Abstract
Background
The Japanese Society for Surgery of -the Hand version of the Carpal Tunnel Syndrome Instrument (CTSI-JSSH), which consists of two parts — one for symptom severity (CTSI-SS) and the other for functional status (CTSI-FS) — is a self-administered questionnaire specifically designed for carpal tunnel syndrome. The responsiveness of the CTSI-JSSH was compared with that of the JSSH version of the Disability of Arm, Shoulder, and Hand questionnaire (DASH), the official Japanese version of the 36-Item Short Form Health Survey (SF-36, version 1.2), and physical examinations to elucidate the role of the CTSI-JSSH for evaluating patients with carpal tunnel syndrome.
Methods
Preoperatively, a series of 60 patients with carpal tunnel syndrome completed the CTSI-JSSH, DASH, and SF-36. Results of physical examinations, including grip strength, pulp pinch, and static two-point discrimination of the thumb, index, and long fingers, were recorded. Three months after carpal tunnel release surgery the patients were asked to fill out the same questionnaires, and the physical examinations were repeated. The responsiveness of all the instruments was examined by calculating the standardized response mean (SRM) and effect size (ES). Correlation coefficients were calculated between questionnaire change scores and patient satisfaction scores as well as between the CTSI change scores and those of the DASH and SF-36.
Results
The largest responsiveness was observed in the CTSI-SS (SRM/ES: −1.00/−1.08) followed by the CTSI-FS (−0.76/−0.63), and bodily pain subscale of SF-36 (SF-36-BP, 0.45/0.55), and the DASH (−0.46/−0.47). Only the change scores of the CTSI-SS had significant correlation with patient satisfaction (r = 0.34, P < 0.01). An absolute value of Spearman’s correlation coefficient of >0.5 was observed between the change scores of the CTSI-SS and the DASH, the CTSI-SS and the SF-36-BP, the CTSI-FS and the DASH, and the DASH and the SF-36-BP.
Conclusion
The CTSI-JSSH was proven to be more sensitive to clinical changes after carpal tunnel release than the other outcome measures and should be used to evaluate patients with carpal tunnel syndrome who speak Japanese as their native language.
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Introduction
Although carpal tunnel syndrome is the most common entrapment neuropathy in the human body, the operative indications are still not definitively determined. Thus, many procedures, such as traditional open carpal tunnel release, mini-open release, and endoscopic release, are performed based on the surgeon’s preference, not on scientific data. It has been recognized that the development of disease-specific and patient-oriented outcome measures is necessary to compare various treatment modalities so the surgeons and patients can choose the best treatment procedure.
Levine et al. developed a self-administered questionnaire, or Carpal Tunnel Syndrome Instrument (CTSI), that is specific to carpal tunnel syndrome, and it has been used widely.1 We developed a Japanese Society for Surgery of the Hand version of the CTSI (CTSI-JSSH) based on guidelines for cross-cultural adaptation processes recommended by Beaton et al.2 The CTSI-JSSH is written in Japanese and consists of two sections: One assesses pain and paresthesia, or symptom severity (CTSI-SS); and the other assesses functional status (CTSI-FS). It is now available in Charts for Functional Evaluation of the Hand (4th edition).3 Validity, reliability, and responsiveness of the Japanese versions of both the CTSI-SS and CTSI-FS were found to be good.4
In this study, the responsiveness of the CTSI-JSSH was compared with that of the Japanese Society for Surgery of the Hand version of the Disability of Arm, Shoulder, and Hand questionnaire (DASH-JSSH),5,6 the official Japanese version of the 36-Item Short Form Health Survey (SF-36; version 1.2),7,8 and physical examinations to elucidate the role of the CTSI-JSSH for evaluating patients with carpal tunnel syndrome.
Materials and methods
We prospectively recruited 65 patients who had been diagnosed with carpal tunnel syndrome and who gave written informed consent. This was a multicenter study, and the ethics committee of each institution approved the study protocol. One female patient who was unable to fill out the forms by herself because of poor eyesight was not recruited. The diagnosis of carpal tunnel syndrome was based on the clinical history and physical examinations, such as Phalen’s test, Tinel’s sign at the carpal tunnel, sensory disturbance over the median nerve distribution area, and nerve conduction velocities measured across the wrist. Based on nerve conduction studies, the severity of preoperative carpal tunnel syndrome was determined as mild, moderate, severe, or extremely severe.9
Preoperatively, the patients were asked to fill out the CTSI-JSSH, DASH, and SF-36. Pain severity was assessed using the Visual Analog Scale (VAS). Results of physical examinations, including grip strength, pulp pinch, and static two-point discrimination (s-2PD) of the thumb, index, and long fingers, were recorded. A total of 43 patients underwent endoscopic carpal tunnel release surgery, and 22 underwent open carpal tunnel release. Six patients had bilateral surgeries on the same day. One patient had diabetes, two were undergoing hemodialysis, two had had distal radial fractures, and one had a ganglion in the carpal tunnel. Six patients had release of the A1 pulley or synovectomy for trigger digit, and two patients has tendon transfer to restore thumb opposition followed by 3 weeks of immobilization of the wrist and thumb. Because the prime purpose of this study was to assess the responsiveness of the CTSI-JSSH and not to report the results of carpal tunnel release surgery, the two patients who had undergone tendon transfer were included.
Three months after surgery, the patients were asked to fill out the same questionnaires, and the physical examinations were repeated. This time each patient rated his or her satisfaction with the surgery into four categories: very satisfied, satisfied, neither satisfied nor unsatisfied, unsatisfied.
Grip strength was measured using a Jamar dynamometer (Sammons Preston Rolyan, IL, USA) or a Smedley’s hand dynamometer (Igarashi Ikakougyou, Tokyo, Japan), and pinch strength was measured using a Jamar pinch meter (Sammons Preston Rolyan) or a Pinch gauge (Fuji Seiko, Nagoya, Japan). They were measured three times each, and the average was used for analysis. The values of s-2PD of the thumb, index, and long fingers were summed, and the average was used for analysis. The patients rated their degree of pain using a VAS range from 0 to 10 (0, no pain → 10, the most severe pain ever experienced).
The responsiveness of all the instruments was examined by calculating the standardized response mean (SRM; mean change/SD) and effect size (ES; mean change/SD of the baseline value). SRM > 0.8 indicated large change, 0.5 indicated moderate change, and <0.2 indicated small change. Correlation coefficients were calculated between questionnaire change scores and patients’ satisfaction scores, and between the CTSI change scores and those of the DASH and SF-36.
All statistical analyses were conducted using Statistical Package for Social Science (SPSS) version 14.0 J software. As some of the instrument values were not normally distributed, correlations between the instruments and patient satisfaction were assessed using a nonparametric test (Spearmen’s correlation). Statistical significance was set at P < 0.05.
Results
Five patients were excluded from the study because their second data acquisition was done more than 15 weeks after surgery, leaving 60 patients eligible for analysis. There were 11 men and 49 women whose ages ranged from 21 to 86 years (average 60 years). The duration of the symptoms before their first visit to the hospital ranged from 2 to 360 months (average 60 months). Preoperative severity of the disease determined by nerve conduction studies was as follows: normal 1 patient, mild 0, moderate 9, severe 40, extremely severe 9, not available 1. All the surgeries were correctly performed because complete release of the transverse carpal ligament was confirmed intraoperatively, and no postoperative complications such as infection, nerve/tendon injuries, or aggravation of numbness were noted. Nine patients developed a trigger digit within 3 months after surgery.
The average pre- and postoperative values of each instrument and the SRM and ES are summarized in Tables 1 and 2. Significant improvement was observed in the CTSI-SS, CTSI-FS, DASH, bodily pain subscale of SF-36 (SF-36-BP), VAS, and s-2PD (P < 0.01). Grip strength decreased significantly after 3 months postoperatively (P < 0.05). The largest responsiveness was observed in the CTSI-SS (SRM/ES: −1.00/−1.08), followed by the CTSI-FS (−0.76/−0.63), SF-36-BP (0.45/0.55), and DASH (−0.46/−0.47). Only the change scores of the CTSI-SS had a significant correlation with patient satisfaction (r = 0.34, P < 0.01) (Table 3).
An absolute value of Spearman’s correlation coefficient of >0.5 was observed between the change scores of the CTSI-SS and the DASH, the CTSI-SS and the SF-36-BP, the CTSI-FS and the DASH, and the DASH and the SF-36-BP (Table 3).
Sixteen patients had worse scores in the DASH or CTSI-SS 3 months after surgery. Eight patients had worse scores in the DASH, whereas the CTSI-SS was improved. Six patients had worsening of both the DASH and the CTSI-SS, and two patients had worsening of only the CTSI-SS. Although statistical analysis was not performed owing to the small sample size, the patients with worsening of the DASH score tended to have a long duration of symptoms, severe stage of the disease, and development of trigger digit, as well as pain over and around the wound.
Discussion
The responsiveness of the CTSI-SS and the CTSI-FS was found to be greater than that of the DASH, the subscales of SF-36, VAS, and the physical findings 3 months after surgery. This was consistent with previous reports.10–12 Gay et al. found the CTSI was most sensitive to clinical changes after carpal tunnel release (ES/SRM: 1.77/1.66), followed by the DASH (1.01/1.13), the SF-36-BP (0.57/0.52), and the role-physical subscale of SF-36 (0.39/0.39).11 Greenslade et al. reported that SRMs of the CTSI-SS, CTSI-FS, and DASH were 1.07, 0.62, and 0.66, respectively 3 months after open carpal tunnel release.12 Atroshi et al. reported a good response of the CTSI-SS (1.4–1.9), CTS-FS (0.8–1.1), and SF-36 (1.0) 3 months after endoscopic carpal tunnel release.
Although the CTSI is sensitive to clinical changes after carpal tunnel release, more generic instruments such as the DASH or the SF-36 may be useful if the relative impact of carpal tunnel syndrome on the entire upper extremities or the body is evaluated. Patients with carpal tunnel syndrome scored low on the SF-36, but 3 months after surgery only bodily pain was alleviated significantly. It is unclear whether carpal tunnel release affected the patients’ general health status within the 3-month follow-up.
Carpal tunnel release surgery does not always relieve the symptoms completely or immediately. After surgery, patients experience pain over the wound or the stumps of the transverse carpal ligament that could last several months.13 During the 3 months after surgery, numbness in the contralateral side of the hand is some times aggravated, and trigger digit can also develop. Furthermore, patients with an extremely severe stage of the disease, especially those with diabetes, might not feel significant alleviation of numbness with in a short follow-up period. These factors may explain the fact that grip strength decreased and pinch strength did not improve after surgery and that the DASH and the CTSI-FS were not as sensitive as the CTSI-SS even though surgery was done correctly. The DASH and CTSI-SS are affected more by functional changes, whereas the CTSI-SS is affected by paresthesia or pain (or both), which can improve soon after surgery.
Although statistically not compared, SRM or ES of the CTSI in our patients was less than that found by previous investigators.6,10–13 Only Greenslade et al. reported data almost comparable to ours.11 There are a few factors that should be considered before making direct comparisons.
Some reports did not provide any information regarding the duration of the symptoms, the severity of the disease, or the presence of coexisting disease; furthermore, our study population had more severe stages of the disease (as determined by nerve conduction studies), longer duration of the symptoms, or older age than was reported in the other studies.10,11,14,15 Simply comparing the SRM or ES among the studies should be done with caution, with other outcome measures being included to ensure adequate comparison of the procedures.13
Conclusions
The CTSI-JSSH version was proven to be more sensitive to clinical changes after carpal tunnel release than the other outcome measures. Thus, it should be used to evaluated patients with carpal tunnel syndrome who speak Japanese as their native language.
References
DW Levine BP Simmons MJ Koris LH Daltroy GG Hohl AH Fossel et al. (1993) ArticleTitleA self-administered questionnaire for the assessment of severity of symptoms and functional status in carpal tunnel syndrome J Bone Joint Surg Am 75 1585–92 Occurrence Handle1:STN:280:DyaK2c%2FmsVOjsg%3D%3D Occurrence Handle8245050
DE Beaton C Bombardier F Guillemin MB Ferraz (2000) ArticleTitleGuidelines for the process of cross-cultural adaptation of self-report measures Spine 25 3186–91 10.1097/00007632-200012150-00014 Occurrence Handle10.1097/00007632-200012150-00014 Occurrence Handle1:STN:280:DC%2BD3M7jt1Cmug%3D%3D Occurrence Handle11124735
InstitutionalAuthorNameImpairment Evaluation (2006) Committee, the Japanese Society for Surgery of the Hand. Charts for functional evaluation of the hand EditionNumber4th edition the Japanese Society for Surgery of the Hand Nagoya 14–5
T Imaeda S Uchiyama S Toh T Wada S Okinaga T Sawaizumi et al. (2007) ArticleTitleValidation of the Japanese Society for Surgery of the Hand version of the carpal tunnel syndrome instrument J Orthop Sci 12 14–21 10.1007/s00776-006-1087-9 Occurrence Handle10.1007/s00776-006-1087-9 Occurrence Handle17260112
T Imaeda S Toh Y Nakao J Nishida H Hirata M Ijichi et al. (2005) ArticleTitleValidation of the Japanese Society for Surgery of the Hand version of the Disability of the Arm, Shoulder, and Hand questionnaire J Orthop Sci 10 353–9 10.1007/s00776-005-0917-5 Occurrence Handle10.1007/s00776-005-0917-5 Occurrence Handle16075166
T Imaeda H Hirata S Toh Y Nakao J Nishida M Ijichi et al. (2006) ArticleTitleComparative responsiveness of Japanese versions of the DASH and SF-36 questionnaires and physical measurement to clinical changes after carpal tunnel release Hand Surg 11 27–33 10.1142/S0218810406003176 Occurrence Handle10.1142/S0218810406003176 Occurrence Handle17080525
S Fukuhara S Bito J Green A Hsiao K Kurokawa (1998) ArticleTitleTranslation, adaptation, and validation of the SF-36 health survey for use in Japan J Clin Epidemiol 51 1037–44 10.1016/S0895-4356(98)00095-X Occurrence Handle10.1016/S0895-4356(98)00095-X Occurrence Handle1:STN:280:DyaK1M%2Fjt1Sisw%3D%3D Occurrence Handle9817121
S Fukuhara JE Ware M Kosinski S Wada B Gandek (1998) ArticleTitlePsychometric and clinical tests of validity of the Japanese SF-36 health survey J Clin Epidemiol 51 1045–53 10.1016/S0895-4356(98)00096-1 Occurrence Handle10.1016/S0895-4356(98)00096-1 Occurrence Handle1:STN:280:DyaK1M%2Fjt1SisA%3D%3D Occurrence Handle9817122
S Uchiyama T Itsubo T Yasutomi H Nakagawa M Kamimura H Kato (2005) ArticleTitleQuantitative MRI of the wrist and nerve conduction studies in patients with idiopathic carpal tunnel syndrome J Neurol Neurosurg Psychiatry 76 1103–8 10.1136/jnnp.2004.051060 Occurrence Handle10.1136/jnnp.2004.051060 Occurrence Handle1:STN:280:DC%2BD2Mzms1ymtA%3D%3D Occurrence Handle16024888
I Atroshi C Gummesson R Johnsson A Sprinchorn (1999) ArticleTitleSymptoms, disability, and quality of life in patients with carpal tunnel syndrome J Hand Surg [Am] 24 398–404 10.1053/jhsu.1999.0398 Occurrence Handle10.1053/jhsu.1999.0398 Occurrence Handle1:STN:280:DyaK1M3gvVeksw%3D%3D
RE Gay PC Amadio JC Johnson (2003) ArticleTitleComparative responsiveness of the disabilities of the arm, shoulder, and hand, the carpal tunnel questionnaire, and the SF-36 to clinical change after carpal tunnel release J Hand Surg [Am] 28 250–4 10.1053/jhsu.2003.50043 Occurrence Handle10.1053/jhsu.2003.50043
JR Greenslade RL Mehta P Belward DJ Warwick (2004) ArticleTitleDash and Boston questionnaire assessment of carpal tunnel syndrome outcome: what is the responsiveness of an outcome questionnaire? J Hand Surg [Br] 29 159–64 10.1016/j.jhsb.2003.10.010 Occurrence Handle1:STN:280:DC%2BD2c7hvF2ltA%3D%3D
I Atrosi GU Larsson E Ornstein M Hofer R Johnsson J Ranstam (2006) ArticleTitleOutcomes of endoscopic surgery compared with open surgery for carpal tunnel syndrome among employed patients: randomized controlled trial BMJ 332 1473–9 10.1136/bmj.38863.632789.1F Occurrence Handle10.1136/bmj.38863.632789.1F
PC Amadio MD Silverstein DM Ilstrup CD Schleck LM Jensen (1996) ArticleTitleOutcome assessment for carpal tunnel surgery: the relative responsiveness of generic, arthritis-specific, disease-specific, and physical examination measures J Hand Surg [Am] 21 338–46 10.1016/S0363-5023(96)80340-6 Occurrence Handle10.1016/S0363-5023(96)80340-6 Occurrence Handle1:STN:280:DyaK28zjtVyitA%3D%3D
M Mondelli F Reale F Sicurelli L Padua (2000) ArticleTitleRelationship between the self-administered Boston questionnaire and electrophysiological findings in follow-up of surgically treated carpal tunnel syndrome J Hand Surg [Br] 25 128–34 10.1054/jhsb.2000.0361 Occurrence Handle1:STN:280:DC%2BD3MzmslajsA%3D%3D
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Uchiyama, S., Imaeda, T., Toh, S. et al. Comparison of responsiveness of the Japanese Society for Surgery of the Hand version of the carpal tunnel syndrome instrument to surgical treatment with DASH, SF-36, and physical findings. J Orthop Sci 12, 249–253 (2007). https://doi.org/10.1007/s00776-007-1128-z
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DOI: https://doi.org/10.1007/s00776-007-1128-z