Negative impact of computed tomography-based low skeletal muscle mass on swallowing recovery in patients with post-stroke dysphagia

Abstract

ObjectivesDysphagia due to stroke has a high prevalence, and evaluating the swallowing function of dysphagia and promoting oral intake is essential in patients with stroke. The psoas muscle mass index（cm2/height2（m2））, calculated by the psoas muscle area at the L3 level via abdominal computed tomography （CT）, can predict the development of dysphagia. However, knowledge about the impact of CT-based skeletal muscle mass on swallowing recovery, remains unknown. Therefore, we investigated whether CT-based low skeletal muscle mass impacted swallowing recovery. MethodsA retrospective cohort study was conducted on patients with post-stroke dysphagia who underwent acute treatments along with a videofluoroscopic swallowing study（VFSS）. Swallowing recovery was identified as the improvement of the Functional Oral Intake Scale （FOIS） from the time of VFSS to discharge（observational period: ObPd）. The psoas muscle mass index's cut-off values for low skeletal muscle mass were 3.74 cm2/m2 and 2.29 cm2/m2 for men and women respectively. ResultsThere were 53 subjects （36 male, median age 73.9）. The median during the ObPd was 26 days, and the median days from onset to admission and admission to VFSS were 0 and 18, respectively. Sixteen patients had low skeletal muscle mass. The median improvement of FOIS during the ObPd was 2, and the median length of hospital stay was 51 days. In the stepwise multiple linear regression analysis for the improvement of FOIS during the ObPd, low skeletal muscle mass （β − 0.245; 95% confidence interval − 2.248 to − 0.127; p = 0.029） was a significant factor, even adjusted for serum albumin at admission, disturbance of consciousness at VFSS, FOIS at VFSS, and aspiration during VFSS. ConclusionCT-based low skeletal muscle mass negatively impacted swallowing recovery during the ObPd in patients with post-stroke dysphagia.