INTRODUCTION
Low back pain (LBP) is the most frequent musculoskeletal symptom (MSD) among farmers, with a lifetime prevalence of 75%; LBP resulted in sick leave and reduced productivity [
1,
2]. Among farmers, LBP pain was most frequent (63.8%) compared to other body sites [
3]. This LBP may be classified into specific LBP, that may result from serious spinal pathologies (e.g., malignancies, infections, fracture, and radicular syndrome), and non-specific LBP (NSLBP), representing most cases of LBP and is not attributable to a recognizable specific cause [
2,
4].
A lumbar spinal X-ray examination is frequently conducted primarily in patients with NSLBP to assess presence of degenerative, congenital, and postural abnormalities associated with NSLBP, or to exclude specific causes of LBP with various red flags, including low weight, previous history of cancer, progressive neurology, violent trauma, and fever. Examination for these specific red-flag causes is conducted despite relatively low prevalence of specific LBP with further radiological evaluation (e.g., computed tomography or magnetic resonance imaging) to determine original disease course [
4]. Conversely, X-ray findings are often the sole objective results in assessing subjective symptoms of NSLBP, reflecting the need for a strategic clinical approach in lumbar X-ray examinations of NSLBP.
However, the role of X-ray examinations for determining etiology of NSLBP among farmers is unclear. In cross-sectional studies of large study populations, Schepper et al. [
5] and Cho et al. [
6] reported significant association between NSLBP and X-ray findings with respect to lumbar degenerative changes. Meanwhile, van Tulder et al. [
7] was unable to validate presence or absence of a causal relationship between radiographic findings and NSLBP.
Nonetheless, X-ray findings may provide the basis for diagnosis and management guidelines for NSLBP. We focused on elucidating the relationship between NSLBP and X-ray findings in Korean farmers as part of a strategic clinical approach: Farmers' Cohort for Agricultural Work-Related Musculoskeletal disorders (FARM).
RESULTS
Of 853 subjects (391 men, 444 women; mean age, 56.6±7.4 years) participating in the study, 340 (40.7%) reported NSLBP, defined as LBP more than 1 week or once a month with more than moderate degree of pain severity during the last year. In frequency order types of farming were: dry fields farming (39.9%), greenhouses farming (32.6%), rice farming (14.6%), and orchards farming (12.9%) (
Table 1). Chi-square analysis revealed NSLBP was significantly associated with sex (χ
2=23.3, p<0.001) and age (χ
2=4.54, p<0.05) (
Table 2).
Individual grades of X-ray findings are presented in
Table 3. A DHC of L4-5 and L5-S1 was observed in 23.6% and 36.6% of the subjects, respectively. The most common grade of DHC was grade 1 in L4-5 (13.5%) and L5-S1 (18.1%). Osteophyte formation was demonstrated in 83% of subjects; the most frequent grades were grade 1 (37.7%) and grade 2 (37.4%). Spondylolisthesis of L5 on S1 was demonstrable in 89 (10.7%) and was grade I in all cases. Lumbar scoliosis was noted in 41 subjects (4.9%). Spondylolysis was demonstrable in only five subjects and was excluded from further analysis.
According to the univariate analysis after adjusted for sex and age, DHC (L4–5, grade 4; L5–S1, grade 4) were independent risk factors of NSLBP. Osteophyte formation and spondylolisthesis were not associated with risk factors of NSLBP. Based on subsequent multivariate analysis, DHC (L5–S1, grade 4) remained independent risk factors of NSLBP (
Table 4).
DISCUSSION
This purpose of this study was to identify clinical usefulness of X-ray findings in NSLBP in Korean farmers, because even though an X-ray examination of the lumbar spine is routinely ordered for indication of NSLBP at the first visit, clinical usefulness during the diagnosis of NSLBP has not been proven. After reviewing the association between presence of LBP and X-ray findings, we found a close relationship between NSLBP and degenerative spinal change such as DHC.
Farmers are highly susceptible to LBP because agricultural activities involve exhaustive physical labor (e.g., lengthy hours, lifting, bending, twisting, pulling, pushing) that may induce spinal degenerative changes from a cumulative workload [
11,
12,
13]. Van Tulder et al. [
7] reported that degeneration, as defined by presence of DHC, osteophyte formation, and sclerosis, was associated with NSLBP. However, ORs were low (1.2–3.3), and the authors found no significant association between spinal degenerative changes and LBP. Torgerson and Gotter [
14] reported that osteophyte formation was not associated with LBP and that spondylolisthesis occurred more frequently in symptomatic than in asymptomatic patients. Kalichman et al. [
15] found that spondylolisthesis was not associated with LBP in an adult community-based population. Results of several studies were not consistent and did not consider overall X-ray findings. This study was designed to include general consideration of X-ray findings to determine any association with LBP throughout.
In a cross-sectional lumbar magnetic resonance imaging study for machine drivers, carpenters and office workers, LBP was associated with signs of disc degeneration and sciatic pain with posterior disc bulges [
16]. In this study using simple X-ray examination, DHC (L5–S1) was more common than DHC (L4–5) in Korean farmers, and DHC (L5–S1, grade 4) remained an independent risk factor of NSLBP among X-ray findings. Other X-ray findings such as osteophyte formation, spondylolisthesis and scoliosis were not associated with NSLBP. Additionally, lower spinal segments such as L4, L5 and S1 were assessed in evaluating DHC, osteophyte formation and spondylolisthesis in this study, because of their vulnerable apex area of lumbar spine to mechanical force [
17,
18]. If considering cost-effectiveness, our study found benefits of X-ray of the lower segment of the lumbar spine in identifying clinical usefulness in diagnosis and prediction of NSLBP.
Ozguler et al. [
19] reported prevalence of LBP lasting at least one day in the previous 6 months was 45% among non-farming workers from offices, hospitals, warehouses, and airport registration sites for luggage, suggesting prevalence of LBP differs based on definition of this condition. Holmberg and Thelin [
20] reported that frequency of low back issues during the year before the survey was 43.7% in a rural population, but provided no definition with respect to pain duration or frequency. Our definition for presence of LBP was back pain longer than 1 week or more frequent than once a month with more than moderate degree of pain severity during the last year. As a result, 40.7% of subjects complained of LBP after exclusion of individuals with the expected causes of specific LBP, and were subsequently defined as having NSLBP. Given the stricter definition of LBP in this study, incidence of LBP in farmers was slightly lower than in non-farmers or other farmer groups.
To verify association of demographic factors with NSLBP, chi-square analysis was conducted. Results revealed presence of NSLBP was related to younger farmers and female farmers. To validate clear association between NSLBP and X-ray findings, we adjusted results of the regression analysis of age and sex.
In general, men participate in managing heavy physical workloads, material handling, and whole-body vibration, and thus the fraction of LBP in men is higher than in women [
12]. However, in this study, the fraction of LBP in women was higher than in men. If the self-reporting of LBP is considered, this finding may potentially be regarded as the result of a perceived cultural tendency of Korean women to falsely claim illness. However, objective findings that women revealed a higher definite risk factor of DHC (L5–S1) with additional findings of spondylolisthesis, and scoliosis as compared to men support a higher prevalence of NSLBP in women. Korean farming work is typically labor intensive, especially for women. Women usually perform open field work on inclined farmland in a squatting position for a lengthy duration, while men operate agricultural machines in a standing position.
In addition to sexual attribution to NSLBP, a previous systematic review considering age effects on LBP reported prevalence of LBP in the geriatric population is not known with certainty but is not comparable with that in the younger population [
21]. The 1-year incidence of first attacks of LBP was 11% among 30-year-olds and decreased in older age groups [
22]. If a farmer is older than 65, his/her work activities may be reduced because of limited physical function, reflecting higher impact of workload on development of LBP.
The lumbar spinal structure is composed of bone, ligaments, facet joints, vertebral periosteum, paravertebral musculature and fascia, annulus fibrosis, and the spinal nerve [
23], and back pain in the lumbar soft tissue is common [
12]. To diagnose NSLBP, a physical examination (e.g., inspection, palpation, observation, and neuromuscular evaluation) should conducted prior to X-ray examination because of limited clinical meanings of X-ray findings, that may function as an additive tool in primary care setting for NSLBP.
This study only focused on lumbar X-ray findings regarding NSLBP. NSLBP of Korean farmers revealed significant association with spinal degenerative changes such as DHC (L5-S1). However, to treat NSLBP effectively, establishment of a correct diagnosis at initial presentation is imperative [
24]: an additive diagnostic process (e.g., detailed physical examination or obtaining patient's history) for NSLBP in the primary care setting to determine non-bony origin of pain. Further study including overall diagnostic examinations may be need in the future. DHC was determined based on empirical standard if disc height of just above level was not normal, there may be bias of personalized experiences.
In conclusion, NSLBP was significantly associated with female and younger farmers in demographic consideration, and with lumbar disc degenerative changes in objective consideration. In a clinical setting lumbar disc degenerative changes may be useful in diagnosing and setting a treatment plan in NSLBP.