The patient-rated Core Outcome Measures Index (COMI) assesses the multidimensional impact of back problems on the sufferer. The brevity and comprehensibility of the tool make it practical for use in clinical and research settings. Although the COMI has been cross-culturally adapted in various languages worldwide, there is currently no Japanese version. The aim of this study was to develop a Japanese version of the COMI by: (1) performing a cross-cultural adaptation of the English version and (2) evaluating the psychometric properties of the Japanese version of the COMI in Japanese volunteers with chronic back problems.
Methods
The English version of the COMI was cross-culturally adapted for the Japanese language using established guidelines. The pre-final version was pilot-tested in five Japanese-speaking patients with low back pain (LBP) and a history of spine surgery. The psychometric properties of the Japanese COMI were tested in a group of 1052 individuals with chronic LBP (LBP ≥3 months), aged 20–69 years, who were recruited through a web-based survey. The psychometric properties that were evaluated included convergent and known-group validity, using the following reference questionnaires: EuroQol 5 Dimension, Roland Morris Disability Questionnaire, Short Form 8™ Health Survey, and the Keele STarT Back Screening Tool.
Results
The pre-final version of the cross-culturally adapted Japanese COMI was completed without any major problems of understanding or acceptability. For the evaluation of its psychometric properties, tests for convergent validity showed moderate correlations between COMI items and the respective reference questionnaires for symptom-specific well-being [− 0.33–−0.48] and disability domains [0.48] and strong correlations (> 0.5) for the other domains and the COMI summary score. The analysis of known-group validity showed a linear trend for the COMI score in relation to prognostic risk (P < 0.001).
Conclusions
The Japanese COMI retained conceptual equivalence to the original using comprehensible and acceptable Japanese expressions. We developed a Japanese version of the COMI that displayed qualities that support its convergent and known-group validity. The availability of a Japanese version of the COMI should allow for improved documentation of the care provided to patients with back problems.
Low back pain (LBP) is a common, disabling health problem. Although its prognosis is mostly benign [1], 2–7% of patients develop chronic LBP [2]. Since chronic LBP affects patients’ lives beyond physical pain and disability, assessments that encompass multidimensional self-reported outcomes are required for documenting the impact of LBP and the response to treatment.
The Core Outcome Measures Index (COMI) was developed to evaluate the multidimensional impact of LBP. It was based on a set of single questions (concerned with pain symptoms, function, symptom-specific well-being, and disability) that had been recommended for use by an expert group [3]. These items, and an additional question on general quality of life, were subsequently put together and validated as an index [4]. With established reliability, validity, and responsiveness [4‐7], the brief but comprehensive coverage of the COMI alleviates response burden on patients, rendering the COMI a practical tool in clinical and research settings.
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Since its initial development, the availability and use of the COMI has expanded: it has been cross-culturally adapted for an array of different languages, and these language versions have displayed good psychometric properties [4‐6, 8‐11]. It has also been modified for use in patients with neck problems [7, 12]). To date, however, no Japanese version has been developed. In order to apply this parsimonious and practical tool in Japanese clinical settings, a need was seen for the COMI to be cross-culturally adapted for use in Japanese patients. The availability of a Japanese version of the COMI would promote the wider use of the questionnaire and allow for improved documentation of care in Japanese patients with back problems.
The aim of this study was to develop a Japanese version of the COMI by: (1) performing a cross-cultural adaptation of the English version and (2) evaluating the psychometric properties of the Japanese version of the COMI in volunteers with chronic back problems, resident in Japan.
Methods
The English version of the COMI was cross-culturally adapted for the Japanese language, in accordance with previously published guidelines [13, 14], and its psychometric properties were evaluated in data collected in a cross-sectional survey. Ethical approval was obtained from the ethical committee of The University of Tokyo [Approval number: 10665-(1)]. All participants in the survey gave their consent electronically and were compensated with vouchers (e.g., shopping points). No personally identifiable information was collected.
COMI
COMI comprises seven items: back pain, leg/buttock pain, function, symptom-specific well-being, general quality of life, social disability, and work disability. All items refer to the last week, except for the two disability items (past 4 weeks). Back and leg/buttock pain are rated on separate 10-point graphic rating scales; the other items are responded to using a 5-point scale. A higher score indicates a worse status.
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Scores are calculated for each domain and for the summary score [15]. For the latter, the higher score of the back or leg/buttock pain is first taken as the pain domain score. Then, the other item scores are converted from their 5-point scales into a 0 to 10-point range using increments of 2.5 (0, 2.5, 5.0, 7.5, 10.0). Social and work disability scores are averaged to form one disability domain score. Averaging the five domain scores (now each scored 0–10) — pain, function, symptom-specific well-being, general quality of life, and disability — yields a summary score ranging from 0 to10 (best to worst health status) [4, 6].
The Japanese COMI questions were supplemented with another question to identify the predominant problem [16], using an item from the Spine Tango patient self-assessment form [17]. This independent item is not included in the COMI scoring [16]. The item enquires as to which problem is the most troublesome (back pain, leg pain, sensory disturbances, or other).
Cross-cultural adaptation
Translation and synthesis
Two native Japanese speakers (an expert in the measured concept and clinical contents of the questionnaire and a layperson not familiar with the concept) independently translated the original version into Japanese. Their different profiles and backgrounds were expected to enhance conceptual and semantic equivalence. The two translations were compared with each other and with the original. After any discrepancies were resolved by discussion and consensus, the two translations were synthesized into one Japanese consensus version.
Back-translation
Two native English speakers blinded to the original English version and not familiar with the concepts independently back-translated the Japanese consensus version into English.
Expert committee
Two forward-translators, one methodologist (a researcher with experience in cross-cultural adaptations), and one clinician constituted an expert committee to produce a pre-final version of the Japanese COMI by consolidating all the translated versions in close contact with the developer of the COMI and the back translators. The committee members reviewed and discussed all the translations to assure semantic and conceptual equivalence between the original and translated versions. All the processes and rationales involved prior to reaching a consensus were documented in written form.
Pilot-test
Five Japanese-speaking patients with LBP and a history of spine surgery completed the pre-final version. After completion, the patients were debriefed regarding their general comments on the instrument and their understanding of the questions, to confirm comprehensibility and conceptual equivalence. Debriefing results were reviewed and the findings were used in producing the final version of the Japanese COMI.
Psychometric validation
Participants
Evaluation of the psychometric properties of the Japanese COMI was carried out in individuals with chronic LBP, aged 20–69 years. We recruited participants through a web-based survey outsourced to the Internet research company, IDEA PROGGET Co., Ltd. (Tokyo, Japan). Any individual residing in Japan who is aged ≥15 years and is interested in online surveys can register themselves with the research company and can freely choose whether they wish to participate in a given survey, based on the invitation emails distributed by the research company. Figure 1 depicts the recruitment flow of the participants; 630,000 in the eligible age range were randomly selected from the registered individuals and invited to participate in the initial screening survey. Those individuals interested in the survey (n = 100,149) were screened for age and the presence of chronic LBP (defined as LBP lasting for ≥3 months) with severity graded as follows: I, no interference with everyday activities; II, interference with everyday activities but no absence from social activities including work, housework, and school; or III, interference with social activities, leading to absence from social activities [18]. Patients with LBP caused by cancer, inflammation, aneurysm, urolithiasis, or fracture were excluded. The screening yielded 37,015 participants satisfying the admission criteria.
Fig. 1
Participant recruitment flow for the Japanese COMI validation study. a Of the whole registrants to the Internet research company, 630,000 in the eligible age range (20–69 years) were randomly invited to participate in the screening survey. b Screening respondents were considered eligible for the survey if they had chronic LBP (LBP lasting for ≥3 months) with severity graded as follows: I, no interference with everyday activities; II, interference with everyday activities but no absence from social activities including work, housework, and school; or III, interference with social activities, leading to absence from social activities [18]; but without LBP caused by cancer, inflammation, aneurysm, urolithiasis, or fracture. c Eligible participants were randomly selected based on computer-generated randomization sequences, stratified by sex and LBP severity, in order to obtain an equal number of males and females in each severity group. A total of 1787 eligible participants who were registered at the time of our survey were invited to take part in the study; 13 patients who withdrew registration to the panel after the screening were not invited
×
After the screening, eligible participants were randomly selected based on computer-generated randomization sequences, stratified by sex and LBP severity, in order to obtain an equal number of males and females in each severity group. A total of 1787 eligible participants who were registered at the time of our survey were invited to take part in the study; 13 patients who withdrew registration to the panel after the screening were not invited. Those who were interested in the invitation responded to the questionnaire battery of their own free will.
Questionnaire battery
The questionnaire battery included questions regarding sociodemographic and clinical characteristics, the Japanese COMI, the EuroQol 5 Dimension (EQ-5D) [19], the Roland Morris Disability Questionnaire (RDQ) [20], the Short Form 8™ Health Survey (SF-8) [21], and the Keele STarT Back Screening Tool (STarT) [22] [Table 1].
Five questions related to the psychological factors constitute the sub-score
5-point Likert and Dichotomous (agree or disagree)
9
0–9e
Summary, Pain, Function, Disability
aCalculated using the value set for the Japanese population [34]. The score of 1 denotes “full health” and 0 “death”
bThe score of 0 indicates worst imaginable health state and 100 best possible health state
cA higher score indicates greater disability
dCalculated based on a norm-based scoring method given in the instrument guidelines [21]. A higher score indicates better health
eA total score of 0–3 indicates low prognostic risk; a total score of ≥4 with sub score of ≤3, medium prognostic risk; sub score of ≥4, high prognostic risk
EQ-5D: the EuroQol 5 Dimension; VAS: visual analogue scale; RDQ: Roland Morris Disability Questionnaire; SF-8: Short Form 8™ Health Survey; PCS: physical component summary; MCS: mental component summary; STarT: the Keele STarT Back Screening Tool
Statistical analysis
The sociodemographic and clinical characteristics of the participants were summarized descriptively. To evaluate the ability of the Japanese COMI to capture the full range of the impact of LBP, we assessed floor and ceiling effects (percentage of individuals reporting worst and best status, respectively) for each COMI item and domain, for the COMI summary score, and also for the other questionnaires. Floor effects were considered present if > 15% of the participants achieved the worst status, and ceiling effects were considered present if > 15% of the participants achieved the best status [23].
The validity of the Japanese COMI was evaluated in terms of convergent validity and known-group validity. For convergent validity, the degree of correlation between each COMI domain or the COMI summary score with the reference questionnaire measuring the same or similar traits was measured using Spearman rank correlation coefficients. We considered a correlation coefficient of 0.1 as weak, 0.3, moderate, and 0.5, strong [24]. The correlation between the COMI and the corresponding reference questionnaires was expected to be strong [Table 1].
Known-group validity was evaluated by examining whether the COMI scores differed among the STarT prognostic risk groups. Participants were stratified into three risk groups based on the total score of the 9 questions and on the sub-score for the 5 psychological questions of the STarT: low risk (total score of 0–3), medium risk (total score of ≥4 with sub-score of ≤3), and high risk (sub score of ≥4) groups [22]. We used the Jonckheere-Terpstra test [25, 26] to test for a trend in the COMI summary score in association with the prognostic risk level. The non-parametric Jonckheere-Terpstra test evaluates the difference between the scores for a continuous variable among defined groups, taking the ordering of the groups (prognostic risk levels, in this study) into account.
Although not typically considered appropriate for multidimensional indexes [27], for the purposes of comparison with other language versions we assessed internal consistency of the Japanese COMI using the standardized Cronbach’s alpha, whereby coefficients above 0.7 are usually considered acceptable [28].
The Jonckheere-Terpstra test was one-sided and the other tests were two-sided. The significance level was set at 0.05. Data were analyzed using SAS software version 9.4 (SAS Institute, Inc., Cary, NC, USA).
Results
Cross-cultural adaptation
Translation
The following few items required modification in the forward translations: “pins and needles” (in the questionnaire instruction and “location of the main problem” item), “recreational activities” (social disability), “moderately” (response option of function), and “none” (response option of social and work disability). The concepts of “pins and needles” and “recreational activities” do not fully correspond to any concise Japanese expressions. For “moderately” and “none”, the literal forward-translations to reflect the equivalent order and intervals between the original response options were considered to make the translations unnatural to the respondents. We sought expressions that would retain the original concepts and at the same time be familiar to Japanese speakers. The former two were back-translated as follows: “pins and needles” as “prickling sensation”, and “recreational activities” as “engaging in hobbies, and recreation” or “vocational activities, or amusement activities”. For each of the response options (“moderately” and “none”), we left two tentative translations (back-translations: “moderately” and “somewhat” for “moderately”; and “none” and “0 days” for “none”), with the aim of selecting the most natural expression based on the pilot-test results (see below).
Pilot-test
All five Japanese LBP patients answered the pre-final version of the Japanese COMI without major problems in relation to comprehensibility and acceptability. Of the tentative options for “moderately” and “none”, we adopted expressions that back-translated as “moderately” and “none”, respectively, for the final version, based on the participants’ preferences and the conceptual equivalence to the original [Additional file 1].
Psychometric validation
A total of 1052 participants completed the questionnaires (Fig. 1). Completion of the web survey required answers to all questions and thus there were no missing data. The mean (standard deviation [SD]) age of the participants was 48.3 (12.6) years [Table 2]; 63.5% were male and 67.9% had non-specific LBP. LBP severity was evenly distributed among the three grades, I to III (about 33% each), as intended. In total, 79.4% individuals had had LBP for more than 18 months, but 60.8% had not taken any sick leave and 75.2% were not currently receiving any treatment for LBP.
Table 2
Demographic and clinical characteristics of the participants (n = 1052)
Characteristics
n (%)
Sex
Male
668 (63.5)
Age, year (mean ± SD)
48.3 ± 12.6
LBP before this episode
Yes
869 (82.7)
Duration of current episode
≥3–< 6 months
62 (5.9)
≥6–< 12 months
79 (7.5)
≥12–< 18 months
76 (7.2)
≥18 months
835 (79.4)
Severity of LBP
Grade Ia
351 (33.4)
Grade IIb
353 (33.6)
Grade IIIc
348 (33.1)
Normal work
Regular employee
405 (38.5)
Contract employee
171 (16.3)
Temporary employee
27 (2.6)
Business owner
76 (7.2)
Helping family business
8 (0.8)
Home worker
22 (2.1)
Student
3 (0.3)
Homemaker
136 (12.9)
Unemployed
178 (16.9)
Other
26 (2.5)
Length of current sick leave
Not on sick leave
640 (60.8)
< 1 month
289 (27.5)
≥1–< 3 months
42 (4.0)
≥3–< 6 months
20 (1.9)
≥6–< 12 months
12 (1.1)
≥12–< 18 months
5 (0.5)
≥18 months
44 (4.2)
Educational level
Junior High school
31 (2.9)
Secondary education
545 (51.8)
University education
427 (40.6)
Higher degree
46 (4.4)
Others
3 (0.3)
Type of work
Sedentary
477 (45.3)
Physical
198 (18.8)
Others
377 (35.8)
Current treatment for LBP
Yes
261 (24.8)
Radiation of current pain
To the buttock or thigh but not to the knee
182 (17.3)
To the buttock, thigh, shin and feet
156 (14.8)
No
714 (67.9)
Non-specific/Specific LBP
Non-specific
714 (67.9)
Disc herniation, spinal stenosis or both
121 (11.5)
Other cause of radiation of pain
217 (20.6)
Pain location (COMI)
Low back pain and back pain
499 (47.4)
Leg/buttock pain
133 (12.6)
Sensory disturbances (back, leg or buttocks)
163 (15.5)
Other
257 (24.4)
Data are presented as n (%), unless otherwise specified
There were no missing data since the survey completion required answers to all questions
aNo interference with everyday activities
bInterference with everyday activities but not with social activities including work, housework, and school
cInterference with social activities including work, housework, and school
SD: standard deviation; LBP: low back pain; COMI: core outcome measure index
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Floor and ceiling effects
Table 3 shows the floor effects (worst status) and ceiling effects (best status) for the COMI and the reference questionnaires. The social and work disability items showed particularly high percentages for ceiling effects (72.5% and 82.9%, respectively).
Table 3
Scores and distribution of the Japanese COMI and reference questionnaires
Scale/Domain
mean (SD)
Median
Range Min–Max
Floor effect (worst status) (%)
Ceiling effect (best status) (%)
COMIa
Back Pain
3.7 (2.6)
3.0
0–10
1.5
12.4
Leg Pain
2.6 (2.7)
2.0
0–10
1.1
33.3
Pain
4.0 (2.7)
4.0
0–10
1.8
10.7
Back Function
2.5 (2.5)
2.5
0–10
2.6
36.5
Symptom-specific well-being
6.6 (3.1)
7.5
0–10
28.8
8.1
QOL
5.0 (2.4)
5.0
0–10
6.1
5.9
Social Disability
1.1 (2.3)
0.0
0–10
3.3
72.5
Work Disability
0.8 (2.0)
0.0
0–10
2.6
82.9
Summary Score
3.7 (1.8)
3.6
0–8.8
0.0
2.9
EQ-5D
Summary Score
0.8 (0.2)
0.8
−0.111–1.000
0.3
34.7
VAS
66.8 (22.8)
70.0
0–100
0.1
2.5
RDQa
4.0 (5.5)
2.0
0–24
0.8
35.5
SF-8
PCS
45.1 (8.7)
46.1
11.97–63.53
0.0
0.0
MCS
46.0 (8.6)
47.5
11.53–65.09
0.0
0.0
STarTa
2.7 (2.4)
2.0
0–9
2.7
21.9
Total
Sub score (psychological)
1.5 (1.5)
1.0
0–5
5.5
35.5
COMI: Core Outcome Measures Index; SD: standard deviation; QOL: quality of life; EQ-5D: the EuroQol 5 Dimension; VAS: visual analogue scale; RDQ: Roland Morris Disability Questionnaire; SF-8: Short Form 8™ Health Survey; PCS: physical component summary; MCS: mental component summary; STarT: the Keele STarT Back Screening Tool
aHigher score indicates worse status; lower score indicates better status
Validity and internal consistency
Convergent validity was evaluated by assessing the correlations between the Japanese COMI scores and the scores on the relevant reference questionnaires that measure the same or similar constructs. All the COMI domain scores and the COMI summary score correlated significantly with the respective reference questionnaires [Table 4]. Correlation coefficients met the expectation of indicating strong correlations (≥0.5) for all except for symptom-specific well-being (− 0.48 and − 0.33 with SF-8 physical component summary and mental component summary, respectively) and the disability domains (0.48 with STarT total), which indicated just moderate correlations. Correlations between the COMI summary scores and all the reference questionnaires were the strongest (− 0.52 to − 0.72).
Table 4
Correlationsa between the COMI and the related questionnaires and domains
COMI
Pain
Function
Symptom-specific well-being
QOL
Disability
Summary
EQ-5D Summary index
−0.60
−0.58
−0.54
− 0.60
− 0.48
− 0.72
RDQ
0.64
0.63
0.52
0.52
0.54
0.71
SF-8 PCS
−0.55
−0.62
−0.48
− 0.50
−0.43
− 0.66
SF-8 MCS
−0.36
− 0.46
−0.33
− 0.54
−0.34
− 0.52
STarT Total
0.63
0.60
0.53
0.57
0.48
0.71
STarT Sub score (psychological)
0.56
0.56
0.50
0.55
0.43
0.67
All the correlations were significant (P < 0.001)
aSpearman Rank correlation coefficients
COMI: Core Outcome Measures Index; QOL: quality of life; EQ-5D: the EuroQol 5 Dimension; RDQ: Roland Morris Disability Questionnaire; SF-8: Short Form 8™ Health Survey; PCS: physical component summary; MCS: mental component summary; STarT: the Keele STarT Back Screening Tool
The known-group validity was evaluated by comparing the COMI summary score among the low, middle, and high risk groups as measured with the STarT. The median COMI summary score was higher in the groups with higher prognostic risk (median [25th–75th percentile]: 3.1 [2.0–3.9], 4.6 [4.0–5.5], and 6.2 [5.2–7.1] in low, middle, and high prognostic risk groups, respectively) and demonstrated a significant, positive linear relationship with the prognostic risk level [Fig. 2] (P < 0.001, Jonckheere-Terpstra test).
Fig. 2
Box plots of the COMI summary score by prognostic risk groups(a). a Participants were stratified into three prognostic risk groups based on the total score of the 9 questions and on the sub score for the 5 psychological questions of the STarT: low risk (total score of 0–3), medium risk (total score of ≥4 with sub score of ≤3), and high risk (sub score of ≥4) groups [21]. COMI: core outcome measures index; STarT: the Keele STarT Back Screening Tool
×
Cronbach’s alpha for the Japanese version of the COMI was 0.82.
Discussion
This study aimed to develop a Japanese version of the COMI. The cross-cultural adaptation process generated a Japanese version of the COMI that retained conceptual equivalence to the original, using comprehensible and acceptable Japanese expressions. Using a very large sample obtained from the general Japanese population, analyses of the psychometric properties of the Japanese COMI substantiated its validity.
We translated and linguistically validated the Japanese COMI based on published guidelines [13, 14], which facilitate a cross-cultural adaptation that retains equivalence to the original version. In the pilot test, all patients answered the Japanese COMI without any major problems regarding understanding or acceptability of the instrument. This suggests that the content of the Japanese COMI is equivalent to that of the original English version and uses expressions that are acceptable for Japanese patients.
Particularly high percentages for ceiling effects were observed for the social and work disability items. Other language versions [4, 5, 8‐10] have also reported high percentages for ceiling effects for the disability domain or its items, although in none of these studies were the effects as pronounced as in the present study. The high percentages for ceiling effects that we documented may reflect the relatively low severity of LBP of the volunteers involved in the present study compared with those in previous studies: the proportion of individuals with no sick leave was 40% and 32.9% in Italian [10] and French [9] studies, respectively; and the mean (SD) RDQ scores were 13.5 (5.6), 11.7 (5.7), 10.5 (6.3), and 11.6 (5.1) in German [4], Brazilian-Portuguese [8], Italian [10], and French [9] studies, respectively. In the present study, recruitment did not take place in hospitals or clinics, but was done online and included more individuals with less severe LBP that did not require treatment or sickness leave. The potential consequences of high floor and ceiling effects are that they can render an instrument unresponsive, since transitions to even more extreme statuses are not measurable. However, both German [4] and Spanish versions [5] of the COMI have been shown to be responsive (effect size: 0.95 (for the response 6 months after surgical or conservative treatment) in German [4] and 1.04 (for the response after surgery) in Spanish versions [5]), despite relatively large floor/ceiling effects of > 15% (floor effects for symptom-specific well-being (49.6%) and disability (18.5%) in the German version [4], and for back function (40.3%), symptom-specific well-being (64.9%), and disability (38.3%) in the Spanish version [5]; and ceiling effects for back function (31.2%) and disability (29.8%) in the German version [4]). Hence, the influence of large ceiling effects on the responsiveness of the Japanese COMI summary score might also be expected to be limited.
In the assessment of convergent validity, consistent with previous validation studies [4, 5, 8‐11] the Japanese COMI correlated strongly with the relevant reference questionnaires that measure the same or similar constructs. The disability domain correlated strongly with RDQ, which specifically reflects physical disability, but less strongly with STarT total. This corroborates the convergent validity of the COMI disability domain as a measure specifically targeting physical disability and correlating only moderately with STarT, which incorporates both physical disability and psychological factors. Despite the only moderate correlation with the COMI disability domain, the STarT total score (i.e., covering both physical and psychological aspects) correlated strongly with the COMI summary score, which reflects the influence of the back problem on many domains, substantiating the multidimensionality of the COMI. Finally, the scores for symptom-specific well-being correlated only moderately with the SF-8 physical component summary (PCS) and mental component summary (MCS) scores. Other language versions also reported relatively weak correlations between symptom-specific well-being and quality-of-life reference scales [5, 9, 10]. It was considered that this item may measure a particularly unique concept that differs from “quality of life”.
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A previous study reported a linear increase in the number of LBP-related absences across the STarT risk groups [29]. Assuming that the number of absences reflects the impact of the back problem, in the same way that the multidimensional COMI score does, we also expected the COMI score to differ across the STarT prognostic risk levels. We hence evaluated known-group validity by examining the COMI scores for each of the prognostic risk levels. The result demonstrated a clear trend for a risk-associated increase in the COMI summary score. The trend suggests that the Japanese COMI is sensitive enough to reflect the level of prognostic risk.
For the purposes of comparing with other language versions, we calculated Cronbach’s alpha (internal consistency) for the Japanese version of the COMI. With a value of 0.82 it was similar to the values (0.75–0.92) reported for other language versions [4, 5, 11]. However, given that the COMI was originally designed as a multidimensional index (rather than a unidimensional scale), it is not actually considered necessary or even appropriate to determine its internal consistency [27].
There are some limitations to be considered when interpreting our findings. First, the number of subjects included in the pilot test of the pre-final version of the Japanese COMI may be considered small. However, 5–8 patients can probably be considered sufficient for pilot testing to assess issues and concerns regarding comprehensibility and conceptual equivalence, based on the recommendations of International Society for Pharmacoeconomics and Outcomes Research (ISPOR) to conduct cognitive debriefing in 5–8 persons [30]. Further, in usability studies it has been shown that testing in 5 persons gives you a grasp of problems, whereas much new is not observed after the 5th person [31‐33]. We had intended to add more patients for further interview if major problems arose in the small group, which seemed not to be the case for this study. Second, the generalizability of the present results may be limited. Due to the nature of the online recruitment, some groups of individuals may be under-represented (e.g., those without access to the Internet) and others over-represented (e.g., those with a greater motivation to participate). Moreover, the present validation study limited participation to individuals aged 20–69 years with chronic LBP (≥3 months). Third, the study did not validate the “worst problem” item from the Spine Tango patient-assessment form, incorporated into our questionnaire battery. There may remain a need for future validation of the Japanese version of this single item, which is independent of the COMI summary score calculation. Finally, this study did not evaluate the test-retest reliability of the Japanese COMI. We first wanted to ensure that the Japanese COMI would measure what it was intended to measure, i.e. showed construct validity, to consolidate the ground for future examinations of its consistency and test-retest reliability. Further assessments of reliability are warranted prior to the use of the Japanese COMI in actual clinical or research settings.
Conclusions
We developed a Japanese version of the COMI that displayed qualities that support its convergent and known-group validity. The Japanese COMI represents a practical tool to capture the multidimensional impact of chronic LBP in Japanese patients. The availability of a Japanese version should facilitate the widespread use of the COMI and promote the standardization and accumulation of data, allowing improved documentation of the care received by patients with chronic LBP.
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Acknowledgments
Not applicable
Funding
This study was supported by a grant from the Ministry of Health, Labour and Welfare (14020301–01). This organization did not have any role in the design of the study, collection, analysis, and interpretation of data, or writing of the manuscript.
Availability of data and materials
The datasets during and/or analyzed during the current study are available from the corresponding author on reasonable request.
Ethics approval and consent to participate
Ethical approval was obtained from the ethical committee of The University of Tokyo [Approval number: 10665-(1)]. All participants gave their consent electronically and were compensated. No personally identifiable information was collected.
Consent for publication
Not applicable
Competing interests
KM received the research grant from Ministry of Health, Labour and Welfare for the submitted work; grant support including an endowed chair from Sumitomo Dainippon Pharma Co., Ltd. and OKAMURA CORPORATION; grant support including an endowed chair and lecture fees from AYUMI Pharmaceutical Corporation, Nippon Zoki Pharmaceutical Co., Ltd., ONO PHARMACEUTICAL CO., LTD., Eli Lilly Japan K.K., Astellas Pharma Inc., TOTO LTD., and Eisai Co., Ltd.; lecture fees from Pfizer Japan Inc., HISAMITSU PHARMACEUTICAL CO., INC., Janssen Pharmaceutical K.K., KAKEN PHARMACEUTICAL CO., LTD., TEIJIN PHARMA LIMITED; and lecture fees and advisory fees from Shionogi & Co., Ltd., outside the submitted work. HO, YO, HC, YT, YM, and AFM have nothing to disclose. MK, ES, HM, and TL are employed by Clinical Study Support, Inc.. ST received personal fees for expert testimony from Amgen inc., ASAHI KASEI PHARMA CORPORATION, Amgen Astellas BioPharma K.K., ONO PHARMACEUTICAL CO., LTD., KYOCERA Medical Corporation, DAIICHI SANKYO COMPANY, LIMITED, TEIJIN PHARMA LIMITED., Eli Lilly Japan K.K., and Pfizer Japan inc.; endowments from Astellas Pharma Inc., AYUMI Pharmaceutical Corporation, Pfizer Japan inc., Bristol-Myers Squibb, DAIICHI SANKYO COMPANY, LIMITED, and Chugai Pharmaceutical Co., Ltd.; and grants from The Japan Agency for Medical Research and Development (AMED), Japan -Society for the Promotion of Science (JSPS)/ Grant-in-Aid for Scientific Research (A), and Japan Society for the Promotion of Science (JSPS)/ Grant-in-Aid for Exploratory Research outside the submitted work.
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