View clinical trials related to Diabetic Ketoacidosis.
Filter by:The Nova StatStrip Glucose / Ketone Meter System is a fast, simple, whole blood system that can be used to quantify both glucose and ketones using two distinct test strips. This Protocol will describe an evaluation of the system's Ketone performance only. Ketone testing methods that quantify beta-hydroxybutyrate (β-OHB), the predominant ketone body, are used for diagnosing and monitoring ketoacidosis, a life-threatening complication of hyperglycemia. The performance of the StatStrip Ketone test strip using the Nova StatStrip Glucose / Ketone Hospital Meter System on venous and capillary whole blood will be assessed.
Music intervention is a non-pharmacological and effective intervention that can alleviate anxiety and agitation in patients undergoing weaning. The effectiveness of music intervention in reducing anxiety of patients in Intensive Care Unit (ICU) is still unknown. The purpose of this study was to examine the effectiveness of music intervention on anxiety, agitation, sleep quality and physiological parameters on patients in ICU. This study was conducted from January to June 2019. A total of 196 hospitalized ICU patients were divided into two groups. Subjects in experimental group received 30 minutes music intervention for 3 days on bedside whereas subjects in control group received routine care only. The primary outcome was anxiety. Agitation Sedation Scale, sleep quality and physical parameters were selected to collect as secondary outcomes.There was no significant difference between the groups at baseline. The results of this study support that music can reduce anxiety and agitation levels in ICU's patient. Nurses can incorporate this intervention into the daily care in order to reduce the discomfort of patients.
In this KARMA2 feasibility study the investigators are testing whether ambulance staff can reliably and safely identify patients at high risk of diabetic ketoacidosis using blood ketone meters and start fluid (saline) therapy before arriving at hospital. The investigators aim to include 800 patients in this stepped wedge control study and the results will help decide if a larger study is warranted.
Diabetes mellitus is a common chronic disease. It is estimated that up to 40% of adults may develop diabetes in their lifetime. Patients with poorly controlled blood sugars often visit the emergency department for treatment of potentially dangerous and life-threatening complications of diabetes, including "diabetic ketoacidosis" (DKA), a condition where the body does not have enough insulin or cannot effectively use the insulin that is produced. As a result, the body produces a chemical called "ketones" as another source of energy, which increase the acid levels of blood and impairs organ function throughout the body. In the emergency department, patients with DKA are usually treated with insulin and large amounts of intravenous fluid. Recent research suggests the fluid type used may be important in treating DKA. Normal saline (0.9% sodium chloride) is the most commonly used intravenous fluid in treating DKA, but it has a very high concentration of chloride and can lead to additional acid production when given in large volumes. Ringer's lactate is another type of intravenous fluid that more closely matches the chemistry of fluid in our bodies and in theory, does not increase the acidity of blood. While there may be benefits to giving Ringer's lactate instead of normal saline, past studies have included very few patients and thus, definite recommendations on preferred fluid type still cannot be made. This study's research question is: In adults with DKA, does giving Ringer's Lactate result in faster resolution of DKA compared to normal saline? The investigators hypothesize that patients who are given Ringer's Lactate will have faster resolution of DKA. If the hypothesis is correct, results will provide scientific proof that current diabetic ketoacidosis guidelines should change with respect to fluid choice. In this study, patients with DKA presenting to the emergency department will be randomly assigned to receive either normal saline or Ringer's Lactate. As this is an exploratory (pilot) study, the main goal is to ensure that a larger study will be practical and feasible on a scale involving multiple emergency departments across Canada. Completion of a larger study across multiple sites with more patients will improve our understanding of how fluid choice influences patient-important outcomes such as faster resolution of DKA (meaning patients can leave hospital sooner), fewer admissions to the intensive care unit, fewer deaths and fewer cases of permanent kidney damage. A total of 52 participants (26 per group) will be recruited for this pilot trial. This pilot study will assess the practicality of enrolling patients in London and help identify barriers and problems with running a larger trial. The overall goal is to determine if Ringer's Lactate will resolve DKA faster than normal saline. If this is true, patients may spend less time in the hospital, which benefits both individual patients and the healthcare system overall. If this hypothesis is correct, findings could provide high-level proof to change current practice guidelines and affect DKA management globally.
A study to evaluate the prevalence of Acute Kidney Injury (AKI) in patients with Diabetic Ketoacidosis (DKA) and sepsis using data collected prospectively to a patient registry. The primary objective is to compare the prevalence of AKI in sepsis and DKA in different age groups in children and investigate the difference in the prevalence of hyperchloremia in the two groups.Secondary objectives are Compare the prevalence of AKI in sepsis and DKA in different age groups in children and investigate the difference in the prevalence of hyperchloremia in the two groups.
The primary aim of the study is to prospectively monitor the risk of diabetic ketoacidosis (DKA) during treatment with sodium-glucose cotransporter 2 (SGLT2) inhibitors in type 1 diabetes after the treatment has become available as an adjunct therapy for people with type 1 diabetes.
The main objective of this clinical trial is to study the metabolic effects of intravenous infusion of the ketone body, 3-hydroxybutyrate (3-OHB), in patients with type 1 diabetes and healthy control subjects. Moreover, the investigators plan to examine regulatory mechanisms of 3-OHB that may be related to diabetic ketoacidosis. The hypotheses are: 1. 3-OHB related inhibition of lipolysis is impaired in patients with type 1 diabetes. 2. Intravenous infusion of 3-OHB affects signaling pathways involved in the metabolic regulation in patients with type 1 diabetes and healthy controls. 3. 3-OHB infusion improves cardiac function in patients with type 1 diabetes and healthy controls. The effects of 3-OHB will be investigated by isotopic tracers examinations, fat and muscle biopsies and blood samples. To evaluate effects on cardiac function echocardiography will be performed.
Early Basal Insulin Administration in Adult Diabetic Ketoacidosis Management
The aim of this pilot study is to investigate the metabolic effects of exogenous ketone ester food supplements, by assessing the change in blood acid-base balance, and the level of blood beta-hydroxy-butyrate in people with type 1 diabetes during resting conditions.
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.