Comparison of a Low Dose to a Standard Dose of Insulin in Adult DKA in ICU to Reduce Metabolic Complications

Assistance Publique - Hôpitaux de Paris150 enrolled

Overview

Diabetic ketoacidosis (DKA), a frequent complication of diabetes, is the consequence of a profound insulin deficiency responsible for osmotic polyuria and thus major losses of water, glucose, sodium and potassium as well as a metabolic acidosis due to the uncontrolled production of ketonic acids. Management includes fluid replacement, insulin therapy and correction of metabolic disorders (including potassium loss). Initially described in patients with type 1 diabetes (T1D), it is now often observed in patients with type 2 diabetes (T2D) in whom it is more a matter of insulin resistance than an absolute deficiency. However, international guidelines recommend a similar dose of intravenous insulin (0.10 IU/kg/hour) regardless of the type of diabetes. During treatment, metabolic complications are frequent and potentially serious, especially in T2D due to cardiovascular comorbidities. The research hypothesis is that decreasing the insulin dose will reduce metabolic complications without influencing time to resolution in adult patients, regardless of diabetes type.

Diabetic ketoacidosis (DKA), a frequent complication of diabetes, is the consequence of a profound insulin deficiency responsible for osmotic polyuria which leads to major losses of water, sodium and potassium as well as the generation of metabolic acidosis due to the uncontrolled production of ketonic acids. Management includes fluid replacement, insulin therapy and correction of metabolic disorders (including potassium loss and acidosis). Initially described in patients with type 1 diabetes (T1D), it is now often observed in patients with type 2 diabetes (T2D) in whom it is more insulin resistance than absolute deficiency. However, international guidelines recommend a similar dosage of intravenous insulin (0.10 IU/kg/hour) regardless of the type of diabetes. During treatment, metabolic complications are frequent and potentially serious, especially in T2D due to cardiovascular comorbidities. A British study reported 27.6% hypoglycaemia and 55% hypokalemia during the first 24 hours of treatment. Comparable figures were observed by conducting a multicenter retrospective study of 122 patients: hypokalaemia and hypoglycaemia were observed in nearly two thirds of cases. A pediatric study showed that a lower dose of insulin (0.05 IU/kg/h) reduced the rate of hypoglycaemia (20% vs 4%) and hypokalaemia (48% vs 20%) compared to at the standard dose (0.10 IU/kg/h) without modifying the time to resolution. But the very small number (25 children per arm), the questionable statistical analysis and the pediatric population (T1D only) do not make it possible to anticipate the potential benefit in a much more heterogeneous adult population. The hypothesis of the research is that decreasing the insulin dose will reduce metabolic complications without influencing time to resolution in adult patients, regardless of diabetes type.

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Patient aged 18 years or above * Admission in Intense/Intermediate Care Unit * Severe DKA due to all types of diabetes (T1D, T2D and secondary diabetes and inaugural ketoacidosis) defined by association of the following 3 parameters: * glucose \> 11 mmol/L or affirmation of having diabetes * ketonemia \> 3mmol/L or ketonuria ≥ 2 * bicarbonate \< 15 mmol/L and/or venous pH \< or=7.3 * Randomization possible before 15UI of insulin administrated in total * Informed and written consent. In the absence of parent/ relative/ person of trust, the patient may be included via the emergency procedure and consent will be obtained as soon as possible Exclusion Criteria: * Non-diabetic ketoacidosis (fasting or alcoholic) * Patient weighing less than 30 kg * Hypokalemia \< 3.5 mmol/L at the time of inclusion * Hyperosmolar hyperglycemic state (defined as efficient plasma osmolarity \> 320 mosmol/L) * Absence of social security coverage * Pregnant or breastfeeding patient * Patient under tutelage or curators * Patient deprived of liberty due to a judicial or administrative decision * Patient with a renal disease requiring dialysis * Acute or chronic liver failure with Factor V \< 50% * Patient receiving a high dose of corticosteroids (≥ 0.5 mg/kg) daily * Patient included in another interventional study

Outcomes

Primary Outcomes

Metabolic complications

Proportion of patients with metabolic complications (hypokalaemia \<3.5 mmol/L and/or hypoglycemia \<3.9 mmol/L) treated with a reduced dose of insulin (0.05 IU/kg/h) compared with the control group receiving the 0.10 IU/kg/h dose.

Time frame: 48 hours

Secondary Outcomes

Resolution of diabetic ketoacidosis

Time in hours between randomisation and resolution of diabetic ketoacidosis (defined by ph\>7.3 and ketonemia \< 3 mmol/L and bicarbonates\> 15 mmol/L)

Time frame: 48 hours

Episode of hypokalaemia

Proportion of patients with at least one episode of hypokalaemia \< 3.5 mmol/L between randomization and resolution of DKA

Time frame: 48 hours

Episode of hypoglycemia

Proportion of patients with at least one episode of hypoglycemia \< 3.9 mmol/L between randomization and resolution of DKA

Time frame: 48 hours

Episode of severe hypoglycemia

Proportion of patients with at least one episode of hypoglycemia \< 2.9 mmol/L between randomization and resolution of DKA

Time frame: 48 hours

Cardiac arrythmia diagnosed by EKG

Proportion of patients with onset of new cardiac arrhythmia diagnosed by EKG analysis (atrial fibrillation and ventricular arrhythmia) and scopic monitoring between randomization and resolution of DKA

Time frame: 48 hours

Glucose infusion 1000mL

Proportion of patients who received more than 1000 mL of 10% glucose solution (indicating tendency of hypoglycemia) between randomization and resolution of DKA or 48h after inclusion if DKA is unresolved

Time frame: 48 hours

Glucose infusion of 30% glucose solution

Proportion of patients who received one perfusion of 30% glucose solution between randomization and resolution of DKA or 48h after inclusion if DKA is unresolved

Time frame: 48 hours

Amount of glucose perfused

Amount of glucose perfused (in grams) (glucose 5%, 10% and 30%) between randomization and resolution of the DKA or 48 hours after inclusion if the DKA is not resolved

Time frame: 48 hours

Potassium intake

Potassium intake (in grams) orally and intravenously between patient randomization and resolution of DKA or 48 hours after inclusion if DKA is not resolved

Time frame: 48 hours

Length of stay in ICU

Duration of stay (in hours) in ICU

Time frame: 48 hours

Time between patient randomization and resolution of DKA in T1D population

Time in hours between patient randomization and resolution of DKA in T1D population

Time frame: 48 hours

Time between patient randomization and resolution of DKA in T2D population

Time in hours between patient randomization and resolution of DKA in T2D population

Time frame: 48 hours

Time between patient randomization and resolution of DKA in patients suffering from first ketoacidosis episode

Time in hours between patient randomization and resolution of DKA in patients suffering from ketoacidosis

Time frame: 48 hours

Episode of hypokalaemia in T1D population

Proportion of patients with at least one episode of hypokalaemia \< 3.5 mmol/L between randomisation and resolution of DKA or 48 hours after inclusion if DKA is not resolved within T1D population

Time frame: 48 hours

Episode of hypokalaemia in T2D population

Proportion of patients with at least one episode of hypokalaemia \< 3.5 mmol/L between randomisation and resolution of DKA or 48 hours after inclusion if DKA is not resolved within T2D population

Time frame: 48 hours

Episode of hypokalaemia in patients suffering from first ketoacidosis episode

Proportion of patients with at least one episode of hypokalaemia \< 3.5 mmol/L between randomisation and resolution of DKA or 48 hours after inclusion if DKA is not resolved within inaugural ketoacidosis population

Time frame: 48 hours

Episode of hypoglycaemia in T1D population

Proportion of patients with at least one episode of hypoglycaemia \< 3.9 mmol/L between randomization and resolution of DKA or 48 hours after inclusion if DKA is not resolved within T1D population

Time frame: 48 hours

Episode of hypoglycaemia in T2D population

Proportion of patients with at least one episode of hypoglycaemia \< 3.9 mmol/L between randomization and resolution of DKA or 48 hours after inclusion if DKA is not resolved within T2D population

Time frame: 48 hours

Episode of hypoglycaemia in patients suffering from first ketoacidosis episode

Proportion of patients with at least one episode of hypoglycaemia \< 3.9 mmol/L between randomization and resolution of DKA or 48 hours after inclusion if DKA is not resolved within inaugural ketoacidosis population

Time frame: 48 hours

Episode of severe hypoglycaemia in T1D population

Proportion of patients with at least one episode of severe hypoglycaemia \< 2.9 mmol/L between randomization and resolution of DKA or 48 hours after inclusion if DKA is not resolved within T1D population

Time frame: 48 hours

Episode of severe hypoglycaemia in T2D population

Time frame: 48 hours

Episode of severe hypoglycaemia in patients suffering from first ketoacidosis episode

Time frame: 48 hours

Comparison of a Low Dose to a Standard Dose of Insulin in Adult DKA in ICU to Reduce Metabolic Complications

Overview

Conditions

Interventions

Eligibility

Locations (1)

Outcomes

Primary Outcomes

Secondary Outcomes