Dispelling the Myth of Work-Related de Quervain's Tenosynovitis

John C. Dunn; Michael M. Polmear; Leon J. Nesti

doi:10.1055/s-0039-1677741

Journal of Wrist Surgery, Table of Contents

J Wrist Surg 2019; 08(02): 090-092
DOI: 10.1055/s-0039-1677741

Special Review: De Quervain's Tenosynovitis

Thieme Medical Publishers 333 Seventh Avenue, New York, NY 10001, USA.

Dispelling the Myth of Work-Related de Quervain's Tenosynovitis

John C. Dunn

¹Department of Orthopaedic Surgery, William Beaumont Army Medical Center, El Paso, Texas

,

Michael M. Polmear

¹Department of Orthopaedic Surgery, William Beaumont Army Medical Center, El Paso, Texas

,

Leon J. Nesti

²Department of Surgery, Uniformed Services University, Bethesda, Maryland

› Author Affiliations

Abstract

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Keywords

de Quervain's tenosynovitis - occupation - repetitive - cumulative trauma - disorder

Initially described in the late 19th century, de Quervain's tenosynovitis (DQT) is a common condition that causes pain around the dorsoradial aspect of the wrist, just proximal to the radial styloid.[1] The condition is precipitated by a thickened first dorsal compartment and its tendons, the abductor pollicis longus (APL), and the extensor pollicis brevis (EPB).[2] These symptoms may be associated with lost work and secondary gain from workmen's compensation litigation.[3] In fact, there are now legal counsels that advertise as “repetitive stress injury attorneys.” Injury lawyer Web sites claim that DQT produces “career-ending disability” and advertise cases in which they won tens of thousands of dollars for perceived work-related cases. However, the belief that DQT is caused by work-related injury is misdirected, as no study has established an association between hand usage at work or trauma with DQT.[4] [5] This erroneous conviction may be precipitated by a system of workmen's compensation that pays individuals not to work.

The extensor retinaculum is thickened in DQT but not from an inflammatory or traumatic work related process. Instead, the first dorsal compartment undergoes metaplastic change with thickened, less vascular, synovial layers and may ultimately be three to four times thicker than normal.[6] In addition, the first dorsal compartment experiences a decreased cross-sectional area. An analysis of biopsy samples taken from patients with DQT undergoing first dorsal compartment release found that the histopathology of APL and EPB tendon sheaths was characterized by myxoid degeneration with dense fibrous tissue and mucopolysaccharide accumulation.[7] The authors postulated that these changes were consistent with an intrinsic degenerative mechanism rather than an inflammatory etiology, thus questioning the nomenclature of tenosynovitis. This narrow, morphologically abnormal first dorsal compartment causes impingement and compression of the APL and EPB. This, in turn, increases the tensile load of the irregular retinaculum, stimulates nociceptors, and causes pain.[1] [2] [8] [9] [10] [11] [12]

Cadaveric analyses have determined that an additional septum within the first dorsal compartment is present in 34 to 44% of individuals.[13] [14] Subcompartmentalization has been reported to be as high as 86 to 94% in patients with DQT and is often found bilaterally. Additionally, variable numbers of APL and EPB tendon slips have been observed in cadaveric and control wrists. The authors of a large meta-analysis comparing 1,901 normal cadaver specimens and 470 wrists surgically treated for DQT postulated that the variable tendinous insertions affect the degree of constriction within the compartment.[14] This frequently abnormal constrictive anatomy may be the solitary culprit in precipitating degenerative changes in the first dorsal compartment tendon sheaths and developing DQT symptoms.[5] [15] [16] [17] [18]

In another analysis, wrists with DQT underwent a diagnostic ultrasound of the wrist extensor compartments before the first dorsal compartment release. Subcompartmentalization was present in 73% of the first dorsal compartments. The study demonstrated that the vast majority of patients undergoing DQT release have predisposing compressive anatomy and that ultrasound was 100% sensitive in the diagnosis of subcompartmentalization.[19] An absence of subcompartmentalization on ultrasound may be a useful adjunct to exclude patients from a diagnosis of DQT and operative management if there is clinical suspicion for secondary gain.

In addition to anatomical factors, patient factors may also be associated with DQT. Those with DQT have high rates of both anxiety and depression,[20] are more likely to be part-time workers,[4] and there may be a genetic predisposition.[21] Stenosing tendonitis of the finger flexor tendons is found more often in patients with DQT.[4] DQT is 10 times more common in females[2] [5] [22] and is often noted in the postpartum period.[23] [24] Finally, patients who undergo surgical treatment for DQT are more likely to have Medicaid insurance, psychiatric illness, and a disabled work status.[25]

While there are many nonmodifiable factors that contribute to DQT, modifiable (work-related) factors have not been identified as risk factors in large series. One case–control analysis compared 189 patients with DQT and 198 control patients without DQT.[5] While DQT patients were more likely to be older (52 vs. 43 years) and female (76 vs. 33%), there was no difference in the groups with regard to the rate of manual labor profession (18 vs. 26%), medical comorbidities, wrist trauma, computer work, or repetitive forceful work. In fact, patients in the DQT cohort worked 4 hours less than those in the control cohort per week (34 vs. 38 hours) and were less likely to complain of morning wrist stiffness. The authors concluded that neither heavy manual labor nor trauma could be considered a cause of DQT. Furthermore, a systematic review and meta-analysis including 80 articles comprising automechanics, garment workers, shoe assemblers, and meat packers determined that there was no causal relationship between occupational risk factors and DQT.[4] Furthermore, a prospective analysis of 598 French industrial workers employed in repetitive labor completed a self-administered questionnaire and underwent a physical examination at one point and again 3 years later. While psychosocial factors and personal factors contributed to wrist tendonitis, the nature of the physical work was not identified as a risk factor.[22]

In Finkelstein's original 24 patient survey from 1930, only one patient was a factory worker. Upon surgical exploration, this individual had subsheaths within his first dorsal compartment.[10] It is possible that work-related activity may cause discomfort to the patient with DQT already or one who has the nonmodifiable risk factors that may predispose DQT. However, it is far less likely that work-related activity itself is the primary cause of DQT.[26] Just as riding an exercise bike does not cause stenosis of the coronary arteries and its associated symptoms, repetitive work or trauma does not cause DQT.[26] Physicians should exercise caution when discussing the causes and natural history of DQT with symptomatic patients.

References

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