View clinical trials related to Deglutition Disorders.
Filter by: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.
This study will compare several techniques designed to improve the ability to swallow in stroke patients with chronic dysphagia (difficulty swallowing). Healthy volunteers 20 to 60 years of age and people 20 to 90 years of age who have had a stroke resulting in swallowing problems may be eligible for this study. Volunteers are screened with a medical history, physical examination, and urine test for women to rule out pregnancy. Stroke patients are screened additionally with a chest x-ray, physical examination, cognitive screening, swallowing questionnaires, nasoendoscopy (examination of the nasal passages in the back of the throat using a lighted telescopic instrument) and FEESST (passage of a thin, flexible telescope through the nose to the voice box), videofluoroscopy (x-ray of the head and neck during swallowing) and button press training (learning how to press a button on a table in coordination with swallowing). All participants undergo the following procedures: - Transcranial magnetic stimulation (TMS): A metal coil is placed on the head and sends a pulse of energy to the brain through the scalp. The muscle response to the pulse is recorded from the muscles in the throat that are associated with swallowing. - Electromyography: A needle is used to insert tiny wires in specific muscles of the throat to record the muscle response to the TMS pulses. - Magnetic resonance imaging (MRI): During brain MRI scanning, subjects lie quietly and images of the brain are taken. In addition to the above tests, stroke patients undergo the following: - Water test: The subject swallows a small amount of water and the number of times required to clear the throat or cough is counted. This test is repeated five times. - Experimental training. Subjects have a total of 12 60-minute training sessions, one session a day for up to 5 sessions a week. - Button press training: The subject swallows small amounts of water. A device placed on the throat senses when swallowing occurs. The subject learns how to coordinate pressing a button on a table in coordination with swallowing. - Vibrotactile stimulator training: A device that uses a buzzing vibration is placed on the throat at times during the swallowing training. - Transcranial direct current stimulation (tDCS): Wires attached to sponge electrodes are placed on the scalp and over the eye. Small electric currents are delivered to areas of the brain involved with swallowing. This is done at times during the swallowing training. Participants may receive one of several combinations of training approaches; all receive the volitional (button-press) training. Within 5 days of completing training, subjects repeat the tests. TMS, MRI, MEG and x-ray study of swallowing function are also repeated to see if any changes have occurred in the brain or in the ability to swallow after training. Patients are contacted by telephone and in writing 3 and 6 months after training for follow-up on their swallowing status and oral intake.
Swallowing dysfunction after stroke is common, but there is no reliable evidence for how it should be managed other than perhaps by nasogastric tube. This study compared the effectiveness of standardised, low and high intensity behavioral intervention for dysphagia with that of “usual care”.
Aspiration could induce major respiratory affection. They are often present after stroke. The aim of this study is to facilitate swallowing recuperation in stroke patients using peripheral laryngeal stimulation and to understand its mechanisms using motor evoked potential and cortical evoked potential.
The primary objective of this study is to compare the efficacy of bougie dilation to electrosurgical incision of symptomatic schatzki's rings at one year follow-up in the presence of rabeprazole treatment. All patients will be followed for one year for recurrence and/or severity of dysphagia and will be placed on rabeprazole for that time period.
To compare the treatment of gullet cancer with radiotherapy alone and assess the advantage and toxicity of adding chemotherapy. The hypothesis to be tested is as follows: That the addition of chemotherapy to a short course of radiation treatment improves the proportion of patients who achieve relief of dysphagia and improves quality of life compared to radiation alone in patients with advanced oesophageal cancer.
This research will assess the accuracy of the Toronto Bedside Swallowing Screening Test (TOR-BSST), a new dysphagia screening test for patients with stroke. The purpose of the TOR-BSST is to predict the presence of dysphagia in stroke patients across their continuum of care in a simple and efficient manner. This initial research will assess the accuracy of the TOR-BSST in the acute and rehabilitative settings using videofluoroscopy as the gold standard for comparison. The results from this research will also assess the stability of the TOR-BSST across nursing, its primary user, and generate an estimate for the prevalence of dysphagia in adult stroke patients in the acute and rehabilitative settings. Participants in this research will be 315 stroke patients from several teaching centres in Ontario, namely 105 acute patients from the University Health Network, Sunnybrook & Women's College Health Sciences Centre, and Hamilton General Hospital, and 210 patients in the rehabilitation setting from the Toronto Rehabilitation Institute and Parkwood Hospital, London. Both the TOR-BSST and videofluoroscopic assessment will be administered within 24 hours of each other and interpreted according to published preferred practice guidelines for dysphagia. This research will be the first to implement and assess a standardised method for screening for dysphagia in stroke patients across the continuum of stroke recovery.
The purpose of this study is to determine if palifermin will reduce the incidence of dysphagia in patients receiving concurrent chemoradiotherapy followed by consolidation chemotherapy for treatment of unresectable stage III Non-Small Cell Lung Cancer (NSCLC).