Inter- and intra-reader reproducibility of shear wave elastography measurements for musculoskeletal soft tissue masses

Jonathan Nicholls,Elizabeth M A Hensor,Abdulrahman M Alfuraih,Philip Robinson

doi:10.1007/s00256-019-03300-2

Abstract

ObjectiveTo determine inter- and intra-reader reproducibility of shear wave elastography measurements for musculoskeletal soft tissue masses.Materials and methodsIn all, 64 patients with musculoskeletal soft tissue masses were scanned by two readers prior to biopsy; each taking five measurements of shear wave velocity (m/s) and stiffness (kPa). A single lesion per patient was scanned in transverse and cranio-caudal planes. Depth measurements (cm) and volume (cm3) were recorded for each lesion, for each reader. Linear mixed modelling was performed to assess limits of agreement (LOA), inter- and intra-reader repeatability, including analyses for measured depth and volume.ResultsOf the 64 lesions scanned, 24 (38%) were malignant. Bland-Altman plots demonstrated negligible bias with wide LOA for all measurements. Transverse velocity was the most reliable measure—intraclass correlation (95% CI) = 0.917 (0.886, 1)—though reader 1 measures could be between 38% lower and 57% higher than reader 2 [ratio-scale bias (95% LOA) = 0.99 (0.64, 1.55)]. Repeatability coefficients indicated most disagreement resulted from poor within-reader reproducibility. LOA between readers calculated from means of five repeated measurements were narrower—transverse velocity ratio-scale bias (95% LOA) = 1.00 (0.74, 1.35). Depth affected both estimated velocity and repeatability; volume also affected repeatability.ConclusionThis study found poor repeatability of measurements with wide LOA due mostly to intra-reader variability. Transverse velocity was the most reliable measure; variability may be affected by lesion depth. At least five measurements should be reported with LOA to assist future comparability between shear wave elastography systems in evaluating soft tissue masses.

Highlights

Shear wave elastography (SWE) offers a novel approach in the investigation of musculoskeletal soft tissue lesions
There is no data reported on the relatively new SWE system utilised in this study (LOGIQ E9, GE Healthcare, Buckinghamshire, UK) on soft tissue masses, considering that SWE reliability can vary between systems [13, 21]
For the least reliable measure, CC stiffness, the measurements could be between 63% lower and 228% higher for Reader 1 (R1) compared to Reader 2 (R2)

Summary

Introduction

Shear wave elastography (SWE) offers a novel approach in the investigation of musculoskeletal soft tissue lesions. Shear wave elastography is a relatively established technique in breast [8, 9], liver [10], and thyroid [11] disease, though remains in the validation phase for musculoskeletal applications [12]. No studies have independently examined reproducibility of shear wave measurements in pathological soft tissue lesions. There is no data reported on the relatively new SWE system utilised in this study (LOGIQ E9, GE Healthcare, Buckinghamshire, UK) on soft tissue masses, considering that SWE reliability can vary between systems [13, 21]. The aim of this study was to investigate inter- and intra-reader repeatability for shear wave measurements in musculoskeletal soft tissue masses, and to determine the effect of lesion depth and malignant status

Results

Discussion

Conclusion