Introduction/aims: The standard procedure to establish reference values in a neuromuscular laboratory involves examining healthy controls, as nerve size varies with the population and muscle echo intensity (EI) is device-specific. We aimed to derive these reference values by extrapolation from a studied sample (the e-norms method), compare them with published reference values, and determine their diagnostic accuracy.
Methods: We retrospectively analyzed data from consecutive patients who underwent nerve and/or muscle ultrasound in our ultrasound laboratory, which is a tertiary referral center for neuromuscular diseases in Southern Poland in the years 2018-2023. We plotted the cross-sectional area (CSA) of the nerve segments and EI of the individual muscles and derived descriptive statistics from the plateau of the e-norms curve. We compared the mean difference of the nerve size to other studies and determined the ability of the muscle EI to discriminate myopathic versus healthy subjects using receiver operator characteristics curves.
Results: We analyzed 1124 nerves and 1154 muscles from 109 and 99 subjects, respectively. The derived reference values for nerve CSA were mostly concordant with other studies, including all nerve segments in the legs and with the exception of compression sites and the most proximal nerve segments in the arms. Using the reference values for muscle EI established with the e-norms method, we were able to discriminate myopathic from healthy subjects with 85% sensitivity and 92% specificity.
Discussion: The e-norms is a feasible method to establish reference values in the neuromuscular ultrasound laboratory.
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