52 Clinical Trials for Various Conditions
Dysphagia, or difficulty swallowing, is a common symptom of many neurological diseases but its treatment is not well established or easily accessible. To start addressing this gap, the researchers developed and validated a cost-effective wearable surface electromyography (sEMG) biofeedback sensor technology (i-Phagia), optimized to record muscle activity from the head/neck and provide biofeedback to patients and adherence data to clinicians during swallow therapy. This system has been developed with commercially available and widely used materials and the Purdue University IRB has determined that the device is non-significant risk device. The goal of this clinical trial is to learn if this biofeedback (using this new technology/i-Phagia) when used as an adjunct to a standard swallow therapy protocol works to improve swallowing function in patients post chronic stroke or diagnosed with Parkinson's disease. It will also help the investigators learn whether this therapy protocol is equally effective when provided in-person versus via telehealth. Finally, it will determine which patient factors may influence how well the treatment works. The main questions it aims to answer are: * Does biofeedback (using this new technology/i-Phagia) when used as an adjunct to a standard swallow therapy protocol works better than a standard of care treatment to improve swallowing function in patients post chronic stroke or diagnosed with Parkinson's disease? * Is completing the swallow therapy protocol at home (via telehealth) as effective as completing it in-person (in the clinic)? * What factors related to the patients (e.g., age, diagnosis, etc.) may influence how well the treatment works? Participants will: * Complete a 12-week swallow treatment protocol (12 treatment visits) either in-person or at home (via telehealth) * Complete 3 in-person evaluations (pre-treatment; post-treatment; and at a 12-week post treatment follow-up time point) * Exercise at home several days per week and keep a diary/log of their home exercise The hypothesis is that upon study completion, the efficacy of sEMG biofeedback-facilitated swallow therapy for both in-person and telehealth service delivery in two neurogenic dysphagia populations will have been established, and variables determining response to treatment will begin to be identified.
People suffering from swallowing disorders (dysphagia) have a hard time swallowing liquids that are too thin (like water or coffee) or too thick, correctly. They can have health problems, such as chest infections and malnutrition because when they try to drink, some of the liquid "goes down the wrong pipe" and into the lungs. To help people with dysphagia, Swallow Solutions is developing thickened liquids that have added nutrition, taste good, and quench thirst, but are still easy and safe to swallow.
The purpose of this study is to show that the Per-Oral Endoscopic Myotomy (POEM) procedure is an effective treatment for people with achalasia.
This study will identify clinical signs and symptoms critical for diagnosing swallowing disorders and will characterize swallowing problems in various patient populations, such as patients with Parkinson's disease, stroke, post-polio syndrome, multiple sclerosis and other conditions that cause swallowing abnormalities. Patients with swallowing difficulties who are enrolled in NIH neurology or speech pathology protocols may be eligible for this study. Participants will undergo the following procedures: 1. Oral examination-A neurologist and speech pathologist examine the patient's swallowing function. The patient is interviewed about difficulties with food intake, chewing and swallowing during meals. 2. Ultrasound examination-Ultrasound creates image of areas inside the body using sound waves. With the patient in a sitting position, a 3/4-inch transducer (device for transmitting and receiving sound waves) is placed under the chin to visualize tongue movements during swallowing. 3. Modified barium swallow-While standing or sitting, the patient swallows 1/2 teaspoon of flavored barium (a radioactive substance) six times (a total of 3 teaspoons), while the tongue and pharynx (tube leading from the mouth to the esophagus) are scanned and videotaped. The barium is given in three consistencies-thin, medium and thick (pudding-like). 4. Electromyography-A small plastic strip with wires attached is placed under the patient's chin. The patient then swallows 1/2 ounce of barium three times in a row, and the movement of the chin muscles during swallowing is displayed. Patients may also be asked to swallow 5/8 cup of barium twice; once with the head tilted upward and once with the head untilted. Depending on the test results, patients may be asked to return for follow-up study and monitoring.
POEM (per oral endoscopic myotomy) is effective for the treatment of swallowing disorders but can induce acid reflux. If acid reflux remains untreated in this situation, it can lead to significant problems. Thus, minimizing abnormal acid exposure after POEM is very important. Typically, this is done with acid suppression medications such as Prilosec or Nexium. However, long term acid suppression medication has been linked to possible long-term complications. Transoral incisionless fundoplication (TIF) has been approved for the treatment of reflux, but its use in reflux after POEM has not been investigated in detail. We hypothesize TIF will be able to decrease the amount of acid reflux in to the esophagus, thereby allowing patients to remain off of acid suppression medications. Once enrolled into the study, you will undergo the POEM procedure. 3 months after the procedure we will assess for abnormal reflux via questionnaires and diagnostic testing as part of the standard management post POEM. If there is evidence of abnormal reflux, the TIF procedure will be performed. 3 months after the TIF, you will have similar testing again to document resolution in abnormal acid reflux.You will be followed for 12 months as part of the study. If at the 3 month mark, there is no evidence of abnormal reflux, you will neither be placed on PPI nor undergo TIF and will be followed for 12 months to assess for abnormal reflux
Background: High-flow nasal cannula (HFNC) is a non-invasive heated and humidified oxygen delivery device that is capable of delivering high-flow rates. It is a relatively new modality that has been introduced as an alternative to conventional oxygen therapy. The clinical value of the use of HFNC is not limited to its ventilation and oxygenation effects, it enables the patient to talk and is purported to permit oral feeding during oxygen therapy despite the limited evidence regarding its impact on swallow function. This study will determine the impact of different flow rates of a high-flow nasal cannula on spontaneous swallowing frequency at rest and swallowing effort and timing while swallowing. Methods: This is a prospective study designed to measure swallowing frequency and swallowing effort in fifty healthy adult volunteers. Participants will receive three levels of HFNC flow rates (30, 45, and 60 L/min) through nasal prongs. The study participants will be asked to swallow measured amounts of water and applesauce and subjected to each flow rate for 15 minutes. Swallowing effort measurement through surface electromyography (sEMG) will be recorded at baseline and the three levels of HFNC flow rates interventions.
First part of a 2 part study with the same IRB protocol #, and labeled 'A'. Investigators hypothesized that clinical muscle strength assessment (manual muscle testing) predicts the ability to protect the airway during swallowing in long-term ventilated subjects. More specifically, the investigators hypothesized that low muscle strength is associated with the inability to clear secretions from the peri-laryngeal area (valleculae and pyriform sinus residue scale (VPSR scale \[NRS: 0-4\] of \> 1) and entering the materials into airway (PAS scale \[1-8\]\> 1), which should predispose to endotracheal aspiration.
This is prospective data recording study. All patients will receive standard medical care and no experimental interventions will be performed.
The study aims to examine effectiveness of the Safe and Sound Protocol (SSP) on sensory, digestive, and eating behaviors in children currently receiving therapy.
This study will investigate if the performance on the Montreal Cognitive Assessment (MoCA) is associated or predictive of the outcomes in voice, swallowing or upper airway therapy in the older laryngology treatment seeking patients. The relationship between the scores of MoCA and parameters in therapy will be analyzed. The outcomes of this study could potentially impact how investigators determine candidacy for therapy and develop patient treatment plans to meet their needs. This is a collaborative study with Emory Voice Center and the NYU Voice Center.
This multi-site trial will follow a cohort of Veterans with dysphagia for 8 weeks as they undergo clinically guided oropharyngeal exercises with oropharyngeal strengthening as the primary goal. Veterans with dysphagia will be assessed at three time points: baseline, 4 weeks after treatment initiation, and 8 weeks after treatment initiation. A non-dysphagic Veteran control group will also undergo data collection at parallel time points, without completion of a treatment paradigm. The investigators will then compare patients to non-dysphagic controls using manometry, videofluoroscopy, diet assessment, functional reserve tests, and patient-reported outcome measures. The investigators aim to 1) quantify change in pressure measures of swallowing function resulting from dysphagia treatment; 2) determine which combination of standard of care and/or pressure-based metrics best track with outcome measures; and 3) develop multimodal prognostic algorithms that predict treatment success. This research will establish a precise outcome measurement paradigm suitable for dysphagia clinical care and research, thus improving clinical confidence and paving the way for a personalized medicine approach for dysphagia rehabilitation in Veterans.
The purpose of this study is to better understand the role of a technique called esophageal dilation in patients who complain of trouble swallowing. In patients with esophageal stricture we want to determine if the size of the esophageal dilator makes a difference in symptoms and outcomes. In patients who do not have an obvious esophageal stricture we want to determine if esophageal dilation is an effective therapy in these patients.
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.
This research study is investigating whether completing breathing exercises before surgery helps heart transplant patients recover after surgery. Previous studies have shown that breathing exercises can improve breathing, cough, and swallow function in patients with other diseases/conditions. The current study will investigate the impact of a preoperative respiratory muscle strength training program on breathing and cough function, swallow function, patient-reported eating and swallowing fatigue, and health outcomes in individuals undergoing heart transplantation. Participants will: * undergo tests of breathing, cough, and swallow function * complete questionnaires about the treatment, their swallow function * complete breathing exercises daily
Head and neck cancers have escalated to epidemic levels in the United States, and survivors are suffering from life-long, devastating swallowing disorders with limited therapeutic options. This clinical trial investigates a novel swallowing treatment that trains initiation of swallowing during the expiratory phase of respiration to improve swallowing safety and efficiency.
Dysphagia (difficulty swallowing) is a common and potentially life-threatening toxicity of radiotherapy (RT) for patients with head and neck cancer (HNC). HNC survivors have a 20-24 percent lifetime risk of pneumonia after RT, which is associated with a 42 percent excess risk of death in survivorship. Moreover, dysphagia predisposes individuals to malnutrition, and at least half of HNC patients require feeding tubes during RT. Patients are commonly referred for swallowing therapy with a speech pathologist. Some patients receive early intervention, before a swallowing problem begins-PRO-ACTIVE therapy. Other patients are monitored and prescribed dysphagia interventions only if and when a swallowing problem occurs-RE-ACTIVE therapy. Thus, REACTIVE therapy aims to reverse an already impaired swallowing ability, whereas PRO-ACTIVE therapy aims to prevent or reduce severity of dysphagia. These two broad categories of therapy represent the most common types of intervention offered to HNC patients across North America. Although there is single-institution evidence to support each practice, it is yet unknown which is most effective. To address this gap, the primary aim of this international, multi-site 3-arm pragmatic randomized clinical trial is to compare the effectiveness of PRO-ACTIVE (high and low intensity) versus RE-ACTIVE swallowing therapy among 952 patients with HNC planning to undergo RT, using duration of feeding tube dependence after RT as the primary outcome. Our secondary aim proposes to compare the relative benefit or harm of these swallowing interventions on secondary outcomes considered relevant to our stakeholder partners.
In this study supported by an American Cancer Society grant, the investigators are evaluating two levels of swallowing exercise intensity on the maintenance of swallowing muscles and their function in Head/Neck cancer patients undergoing radiotherapy. Patients in this study are randomly placed into different exercise groups and provided with exercises to perform daily during their radiation treatment. Their progress, diet management and swallowing ability are monitored throughout the treatment period and followed up until 3 months after radiation treatment. In addition to the daily treatment details, the patients perception of their swallowing ability and concerns about their health and treatment are also measured. This clinical trial will help to refine a previously investigated simple exercise package and provide a program of intervention that can help prevent medically related complications of swallowing difficulty (e.g. pneumonia, dehydration, prolonged tube feeding), and improve the ability to eat for patients with head / neck cancer. Ultimately it is hoped that this form of exercise therapy will help reduce the costs (personal and financial) to the patient, caregivers and community.
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.
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. ...
The purpose of this study is to determine the feasibility of using extrinsic laryngeal muscle stimulation to elevate the larynx in a manner similar to that which occurs during normal swallowing. This research will also determine whether laryngeal elevation will open the upper esophageal sphincter to assist with entry of the bolus into the esophagus. This protocol includes studies in normal volunteers and patients with swallowing disorders. The outcome of this study will be relevant to future use of neuromuscular stimulation for laryngeal elevation in patients with pharyngeal dysphagia....
Wearable tele-rehabilitation technology allows for the efficient provision of rehabilitation services from a distance, facilitating tele-management of many disorders. The proposed research will develop and validate a set of mechanically compliant, easy-to-use, and inexpensive wearable tele-monitoring systems, for future use in the rehabilitation of swallowing disorders (dysphagia). The hypothesis is that the newly developed wearable sensors will have equal or better performance than traditional wired sensors used today in clinical practice. Factors related to signal quality and patient reported outcomes (e.g., satisfaction/comfort level, adverse effects etc.) will be examined.
The long-term goal of this research program is to advance the treatment of swallowing disorders in elderly adults. This study will identify the impact of an 8-week progressive resistance exercise program for oral muscles on swallowing physiology, anatomy, dietary intake, and Quality of Life (QOL) in frail dysphagic adults. Findings from the exercise program may indicate new directions for treatments and techniques designed to influence the biological underpinnings of dysphagia in elderly persons. Translation of these findings into clinical practice will have far-reaching significance in the fields of gerontology, speech language pathology, and long-term care.
Aspiration pneumonia due to dysphagia is a leading cause of death in Parkinson's disease (PD). Dysphagia intervention in the United States involves evaluation at onset of dysphagia symptoms followed by short-term therapy. Traditional therapy relies on verbal instruction and low-tech at-home exercise regimens without visual biofeedback; lacking a monitoring of accuracy or strength of exercise. Available biofeedback is office-based, bulky and expensive, thus, not readily used. The Biofeedback in Strength and Skill Training (BiSSKit) is a well-researched office based biofeedback system that has recently been converted into an affordable and accessible home-based application. This study aims to investigate the impact of swallowing therapy using the BiSSKit app on airway protective outcomes in patients with PD. Thirty participants with PD and dysphagia will be recruited for this study. Participants will undergo a baseline-modified barium swallowing (MBS) evaluation followed by 12 weekly sessions of swallowing therapy. Participants will be randomized to two swallowing therapy groups (1) traditional (2) BiSSKit app. Participants will undergo MBS following therapy completion. Outcome measures include swallowing safety, pharyngeal kinematics, and swallowing-related quality of life. We hypothesize that use of the BiSSKit will result in improved swallowing function compared to the traditional swallowing therapy group.
This study is evaluating the use of two painless, non-invasive technologies in the assessment of muscle health over time in both healthy volunteers and patients who have diseases that affect the nervous system.
The stimulation frequency has been found to affect the axial symptoms of freezing of gait (FOG) and speech in advanced Parkinson's disease (PD) patients with subthalamic nucleus deep brain stimulation (STN DBS), with the traditionally high stimulation frequency of 130 Hz worsening while low frequency of 60 Hz improving these symptoms. The effect of stimulation frequency on another important axial symptom, swallowing dysfunction, has not been studied. The investigators hypothesize that stimulation frequency could have similar effect on swallowing function.
This study will use a sipping and spitting exercise to better understand the brain's response to food intake in people with eating disorders.
In this online study, investigators will explore the psychosocial burdens of swallowing difficulties in people with Parkinson's Disease. This study is completely virtual, so you can participate from wherever you live in the United States. Participation requires you to complete a one-hour Zoom interview and a brief questionnaire. You will be compensated with a $25 Walmart gift card. To learn more, please use the "send email" feature. Thank you!
This research study is investigating whether people with Alzheimer's disease (AD) experience more changes to swallowing than their healthy age-matched peers. The prevalence of swallowing impairments in moderate-severe AD is high (85-93%), yet little is known about how swallow function evolves throughout the disease course in people with AD. The overall objective of this study is to evaluate swallowing function in adults with and without Alzheimer's disease. The investigator will also be involving the primary caregivers of individuals with Alzheimer's that are enrolled in the study to better understand the impact of swallowing impairments on the primary caregivers of those with Alzheimer's Disease. Healthy adults and individuals with Alzheimer's disease will: * undergo tests of cough and swallow function * undergo tests of grip and tongue strength * complete questionnaires Caregivers of individuals with Alzheimer's disease will also complete questionnaires.
The Family Caregiver Survey is a one-time, 30-minute, online survey for people living with and caring for a family member with dementia. The goal of this research is to explore the needs of family caregivers, specifically when it comes to managing swallowing difficulties (dysphagia).
Due to different study designs, the sponsor separated Part C into this separate registration (NCT04958642), leaving Parts A/B in NCT02534844. The trial's final results for the primary outcome measure of Adverse Events (AE) will be reported here. This study is to evaluate how safe and effective adrabetadex is for participants with Niemann-Pick Type C1 (NPC1) disease who experience neurologic symptoms (listed under Keywords). In Parts A/B (NCT02534844), two out of every 3 participants will receive the study drug. The third participant will receive 1 to 2 small needle pricks at the location where the IT injection is normally made (sham control). In Part C, all participants will receive study drug.