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Ketosis clinical trials

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NCT ID: NCT06399510 Recruiting - Clinical trials for Treatment Diabetic Ketoacidosis, Electrolyte Balance Effects

Electrolyte Balance Effects of Sterofundin Versus Normal Saline in Diabetic Ketoacidosis

Start date: March 1, 2024
Phase: N/A
Study type: Interventional

The goal of this prospective single centered randomized control trial is to compare the electrolyte balance effects between Sterofundin and Normal Saline in Diabetic Ketoacidosis patients. The main questions it aims to answer are: i. Is there any difference in duration of bicarbonate (HCO3-) to reach equal or more than 15mmol/L from the initial blood taking in between Sterofundin and NS fluid use in DKA patients? ii. Is there any difference in the level of post-infusion serum sodium (Na+) between Sterofundin and NS fluid use in DKA patients? iii. Is there any difference in the level of post-infusion serum potassium (K+) between Sterofundin and NS fluid use in DKA patients? Patients will be randomized in a 1:1 ratio to receive IV Sterofundin (intervention) or IV Normal Saline (standard care). The patient will have the respective fluid regime as the main fluid therapy during the first 24 hours of ICU stay. If patients were randomized to the control arm, the fluid regime for the first 24 hours in ICU will be normal saline. If patients were randomized to the interventional arm, the main fluid therapy during the first 24 hours of ICU stay will be Sterofundin.

NCT ID: NCT06338969 Recruiting - Obesity, Morbid Clinical Trials

The Impact of Different Carbohydrate Restriction After a Gastric Bypass on the Ketosis and Ketoacidosis

Start date: March 25, 2024
Phase: N/A
Study type: Interventional

Background: Ketosis after bariatric surgery is a metabolic process that occurs when the body breaks down fat for energy because of not getting enough carbohydrates. Insufficient production of ketone bodies reduces the rate of weight loss, and excessive amounts of ketones can lead to ketoacidosis or liver failure in patients with nonalcoholic steatohepatitis (NASH). The investigators hypothesize that weight loss is directly related to calorie intake, and a significant reduction in carbohydrate content leads to increased ketosis and the risk of ketoacidosis. Objectives: The study aimed to compare the incidence of ketoacidosis and liver failure in patients with NASH with different intakes of carbohydrates in the early postoperative period after gastric bypass. In addition, the investigators want to find out how carbohydrate restriction will affect weight loss for up to 1 year.

NCT ID: NCT06320522 Recruiting - Ketosis Clinical Trials

Exogenous Ketosis in a Fed and a Fasted State

Start date: February 15, 2023
Phase: N/A
Study type: Interventional

The kinetics of circulating βHB following ingestion of the ketone monoester are dependent on several variables that determine the balance between appearance into, and disappearance from, the bloodstream. These dynamics have been well characterised in fasted humans but in the real world the ketone monoester is likely to be ingested in a fed state, pertinently within athletic spheres consumption would proceed a substantial high-carbohydrate meal. Within this, it is unclear how metabolism under exogenous ketosis might be affected in a fed versus fasted state. This four-arm crossover study looks to characterise the relationship between feeding status, βHB pharmacokinetics, and resting metabolism. As exogenous ketosis is known to reduce circulating glucose levels, this study will also explored if hepatic metabolism - for example, de novo lipogenesis - might consequently be altered, with implications for metabolic disease states such as Metabolic Dysfunction-Associated Steatotic Liver Disease (MASLD) and type II diabetes. Participants will be asked to consume either the ketone monoester drink or a placebo drink when fasted and when having previously consumed a meal.

NCT ID: NCT06114186 Recruiting - Type 1 Diabetes Clinical Trials

FAM (Follower, Action Plan, and Remote Monitoring) Intervention to Reduce Severe Hyperglycemia in Adults With Type 1 Diabetes Mellitus at Risk for Diabetic Ketoacidosis

Start date: January 16, 2024
Phase: Early Phase 1
Study type: Interventional

Diabetic ketoacidosis (DKA) results in significant morbidity and healthcare utilization and is the main contributor to loss of life expectancy in people with diabetes mellitus type 1 (T1DM) <50 years old. This suggests the need to develop interventions to reduce DKA events. Innovative features of newer continuous glucose monitoring devices offer opportunities for novel strategies to reduce DKA. Designating a family member, friend, or caregiver as a Follower was associated with reduction in HbA1C, increased time in range, and improvement in quality of life metrics in people with T1DM. However, the previously published studies are limited as they were either retrospective, survey-based, or do not overlap with our proposed cohort involving adults ages 18-65 with T1DM (prior prospective studies involved either pregnant women with T1DM or adults ≥60 years of age with T1DM). This study is a randomized controlled trial pilot study to evaluate the effectiveness of an intervention (FAM) using a Follower, Action Plan, and Remote Monitoring of glucose data to reduce severe hyperglycemia, a modifiable risk factor for DKA, in adults with T1DM at high risk for DKA. The intervention uses real-time glucose data sharing with a Follower (family member, friend, or caregiver) and personalized diabetes education provided to the dyad (person with T1DM and their chosen Follower). The study hypothesizes that the FAM intervention will reduce the percentage of time spent with glucose ≥250 mg/dL compared to standard care alone.

NCT ID: NCT06080932 Recruiting - Depression Clinical Trials

Ketogenic Intervention in Depression

KIND
Start date: February 20, 2023
Phase: N/A
Study type: Interventional

The goal of this study is to examine whether a well-formulated ketogenic diet (KD) can be implemented into a university counseling treatment program for major depression and to test whether such a program has any benefit on mental and metabolic health.

NCT ID: NCT06065657 Recruiting - Alcohol Drinking Clinical Trials

Effect of Nutritional Ketosis on Alcohol Metabolism

KAM
Start date: January 18, 2023
Phase: Phase 2/Phase 3
Study type: Interventional

The research study is being conducted in health controls to better understand the effects of ketosis on brain functioning after 3 different, randomly assigned, 3-day dietary interventions and the acute effects of alcohol after consuming about 4-5 alcohol beverages. The labs visits will use magnetic resonance imaging (MRI) scans to study the brain, measuring levels of nicotinamide adenine dinucleotide (NAD), lactate, neurotransmitters glutamate, and Gamma-aminobutyric acid (GABA).

NCT ID: NCT06053138 Recruiting - Ketosis Clinical Trials

Assessment of BHB Concentration Agreement Among Sampling Locations and the Impact of Ketosis on EPO, and More

Start date: August 24, 2023
Phase: N/A
Study type: Interventional

his study aims to address two key aspects - part 1: the suitability of selecting a specific sampling site for BHB measurement in patients and research, as well as potential differences between capillary and venous blood measurements. Additionally, the study will delve into the effects of ketosis on EPO concentrations, sex hormones levels, and hemodynamic markers and blood pressure - part 2. This investigation will utilize blood samples collected during part 1, including acute effects, as well as samples taken on day 7 and day 14 during which period participants are exposed to intermittent ketosis.

NCT ID: NCT05960656 Recruiting - Type 2 Diabetes Clinical Trials

SGLT2 Inhibitors, Ketogenesis, and Ketoacidosis

Start date: October 5, 2023
Phase: Early Phase 1
Study type: Interventional

In this study, we will test the hypothesis that distinct mechanisms account for the SGLT2i-induced stimulation of ketogenesis and lipolysis versus endogenous (hepatic) glucose production in patients with type 2 diabetes (T2D) and type 1 diabetes (T1D), and that the increases in ketone production and lipolysis can be prevented by concomitant administration of the thiazolidinedione pioglitazone. We will conduct five distinct experiments to test this hypothesis in patients with T2D and T1D. STUDY 1: To examine the effect of empagliflozin versus empagliflozin/pancreatic clamp on EGP (6,6, D2-glucose), gluconeogenesis (D2O), lipolysis (U-2H-glycerol), ketogenesis (13C-palmitate conversion to 3-betahydroxybuyrate), and norepinephrine turnover (3H-NE) in type 2 diabetes subjects. STUDY 2. To examine the role of the SNS on the empagliflozin-induced stimulation of EGP, lipolysis, and ketone production in T2D by comparing the effect of empagliflozin versus empagliflozin plus propranolol. STUDY 3. To examine the 2-HIT hypothesis that the SGLT2i-induced stimulation of EGP, lipolysis, and ketone production requires the combination of volume depletion plus insulinopenia in T2D individuals. STUDY 4. To examine whether the empagliflozin-induced stimulation of EGP, lipolysis, and ketone production in T2D individuals can be blocked by pioglitazone (which has direct hepatic and adipose tissue effects). STUDY 5. To examine whether the empagliflozin-induced stimulation of EGP, lipolysis, and ketone production in T1D individuals can be blocked by pioglitazone (which has direct hepatic and adipose tissue effects).

NCT ID: NCT05924295 Recruiting - Ketosis Clinical Trials

Variations in Ketone Metabolism

STAK-VKM
Start date: June 20, 2023
Phase: N/A
Study type: Interventional

This outcome of this study will elucidate how the phenotype of the individual modulates the KE metabolic effect. Most studies of KE have been in homogenous populations, usually young, male athletes. However, two striking experiments using identical, body weight adjusted KE doses in healthy and obese individuals found that BHB area under the curve (AUC) and removal was reduced by obesity and poor metabolic health. Similarly, ketone infusion experiments found that diabetes, obesity, and insulin resistance alter BHB metabolism. It is important to determine how obesity affects KE 'sensitivity' (i.e., breakdown and oxidation) because the increasing prevalence of obesity as a function of age. Age may be another important source of variation in ketone metabolism. The genes that control the ketone system are regulated by a cascade of transcription factors and hormones including PPARα and FGF21, which are themselves known to be affected by aging and dietary status, and the cellular protein sensor target of rapamycin (TOR). Aberrant hyperactivation of TOR with aging may reduce ketogenesis, while it was observed that a long-term ketogenic diet specifically up-regulated PPARα activity. Preliminary work revealed substantial changes across mouse lifespan in the expression of ketone-related genes in the liver such as Hmgcs2 (rate limiting for ketone production) and Bdh1 (rate limiting for BHB oxidation) between young, middle-aged, and old mice, with a nadir of gene expression in middle age before increasing again late in life. Substantial age differences were found in response to matched doses of oral KE in mice and in rats. These data may have important implications for treating people of different ages and for translating KE technologies into the Department of VA. Therefore, this project plans to study individual responses to KE ingestion across the lifespan, against the background of varying metabolic health

NCT ID: NCT05732909 Recruiting - Aging Clinical Trials

The Metabolic Effects of β-hydroxybutyrate on Working Skeletal Muscle

Start date: December 22, 2022
Phase: N/A
Study type: Interventional

The goal of this clinical trial is to test ketone bodies in healthy elderly and young individuals. The main question it aims to answer are: • Do ketone bodies improve skeletal muscle function? Participants will ingest a ketone monoester and skeletal muscle function will then be evaluated by: - Special magnetic imaging techniques - Intravenous infusion of tracer-marked nutrients - Performance tests on a ergometer bike and in a dynamometer Researchers will compare the outcomes between within the young and elderly groups and between the young and the elderly group to investigate if age has an effect on the outcomes.