29 Clinical Trials for Various Conditions
The goal of this clinical trial is to learn if a newly-created website tool, called WeCareToFeedDysphagia, helps to reduce feelings of burden in care partners of patients with Alzheimer's disease and related dementias (AD/ADRD) who were diagnosed with trouble swallowing (oropharyngeal dysphagia). The main questions this first test (pilot) study aims to answer are: * With the data this pilot study will collect, how do we best measure how strong a relationship is between care partners who use WeCareToFeedDysphagia and reduced feelings of burden (effect size estimates)? * Is it possible (feasible) to successfully repeat this study in a larger clinical trial with more research participants? Researchers will compare a group of care partners who have access to the WeCareToFeedDysphagia tool (intervention) to a group of care partners who do not have access to the tool. Both groups will receive contact information for help from a speech language pathologist expert (enhanced usual care). Participants will: * be given access to the web tool and receive 3 text message reminders over 3 weeks to use the tool (intervention group only). * be asked to complete a remote, web-based survey three times: when enrolled in the study, at 1 month following patient leaving the hospital, and at 3 months following patient leaving the hospital.
This is an investigator initiated prospective study to determine whether the use of a negative pressure suction in the hypopharynx will reduce the amount of aspiration during Video Fluoroscopic Swallowing Exam (VFSE) among patients with oropharyngeal dysphagia.
The purpose of this study is to learn about oral and swallowing function in older adults presenting to the emergency department. The hypothesis is that older adults often have problems with oral and swallowing function and these problems relate to other conditions. Study activities are done during the emergency department visit and include providing saliva samples, completing a bedside water swallow test, completing oral function assessments, completing respiratory function tests, and answering survey questions.
Hypothesis: Use of a Free Water Protocol (FWP) will improve patient satisfaction scores (Dysphagia Handicap Index), will not increase the risk of aspiration pneumonia/pneumonitis, and will result in improved oral hygiene (as assessed by the Oral Assessment Guide). Aim: To demonstrate that improvement in patient satisfaction and quality of life scores outweighs the potential risks of aspiration of plain water in an acute care setting; to qualitatively assess the implementation of a Free Water Protocol from the viewpoints of the patient and family/caregivers; to quantify changes in oral hygiene practices for individuals on the Free Water Protocol.
The primary objective of this double-blind, randomized, placebo-controlled, multicenter clinical trial is to evaluate the safety of AMDC-GIR during the 24 months following 2 consecutive treatments of tongue dysphagia in male and female patients who have undergone surgery and/or chemo- and/or radiotherapy for squamous cell cancer of the oropharynx.
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.
Investigator initiated prospective study to determine whether use of Continuous Positive Airway Pressure (CPAP) can improve the swallow function in patients who underwent total laryngectomy and are experiencing difficulty swallowing
The primary objective of this study is to evaluate the safety of Autologous Muscle Derived Cells for Gastro-Intestinal Repair (AMDC-GIR) during the 12 months following treatment of tongue dysphagia in male and female patients who have undergone surgery and/or chemo- and/or radiotherapy for squamous cell cancer of the oropharynx.
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 device evaluation study to determine the optimal stimulation characteristics for using vibrotactile stimulation as a sensory triggering device for self retraining in patients with chronic moderate to severe dysphagia. Stimulation characteristics to be tested are frequency of vibration, pressure between the device and the skin, mode of vibration (pulsed or continuous).
Cancers of the head and neck require surgical, radiation, and chemotherapy treatments that are intended to cure the disease. These treatments have toxic effects on muscles and structures that are necessary to swallow safely and efficiently. The resulting swallowing problems (dysphagia) often remain chronic for Veterans and interfere with their ability to eat and drink. The cost burden to the VA health system is high. There is an urgent need to develop rehabilitative treatments that lessen these burdens. The proposed research is designed to test a novel swallowing therapy that includes the coordination of breathing with swallowing. Our study will train medically and surgically treated, chronically dysphagic Veterans with histories of oropharyngeal cancer in a novel therapy that involves both swallowing and respiratory systems. If the therapy is found to be effective, the long term goal of the project is to extend the study to a multi-site, clinical trial and test the longstanding effect of this treatment compared to other swallowing therapies on swallowing function, QOL and cost.
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.
This observational study will examine the effects of thickened feeds on clinical outcomes and healthcare utilization in infants with brief resolved unexplained event (BRUE).
To use novel methods for quantitative analysis of VFSS (videofluoroscopic swallow study, also known as modified barium swallow) to study and compare dysphagia in patients treated for head and neck carcinoma with concurrent radiation therapy and chemotherapy (cisplatin) or targeted therapy (cetuximab) vs. immunotherapy (pembrolizumab, nivolumab, or durvalumab). Our hypothesis is that pharyngeal constriction will be greater (lower ratio) with concurrent immunotherapy compared to chemotherapy, as measured by the pharyngeal constriction ratio (PCR).
The study procedure of simultaneous VFSS and DDS measurement will be completed in one day and the subject will be followed within 2 business days after the study procedure to monitor for adverse events.
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.
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.
Dysphagia (swallowing impairment) is a serious health condition seen in many age-related disease and injury processes. Although videofluoroscopy (VF) is an international "gold standard" dysphagia diagnostic exam, there is a paucity of available normative physiologic VF reference values in healthy adults across the age span to guide interpretation of these examinations. In this project, the investigators will extend previous work on the quantitative measurement of swallowing physiology from VF examinations to establish reference values for swallowing in healthy adults, and to identify clinical decision point values for differentiating healthy swallowing across the age span from disordered swallowing in several high-risk clinical populations to study dysphagia.
Swallowing impairments (dysphagia) frequently occur after stroke and have devastating consequences on overall health and quality of life, and long-term deficits in swallow function also increase risk of morbidity (e.g. depression) and mortality (i.e. aspiration pneumonia). As such, rehabilitation of swallow function to improve safety and efficiency of swallowing is essential in this population. This study aims to: 1) Provide preliminary data to evaluate the effect of a novel lingual endurance exercise on swallow function in individuals with post-stroke dysphagia; and 2) Collect preliminary data regarding changes in white matter tract diffusion and cortical thickness and from MRI data to better understand effects of lingual exercise training on neuroplasticity.
This study is for patients with oropharyngeal squamous cell carcinoma. We want to learn more about how we can optimize pain control in patients who undergo transoral robotic surgery (TORS) for oropharyngeal squamous cell carcinoma. Our goal is to determine if a local anesthetic called EXPAREL® (Liposomal Bupivacaine) impacts postsurgical pain and swallow function in patients with oropharyngeal squamous cell carcinoma undergoing TORS. EXPAREL® is an FDA-approved anesthetic drug that provides long-lasting and precise pain relief when injected into the surgical wound. Our study team wants to determine if injecting EXPAREL® into the surgical wound will provide better pain relief and swallow function when compared to patients who do not undergo postoperative EXPAREL® injection. Both options for postoperative pain control are considered standard of care for patients undergoing TORS.
The goal of the study is to learn more about tests that can assess lung health in children with Down syndrome.
This study will investigate the safety and efficacy of a silk protein microparticle-based filler for vocal fold injection augmentation to treat dysphonia/dysphagia secondary to vocal fold paralysis. Participants will receive one injection and follow-up for a planned period of 12 months.
Veterans following treatment of head and neck cancer can be left with lasting swallowing impairment that may require diet alterations, need for feeding tubes, and risk of pneumonia. The investigators' previous trial tested a new swallowing treatment approach to target respiratory-swallow coordination. The results revealed improvements in respiratory-swallow coordination and swallowing function. The goal of this study is to determine the impact and durability of respiratory-swallow training (RST) on clinical outcomes necessary for eating, drinking, health, and quality-of-life in Veterans with swallowing impairment following treatment for head and neck cancer. A total of 50 participants will be recruited with a goal of 40 randomly assigned to immediate RST or delayed RST.
The overall goal of this randomized controlled pilot study is to characterize effects of SwallowSTRONG® Device-Facilitated Isometric Progressive Resistance Oropharyngeal (DF I-PRO) therapy in a dose response framework on swallowing-related outcomes in a group of unilateral ischemic stroke patients. These results will be used to determine adequate sample size in order to support a larger clinical trial focused on the efficacy of this therapy approach for improving swallowing safety. The first aim is to determine differences in swallowing physiology and bolus flow measures a) between a group of unilateral ischemic stroke subjects undergoing SwallowSTRONG® DF I-PRO therapy and controls and b) between 8 and 12 weeks of treatment. The second aim is to examine changes in level of oral intake and swallowing quality of life in post-stroke patients undergoing DF I-PRO therapy as compared to a control group and as they relate to treatment duration response at 8 weeks and 12 weeks. The third aim is to evaluate effects of DF I-PRO therapy on overall health status reflected by the number of pneumonia diagnoses and overall hospital readmission rates in post-stroke subjects undergoing DF I-PRO therapy compared to controls.
The goal of this clinical research study is to compare the use of MRI simulations to plan different doses of intensity modulated radiotherapy (IMRT) to the standard IMRT dose in patients with low risk human papilloma virus positive oropharyngeal cancer. This is an investigational study. MRI simulations and radiation therapy are delivered using FDA-approved and commercially available methods. The use of MRI imaging to plan the dose is investigational. Up to 90 participants will be enrolled in this study. All will take part at MD Anderson.
This randomized pilot clinical trial studies dexamethasone in reducing oral pain and dry mouth after surgery in patients with oropharyngeal cancer. Dexamethasone may help lower pain and dry mouth caused by surgery.
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.
This project defines the effect on swallowing of intensity modulation during radiotherapy in an organ preservation treatment involving chemoradiation for 125 oral, laryngeal, and pharyngeal cancer patients with previously untreated Stage III or IV disease and to identify optimum treatment strategies. The specific aims are: 1) define the physiologic effects of chemoradiotherapy with IMRT to various sites in the upper aerodigestive/vocal tract including the cervical esophagus and the rate at which patients return to oral intake; 2) document the acute toxicities, late complications, locoregional failure and survival, and the relationship between fibrosis rating and the measure of laryngeal elevation; 3) determine whether the patient's swallowing mechanism can compensate for physiologic deficits in swallowing by introduction of interventions (postural changes, voluntary swallow maneuvers, several bolus volumes); 4) determine whether time to return to oral intake, effects of swallow maneuvers and/or volume, presence of an esophageal stricture and the duration of success of dilatation depends on radiation dose volume to specific structures in the head and neck; 5) define the relationship of tongue base pressure to development of esophageal stricture. Patients will be accrued from Northwestern University and University of Chicago. Effects are defined in terms of swallowing function, morbidity, toxicity and survival. Other outcome measures are the maintenance of voluntary control (flexibility) of the oropharyngeal region as indicated by the ability to correctly produce swallow maneuvers; and positive changes in cricopharyngeal opening duration with normal bolus volume shifts. Patients will be studied pretreatment, and at 1 month, 3 months, 6 months, 12 months, and 24 months post completion of chemoradiation. At each assessment, patients will receive a videofluoroscopic assessment of swallowing utilizing a standard protocol, assessment of xerostomia, mucositis, and fibrosis as well as assessment of disease status and quality of life scales. Head and neck cancer is a severe problem that affects public health. Most current treatments are a combination of radiotherapy with chemotherapy, which can result in severe swallowing problems which may make patients unwilling to accept this type of treatment. This project attempts to quantify the swallow problems associated with this specific treatment and the effects of interventions for these swallow problems.