Vagus Nerve Cross-Sectional Area in Patients With Parkinson's Disease—An Ultrasound Case-Control Study
Jacob Horsager, Uwe Walter, Tatyana D. Fedorova, Katrine B. Andersen, Casper Skjærbæk, Karoline Knudsen, Niels Okkels, Paul von Weitzel‐Mudersbach, Stig Dyrskog, Bo Bergholt, Per Borghammer
Abstract
Background: Vagal parasympathetic neurons are prone to degeneration in Parkinson's disease (PD). High-resolution ultrasound can precisely estimate the cross-sectional (CSA) area of peripheral nerves. Here, we tested the hypothesis that vagus CSA is reduced in PD. Methods: We included 56 healthy controls (HCs) and 63 patients with PD. Using a high-end ultrasound system equipped with a high-frequency transducer, five images were obtained of each nerve. The hypoechoic neuronal tissue was delineated offline with dedicated software and the CSA extracted. Results: In the initial PD vs. HC comparison, no statistically significant differences were observed in mean left vagus CSA (HC: 1.97 mm 2 , PD: 1.89 mm 2 , P = 0.36) nor in mean right vagus CSA (HC: 2.37 mm 2 , PD: 2.23 mm 2 , P = 0.17). The right vagus CSA was significantly larger than the left vagus CSA in both groups ( P < 0.0001). Females were overrepresented in the HC group and presented with generally smaller vagus CSAs. Consequently, sex-adjusted CSA was significantly smaller for the right vagus nerve of the PD group ( P = 0.041), but not for the left. Conclusion: A small but significant reduction in sex-adjusted right vagus CSA was observed in patients with PD. The left vagus CSA was not significantly reduced in patients with PD. Ultrasound may not be a suitable method to detecting vagal axonal loss in individual patients.