182 Clinical Trials for Various Conditions
The purpose of this research study is to test the accuracy of the Dexcom continuous glucose monitoring device during the cardiothoracic surgical procedure and recovery period in the Cardiac Intensive Care Unit. Readings from the device will be compared with the standard of care blood glucose levels that are obtained during your surgery and postoperatively.
Consuming a carbohydrate-rich food as the final food in a meal, as compared to the first food in a meal, has been shown to reduce blood glucose levels after eating in both diabetes patients and in healthy controls. However, gaps remain in the literature in this area of research, and currently little is known about how substrate (fuel) use is impacted by altering food order. In addition, most studies to date have used a mix of meat and plant foods, while little research has focused exclusively on vegetarian foods. This randomized experiment will examine how altering the order of foods eaten in a vegetarian meal impacts blood glucose and fuel utilization at rest.
There is well documented evidence that ingesting dietary carbohydrate in large amounts tends to increase postprandial glucose. In healthy populations, this is not necessarily a problem, but continuous exposure to high levels of glucose-hyperglycemia-is a defining characteristic and risk factor for type 2 diabetes mellitus. Consuming a carbohydrate-rich food as the final food in a meal sequence has been shown to significantly reduce postprandial glucose excursions in both diabetes patients and in healthy controls. The exact mechanisms behind this phenomenon are not well understood, but one proposed course is simply that the vegetable and protein already being digested slows the rate of glucose rise. Despite the findings, little-to-no research has examined how manipulating the order of foods in a meal impacts subsequent exercise responses. In this experimental crossover study, each participant will undergo two acute feeding conditions (carbohydrate-rich foods first vs. last in a meal), which will be followed by exercise 60 minutes later. We will observe the effects of meal order on postprandial glucose, substrate/fuel utilization, and subjective perceptions at rest and during 30 minutes of exercise.
Cardiorespiratory fitness (CRF), also known as "exercise capacity", is the capacity of respiratory and circulatory systems to supply oxygen to skeletal muscle during exercise for the generation of energy. Determinants of CRF include lung capacity, capillary density, cardiac output, hemoglobin concentration, and mitochondrial function. The research group studies how CRF is related to fuel utilization, yielding a mechanistic understanding of the association between lower CRF and worsening metabolic health via mitochondrial function. The objective of this study is to measure fuel utilization in response to habitual diet for one week in adolescents and young adults, ages 14-22 years (n=30). Fuel utilization will be estimated by glucose measures using a continuous glucose monitor (CGM). Habitual dietary intake will be collected via a mobile phone application (BiteAI, Inc) that uses artificial intelligence to extract nutrient information from food photographs. Participants will undergo two standard of care (SOC) meal tolerance tests at home - a glucose tolerance test and a Ensure® mixed meal tolerance test. CRF will be estimated by measuring maximum oxygen consumption (VO2 max) during a graded treadmill test. The hypothesis is that a higher VO2 max will be associated with increased fuel utilization, measured by lower glucose response to the SOC meal tolerance tests. The proposed study is described in the following aims: SPECIFIC AIM 1. Test for feasibility of completion of self-report dietary food records, completion of two at home meal tolerance tests that are standard of care for metabolic health screening, and completion of a seven-day continuous glucose monitor. SPECIFIC AIM 2. Identify nutrients and foods that are associated with an elevated glucose response. SPECIFIC AIM 3. Assess the influence of VO2 max on the glucose response to the SOC glucose tolerance test and Ensure® mixed meal tolerance test.
The study team will examine the effect of a ketogenic diet alone and ketogenic diet supplemented with oral ketones on how the body of individuals with type 2 diabetes respond to insulin, regulates insulin secretion, food intake and energetic pathways and influences body fat distribution.
The goal of this proposal is to determine whether the beneficial effects of NMN on metabolic function observed in rodents applies to people.
This study examines the association of variability in glucose values over a 10-day period with cognitive function and functional status among individuals with prediabetes, aged 50 or older.
Purpose: In this study, the investigators will delineate how brain network dynamics are modulated by experimentally induced elevated blood glucose levels and examine how glucose levels gate neuronal excitability measured by the response to TMS. Participants: Participants must be between the ages of 18 and 65 with no known diabetes, no known adverse reaction to finger prick blood draw, and no known neurological or psychiatric illness. Participants must have a body-mass index less than 30. Procedures: Participants will consume either a drink that contains 75 g of glucose or a placebo, and their response to TMS will be measured to examine the effect of glucose on motor cortex excitability.
This is a randomized, controlled, cross-over study on the effects of consumption of Deepure puerh tea extract (PTE) on glucose tolerance and metabolic markers.
The purpose of this study is to investigate the effect of location of feeding on glycemic control in critically ill patients. The investigators hypothesize that glycemic control in critically ill patients who receive enteral nutrition through postpyloric location (beyond stomach) will have better glycemic control compared to critically ill patients fed gastrically.
The purpose of the study is to understand the effect of the dietary supplement "Nicotinamide mononucleotide" on metabolic health in people.
People who are obese often have insulin resistance (inability of insulin to properly control blood sugar) and high blood sugar. However, not all people with obesity have this problem. About one-third of people with obesity have normal sugar metabolism (the way your body uses sugar). Similarly, not all people who are lean are also metabolically healthy and a subset of people who are lean are referred to as metabolically abnormal lean (MAL) or metabolically obese lean because they have the abnormalities in glucose metabolism typically associated with obesity. The reasons why some people with obesity have a problem with blood sugar control and others do not are not entirely clear. It is thought that impaired muscle sugar uptake is the main problem related to high blood sugar in people with obesity. However, adipose tissue (fat tissue) also consumes a substantial amount of blood sugar. Therefore, it is unclear whether muscle or adipose tissue (fat tissue) are primarily responsible for altered blood sugar concentrations in persons with metabolically abnormal obesity (MAO) (those with insulin resistance), compared to those with metabolically normal (healthy) obesity (MNO), or whether "healthy" adipose tissue (fat tissue) expansion in MNO people compared with lean people provides a vessel for blood sugar removal that helps maintain normal blood sugar concentration. Accordingly, the investigators will determine the amount of sugar that is taken up by the body and in the cells of adipose tissue (fat tissue) and muscle by infusing labeled sugar into the blood and looking at its disappearance from blood and appearance in adipose tissue (fat tissue) and muscle. The investigators will also determine how well insulin, a hormone that controls blood sugar, turns on signals that stimulate sugar uptake in fat and muscle cells. These studies will be done after an overnight fast and during an infusion of sugar and insulin (hyperinsulinemic-euglycemic clamp), in sex- and age-matched people who are insulin resistant and insulin sensitive. People with obesity will also be invited to complete a \~10% diet-induced weight loss program and will be studied again after they have achieved the weight loss goal. A group of sex- and age-matched metabolically normal lean participants will serve as control group. An attempt will be made to also study a group of sex- and age-matched metabolically abnormal lean participants.
This project investigated how glucose metabolism differs due to sleep deprivation for three consecutive nights as compared to sufficient sleep for three nights by examining concentrations of glucose, insulin, and other factors involved in glucose metabolism.
Experiments have shown that some artificial sweeteners like those in diet soda can cause changes in how the body responds to and uses sugar. These changes increase the chance of obesity, type 2 diabetes, and other metabolic diseases. In this study, the investigators plan to see if the most common artificial sweetener, aspartame (brand name Equal, NutraSweet), causes these changes. The investigators believe that if metabolic changes are observed in a person who consumes aspartame, then removing all aspartame from the diet might lead to a reversal of the changes and a normalization of test results.This would impact sweetener additives in our foods and thus decrease the incidence of obesity, diabetes, and the metabolic syndrome.
Aging is a major risk factor for the development of type 2 diabetes (T2DM). Approximately 50% of subjects aged ≥65 have diabetes or impaired glucose tolerance, a pre-diabetic state. Purpose: In the proposed study, the investigators will test the hypotheses that the decrease in fat oxidation that occurs in muscle from older human subjects is secondary to an age-mediated reduction in AMPK signaling, in vivo, and that upregulating AMPK signaling through exercise training will result in (and correlate with) increased fat oxidation, reduced intramyocellular lipids, and improved insulin action.
Subjects with impaired glucose tolerance will be randomized to receive pioglitazone or metformin for 10 weeks. Measurements of insulin sensitivity, body composition, glucose tolerance, and muscle lipid accumulation will be performed. Adipose tissue and muscle biopsies are performed. The goal of the study is to determine whether the lipotoxiciy of impaired glucose tolerance is ameliorated by pioglitazone.
The purpose of the study is to evaluate the efficacy of multiple human placental membrane products and Standard of Care (SOC) versus SOC alone in the management of nonhealing diabetic foot ulcers (DFUs) and venous leg ulcers (VLUs) over 12 weeks using a modified platform trial design.
The goal of this clinical trial pilot study is to test the feasibility, acceptability, and preliminary efficacy of a combined intervention strategy of 1) technology-supported financial navigation to address economic burden of disease and 2) peer support both to facilitate linkages to clinical care and community resources to address social risks and improve participants\' diabetes self-management. The main aims of this pilot study are: * To examine the feasibility and acceptability of technology-supported financial navigation and financial navigation with peer support * To examine trends in preliminary efficacy of technology-supported financial navigation and peer support versus financial navigation-alone on 1) A1c and blood pressure (primary outcomes), and 2) out-of-pocket costs, treatment-related financial stress, cost-related non-adherence behaviors, diabetes distress, diabetes self-care behaviors, and uptake of social care assistance (secondary outcomes). The investigators will assess whether a combined intervention of technology-supported financial navigation and peer support will produce trends in superior diabetes and social care outcomes to financial navigation alone via a 2-arm randomized controlled trial. Participants will * Complete 3 survey appointments at baseline, and 3 and 6 months. Each appointment will consist of a survey assessment, an HbA1C test, and two blood pressure readings over the phone. * Be randomized to either financial navigation only or financial navigation and peer support.
The aim of this study is to look at changes in diabetes-related risk factors in Black adolescent girls who are at risk for type 2 diabetes and their primary female caregiver after both participating in a 12-week in-person lifestyle program.
Pregnant women aged 18-40 with gestational diabetes (GDM) will take part in this study. We want to see how two different insulin treatments affect their blood sugar after they eat. These women usually use a rapid-acting insulin analog (RAA) that's injected to control their blood sugar before and after meals. They will come to the clinic for two meal sessions. For the first meal, we will randomly decide if they will use the usual RAA insulin or a newer inhaled insulin called technosphere insulin (TI). They will use the other type of insulin for their second meal. After each meal, we will compare their blood sugar levels.
RADIANT is a network of 14 clinical sites and several laboratories dedicated to the study of atypical diabetes. The objective of this study is to define new forms of diabetes and the unique mechanisms underlying these forms of atypical diabetes. The specific aims are to: 1. Identify and enroll individuals and families with undiagnosed rare and atypical forms of diabetes. 2. Determine the etiologic basis of the metabolic disorder among individuals and families with novel forms of rare and atypical diabetes. 3. Understand the pathophysiology of individuals and families with novel forms of rare and atypical forms of diabetes.
The investigators are doing this study to learn more about how to prevent type 2 diabetes in teenage girls. The purpose of this study is to find out if taking part in a cognitive-behavioral therapy group, exercise training group, or a combination of cognitive-behavioral therapy and exercise training groups, decreases stress, improves mood, increases physical activity and physical fitness, and decreases insulin resistance among teenagers at risk for diabetes.
The purpose of this pilot research project is to examine the impact of a low-glycemic index (GI) diet on postprandial hypotension and glucose control in individuals with chronic spinal cord injury. The objectives are: 1) To evaluate the effect of the low-GI diet on the magnitude of postprandial systolic blood pressure drop compared to a high-GI control diet. 2)To evaluate the effect of a low-GI diet on postprandial glucose and insulin responses compared to a high-GI control diet.
The purpose of this study is to learn more about the safety and efficacy of tirzepatide compared to placebo in children or teenagers with type 2 diabetes taking metformin, or basal insulin, or both. The overall study will last about 60 weeks with up to 14 clinic visits and 6 phone visits. Clinic visits will include blood sample collection, physical exam and questionnaire.
This study will examine the effects of regular almond consumption by individuals with elevated HbA1c on long-term glycemic control.
The goal is to develop methodology to monitor flux in the citric acid cycle in brain via 13C nuclear magnetic resonance (NMR) spectroscopy at 7 Tesla.
This is a multi-center, open-label study to assess the feasibility and preliminary safety of the Endogenex Device for endoscopic duodenal mucosal regeneration in patients with type 2 Diabetes inadequately controlled on 2-3 non-insulin glucose-lowering medications.
Researchers at Sansum Diabetes Research Institute want to learn more about how taking a new approved drug called oral Semaglutide, while eating fresh vegetables, impacts health in Hispanic/Latino adults with type 2 diabetes. This study drug is approved by the United States Food and Drug Administration and may be available by prescription for type 2 diabetes. To do this, 100 Hispanic/Latino adults who have type 2 diabetes will be split into two groups. Over one year, one group will take Semaglutide pills and the other group will take a placebo (a dummy pill that looks just like the real Semaglutide pill but does not contain the active drug). Neither the participants nor the study investigator nor the study doctor will know who is taking the real pill and who is taking the placebo. In case of an emergency, however, the study investigator and doctor can get this information. All participants will receive pills and vegetables every two weeks, have their health assessed by study staff, and meet with the study doctor six times over the course of the study. Participant weight, height, waist circumference, blood pressure, and blood glucose levels will be measured. Participants will also wear monitors to measure blood glucose, physical activity and sleep. Study staff will also ask questions about participant health, medications, mood, sleep, pain, exercise, diet, acculturation, household, language, and trust in doctors.
This 12 week placebo-controlled study evaluates the efficacy and safety of E. hallii supplementation.
As a phase 0 clinical trial, we will learn how kombucha influences glucose metabolism in humans.