View clinical trials related to Ketosis.
Filter by:Diabetic ketoacidosis (DKA) is a medical emergency that is associated with significant morbidity and mortality for both patients with type I and type II diabetes. By correcting hyperglycemia and inhibiting the release of free fatty acids, insulin administration leads to decreased ketone formation and resolution of acidosis. Short-acting intravenous insulin is often preferred to subcutaneous administration for initial management due to its short half-life and ease of titration, but patients will eventually need to transition to subcutaneous insulin prior to discharge. The timing of initiation or resumption of home long-acting subcutaneous insulin is controversial in the treatment of DKA. It is currently unknown if resuming a portion or all of the patient's home basal regimen during the initial treatment phase of DKA will provide an impact on patient care. The purpose of this study is to evaluate the impact of early glargine administration if the patient was not previously on basal insulin or resuming the patient's home basal insulin regimen within two hours after the start of the intravenous insulin infusion in addition to usual care will improve patient outcomes.
Early Basal Insulin Administration in Adult Diabetic Ketoacidosis Management
Type 1 Diabetes is characterized by an absolute lack of insulin caused by autoimmune ß-cell destruction. Looking for different therapeutic approaches, beyond the administration of Insulin SGLT-Inhibitors (SGLT=sodium-glucose cotransporter) like Dapagliflozin look like a promising option to avoid hyperglycaemic excursions which are a reason for glycaemic variability by renal excretion of excessive glucose without administration of extra insulin. But also euglycemic DKA has been reported during SGLT2 add-on therapy to insulin in T1D and mechanistic studies have been called for. The role of Dapagliflozin-induced hyperglucagonemia and stress/infection precipitating euglycemic DKA in this situation is unclear. Thus the purpose of this pilot study is to collect clinical data on the development of DKA after insulin-withdrawal with Dapagliflozin compared to placebo and the added effect of a single dose of 4mg/kg i.v. ACTH as mediator of stress. The first objective is to investigate the time to DKA (defined as Bicarbonate <19 mmol/l) after insulin withdrawal during treatment with a stable 5 day single daily dose of 10mg Dapagliflozin in patients with type 1 Diabetes. In addition it should be evaluate the additional effect of stress, modelled by a single injection of ACTH on DKA development during Dapagliflozin Treatment. We also want to know if Dapagliflozin influences glucagon levels during insulin withdrawal and how this is associated with the time course of DKA development.
The purpose of this pilot study is to measure adherence and quality of life in adults with intractable epilepsy following the Modified Atkins Diet (MAD) with Betaquik, a ready-to-use medium chain triglyceride (MCT) emulsion, as an adjunct to the MAD.
Objectives: Intravenous (IV) fluid administration is a fundamental component of diabetic ketoacidosis (DKA) treatment. Normal saline (NS), the most common IV fluid used in DKA management, contains more chloride than human blood. Excessive amounts of chloride have been shown to cause a detrimental metabolic acidosis. Other IV fluids have more physiologic chloride levels, such as lactated ringers (LR). This study will compare the rates of hyperchloremic metabolic acidosis in children treated with NS to those treated with LR to determine the effect on overall length of acidosis and length of stay in the hospital or intensive care unit. Design: Single-center, double blinded, randomized controlled trial. Subjects: Children aged 0 to 18 years who present with diabetic ketoacidosis and require pediatric intensive care unit admission. Patients with evidence of shock, multi-organ failure or clinically significant cerebral edema will be excluded. The projected study population will be 104 patients, 52 in each arm. Interventions: Patients will be enrolled within 1 hour of presentation to the emergency room or pediatric intensive care unit if transferred directly from another facility. They will be randomized to receive intravenous fluids containing 0.9% saline or lactated ringers. All patients will be treated using the institutional DKA protocol with the content of the intravenous fluids being the only difference in treatment between arms. Study intervention lasts until the end of the acute management of DKA. Planned measurements and study outcomes: The primary study outcome will be duration of metabolic acidosis. Resolution of metabolic acidosis will be defined in three ways: 1. Normalization of the ketosis; 2. Normalization of the serum pH; 3. Normalization of the serum bicarbonate level. Secondary outcomes will include length of stay in the pediatric intensive care unit and length of stay in the hospital. All outcomes will be correlated with the overall chloride load given via intravenous fluids during DKA management. Regression modelling will control for any baseline differences between the groups in regards to severity of DKA, and if newly diagnosed or poorly controlled diabetes mellitus.
Given the longer half life of insulin degludec compared to glargine /levemir ,investigators believe that insulin degludec will reduce the rate of recurrent DKA. The investigator will randomize participants to control and intervention group. Control group will receive Lantus/Levemir and intervention group will receive degludec. The investigators will call participants monthly and see them in the clinic every three months.The investigators will follow them for 1 year and evaluate if there will be a difference in rate of DKA in between these two groups.
This study involves looking at Cerebral oximetry measurements in pediatric and neonatal patients who are experiencing a critical illness. Such as Altered mental status, seizures, trauma, sepsis, etc.
The management goals of diabetic ketoacidosis (DKA) in the pediatric type 1 diabetes (T1DM) population are fluid and electrolyte repletion, insulin administration, and correction of acidosis in order to stabilize the patient. Traditionally, a rapid-acting insulin IV infusion is begun immediately and continued until the acidosis is corrected and hyperglycemia normalized. Once the acidosis is corrected, patients are able to be transitioned to a subcutaneous insulin regimen. The role that a subcutaneous long-acting insulin such as glargine has in the acute treatment of DKA has not been extensively studied. While giving glargine during the treatment of DKA is becoming more common place, few studies have examined the potential risks and benefits of its use. This study will investigate the effects of early administration of glargine during DKA in patients with newly diagnosed TIDM. The design of this study is a prospective, double-blind study of children ages 2-21 who are admitted to the hospital in DKA with a diagnosis of T1DM. The control group will receive all traditional methods of treatment for DKA, including a placebo subcutaneous injection. The study group will receive the same treatment, but will be supplemented with a subcutaneous glargine injection.