View clinical trials related to Deglutition Disorders.
Filter by:High flow nasal cannula (HFNC) ventilation therapy was found to improve the severity of obstructive sleep apnea in non-stroke subjects. The investigators hypothesized that HFNC might be effective in stroke patients with dysphagia who needed nasogastric tube feeding and can not receive continuous positive airway pressure ventilation for obstructive sleep apnea.
This study aims to explore if oral neuromuscular training is superior to orofacial sensory-vibration stimulation in patients with oropharyngeal dysphagia. Four weeks after stroke onset, patients with oropharyngeal dysphagia and pathological swallowing according to the timed water swallow test (TWST) will be randomized 1:1 into a 5-week oral neuromuscular training with an oral device in addition to orofacial sensory-vibration stimulation with an electrical toothbrush (intervention group) or orofacial sensory-vibration stimulation only (control group). The participants will be examined with a TWST, lip force test, and videofluoroscopy (VFS) of oropharyngeal swallowing before (baseline), after 5-weeks training (end-of-training) and at a 12-18 months follow-up. The primary endpoint is changes in TWST at the end-of-training compared with baseline, and at late follow-up based on intention-to-treat analyses. The secondary endpoints are the corresponding changes in lip force and aspiration frequency at VFS.
Dysphagia is a difficulty during the swallowing process (transportation food from the mouth to the stomach. Oropharyngeal Dysphagia (OD) is diagnosed by videofluoroscopy and faringolaringoscopy. OD threatens the efficacy and safety of swallowing, contributing to an increased risk of aspiration and pneumonia. There are different interventions aimed to change and improve the physiology of swallowing; however, OD can be an important predictor of the progression of malnutrition in different types of patients. Malnutrition is defined as an acute or chronic disease whereby an energy imbalance, lack of energy, protein or other nutrients causes measurable and adverse effects on body composition, functional and clinical outcomes. In addition, it leads to a decrease in the quality of life. Objective: To establish a strategy of nutritional treatment and swallowing rehabilitation in patients with dysphagia. Hypothesis: An adequate nutritional intervention in content and consistency, combined with swallowing rehabilitation in patients with dysphagia, will improve the nutritional status and clinical evolution of patients with dysphagia.
Oropharyngeal dysphagia, or difficulty swallowing, is a devastating condition that affects physiological and psychosocial functioning in 1 in 25 adults. Many dysphagia treatments exist, but our ability to adequately measure treatment outcomes is limited. Pharyngeal high-resolution manometry (pHRM) directly measures swallowing pressures, providing an objective measurement of physiology that characterizes the basic mechanisms of swallowing. pHRM is well-poised to measure outcomes of dysphagia treatments due to its direct, objective, and reproducible measures of swallowing function. This proposed project will address a central hypotheses that objective swallowing measures (including (pHRM) will reveal treatment-mediated swallowing changes, will align with patient-reported outcome measures, and will be able to predict who will benefit from treatment. The investigators will follow a cohort of participants with oropharyngeal dysphagia as they undergo either pharyngeal strengthening therapy or relief of upper esophageal sphincter outlet obstruction at three time points: baseline, mid-treatment (4-6 weeks) and post-treatment (10-12 weeks). The investigators will compare participants to healthy controls using pHRM, videofluoroscopy, diet assessment, functional reserve tests, and patient-reported outcome measures.
This study is part of a larger grant, for which the overall goal is to collect measurements of liquid flow through the oropharynx (i.e., mouth and throat) during swallowing.The focus of this study is to evaluate the flow of liquids of varying consistency in the spinal disorder population.
This study is part of a larger grant, for which the overall goal is to collect measurements of liquid flow through the oropharynx (i.e., mouth and throat) during swallowing. The focus of this study is to evaluate the flow of liquids of varying consistency in the head and neck cancer population.
This study was conducted to evaluate the effectiveness of masticatory muscles electrical stimulation on oromotor skills, feeding level progress and child growth in children with dyaphagia. Forty children diagnosed as spastic cerebral palsy, from both genders, age ranging from 2 to 5 years were enrolled in the current study. They were randomly allocated in to study group (A) received oromotor exercises and neuromuscular electrical stimulation on masseter and digastric muscles and control group (B) received same exercises but placebo electrical stimulation. The result showed significant improvement in all variables in both groups. However, the study group showed significant different in feeding level in compare with control group.
The investigator proposes to study electrical activity reflective of esophageal motility in adults noninvasively by the use of multichannel electroesophagogram (EESG) and magnetoesophagogram (MESG) recordings.
Sunnybrook Veterans Centre (VC) is a long-term care (LTC) facility with many elderly residents living with swallowing disorders who are at high risk of developing pneumonia from aspirating food/liquid into their lungs. Expiratory muscle strength training (EMST) using a hand-held resistance device over a four week intensive program has been shown to have promising results in improving cough function and reducing aspiration during swallowing in older, community-dwelling adults. The purpose of this study is to explore whether a modified slow-stream protocol of EMST over eight weeks is an effective therapy for improving swallowing safety and lung clearance in elderly VC residents with swallowing disorders. Before and after the eight week therapy program, we will measure participants' cough under spirometry, swallowing under videofluoroscopy, and their swallowing-related quality of life and diet texture modification. A three month follow-up visit will measure swallowing-related quality of life again, as well as record incidence of respiratory tract infections requiring antibiotics in the last three months, to be compared with broader institutional data.
Study design: Multicenter, experimental, randomized, crossed, double blind study (patient and results analysis). Aim: To evaluate the effect of different neurostimulation techniques on the neurophysiological and biomechanical swallowing mechanisms of patients with dysphagia associated with chronic stroke and select those techniques with the best results to be evaluated in the second phase of the study (medium-term effects). Outcome measures: - Videofluoroscopy: prevalence of impaired efficacy and safety of swallow (penetrations and aspirations), penetration aspiration scale (PAS: from 0 to 8), biomechanical parameters (time to laryngeal vestibule closure, upper esophageal sphincter opening). - Pharyngeal sensory evoked potentials (pSEP): latency and amplitude of obtained evoked potentials. Higher latency (0 onwards) means worse outcome and higher amplitude (0 onwards) means better outcome. - Pharyngeal motor evoked potentials (pMEP): latency, amplitude, duration and area of obtained evoked potentials. Higher latency (0 onwards) means worse outcome and higher amplitude (0 onwards) means better outcome. Treatments and patients: 36 post-stroke patients with oropharyngeal dysphagia (PAS superior or equal to 2) randomized patients in 3 treatment arms (3 groups of 12 patients). - Active and sham repetitive transcranial magnetic stimulation (rTMS): 90% of the resting motor threshold, 1250 pulses, 5 Hz. - Active and sham Intrapharyngeal Electrical Stimulation (PES): 75% of tolerance threshold, pulses of 0.2 ms, 5 Hz, 10 min. - Oral Capsaicin (active intervention, 10-5M, TRPV1 agonist) and placebo solution (sham): 100 mL, single administration. Administration of study therapies: The study will be performed in two visits separated for one week. In each visit patients will randomly receive active or sham treatment and a pre-post evaluation of biomechanics of deglutition (with VFS) and neurophysiological mechanisms (swallowing afferent and efferent pathways) will be performed in each visit. Acute randomized administration -> 1 active session (pre/post evaluation with VFS/pSEP/pMEP) + 1 separate control session 1 week apart (pre/post evaluation with VFS/pSEP/pMEP).