MR Nerve Imaging in a Prospective Cohort of Patients with Suspected Carpal Tunnel Syndrome

Overview

Journal Neurology

Specialty Neurology

Date 2002 Jun 12

PMID 12058085

Citations 29

Authors

J G Jarvik

E Yuen

D R Haynor

C M Bradley

D Fulton-Kehoe

T Smith-Weller

R Wu

M Kliot

G Kraft

L Wang

V Erlich

P J Heagerty

G M Franklin

Affiliations

Soon will be listed here.

Abstract

Objectives: To evaluate the reliability and diagnostic accuracy of high-resolution MRI of the median nerve in a prospectively assembled cohort of subjects with clinically suspected carpal tunnel syndrome (CTS).

Methods: The authors prospectively identified 120 subjects with clinically suspected CTS from five Seattle-area clinics. All subjects completed a hand-pain diagram and underwent a standardized nerve conduction study (NCS). The reference standard for determining CTS status was a classic or probable hand pain diagram and NCS with a difference >0.3 ms between the 8-cm median and ulnar peak latencies. Readers graded multiple imaging parameters of the MRI on four-point scales. The authors also performed quantitative measurements of both the median nerve and carpal tunnel cross-sectional areas. NCS and MRI were interpreted without knowledge of the other study or the hand pain diagram.

Results: Intrareader reliability was substantial to near perfect (kappa = 0.76 to 0.88). Interreader agreement was lower but still substantial (kappa = 0.60 to 0.67). Sensitivity of MRI was greatest for the overall impression of the images (96%) followed by increased median nerve signal (91%); however, specificities were low (33 to 38%). The length of abnormal signal on T2-weighted images was significantly correlated with nerve conduction latency, and median nerve area was larger at the distal radioulnar joint (15.8 vs 11.8 mm(2)) in patients with CTS. A logistic regression model combining these two MR variables had a receiver operating characteristic area under the curve of 0.85.

Conclusions: The reliability of MRI is high but the diagnostic accuracy is only moderate compared with a research-definition reference standard.

Citing Articles

Convolutional Neural Network Approaches in Median Nerve Morphological Assessment from Ultrasound Images.

Ando S, Loh P J Imaging. 2024; 10(1).

PMID: 38248998 PMC: 10817571. DOI: 10.3390/jimaging10010013.

"Knowing It Before Blocking It," the ABCD of the Peripheral Nerves: Part D (Approach to the Patient With Nerve Injuries).

Sonawane K, Dixit H, Thota N, Jayaraj A, Balavenkatasubramanian J Cureus. 2023; 15(7):e41782.

PMID: 37575754 PMC: 10419331. DOI: 10.7759/cureus.41782.

Quantification and Proximal-to-Distal Distribution Pattern of Tibial Nerve Lesions in Relapsing-Remitting Multiple Sclerosis : Assessment by MR Neurography.

Pietsch A, Viehover A, Diem R, Weiler M, Korporal-Kuhnke M, Wildemann B Clin Neuroradiol. 2022; 33(2):383-392.

PMID: 36264352 PMC: 10219896. DOI: 10.1007/s00062-022-01219-1.

Do Proposed Quality Measures for Carpal Tunnel Release Reveal Important Quality Gaps and Are They Reliable?.

Harris A, Ding Q, Trickey A, Finlay A, Schmidt E, Curtin C Clin Orthop Relat Res. 2022; 480(9):1743-1750.

PMID: 35274625 PMC: 9384918. DOI: 10.1097/CORR.0000000000002175.

Automatic Electrodiagnosis of Carpal Tunnel Syndrome Using Machine Learning.

Tsamis K, Kontogiannis P, Gourgiotis I, Ntabos S, Sarmas I, Manis G Bioengineering (Basel). 2021; 8(11).

PMID: 34821747 PMC: 8615235. DOI: 10.3390/bioengineering8110181.