View clinical trials related to Diabetic Gastroparesis.
Filter by:The goal of this clinical trial is to learn about effectiveness and safety of washing microbiota transplantation in diabetic gastrointestinal motility disorders participant population. The main questions it aims to answer are: - The risk factors of diabetic gastrointestinal motility disorders in routine clinical data or biochemical tests. - The composition of gut microbiota in diabetic gastrointestinal motility disorders patients and potential pathogenic bacteria. - The efficacy of washing microbiota transplantation in the clinical treatment of diabetic gastrointestinal motility disorders patients and potential factors that may influence treatment outcomes. - The potential mechanisms of washing microbiota transplantation in treating diabetic gastrointestinal motility disorders patients. Participants will be collected fasting venous blood and random stool samples before treatment and at week 12 post-treatment, conducting scale assessments before treatment and at weeks 1, 4, and 12 post-treatment.
This is a randomized controlled trial to explore the efficacy and safety of washed microbiota transplantation (WMT) for diabetic gastroparesis (DGP) patients.
The objective of the proposed study is to assess gastric emptying time (GET) based on contrast-enhanced multispectral optoacoustic imaging (CE-MSOT) in a collective of patients with type 1 diabetes mellitus (T1DM). The results will be correlated with disease duration and severity.
The goal of this clinical trial is to evaluate if the study drug CIN-102 (deudomperidone) can help reduce the symptoms associated with diabetic gastroparesis in adult patients. The main questions it aims to answer are: - To evaluate the efficacy of CIN-102 on symptoms of gastroparesis when given to patients with diabetic gastroparesis compared to a placebo - To evaluate the safety and tolerability of CIN-102 when given to patients with diabetic gastroparesis compared to a placebo Participants will go through the following schedule: - Screening period (1-2 visits) - Lead-in period (1 visit) - 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 - 12-week treatment period (5 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: - Drug- CIN-102 Dose 1 - Drug- CIN-102 Dose 2 - Drug- Placebo
This is an analytical validation observational cohort study is designed to provide evidence of: safety and reliability of Body Surface Gastric Mapping using the Gastric Alimetry System (GAS), normal reference values, and correlation of metrics with patient symptoms among healthy adults and patients diagnosed with upper abdominal motility disorders. GAS is intended to record, store, view and process gastric myoelectrical activity. This is a proprietary system consisting of multiple electrodes arranged on an array that is placed precisely over the stomach, a reader to collect the electrode measurements and a smart tablet application to track patient reported symptoms. Participants meeting inclusion and exclusion criteria will continue fasting for 30 minutes after the Gastric Alimetry System has been applied and begun measuring, eat a standard study meal within 10 minutes and remain quietly seated, reclining, for 4 hours as the GAS continues to collect data. The array is removed and the abdomen is examined for evidence of skin effects.
Gastroparesis is defined by objective delaying of gastric emptying without any evidence of mechanical obstruction. Diabetic gastroparesis is a potential complication that occurs in the setting of poorly controlled diabetes, resulting from dysfunction in the coordination and function of the autonomic nervous system, neurons, and specialized pacemaker cells (interstitial cells of Cajal, ICC) of the stomach and intestine, and the smooth muscle cells of the gastrointestinal tract
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.
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 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.
Primary Objective: To treat a single patient with gastroparesis who has requested expanded access with tradipitant