View clinical trials related to Deglutition Disorders.
Filter by:The overall goal is to exploit motor learning principles and adjuvant techniques in a novel way to enhance dysphagia rehabilitation. The proposed study will investigate the effects of three forms of biofeedback on training and determine whether adjuvant therapeutic techniques such as non-invasive neural stimulation and reward augment training outcomes has an effect of dysphagia rehabilitation. Outcomes from this research study may change the paradigm for treating swallowing and other internal functions such as speech and voice disorders.
Patients with head and neck cancer treated with chemoradiation, often develop a treatment associated dysphagia. The common complaint is foods sticking in the pharynx. This study seeks to test the Iowa Oral Performance Instrument (IOPI) in the management of treatment induced dysphagia following chemoradiation for oral, pharyngeal, laryngeal, hypopharyngeal cancer. This pilot study seeks to compare standard exercise therapy plus IOPI to standard exercise alone to determine if recovery is enhanced and to determine if rate of recovery is accelerated.
The Neurogenic Dysphonia/Dysphagia Registry is designed to be purely observational (i.e. non-interventional, exploratory). Patient data collected from the registry is expected to be consistent with any information which can be obtained during usual care of patients with dysphonia/dysphagia treated with vocal fold augmentation.
An early intervention for swallowing disorders (i.e., dysphagia) during endotracheal intubation may improve patient outcomes. The investigators propose treatment sessions targeting sensorimotor integration, strength, and range of motion during oral endotracheal intubation with mechanical ventilation to reduce or prevent dysphagia and aspiration (food or liquids entering the airway), establish a solid foundation in understanding reasons for swallowing impairment after extubation from mechanical ventilation and learn new methods to reduce or prevent these problems.
Background: Older people with neurological dysphagia are at risk of recurrent aspiration pneumonia. Angiotensin converting enzyme inhibitor (ACEI) has been shown to improve swallowing and cough reflexes which may protect dysphagic patients from aspiration pneumonia. Hypotheses: ACEI reduces the risk of pneumonia in older patients who are nasogastric tube fed because of dysphagia from cerebrovascular diseases. Design: Randomized placebo controlled trial Method: 302 older patients who have been tube fed for more than two weeks because of dysphagia secondary to cerebrovascular diseases are randomized to take half of lisinopril 5 mg or placebo tablet once daily for 26 weeks. The subjects will be recruited from medical wards in Prince of Wales and Shatin Hospitals, and from outpatients of geriatric or speech therapy clinics, who have had hospital stay in previous three months. The subjects are followed up at week 12 and 26. The primary outcome is the incidence rate of pneumonia as determined by pneumonic change on X ray and clinical criteria. The secondary outcomes are mortality rate, total episodes of pneumonia over 26 weeks, and swallowing ability defined by the Royal Brisbane Hospital Outcome Measure at week 12. Cost effectiveness analysis of public health care and personal health care costs will be performed. Intention to treat and log rank will be used to analyzed the group differences in outcomes. 60 subjects (30 in each trial group) recruited from medical inpatients at Prince of Wales Hospital will undergo swallowing videofluoscopy at baseline and week 12 follow-up.
Biomedical devices, such as artificial joints and pacemakers, are accepted and commonly used in medicine. While great progress in biomedical devices has been made for many other disorders, there is currently no device available to assist with the act of deglutition. The investigators have developed a biomedical device (Swallow Expansion Device, SED) that assists with swallowing by mechanically opening the upper esophageal sphincter and allowing food and liquid to safely enter the esophagus. The SED has proven safe in cadaver and live animal studies (Belafsky, 2010).
This is a randomized, double-blind, placebo-controlled study to examine the effect of local intravenous steroids following anterior cervical spine surgery on the development of dysphagia in patients.
The purpose of this study is to evaluate if the use of Neuromuscular Electrical Stimulation (NMES) will provide a more efficient method of treating neonates with dysfunctional oral feeding such as dysphagia. This study will attempt to determine if NMES applied to neonates at 36-42 weeks post-conception age (PCA) will decrease the need for nasogastric tubes (NG) and gastrostomy tubes (G-TUBE). Increase the rate at which these neonates complete full oral feeds, improve their swallowing skills, increase oral intake of calories, and gain weight.
Oropharyngeal dysphagia induces aspirations which could be responsible of aspiration pneumonia and denutrition. It could be present in the majority of central neurological disease (degenerative or vascular disease), which explains that it is the first case of mortality in stroke. Two pilot studies realised by our research group aimed to demonstrate that sensitive transcutaneous electrical stimulation could improve swallowing coordination and reduce aspirations. This technique could be used at home. The aim of this study is to demonstrate that sensitive electrical stimulation could improve oropharyngeal dysphagia in hemispheric stroke patients. 118 patients should be included in seven centers. Sensitive electrical stimulation will be applied either as active stimulation, either as a placebo. Active electrical stimulation will be realised at 80 hz during 30 minutes, under motor threshold and above sensitive threshold. It will be administrated via surface electrodes over the hyoid bone. Patients will be separated by randomisation. Patients will be evaluated before and after 6 weeks of use. Methods will evaluation questionnaire, clinical examination and videofluoroscopy. The time of use will also be collected. We wish to demonstrate that transcutaneous electrical stimulation is able to improve oropharyngeal dysphagia in stroke.
In the acute phase of stroke, dysphagia (difficulty/inability to swallow) is a common problem that can have serious consequences such as aspiration pneumonia, increased lenght of hospitalisation, and death. It would be interesting to enhance the therapeutic effect of swallowing retraining by means on non-invasive brain stimulation such as transcranial direct current stimulation (tDCS). Hypothesis: during the acute phase of stroke, applying tDCS over the brain during the revalidation and/or supervised feeding improves dysphagia significantly when compared to sham tDCS.