Application of tDCS over the contralesional swallowing motor cortex supports swallowing network reorganization, thereby leading to faster rehabilitation of acute poststroke dysphagia. Early treatment initiation seems beneficial. tDCS may be less effective in right-hemispheric insulo-opercular stroke. Ann Neurol 2018;83:328-340.
This study gives new insights on the cortical representation of single components of swallowing and airway protection behaviours. The lesion model may help to risk-stratify patients for dysphagia and pneumonia based on their brain scan.
Objective:Introduction and validation of a phenotypic classification of neurogenic dysphagia based on flexible endoscopic evaluation of swallowing (FEES).Methods:A systematic literature review was conducted, searching MEDLINE from inception to 05/2020 for FEES findings in neurological diseases of interest. Based on a retrospective analysis of FEES-videos in neurological diseases and considering the results from the review, a classification of neurogenic dysphagia was developed distinguishing different phenotypes. The classification was validated using 1012 randomly selected FEES-videos of patients with various neurological disorders. Chi-square-tests were used to compare the distribution of dysphagia phenotypes between the underlying neurological disorders.Results:159 articles were identified of which 59 were included in the qualitative synthesis. Seven dysphagia phenotypes were identified: (1) “Premature bolus spillage” and (2) “delayed swallowing reflex” occurred mainly in stroke patients, (3) “predominance of residue in the valleculae” was most common in Parkinson's disease, (4) “predominance of residue in the piriform sinus” occurred only in myositis, motoneuron disease and brainstem stroke patients, (5) “pharyngolaryngeal movement disorder” was found in atypical Parkinsonian syndromes and stroke patients, (6) “fatigable swallowing weakness” was common in patients with myasthenia gravis, and (7) “complex disorder” with a heterogeneous dysphagia pattern was the leading mechanism in amyotrophic later sclerosis. The interrater reliability showed a strong agreement (kappa = 0.84).Conclusion:Neurogenic dysphagia is not a mere symptom, but a multi-etiological syndrome with different phenotypic patterns depending on the underlying disease. Dysphagia phenotypes can facilitate differential diagnosis in patients with dysphagia of unclear etiology.
A BS TRACT: Background: Pharyngeal dysphagia in Parkinson's disease (PD) is a common and clinically relevant symptom associated with poor nutrition intake, reduced quality of life, and aspiration pneumonia. Despite this, effective behavioral treatment approaches are rare. Objective: The objective of this study was to verify if 4 week of expiratory muscle strength training can improve pharyngeal dysphagia in the short and long term and is able to induce neuroplastic changes in cortical swallowing processing. Methods: In this double-blind, randomized, controlled trial, 50 patients with hypokinetic pharyngeal dysphagia, as confirmed by flexible endoscopic evaluation of swallowing, performed a 4-week expiratory muscle strength training. Twenty-five participants used a calibrated ("active") device, 25 used a sham handheld device. Swallowing function was evaluated directly before and after the training period, as well as after a period of 3 month using flexible endoscopic evaluation of swallowing. Swallowing-related cortical activation was measured in 22 participants (active: sham; 11:11) using whole-head magnetencephalography. Results: The active group showed significant improvement in the flexible endoscopic evaluation of swallowing-based dysphagia score after 4 weeks and after 3 months, whereas in the sham group no significant changes from baseline were observed. Especially, clear reduction in pharyngeal residues was found. Regarding the cortical swallowing network before and after training, no statistically significant differences were found by magnetencephalography examination. Conclusions: Four-week expiratory muscle strength training significantly reduces overall dysphagia severity in PD patients, with a sustained effect after 3 months compared with sham training. This was mainly achieved by improving swallowing efficiency. The treatment effect is probably caused by peripheral mechanisms, as no changes in the cortical swallowing network were identified.
Esophageal body impairment in PD is a frequent phenomenon during all disease stages, which possibly reflects α-synucleinopathy in the enteric nervous system.
Background and Purpose— Predicting safe extubation represents a clinical challenge in acute stroke patients. Classical respiratory weaning criteria have not proven reliable. Concerning the paramount relevance of postextubation dysphagia in this population, criteria related to airway safety seem to perform better, but diagnostic standards are lacking. We compare clinical and instrumental swallowing examination tools to assess extubation readiness and propose a simple Determine Extubation Failure in Severe Stroke score for decision making. Methods— Data of 133 orally intubated acute stroke patients were prospectively collected in this observational study. Classical extubation criteria, a modified semiquantitative airway score, and an oral motor function score were assessed before extubation. A 3-ounce water swallow test and validated 6-point fiberoptic endoscopic dysphagia severity scoring were performed thereafter. Association of demographic and clinical parameters with extubation failure (EF) was investigated. Independent predictors of EF were translated into a point scoring system. Ideal cutoff values were determined by receiver operator characteristics analyses. Results— Patients with EF (24.1% after 24±43 hours) performed worse in all swallowing assessments ( P <0.001). Fiberoptic endoscopic dysphagia severity scoring was the only independent predictor of EF (adjusted odds ratio, 4.2; P <0.007) with optimal cutoff ≥5 (sensitivity 84.6% and specificity 76.5%). Restricting regression analysis to parameters collected before extubation, a 4-item Determine Extubation Failure in Severe Stroke score (duration of ventilation, the examination of oral motor function, infratentorial lesion, and stroke severity) was derived. The score demonstrated excellent discrimination (area under the curve 0.89; 95% CI, 0.83–0.95) and calibration (Nagelkerkes R 2 =0.54) with an ideal cutoff ≥4 (sensitivity: 81.3% and specificity: 78.2%). Conclusions— Risk of EF is strongly correlated with postextubation dysphagia severity in stroke. Fiberoptic endoscopic examination of swallowing best predicts necessity of reintubation but requires a trial of extubation. The Determine Extubation Failure In Severe Stroke score is based on easy to collect clinical data and may guide extubation decision making in critically ill stroke patients.
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