View clinical trials related to Gastroparesis.
Filter by:Macrophage-driven immune dysregulation has been shown to be involved in pathophysiology of diabetic gastroparesis. Currently, there are no non-invasive ways to study macrophage activation in humans. The researchers are trying to determine the utility of 11C-ER176 based PET-CT scanning to determine pro-inflammatory macrophage activation in gastric wall of patients with diabetic gastroparesis.
This is a prospective registry of all patients who endoscopic submucosal dissection (ESD), per-oral endoscopic myotomy (POEM) and gastric per-oral endoscopic myotomy (G-POEM) using ConMed Electrosurgical unit for submucosal Dissection at Baylor St Luke's Medical Center. Collected information includes; procedure technical success rate, duration, periprocedural complications and ease of use.
Prospective bi-centric randomized open-label study comparing side to side and end to side gastrojejunostomy in pancreaticoduodenectomy
Diabetic gastroparesis (DG) is an under recognized and significant complication of diabetes with lack of effective treatments. Recently, a 4-fold increase in hospitalizations has been seen in DG patients with refractory symptoms, defined as Grade 3 gastroparesis. A critical barrier to progress has been both a lack of pathophysiological understanding of DG and absence of effective treatments. Diabetic autonomic neuropathy is felt to be a key dysfunction in DG that causes gastric atony and segmental hypomotility of the small intestine. Autonomic testing of DG patients reveals significant sympathetic hypofunction, a feature distinguishing DG from diabetics with normal gastric emptying. Therefore, stimulation of the thoracic dorsal roots of the greater splanchnic nerve (sympathetic stimulation) could enhance gastric motility, as observed in animal models, and improve DG. Investigators have developed a novel, safe, noninvasive peripheral nerve treatment using repetitive magnetic stimulation, and have demonstrated improvement in fecal incontinence with neuropathy. The goal of this study is to build on our expertise to conduct a pilot, feasibility study by examining the effect of Thoracic Splanchnic Magnetic Neuromodulation Therapy (ThorS-MagNT) in patients with Grade 3 DG. The aims are to evaluate the safety, effectiveness and feasibility of ThorS-MagNT in patients with Grade 3 DG and to evaluate predictive factors of treatment. The central hypothesis is that ThorS-MagNT will improve sympathetic hypofunction, gastric motility, and spino-gut interactions, and thereby, improve symptoms of DG. ThorS-MagNT will be performed in 12 patients hospitalized with severe DG by using low-frequency, low-intensity repetitive magnetic stimulation, bilaterally, around T7 intravertebral space, twice a day for 5 days, with a total 1200 magnetic stimulations per treatment session at 1 Hz. The primary outcome is responder rate, defined as ≥20% reduction in the Gastroparesis Cardinal Symptom Index-daily diary (ANMS GCSI-DD) score. Secondary outcomes include subscores of the ANMS GSCI-DD, effects on gastric emptying time, Patient Global Impression of Improvement (PGI-I), safety, and tolerability. The impact of this work is to develop a novel, safe, and non-invasive treatment for severe DG that could result in a paradigm shift in management of DG.
The purpose of this program is to allow the use of domperidone in children from 12 to 21 years of age with symptoms related to motility disorders and Gastroesophageal reflux disease (GERD) who have failed all the standard treatments for their condition.
This study will assess changes in glycemic control in 40 patients with diabetes who undergo per-oral pyloromyotomy (POP) for medically refractory gastroparesis.
The purpose of this study is to establish the usability of a telehealth platform for the administration of GEBT.
The overall objective of this study is to determine if there are pyloric sphincter abnormalities in patients with gastroparesis symptoms and determine how prevalent these abnormalities are using tests to assess the pyloric sphincter - endoluminal functional luminal imaging probe (Endoflip™), water load satiety testing (WLST), and high-resolution cutaneous electrogastrography (HR-EGG) using Gastric Alimetry™ System.
The purpose of this study is to determine whether there is a difference in the human in vivo response to 13C-Spirulina meals manufactured using 13C-Spirulina containing different levels of protein (as measured by %nitrogen).
The purpose of this study is to collect human breath samples for use in a validation study intended to demonstrate equivalent clinical performance measures of new ABCA2 GIRMS (Automated Breath Carbon Analyzer-2 Gas Isotope Ratio Mass Spectrometer) instruments to the currently FDA-approved ABCA GIRMS (Automated Breath Carbon Analyzer Gas Isotope Ratio Mass Spectrometer) system. ABCA GIRMS systems are used to analyze the ratio of 13CO2 to 12CO2 in patient breath samples during the GEBT (Gastric Emptying Breath Test) procedure.