View clinical trials related to Deglutition Disorders.
Filter by:Transcranial alternating current stimulation (tACS) and transcranial random noise stimulation (tRNS) are two (CE marked medical devices) new, non-invasive (over the scalp) brain stimulation (NIBS) techniques. Both tACS and tRNS deliver a weak current continuously across the brain using pads placed over the scalp, which has been shown safe and well-tolerated by healthy adults and patients. These two techniques are able to softly alter physiological function within the brain. tACS can influence the brainwaves which have been demonstrated to play important roles in movement, sensation, and thinking functions. tACS and tRNS have been investigated for several years and have been shown to be safe, well tolerated and produce beneficial results in hand movement, hearing, and working memory. Swallowing problems are life-threatening symptom among patients with brain impairments and elderly people. Until now, there are no studies investigating whether tACS and tRNS can have a beneficial effect on swallowing function in human. Our aim is to examine the effects of different strengths of tACS and tRNS to determine the best approach for brain stimulation that controls swallowing action, before using these techniques in patients with (neurological) swallowing disorders. Participants: Healthy adults who are aged 18 years old or above with no medical complications or significant past medical history will be recruited in the study.
When soft palate defects lead to palatal insufficiency, the patient's quality of life is affected by difficulties swallowing, hypernasality, and poor intelligibility of speech. If immediate surgical reconstruction is not an option, the patient may benefit from the placement of a rigid obturator prosthesis. Unfortunately, the residual muscle stumps are often unable to adequately move this stiff and inert obturator to properly restore the velopharyngeal valve function. The objective of this case report was to describe the use of a membrane obturator prosthesis that incorporates a dental dam to compensate for the soft palate defect.
Irradiation of level III and IV draining nodes in breast cancer patients is often associated with dysphagia, requiring treatment with FANS and/or steroids. The present randomized phase III trial determined whether Zinc-L-Carnosine ( Hepilor), prevents or delays the onset of dysphagia in these patients.
The purpose of this study is to test the reliability and validity of the The Turkish Oropharyngeal Dysphagia Screening Test for Patients and Professionals among adult patients with swallowing disorders.
Swallowing function is controlled by two swallowing centres (one on each half of the brain). There is a dominant and non-dominant swallowing centre. Damage to any part of the brain can lead to swallowing problems, for example in strokes. Recovery of the ability to swallow is associated with increased activity (compensation) over the undamaged centre. The cerebellum is an area of the brain involved in the control and modulation of muscle movements. It is found at the back of the skull. Over the past few years studies have tried to improve swallowing function using techniques to stimulate regions of the brain and encourage compensation. Repetitive transcranial magnetic stimulation (rTMS) is a technique which can temporarily increase or suppress activity over regions of the brain. This study will use cerebellar rTMS to attempt to increase activity over the cortical swallowing centres. It will also temporarily suppress activity over the dominant swallowing centre (a virtual lesion) before using cerebellar targeted rTMS to attempt to reverse this suppressive electrical and behavioural effect. The investigators aim to compare the effectiveness of rTMS over the two halves of the cerebellum to rTMS over one half of the cerebellum in increasing activity over the swallowing centres and reversing the suppressive effects of low frequency rTMS 'virtual lesion' over the dominant swallowing centre.
Elbasvir/grazoprevir (Zepatier®) is a once-daily tablet for the treatment of chronic hepatitis C virus (HCV) GT1a, 1b or 4 infection containing the NS5A inhibitor elbasvir (ELB) 50 mg and the NS3/4A protease inhibitor grazoprevir (GZR) 100 mg. For patients with swallowing difficulties, administration of whole tablets can be problematic. In addition, HCV patients that are hospitalized (at intensive care units) due to severe illness (co-infections/ liver failure) might not be able to swallow medication. Therefore it is useful to know whether it is possible to administer ELB/GZR through a different route, like a feeding tube. In daily practice, information about the safety and efficacy of crushed tablets is lacking which might result in noncompliance, interruption or discontinuation of expensive HCV therapy. However, it is not recommended to interrupt treatment because there is no evidence about the efficacy of the therapy after discontinuation (and restarting). Currently, patients and healthcare professionals are crushing tablets without information about efficacy and safety. Depending on the biopharmaceutical characteristics of a drug formulation, crushing tablets can lead to altered pharmacokinetics of drugs. It is important to know whether pharmacokinetic parameters are influenced by crushing of tablets; both a decrease and an increase in exposure may occur. A decrease of the plasma concentrations of ELB and/or GZR potentially reduces the therapeutic effect of the drugs. Higher doses or switching to other HCV-drugs might be needed. In contrast, in case a higher Cmax and/or AUC occurs there might be an increased risk of toxicity. As a result, crushing the drug is a contra-indication based on the available data. Therefore this study will be conducted to investigate whether a crushed ELB/GZR tablet is bioequivalent to ELB/GZR as a whole tablet.
The purpose of this study is to test the reliability and validity of the T-MOE among pediatric patients with chewing disorders.
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.
The proposed study seeks to determine the incidence of dysphagia and vocal fold mobility impairment (VFMI) in individuals undergoing cardiothoracic surgical procedures. It also seeks to determine the impact of postoperative swallowing impairment on health-related outcomes.
Dysphagia is associated with high rates of mortality and morbidity. Adjusting the oral diet of ICU-patients based on flexible endoscopic evaluation of swallowing (FEES) findings might reduce pneumonia rate, mortality and need for intubation/tracheotomy.