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The goal of this clinical trial is to evaluate if the study drug CIN-102 (deudomperidone) can help to decrease nausea severity associated with idiopathic gastroparesis severity in adult subjects. The main questions it aims to answer are: * To evaluate the efficacy of CIN-102 on symptoms of gastroparesis when given to patients with idiopathic gastroparesis compared to a placebo * To evaluate the safety of CIN-102 when given to patients with idiopathic gastroparesis compared to a placebo Participants will go through the following schedule: * Pre-screening (1 visit) * Screening \& Lead-In (1-2 visits) * Will complete a Gastric Emptying Breath Test (GEBT) * Will complete daily diary and other Patient Reported Outcomes (PROs) as described in the protocol to assess eligibility for continued study participation. * Lead-In Period (1 visit) * 12-week treatment period (7 visits) * Study drug taken twice daily by mouth * Will complete daily diaries and other PROs as described in protocol * 1 week follow-up (1 visit) Researchers will compare the effects of the following treatments: * 15 mg CIN-102, taken orally BID for 12 weeks * 10 mg CIN-102, taken orally BID for 12 weeks * Placebo for CIN-102, taken orally BID for 12 weeks
The objective of the Pediatric Gastroparesis Registry 2 is to create a national prospective registry of children, adolescents, and young adults with gastroparesis and gastroparesis-like syndrome (symptoms of gastroparesis but normal gastric emptying).
The Gastroparesis Registry 4 (GpR4) is an observational study of patients with symptoms of gastroparesis (Gp) and functional dyspepsia (FD) with either delayed or normal gastric emptying. To better understand these disorders, this registry will capture demographic, clinical, physiological, questionnaire, and patient outcome data to characterize the patients and their clinical course. Participants will complete several questionnaires, complete a nutrient drink test and have a gastric emptying study.
This is a double-blind, randomized, multicenter, placebo-controlled, comparative phase II dose-finding trial. The trial will be conducted with four treatment groups in the form of a parallel group comparison and will serve to compare oral treatment with daily doses of 10, 20, or 40 mg Naronapride vs. placebo for the treatment of patients with Gastroparesis.
Gastric Per-Oral Endoscopic Myotomy (G-POEM) is a procedure for the Treatment of Gastroparesis.
The purpose of this study is to determine whether treatment with Growth Hormone results in symptomatic improvement in patients with gastroparesis.
The purpose of this research study is to assess whether using a yoga-based intervention in practice is feasible (possible) and acceptable to patients with Functional Dyspepsia and/or Gastroparesis (FD-GP).
A pilot study to evaluate and compare glucose metrics using a real-time continuous glucose monitor (FreeStyle Libre 3 sensor) between patients with diabetes and gastroparesis and those with diabetes without gastroparesis.
The goal of this observational study is to utilize a novel high resolution electrogastrography device to gauge if identification of gastric dysarrythmias can reliably identify patients that will respond to or will require definitive pyloric interventions such as a G-POEM procedure in patients with medically refractory gastroparesis Aims: 1. Assess for the presence of gastric dysarrythmias in lung transplantation population as compared to alternative etiologies of gastroparesis 2. Assess if presence or absence of gastric dysarrythmias is predictive of response or need of Gastric -per-oral endoscopic myotomy 3. Assess alterations in gastric dysarrthmias following pyloric interventions including G-POEM. Patients will undergo two surface body surface gastric mapping via the HR-EGG before and after undergoing a gastric per oral endoscopic myotomy as standard clinical care for the treatment of medically refractory gastroparesis
The global incidence of diabetes is rising. Gastroparesis is a significant complication of diabetes that results in debilitating symptoms and affects quality of life. Current treatment options for diabetic gastroparesis are limited. Significant visceral afferent neuropathy is associated with diabetic gastroparesis and sympathetic overactivity is seen in nausea, both type 1 and 2 diabetes, and diabetic complications. These dysfunctions can result from neuropathy affecting the thoracic spinal nerves that carry both general visceral afferents and preganglionic sympathetic efferents in the greater splanchnic nerve, innervating the foregut. Neuromodulation of the thoracic spinal nerves should improve diabetic gastroparesis symptoms and restore quality of life by improving neuropathy and gastric sensori-motor function. The investigators has developed and refined a novel, noninvasive, neuromodulation treatment, Thoracic Spinal Nerve Magnetic Neuromodulation Therapy (ThorS-MagNT). In an uncontrolled trial of adults with diabetic gastroparesis, ThorS-MagNT the investigators demonstrated feasibility, acceptability, and improvement of DGp symptoms. Whether active neuromodulation is better than sham therapy and the optimal frequency of treatment are not known. The investigators propose to conduct a dose-ranging, sham-controlled trial (pilot NIH Stage 1b) to assess the effect of ThorS-MagNT on symptom severity and quality of life in diabetic gastroparesis (TNM-DGp Trial). The investigators will test the hypothesis that ThorS-MagNT will improve visceral afferent neuropathy, autonomic and gastric dysfunction, compared to sham. The investigators will also test whether any improvements are due to neuromodulation of (a) peripheral spino-gut axis or (b) central structures of the limbic system and autonomic network, or both. Successful completion of this pilot study will provide insights into gastroparesis disease processes and inform mechanisms of action of neuromodulation therapy in addressing disruption of the brain-gut axis. Expected outcomes include development of a novel, non-invasive, safe and efficacious therapy for diabetic gastroparesis. These efforts will inform future true efficacy testing in an NIH Stage 2 trial using multiphase optimization strategy (MOST) design.