View clinical trials related to Deglutition Disorders.
Filter by:To correlate findings between two commonly-used types of swallowing studies: videofluoroscopy and flexible endoscopic evaluation of swallowing (FEES).
To validate the pharyngeal constriction ration, a surrogate measure of pharyngeal strength on fluoroscopy by comparing it with simultaneous pharyngeal manometry.
Supplement pharyngolaryngeal deficient functions by insertion of a prosthesis with valves in order to allow tracheotomy closing (when applicable) and / or to allow restoration of god swallowing capacity. The secondary objective is to study the concept of a special valves system for the development of an artificial larynx
This research aims to facilitate the successful implementation of the new Heart and Stroke Foundation of Ontario dysphagia screening model for acute stroke patients. The objectives will be 1) to determine the natural history of dysphagia screening skill decay, and 2) to assess the benefit of independent web-based practice and periodic feedback on screening skill maintenance. We will enrol a convenience sample of nurses who currently work with stroke patients but who have had no prior formal training with dysphagia screening. The study will consist of 2 phases: A) an initial pilot phase followed by B) a prospective randomized controlled study. During Phase A, three new web-based, self-instructed skill refresher courses will be developed to help nurses maintain the skills they will learn in an 8-hour workshop on dysphagia screening. During Phase B, nurses will receive the 8-hour workshop and one-on-one evaluation by a speech-language pathologist (SLP). Following training, competent screeners will be randomized into one of two groups: Group A - Control group with no refresher course or periodic feedback from SLP; Group B - Web-based skill refresher courses only. Nurses will be evaluated at several timepoints throughout Phase B to assess theoretical dysphagia screening knowledge and skills.
RATIONALE: Drugs used in chemotherapy work in different ways to stop the growth of tumor cells, either by killing the cells or by stopping them from dividing. Radiation therapy uses high-energy x-rays to kill tumor cells. Amifostine may decrease the side effects caused by chemotherapy and radiation therapy. It is not yet known whether chemotherapy and radiation therapy are more effective with or without amifostine in treating head and neck cancer. PURPOSE: This randomized phase II trial is studying amifostine to see how well it works compared with standard care in reducing side effects in patients undergoing chemotherapy and radiation therapy for stage III or stage IV head and neck cancer.
This study will examine how the airway closes during swallowing to prevent food or liquid from entering the voice box or lungs while eating or drinking. It will also test whether electrical stimulation of muscles in the neck can close the airway as it would close during swallowing. The long-term goal of this research is to determine the feasibility of a new approach for helping patients with a severe and life threatening swallowing disorder. Healthy normal volunteers between 18 and 65 years of age who can swallow normally may be eligible for this study. Candidates are screened with a medical history, physical examination, electrocardiogram and nasolaryngoscopy. For the nasolaryngoscopy, the subject's voice box and epiglottis (flap of tissue that covers the windpipe during swallowing) are examined using a thin flexible tube with a camera attached that is passed through the nose to the back of the throat. During the test, speech and other tasks such as singing and whistling are observed. The camera records the movement of the vocal cords on videotape. This procedure may be repeated another time during the study. Participants undergo the following procedures: - Electrical stimulation of muscles in the neck: The muscles in the neck are stimulated with brief low-level electrical currents to see if the stimulation can cause the epiglottis to fold down over the windpipe. Stimulation may be increased to a level where it feels like a small shock The subject is asked to try to do the muscle stimulation while swallowing. - Videofluoroscopy (recording swallowing and muscle stimulation during x-ray imaging of the head): The head and neck are x-rayed while the subject swallows. After the wires have been inserted for EMG (see below), markers are glued to the tongue and a tube is inserted through the nose into the esophagus. The movements during swallowing with and without muscle stimulation are x-rayed and analyzed later to determine how the stimulation affects the movement of the epiglottis. - Electromyography (EMG): Measurement of the electrical activity of muscles in the neck using fine wires placed through the skin into muscles in the chin. - Manometry: During the videofluoroscopy, a manometer (tube that measures pressures) is placed through the nose and into the back of the throat at the entry point to the esophagus. This test shows whether muscle stimulation can fold down the epiglottis. - Surface electromyography (sEMG): The tube used during the videofluoroscopy has small rings embedded in it that measure muscle activity on the surface of the inside of the throat.
Globus sensations are associated with gastroesophageal reflux disease as well as the presence of a gastric inlet patch. No controlled trial exists on whether ablation of the cervical heterotopic mucosa may lead to improvement of chronic globus sensations. The aim of this sham-controlled trial is to clarify whether argon-beamer-ablation of cervical heterotopic gastric inlet patches of the esophagus improves patients' chronic globus sensations.
This study will compare an implant with the technique of sensory training to determine which method may improve the ability to swallow and reduce the risk of choking. Many people with a brain injury or neurological disorders experience difficulty in swallowing. Past studies have shown that an electrical pulse applied to muscles or an increase in sensory stimulation to the throat can help. Patients ages 18 to 90 who have had a brain injury or neurological disorder and who have had trouble swallowing for 6 months or longer may be eligible for this study. Patients will undergo a physical examination, pregnancy test, and exam by a throat and speech physician. Fiber-optic endoscopic evaluation of swallowing with sensory testing involves a flexible tube passed through the nose to the back of the throat to allow observation of the voice box. Videofluoroscopy, an X-ray of the head and neck, will be done while patients swallow. Patients experiencing trouble with the upper esophagus may undergo additional procedures, including manometry to measure pressure changes in the back of the throat, and reevaluation through the fiber-optic tube. Patients in this study will have a magnetic resonance imaging (MRI) scan, which uses a strong magnetic field to obtain images of the body. Patients will lie on a table that slides into the enclosed tunnel of the scanner. The scan will take 20 to 25 minutes. Patients will be assigned randomly to one of two groups: the intramuscular group, to have a stimulation device implanted in the neck, and the vibrotactile group, to receive a vibrotactile stimulator. All patients will have 10 training sessions with their devices, plus follow-up. Those patients in the first group will undergo surgery, under general anesthesia, for the implant. Three weeks following the implant procedure, patients will come to NIH to have the stimulator turned on and programmed and to learn how to use the device. Those patients in the second group will have about 2 to 3 weeks of training in using a vibrotactile device, and then they will take it home to use. All patients will return to NIH at 3 months to ensure proper use of the devices, and they will visit for follow-up at 6 months and 12 months for tests and questionnaires.
Anterior cervical spine surgery (ACSS) is one of the most common procedures performed by spinal surgeons. It is associated with a 30-50% risk of developing swallowing difficulties (dysphagia). Although these difficulties usually improve within 6 months, for some it remains a significant and persistent problem. We hypothesize that lowering the cuff pressure will lower the risk of injury to soft-tissues in the neck that are important to swallowing function. Our objective in this study is to demonstrate a lower occurrence of swallowing problems after anterior cervical spine surgery in patients with lower endotracheal tube cuff pressure during surgery. Forty patients will be randomly assigned to a treatment group or control group. The treatment group will have the cuff pressure maintained at 15mmHg during the entire duration of the procedure. The control group will have the cuff pressure monitored without manipulation. After surgery soft-tissue swelling will be assessed on the five routine neck x-rays taken. In addition, 3 questionnaires completed before surgery and at each scheduled follow-up appointment will measure and track changes in swallowing over time and assess the impact of swallowing function on the patient's overall health. The results of this study may show that making a minor, inexpensive change during an operation may lower the risk of swallowing difficulties after a relatively common surgery.
The purpose of this study is to confirm the effectiveness and safety of a new medical device which sprays liquid nitrogen through an upper endoscope (cryotherapy) to treat Barrett's esophagus with high-grade dysplasia and early esophageal cancer. It is hypothesized that this treatment will remove the abnormal lining of the esophagus and allow the normal esophageal lining to return.