in the aging population. Surgical treatment is the standard treatment modality for intractable cases, but the reoperation rate remains high. We conducted this study to longitudinally evaluate the impact of health risk factors on the risk of lumbar spine reoperation in Koreans aged over 40 years. Subjects aged > 40 years who underwent their first lumbar spinal surgery between January 2005 and December 2008 were selected and followed up until 2015. A total of 6300 people were included. The reoperation rate during the 10-year follow-up period was 13.2% (831/6300 patients). The reoperation rate was the highest in patients in their 60 s (15.4%, P < 0.05). The reoperation rates were also significantly higher in men (vs. women: 14.7% vs. 11.7%, P < 0.05), smokers (vs. non-smokers: 15.2% vs. 12.7%, P < 0.05), alcohol drinkers (vs. non-drinkers: 14.7% vs. 12.4%, P < 0.05), and those with a higher Charlson Comorbidity Index (CCI) score (CCI 0, 11.6%; 1–2, 13.2%; and ≥ 3, 15%; P < 0.05). Among patients undergoing lumbar spine surgery, reoperation is performed in 13.2% of patients within 10 years. Male sex, age in the 60 s, alcohol use, smoking, higher Hgb and a high CCI score increased the risk of reoperation after lumbar spine operation.
Subject terms: Neurological disorders, Diseases, Health care, Medical research, Risk factors
Introduction
Degenerative lumbar spine disease is a common aging-related spinal disorder; its incidence is increasing in the current aging society1. Surgical treatment is established as the standard treatment modality for intractable cases2. The rate of lumbar spine surgery has increased by more than twofold owing to not only an increase in the prevalence of degenerative lumbar spine disease but also to improvements in surgical techniques, favorable outcomes, and an increase in the number of hospitals and surgeons3,4. However, some patients require reoperation because of complications including infection, fusion failure, and persistent pain and diseases related to progressive degenerative changes or an unrelated previous surgery5,6. Despite improvements in surgical skills and techniques, the reoperation rate remains unimproved, with a 10-year reoperation rate of approximately 20%7. Considering the high prevalence and chronicity of degenerative lumbar spine disease, it is important to understand the risk factors affecting reoperation1.
Population-based studies have shown the longitudinal trends in the lumbar reoperation rate and its relationships with coexisting diseases, demographic characteristics, primary operation type, and preoperative spinal pathology8. However, research on the influence of lifestyle-related factors including smoking, drinking, and exercise on the risk of reoperation after lumbar surgery is lacking. The Korean National Health Insurance Service (NHIS) covers the health insurance of approximately 96% of Koreans aged > 40 years9. All insured persons and their dependents are encouraged to participate in a periodic, mostly biennial, general health examination. Data from these examinations are then periodically collected by the NHIS-Health Screening Cohort (NHIS-HEALS) to obtain a large dataset on factors such as smoking, drinking, height, weight, blood pressure, and basic biochemical data9. The present study aimed to longitudinally evaluate the impact of health risk factors on lumbar spine reoperation among Koreans aged over 40 years.
Methods
Study design and data source
This retrospective study was approved by the Institutional Review Board of the hospital (Ajou University Institutional Review Board and Ethics Committee 2021-01-009). All methods were performed in accordance with the relevant guidelines and regulations. All participants agreed to fill out an informed consent form. The Korean NHIS database was used to create cohorts of all Korean health examinees who underwent the biennial health examination. The NHIS, a single insurance company, was started in 2006 by consolidating more than 366 medical insurance organizations for efficient system operation in Korea10.
All insured individuals and their dependents are classified as insured employees, insured self-employed individuals, or medical aid beneficiaries. They are encouraged to participate in a general health examination, usually conducted every other year9. The NHIS-HEALS database includes demographic and medical treatment data as well as information on health risk factors such as smoking, drinking, height, weight, blood pressure, fasting blood glucose levels, and exercise9.
Patient selection
Individuals aged > 40 years who underwent their first lumbar spinal surgery between January 2005 and December 2008 were selected and followed-up until 2015. The inclusion criteria were patients who underwent open discectomy (OD), decompressive laminectomy, percutaneous endoscopic lumbar discectomy (PELD), and spinal fusion to treat degenerative lumbar disease. The exclusion criteria were patients who underwent lumbar spine surgery in the previous 3 years (2002–2004) and lumbar spine surgery for fractures, infections, tumors, or inflammatory disease. Among the 6473 patients identified, 173 patients who underwent the surgery in the previous 3 years (2002–2004, n = 75) and who had undergone lumbar spinal surgery for fractures, infections, tumors, or inflammatory disease (n = 98) were excluded. Finally, a total of 6300 people were enrolled, and 831 of them underwent revision surgery. The patient selection flowchart is shown in Fig. 1.
Figure 1.
Cohort definition. Individuals aged > 40 years who underwent their first lumbar spinal surgery between January 2005 and December 2008 were selected and followed-up until 2015. Among the 6473 patients identified, 173 patients who underwent the surgery in the previous 3 years (2002–2004, n = 75) and who had undergone lumbar spinal surgery for fractures, infections, tumors, or inflammatory disease (n = 98) were excluded. Therefore, a total of 6300 patients were enrolled, and 831 of them underwent revision surgery.
Variables
The operation codes were standardized to file claims for medical fees to the NHIS. Lumbar spine-related surgery included OD, laminectomy, PELD, and spinal fusion. The specific surgical level was not evaluated as the claims data did not specify the detailed surgical level. Thus, reoperation in this study was presumed to include surgery at both the index level and another lumbar level6. Reoperation was defined as lumbar surgery in the follow-up period after a diagnosis of lumbar degenerative disease. Variables were identified using the International Classification of Diseases, Tenth Revision (ICD-10) codes. Lumbar spine diseases included lumbar disc herniation (codes: M4720-9, M5410, M5412, M5413, M5419, and M511), lumbar spinal stenosis without spondylolisthesis (codes: M4800 and M4805-8), lumbar spinal stenosis with spondylolisthesis (codes: M431 and M4315), and lumbar spondylolysis (codes: M430 and M4306-9). Lumbar spine surgery included OD (code N1493), which contains medial lamino-facetectomy, biportal endoscopic discectomy, and biportal endoscopic decompression; laminectomy (codes: N1499 and N2499), PELD (code N1494); and spinal fusion (codes: N0466, N1466, N0469, N2470, N1460, and N1469).
Comorbidities were evaluated using the modified Charlson Comorbidity Index (CCI) presented by Quan et al.11 Coexisting disease was defined as three or more visits to an outpatient clinic or at least 2 days of hospitalization with a diagnosis specified following the Major Disease Code of the year of enrollment12. Age was divided into five groups: 40 s, 50 s, 60 s, 70 s, and ≥ 80 s. Residence was divided into 16 categories based on the registration address. Eligibility for health insurance was classified into six categories: 1, regional member household head; 2, regional member household member; 5, employee; 6, dependent of an employee; 7, household head; and 8, household member.
Insurance premiums were divided into 11 levels according to income, with the level increasing with increasing income. Participants were categorized according to smoking status as non-smoker (no smoking or a history of smoking with cessation) and current (active smoking). Alcohol use was categorized as no (do not drink) and yes (drink 2–3 times a month, 1–2 times a week, 3–4 times a week, and every day). The frequency of exercise was divided into three categories: 1 (no exercise), 2 (≥ 30 min, 1–2 times a week or 3–4 times a week), and 3 (≥ 30 min daily or 5–6 times a week).
Statistical analysis
Patient characteristics were presented as the mean ± standard deviation for continuous variables and the frequency (percentage) for categorical variables. The cumulative incidence and 95% confidence interval (95% CI) of reoperation were calculated using a nonparametric method. Pearson’s chi-square test was performed to investigate differences between the reoperation group and non-reoperation group. The significant influencing factors of reoperation were identified according to hazard ratios and 95% CIs obtained via univariate and multivariate Cox proportional hazard regression analyses. The covariates used for multivariate are sex, age, BMI, smoking, alcohol drinking, exercise, blood sugar, total cholesterol, hemoglobin, and CCI. All statistical analyses were performed using SPSS (version 23.0, SPSS, Chicago, IL, USA) and SAS (version 9.2, SAS, Cary, NC, USA). A P-value < 0.05 was considered statistically significant.
Results
Patient characteristics
A total of 6300 patients (3076 [49%] men and 3224 [51%] women) with a mean age of 60.5 ± 9.1 years were evaluated. The patients’ clinicodemographic characteristics are described in Table 1. Most of the patients were in their 60 s, followed by those in their 50 s, 70 s, and 40 s, with the minority being in their 80 s. Lumbar spinal stenosis with spondylolisthesis (61%) was the most common diagnosis, followed by lumbar disc herniation (28%), lumbar spinal stenosis without spondylolisthesis (7%), and lumbar spondylolysis (4%). The most common surgical approach was OD (43%), followed by spinal fusion (39%), laminectomy (14%), and PELD (4%).
Table 1.
Patient demographics.
| Category | Number |
|---|---|
| Sex | |
| Male | 3076 (49%) |
| Female | 3224 (51%) |
| Diagnosis | |
| Lumbar disc herniation | 1739 (28%) |
| Lumbar spinal stenosis without spondylolisthesis | 466 (7%) |
| Lumbar spinal stenosis with spondylolisthesis | 3840 (61%) |
| Lumbar spondylolysis | 255 (4%) |
| Surgical method | |
| Open discectomy | 2696 (43%) |
| PELD | 242 (4%) |
| Fusion | 2433 (39%) |
| Laminectomy | 929 (14%) |
| Age, years | |
| 40 ~ 49 | 908 (14%) |
| 50 ~ 59 | 2007 (32%) |
| 60 ~ 69 | 2272 (36%) |
| 70 ~ 79 | 1047 (17%) |
| 80 ~ | 66 (1%) |
| Residence | |
| Seoul | 940 (15%) |
| Pusan | 356 (6%) |
| Daegu | 248 (4%) |
| Incheon | 330 (4%) |
| Gwangju | 204 (3%) |
| Daejeon | 224 (4%) |
| Ulsan | 161 (3%) |
| Gyeonggi-do | 1212 (19%) |
| Gangwon-do | 244 (4%) |
| Chungbuk-do | 237 (4%) |
| Chungnam-do | 420 (7%) |
| Jeonbuk-do | 371 (6%) |
| Jeonnam-do | 420 (7%) |
| Gyeongbuk-do | 441 (7%) |
| Gyeongnam-do | 433 (6%) |
| Jeju-do | 59 (1%) |
| Insuracne eligibility | |
| 1 | 1254 (19%) |
| 2 | 861 (17%) |
| 5 | 1211 (18%) |
| 6 | 2834 (44%) |
| 7 | 111 (1.5%) |
| 8 | 29 (0.5%) |
| Health insurance premium | |
| Medical benefit | 140 (2%) |
| 1 | 392 (6%) |
| 2 | 365 (6%) |
| 3 | 384 (6%) |
| 4 | 479 (8%) |
| 5 | 480 (8%) |
| 6 | 625 (10%) |
| 7 | 645 (10%) |
| 8 | 727 (11%) |
| 9 | 981 (15%) |
| 10 | 1082 (18%) |
| BMI, kg/m2 | |
| < 20 | 345 (5%) |
| 20 < < 25 | 3320 (52%) |
| 25 < | 2635 (43%) |
| Smoking | |
| Yes | 1158 (18%) |
| No | 5142 (82%) |
| Alcohol drinking | |
| Yes | 2194 (35%) |
| No | 4106 (65%) |
| Exercise | |
| 1 | 3737 (59%) |
| 2 | 1846 (29%) |
| 3 | 717 (12%) |
| CCI | |
| 0 | 1650 (26%) |
| 1–2 | 3258 (51%) |
| ≥ 3 | 1392 (23%) |
| Blood sugar (mg/dl) | 100.49 ± 30.43 |
| Total Cholesterol (mg/dl) | 202.15 ± 38.14 |
| Hemoglobin (g) | 13.78 ± 1.44 |
PELD, Percutaneous endoscopic lumbar discectomy; BMI, Body mass index;
CCI, Charlson comorbidity index.
Comparisons between the no reoperation and reoperation groups
Reoperation was needed in 831 of the 6300 patients (13.2%). The overall 1-, 2-, 3-, 5-, and 11-year cumulative incidence rates of reoperation were 3.2%, 4.8%, 6.3%, 9.1%, and 13.2%, respectively. Table 2 shows the patient characteristics according to the occurrence of reoperation. In total, 453 of the 3076 male patients (14.7%) and 376 of the 3224 female patients (11.7%) underwent reoperation, with the rate being significantly higher in men than in women (P = 0.0004). Meanwhile, although the reoperation rates were higher, the difference did not reach significance in those with lumbar spinal stenosis with spondylolisthesis (14.3%) and those who underwent PELD as the first surgery (22.3%). However, the reoperation rates were significantly higher in the 60 s group than in the other age groups (15.5%, P = 0.0022), in smokers than in non-smokers (15.2% vs 12.7%, P = 0.0254), in alcohol drinkers than in non-alcohol drinkers (14.7% vs 12.4%, P = 0.0086), and in those with a high CCI score than in those with a low CCI score (CCI 0: 11.6%; CCI 1–2, 13.2%; CCI ≥ 3, 15%; P = 0.0202). The other factors did not show significant difference.
Table 2.
Comparisons between the No reoperation and reoperation groups.
| Category | No reoperation (n = 5469) | Reoperation (n = 831) | P-value |
|---|---|---|---|
| Sex | |||
| Male | 2623 | 453 (14.7%) | |
| Female | 2846 | 378 (11.7%) | 0.0004* |
| Diagnosis | |||
| Lumbar disc herniation | 1516 | 223 (12.8%) | |
| Lumbar spinal stenosis without spondylolisthesis | 440 | 26 (5.6%) | |
| Lumbar spinal stenosis with spondylolisthesis | 3291 | 549 (14.3%) | |
| Lumbar spondylolysis | 222 | 33 (12.9%) | 0.5272 |
| Surgical method | |||
| Open discectomy | 2323 | 373 (13.8%) | |
| PELD | 188 | 54 (22.3%) | |
| Fusion | 2163 | 270 (11.1%) | |
| Laminectomy | 795 | 134 (14.4%) | 0.4521 |
| Age, years | |||
| 40 ~ 49 | 804 | 104 (11.5%) | |
| 50 ~ 59 | 1771 | 236 (11.8%) | |
| 60 ~ 69 | 1921 | 351 (15.5%) | |
| 70 ~ 79 | 914 | 133 (12.7%) | |
| 80 ~ | 59 | 7 (10.6%) | 0.0022* |
| Residence | |||
| Seoul | 812 | 128 | |
| Pusan | 312 | 44 | |
| Daegu | 218 | 30 | |
| Incheon | 292 | 38 | |
| Gwangju | 179 | 25 | |
| Daejeon | 187 | 37 | |
| Ulsan | 143 | 18 | |
| Gyeonggi-do | 1053 | 159 | |
| Gangwon-do | 204 | 40 | |
| Chungbuk-do | 204 | 33 | |
| Chungnam-do | 369 | 51 | |
| Jeonbuk-do | 312 | 59 | |
| Jeonnam-do | 377 | 43 | |
| Gyeongbuk-do | 380 | 61 | |
| Gyeongnam-do | 372 | 61 | |
| Jeju-do | 55 | 4 | 0.4379 |
| Insuracne eligibility | |||
| 1 | 1078 | 176 | |
| 2 | 757 | 104 | |
| 5 | 1047 | 164 | |
| 6 | 2466 | 368 | |
| 7 | 94 | 17 | |
| 8 | 27 | 2 | 0.6406 |
| Health insurance premium | |||
| Medical benefit | 121 | 19 | |
| 1 | 344 | 48 | |
| 2 | 314 | 51 | |
| 3 | 340 | 44 | |
| 4 | 412 | 67 | |
| 5 | 422 | 58 | |
| 6 | 540 | 85 | |
| 7 | 548 | 97 | |
| 8 | 625 | 102 | |
| 9 | 857 | 124 | |
| 10 | 946 | 136 | 0.8635 |
| BMI, kg/m2 | |||
| < 20 | 306 | 39 (11.3%) | |
| 20 < < 25 | 2892 | 428 (12.9%) | |
| 25 < | 2271 | 364 (13.8%) | 0.3286 |
| Smoking | |||
| Yes | 982 | 176 | |
| No | 4487 | 655 | 0.0254* |
| Alcohol drinking | |||
| Yes | 1871 | 323 | |
| No | 3598 | 508 | 0.0086* |
| Exercise | |||
| 1 | 3250 | 487 | |
| 2 | 1616 | 230 | |
| 3 | 603 | 114 | 0.0627 |
| CCI | |||
| 0 | 1459 | 191 | |
| 1–2 | 2827 | 431 | |
| ≥ 3 | 1183 | 209 | 0.0202* |
| Blood sugar | 100.57 ± 30.60 | 99.96 ± 29.29 | 0.5929 |
| Total cholesterol | 202.29 ± 38.42 | 201.27 ± 36.27 | 0.4569 |
| Hemoglobin | 13.76 ± 1.44 | 13.90 ± 1.42 | 0.086 |
PELD, Percutaneous endoscopic lumbar discectomy; BMI, Body mass index;
CCI, Charlson comorbidity index.
*Statistically significant.
Cumulative number and incidence of reoperation
Table 3 shows the cumulative number and incidence of reoperation. The overall cumulative incidence of reoperation was 3.2% at 1 year, 4.8% at 2 years, 6.3% at 3 years, 9.1% at 5 years, and 13.2% at 11 years.
Table 3.
Cumulative number and incidence of reoperation.
| OD | Lami | PELD | Fusion | Total | |
|---|---|---|---|---|---|
| 3 month | 47 | 11 | 10 | 10 | 78 |
| 6 month | 78 | 15 | 12 | 23 | 128 |
| 1 year | 117 | 31 | 16 | 39 | 203 (3.2%) |
| 2 years | 161 | 54 | 22 | 67 | 304 (4.8%) |
| 3 years | 199 | 67 | 33 | 98 | 397 (6.3%) |
| 4 years | 234 | 88 | 37 | 126 | 485 (7.7%) |
| 5 years | 272 | 102 | 40 | 162 | 576 (9.1%) |
| 6 years | 310 | 111 | 45 | 191 | 657 (10.4%) |
| 7 years | 334 | 124 | 47 | 221 | 726 (11.5%) |
| 8 years | 352 | 127 | 50 | 243 | 772 (12.3%) |
| 9 years | 368 | 131 | 51 | 259 | 809 (12.8%) |
| 10 years | 373 | 134 | 54 | 270 | 831 (13.2%) |
OD, Open discectomy; Lami, Laminectomy; PELD, Percutaneous endoscopic lumbar discectomy.
Univariate and multivariate logistic regression analyses of factors influencing reoperation
The results of univariate and multivariate logistic regression analyses for the influencing factors of reoperation are shown in Table 4. Univariate logistic regression analysis identified hemoglobin count (P = 0.0251) and a CCI score of ≥ 3 as significant factors (P = 0.0188). However, only a CCI score of ≥ 3 was a significant factor in multivariate logistic regression analysis (P = 0.0208).
Table 4.
Univariate and multivariate logistic regression analyses of factors influencing reoperation.
| Variable | Univariable analysis | Multivariable analysis | |||||
|---|---|---|---|---|---|---|---|
| HR | 95% CI | P-value | HR | 95% CI | P-value | ||
| Sex | Female | 1 | − | − | 1 | − | − |
| Male | 1.191 | 0.908–1.561 | 0.2064 | 0.978 | 0.658–1.453 | 0.911 | |
| Age | 40 ~ 49 | 1 | − | − | 1 | − | − |
| 50 ~ 59 | 1.109 | 0.798–1.542 | 0.5365 | 1.084 | 0.776–1.515 | 0.6349 | |
| 60 ~ 69 | 1.251 | 0.868–1.803 | 0.2301 | 1.191 | 0.814–1.742 | 0.3672 | |
| 70 ~ 79 | 1.034 | 0.595–1.8 | 0.9045 | 1.017 | 0.573–1.805 | 0.9544 | |
| 80 ~ | 1.322 | 0.183–9.548 | 0.7818 | 1.477 | 0.199–10.951 | 0.7031 | |
| BMI | < 20 | 1 | − | − | 1 | − | − |
| 20 < < 25 | 1.272 | 0.667–2.424 | 0.4657 | 1.231 | 0.641–2.365 | 0.5332 | |
| 25 < | 1.448 | 0.755–2.778 | 0.2652 | 1.365 | 0.702–2.654 | 0.3594 | |
| Smoking | No | 1 | − | − | 1 | − | − |
| Yes | 1.204 | 0.893–1.624 | 0.2241 | 1.173 | 0.836–1.646 | 0.3553 | |
| Alcohol drinking | No | 1 | − | − | 1 | − | − |
| Yes | 1.099 | 0.844–1.43 | 0.4837 | 1.044 | 0.759–1.435 | 0.7918 | |
| Exercise | 1 | 1 | − | − | 1 | − | − |
| 2 | 0.79 | 0.587–1.062 | 0.1187 | 0.753 | 0.556–1.02 | 0.0674 | |
| 3 | 1.051 | 0.694–1.591 | 0.8142 | 1.023 | 0.673–1.554 | 0.9164 | |
| Blood sugar (mg/dl) | 1.002 | 0.997–1.006 | 0.4223 | 1 | 0.995–1.005 | 0.9936 | |
| Total Cholesterol (mg/dl) | 1 | 0.997–1.004 | 0.9437 | 1 | 0.996–1.003 | 0.8421 | |
| Hemoglobin (g) | 1.11 | 1.013–1.216 | 0.0251* | 1.12 | 0.993–1.262 | 0.0647 | |
| CCI | 0 | 1 | − | − | 1 | − | − |
| 1 ~ 2 | 1.243 | 0.912–1.692 | 0.1681 | 1.253 | 0.915–1.716 | 0.159 | |
| ≥ 3 | 1.616 | 1.083–2.412 | 0.0188* | 1.635 | 1.078–2.481 | 0.0208* | |
HR, hazard ratio; CI, confidence interval, PELD, Percutaneous endoscopic lumbar discectomy; BMI, Body mass index; CCI, Charlson comorbidity index.
*Statistically significant.
Discussion
Data on the influence of lifestyle-related factors, including smoking, drinking, and exercise, on the risk of reoperation after lumbar surgery are limited. This study found that male sex, older age, alcohol use, smoking, and a high CCI score increased the risk of reoperation. To our best knowledge, this study is the first to longitudinally evaluate the impact of lifestyle habits and comorbidities on the risk of reoperation after spine surgery.
There are several studies on reoperation after the first spine surgery4,6,7,13–15. Martin et al. assessed the rate of reoperation after decompression or fusion lumbar surgery using data of 26,675 patients registered in the Washington Administration database7. The cumulative incidence of reoperation was 19.0% over an 11-year follow-up period, and the reoperation rates did not differ according to diagnosis. Davis et al. reported that the average rate of reoperation after lumbar disc surgery was 6% over 10.8 years16. Vik et al.17 reported a reoperation rate of 24% over an 8-year follow-up period. Kim et al. showed an increasing trend in the cumulative reoperation rate after spine surgery in Korea in 2008, with the rate being 5.4% at 3 months, 7.4% at 1 year, 9% at 2 years, 10.5% at 3 years, 12.1% at 4 years, and 13.4% at 5 years4,6. In their consequent 10-year follow-up study, the overall cumulative incidence of reoperation after lumbar disc surgery was 4% at 1 year, 6% at 2 years, 8% at 3 years, 11% at 5 years, and 16% at 10 years18. Jung et al. similarly reported an increasing trend in the overall cumulative incidence of reoperation for spinal canal stenosis, with the rate being 3.7% at 1 year, 6.2% at 2 years, 8.3% at 3 years, 10.8% at 5 years, and 18.4% at 10 years19. In line with these findings, the overall cumulative incidence of reoperation in our study was 3.2% at 1 year, 4.8% at 2 years, 6.3% at 3 years, 9.1% at 5 years, and 13.2% at 11 years. Due to the use of NHIS-HEALS data, the reoperation rate was similar to those in other previous studies.
Several studies have proposed male sex as a risk factor for reoperation. Park et al.8 and Kim et al.18 reported higher rates of reoperation in men than in women. This could be because back pain is more common in male patients than in female patients20. Further, preoperative low back pain tends to be associated with worse surgical outcomes in patients with spinal disorders21. Consistently, we found significantly higher rates of reoperation in men than in women (14.7% vs 11.7%, P = 0.0004).
Several studies have published the reoperation rate according to the method of spine surgery. Martin et al.7 compared the rate of reoperation between fusion only and decompression only and found higher rates with the former approach (16.7% vs 15.8%). Kim et al. compared the 90-day reoperation rates among fusion, laminectomy, OD, endoscopic discectomy, and nucleolysis and found higher rates with laminectomy and lower rates with endoscopic discectomy than with OD. Meanwhile, there was no significant difference in the reoperation rate between the other surgical methods. Kim et al.18 also found a higher reoperation rate with PELD than with fusion, OD, and laminectomy. In the current study, the reoperation rate with PELD was 22.3%; laminectomy, 14.4%; OD, 13.8%; and fusion, 11.1%, with no significant differences.
Age is also proposed as a risk factor for reoperation. Kim et al.6 reported that age increases the risk of reoperation because of aging-related degenerative changes. In general, the reason for reoperation after spinal surgery is thought to be recurrence at the site of disc surgery or adjacent segment disease at the upper and lower levels or nonunion. Martin et al. compared the reoperation rates between patients aged ≤ 60 years and > 60 years and found significantly higher rates in those aged > 60 years7. Similarly, the rate of reoperation in our study was significantly higher in the 60 s group than in the other age groups. (P = 0.0022).
Alcohol use and smoking have been reported to influence the outcome of spinal reoperation22–25. In the study by Anderson et al.22, 51% and 33% of patients with and without recurrent lumbar disc herniation (LDH) were smokers, respectively. Importantly, smoking had a significant effect on the recurrence of LDH (P < 0.05). Fritzell et al.25 also reported that smoking is a risk factor for no improvement in leg pain after the first surgery. Passias et al.23 found that alcohol consumption more than two times a week was a risk factor for pseudoarthrosis after spine surgery and eventually led to reoperation. In contrast, Elsamadicy et al.24 reported that alcohol use had no effect on the 30-day readmission or complication rates after adult spinal deformity surgery. In our study, alcohol consumption and smoking were significant risk factors for reoperation. (P = 0.0086/P = 0.0254).
The associations between comorbid diseases and the risk of reoperation after spinal surgery have been investigated in several studies4,6,8,19. Kim et al.6 reported that the presence of comorbidities increased the risk of reoperation within 90 days of spinal surgery. Park et al.8 also showed that comorbid diabetes was an important risk factor for reoperation. Jung et al.19 reported a higher reoperation rate in patients with a CCI score of 1–2 than in patients with a CCI score of 0. In our study, there was a trend toward a significantly higher rate of reoperation with increasing CCI scores (P = 0.0202). A multivariate analysis revealed that CCI score ≥ 3 was the only risk factor for reoperation (P = 0.0208).
As with other nationwide big data studies, our research has some limitations. First, we used the NHIS-HEALS cohort and not the entire population. Second, clinical information about pain levels, neurological condition, quality of life, functional outcomes, radiographic findings, the complexity of the operation, and the reasons for reoperation was not available. Third, analyzing the rate of reoperation can underestimate or overestimate the rate of surgical failure. Fourth, reoperation included secondary spinal surgery that was not specifically performed at the index level. Fifth, this was not a randomized comparative study; the choice of surgical method might have varied according to surgeon and facility. Sixth, the findings from this patient population from a national database may not be generalizable to an international population. However, unlike the nationwide cohorts and sample cohorts used in previous big data studies, the NHIS-HEALS cohort includes information on lifestyle factors and certain blood parameters. This study identified further risk factors associated with lumbar spine reoperation.
In conclusion, we found that among Korean patients aged > 40 years who undergo lumbar spine surgery, 13.2% undergo reoperation within 11 years. Male sex, age in the 60 s, alcohol use, smoking, higher Hgb, and a high CCI score increased the risk of reoperation. This information will be beneficial for lowering reoperation rates in these patients.
Author contributions
All authors made substantial intellectual contributions to this study to qualify as authors. Noh and Kim contributed to the study design, acquisition of data, analysis of data, and interpretation of results. All authors read and approved the final manuscript.
Competing interests
The authors declare no competing interests.
Footnotes
Publisher's note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
References
- 1.Tian W, Lv Y, Liu Y, Xiao B, Han X. The high prevalence of symptomatic degenerative lumbar osteoarthritis in Chinese adults. Spine. 2014;39:1301–1310. doi: 10.1097/BRS.0000000000000396. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 2.Weinstein JN, et al. Surgical versus nonsurgical treatment for lumbar degenerative spondylolisthesis. N. Engl. J. Med. 2007;356:2257–2270. doi: 10.1056/NEJMoa070302. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 3.Kim, C., et al. Increased proportion of fusion surgery for degenerative lumbar spondylolisthesis and changes in reoperation rate: a nationwide cohort study with a minimum 5-year follow-up. Spine (Phila Pa. 1976). 44, 346–354 (2019). [DOI] [PubMed]
- 4.Kim CH, et al. Increased volume of surgery for lumbar spinal stenosis and changes in surgical methods and outcomes: a nationwide cohort study with a 5-year follow-up. World Neurosurg. 2018;119:e313–e322. doi: 10.1016/j.wneu.2018.07.139. [DOI] [PubMed] [Google Scholar]
- 5.Deyo RA, Martin BI, Kreuter W, Jarvik JG, Angier H, Mirza SK. Revision surgery following operations for lumbar stenosis. J. Bone Joint Surg. Am. 2011;93:1979–1986. doi: 10.2106/JBJS.J.01292. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 6.Kim, C.H., Chung, C.K., Park, C.S., Choi, B., Kim, M.J., Park, B.J. Reoperation rate after surgery for lumbar herniated intervertebral disc disease: nationwide cohort study. Spine (Phila Pa. 1976).38, 581–590 (2013). [DOI] [PubMed]
- 7.Martin, B.I., Mirza, S.K., Comstock, B.A., Gray, D.T., Kreuter, W., Deyo, R.A. Reoperation rates following lumbar spine surgery and the influence of spinal fusion procedures. Spine (Phila Pa. 1976).32, 382–387 (2007). [DOI] [PubMed]
- 8.Park MS, et al. Reoperation rates after posterior lumbar spinal fusion surgery according to preoperative diagnoses: a national population-based cohort study. Clin. Neurol. Neurosurg. 2019;184:105408. doi: 10.1016/j.clineuro.2019.105408. [DOI] [PubMed] [Google Scholar]
- 9.Kim M, Ko M, Han J. Alcohol consumption and mortality from all-cause and cancers among 1.34 million Koreans: the results from the Korea national health insurance corporation's health examinee cohort in 2000. Cancer Causes Control. 2010;21:2295–2302. doi: 10.1007/s10552-010-9656-9. [DOI] [PubMed] [Google Scholar]
- 10.Lee J, Lee JS, Park S, Shin SA, Kim K. Cohort profile: the national health insurance service-national sample cohort (NHIS-NSC) South Korea. Int. J. Epidemiol. 2017;46:e15. doi: 10.1093/ije/dyv319. [DOI] [PubMed] [Google Scholar]
- 11.Charlson ME, Pompei P, Ales KL, MacKenzie CR. A new method of classifying prognostic comorbidity in longitudinal studies: development and validation. J. Chronic Dis. 1987;40:373–383. doi: 10.1016/0021-9681(87)90171-8. [DOI] [PubMed] [Google Scholar]
- 12.Jang S, et al. Medical service utilization with osteoporosis. Endocrinol. Metab. 2010;25:326. doi: 10.3803/EnM.2010.25.4.326. [DOI] [Google Scholar]
- 13.Malter, A.D., McNeney, B., Loeser, J.D., Deyo, R.A. 5-year reoperation rates after different types of lumbar spine surgery. Spine (Phila Pa. 1976).23, 814–820 (1998). [DOI] [PubMed]
- 14.Martin BI, et al. Repeat surgery after lumbar decompression for herniated disc: the quality implications of hospital and surgeon variation. Spine J. 2012;12:89–97. doi: 10.1016/j.spinee.2011.11.010. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 15.Heindel P, et al. Reoperation rates following single-level discectomy. Global Spine J. 2016;6:s-1582971. doi: 10.1055/s-0036-1582971. [DOI] [Google Scholar]
- 16.Davis RA. A long-term outcome analysis of 984 surgically treated herniated lumbar discs. J. Neurosurg. 1994;80:415–421. doi: 10.3171/jns.1994.80.3.0415. [DOI] [PubMed] [Google Scholar]
- 17.Vik A, Zwart JA, Hulleberg G, Nygaard Ø. Eight year outcome after surgery for lumbar disc herniation: a comparison of reoperated and not reoperated patients. Acta Neurochir. (Wien) 2001;143:607–611. doi: 10.1007/s007010170066. [DOI] [PubMed] [Google Scholar]
- 18.Kim, C., et al. The long-term reoperation rate following surgery for lumbar herniated intervertebral disc disease: a nationwide sample cohort study with a 10-year follow-up. Spine (Phila Pa. 1976).44, 1382–1389 (2019). [DOI] [PubMed]
- 19.Jung, J., et al. The long-term reoperation rate following surgery for lumbar stenosis: a nationwide sample cohort study with a 10-year follow-up. Spine (Phila Pa. 1976).45, 1277–1284 (2020). [DOI] [PubMed]
- 20.Bressler, H.B., Keyes, W.J., Rochon, P.A., Badley, E. The prevalence of low back pain in the elderly: a systematic review of the literature. Spine (Phila Pa. 1976).24, 1813–1819 (1999). [DOI] [PubMed]
- 21.Jönsson, B., Annertz, M., Sjöberg, C., Strömqvist, B. A prospective and consecutive study of surgically treated lumbar spinal stenosis: Part II: five-year follow-up by an independent observer. Spine (Phila Pa. 1976).22, 2938–2944 (1997). [DOI] [PubMed]
- 22.Andersen SB, Smith EC, Støttrup C, Carreon LY, Andersen MO. Smoking is an independent risk factor of reoperation due to recurrent lumbar disc herniation. Global Spine J. 2018;8:378–381. doi: 10.1177/2192568217730352. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 23.Passias PG, et al. Alcoholism as a predictor for pseudarthrosis in primary spine fusion: An analysis of risk factors and 30-day outcomes for 52,402 patients from 2005 to 2013. J. Orthop. 2018;16:36–40. doi: 10.1016/j.jor.2018.12.011. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 24.Elsamadicy AA, et al. Impact of alcohol use on 30-day complication and readmission rates after elective spinal fusion (≥2 levels) for adult spine deformity: a single institutional study of 1010 patients. J. Spine Surg. (Hong Kong) 2017;3:403–410. doi: 10.21037/jss.2017.08.12. [DOI] [PMC free article] [PubMed] [Google Scholar]
- 25.Fritzell P, Knutsson B, Sanden B, Strömqvist B, Hägg O. Recurrent versus primary lumbar disc herniation surgery: patient-reported outcomes in the Swedish spine register Swespine. Clin. Orthop. Relat. Res. 2015;473:1978–1984. doi: 10.1007/s11999-014-3596-8. [DOI] [PMC free article] [PubMed] [Google Scholar]