Litcius/Paper detail

Increased neck muscle stiffness in migraine patients with ictal neck pain: A shear wave elastography study

Jeppe Hvedstrup, Lærke Tørring Kolding, Messoud Ashina, Henrik Winther Schytz

2020Cephalalgia37 citationsDOI

Abstract

Background Ictal neck pain is a frequent symptom reported by half of migraine patients. It is unknown if neck pain is caused by peripheral or central mechanisms. Neck muscle stiffness can be investigated with ultrasound shear wave elastography. Objectives To determine if migraine patients with ictal neck pain have stiffer neck muscles interictally compared with patients without ictal neck pain and controls. Methods This was a cross-sectional study investigating neck muscle stiffness, pressure pain thresholds and neck pain symptoms in 100 migraine patients recruited from a tertiary headache center and 46 controls. Results Patients with ictal neck pain had increased mean neck muscle stiffness interictally compared to both migraine patients without ictal neck pain ( p = 0.018) and controls ( p = 0.036). Muscle stiffness was negatively correlated with pressure pain thresholds in the neck in migraine patients with ictal neck pain (r = −0.292, p = 0.042). There were no differences in mean pressure pain thresholds between migraine subgroups. Conclusions Migraine patients with ictal neck pain have stiffer neck muscles interictally compared with migraine patients without ictal neck pain and controls measured with ultrasound shear wave elastography. The increased stiffness could be due to local alterations in the neck muscles. Trial registration: clinical-trials.gov, identifier: NCT03626805

Topics & Concepts

MedicineNeck painMigraineIctalNeck musclesMuscle stiffnessAnesthesiaStiffnessAnatomyElectroencephalographyPathologyPsychiatryStructural engineeringAlternative medicineEngineeringMyofascial pain diagnosis and treatmentOphthalmology and Eye DisordersSympathectomy and Hyperhidrosis Treatments
Increased neck muscle stiffness in migraine patients with ictal neck pain: A shear wave elastography study | Litcius