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Diabetic Ketoacidosis Management. Heidi Chamberlain Shea, MD Endocrine Associates of Dallas. Goals of Discussion. Pathophysiology of DKA Biochemical criteria for DKA Treatment of DKA Prevention of DKA Hyperosmolar Nonketoic Syndrome. Epidemiology. Annual incidence in U.S.
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Diabetic Ketoacidosis Management Heidi Chamberlain Shea, MD Endocrine Associates of Dallas
Goals of Discussion • Pathophysiology of DKA • Biochemical criteria for DKA • Treatment of DKA • Prevention of DKA • Hyperosmolar Nonketoic Syndrome
Epidemiology • Annual incidence in U.S. • 5-8 per 1000 diabetic subjects • 2.8% of all diabetic admissions are due to DKA • Overall mortality rate ranges from 2-10% • Higher is older patients
Failure to take insulin Failure to increase insulin Illness/Infection Pneumonia MI Stroke Acute stress Trauma Emotional Medical Stress Counterregulatory hormones Oppose insulin Stimulate glucagon release Hypovolmemia Increases glucagon and catecholamines Decreased renal blood flow Decreases glucagon degradation by the kidney DKAPrecipitating Factors
Diabetic Ketoacidosis Due to: Severe insulin deficiency Excess counterregulatory hormones Glucagon Epinephrine Cortisol Growth hormone
Role of Insulin • Required for transport of glucose into • Muscle • Adipose • Liver • Inhibits lipolysis • Absence of insulin • Glucose accumulates in the blood • Liver • Uses amino acids for gluconeogenesis • Converts fatty acids into ketone bodies • Acetone, Acetoacetate, β-hydroxybutyrate • Increased counterregulatory hormones
Insulin Deficiency Glucose uptake Lipolysis Proteolysis Free Fatty Acids Glycerol Amino Acids Gluconeogenesis Glycogenolysis Hyperglycemia Ketogenesis Acidosis Osmotic diuresis Dehydration
Polyuria, polydipsia Enuresis Dehydration Tachycardia Orthostasis Abdominal pain Nausea Vomiting Fruity breath Acetone Kussmaul breathing Mental status changes Combative Drunk Coma Signs and Symptoms of DKA
Lab Findings • Hyperglycemia • Anion gap acidosis • (Na + K) – (Cl + Bicarb) >12 • Bicarbonate <15 mEq/L • pH <7.3 • Urine ketones and serum ketones • Hyperosmolarity
Differential Diagnosis Anion Gap Acidosis • Alcoholic ketoacidosis • Lactic acidosis • Renal failure • Ethylene glycol or methyl alcohol poisoning • Starvation in late pregnancy or lactation (rare)
Atypical Presentations • DKA can be present with BS <300 • Impaired gluconeogenesis • Liver disease • Acute alcohol ingestion • Prolonged fasting • Insulin-independent glucose is high (pregnancy) • Chronic poor control but taking insulin • Bedside urine ketones false negatives • Measure acetoacetate not β-hydroxybutyrate • Send blood to lab
Treatment of DKA • Initial hospital management • Replace fluid and electrolytes • IV Insulin therapy • Glucose administration • Watch for complications • Disconnect insulin pump • Once resolved • Convert to home insulin regimen • Prevent recurrence
Treatment of DKAFluids and Electrolytes • Fluid replacement • Restores perfusion of the tissues • Lowers counterregulatory hormones • Average fluid deficit 3-5 liters • Initial resuscitation • 1-2 liters of normal saline over the first 2 hours • Slower rates of 500cc/hr x 4 hrs or 250 cc/hr x 4 hours • When fluid overload is a concern • If hypernatremia develops ½ NS can be used
Treatment of DKAFluids and Electrolytes • Hyperkalemia initially present • Resolves quickly with insulin drip • Once urine output is present and K<5.0, add 20-40 meq KCL per liter. • Phosphate deficit • May want to use Kphos • Bicarbonate not given unless pH <7 or bicarbonate <5 mmol/L
Treatment of DKAInsulin Therapy • IV bolus of 0.1-0.2 units/kg (~ 10 units) regular insulin • Follow with hourly regular insulin infusion • Glucose levels • Decrease 75-100 mg/dl hour • Minimize rapid fluid shifts • Continue IV insulin until urine is free of ketones
Treatment of DKAGlucose Administration • Supplemental glucose • Hypoglycemia occurs • Insulin has restored glucose uptake • Suppressed glucagon • Prevents rapid decline in plasma osmolality • Rapid decrease in insulin could lead to cerebral edema • Glucose decreases before ketone levels decrease • Start glucose when plasma glucose <300 mg/dl
Infection Precipitates DKA Fever Leukocytosis can be secondary to acidosis Shock If not improving with fluids r/o MI Vascular thrombosis Severe dehydration Cerebral vessels Occurs hours to days after DKA Pulmonary Edema Result of aggressive fluid resuscitation Cerebral Edema First 24 hours Mental status changes Tx: Mannitol May require intubation with hyperventilation Complications of DKA
Once DKA ResolvedTreatment • Most patients require 0.5-0.6 units/kg/day • Pubertal or highly insulin resistant patients • 0.8-1.0 units/kg/day • Long acting insulin • 1/2-2/3 daily requirement • NPH, Levemir or Lantus • Short acting insulin • 1/3-1/2 given at meals • Regular, Humalog, Novolog or Apidra • Give insulin at least 2 hours prior to weaning insulin infusion.
Prevention of DKASick Day Rules • Never omit insulin • Cut long acting in half • Prevent dehydration and hypoglycemia • Monitor blood sugars frequently • Monitor for ketosis • Provide supplemental fast acting insulin • Treat underlying triggers • Maintain contact with medical team
Goals of Discussion • Pathophysiology of DKA • Biochemical criteria for DKA • Treatment of DKA • Prevention of DKA • Hyperosmolar Nonketoic Syndrome
Hyperosmolar Nonketotic Syndrome • Extreme hyperglycemia and dehydration • Unable to excrete glucose as quickly as it enters the extracellular space • Maximum hepatic glucose output results in a plateau of plasma glucose no higher than 300-500 mg/dl • When sum of glucose excretion plus metabolism is less than the rate which glucose enters extracellular space.
Hyperosmolar Nonketotic Syndrome • Extreme hyperglycemia and hyperosmolarity • High mortality (12-46%) • At risk • Older patients with intercurrent illness • Impaired ability to ingest fluids • Urine volume falls • Decreased glucose excretion • Elevated glucose causes CNS dysfunction and fluid intake impaired • No ketones • Some insulin may be present • Extreme hyperglycemia inhibits lipolysis
Hyperosmolar Nonketotic SyndromePresentation • Extreme dehydration • Supine or orthostatic hypotension • Confusion coma • Neurological findings • Seizures • Transient hemiparesis • Hyperreflexia • Generalized areflexia
Hyperosmolar Nonketotic SyndromePresentation • Glucose >600 mg/dl • Sodium • Normal, elevated or low • Potassium • Normal or elevated • Bicarbonate >15 mEq/L • Osmolality >320 mOsm/L
Hyperosmolar Nonketotic SyndromeTreatment • Fluid repletion • NS 2-3 liters rapidly • Total deficit = 10 liters • Replete ½ in first 6 hours • Insulin • Make sure perfusion is adequate • Insulin drip 0.1U/kg/hr • Treat underlying precipitating illness
Clinical Errors • Fluid shift and shock • Giving insulin without sufficient fluids • Using hypertonic glucose solutions • Hyperkalemia • Premature potassium administration before insulin has begun to act • Hypokalemia • Failure to administer potassium once levels falling • Recurrent ketoacidosis • Premature discontinuation of insulin and fluids when ketones still present • Hypoglycemia • Insufficient glucose administration
Conclusion • Successful management requires • Judicious use of fluids • Establish good perfusion • Insulin drip • Steady decline • Complete resolution of ketosis • Electrolyte replacement • Frequent neurological evaluations • High suspicion for complications • Determine etiology to avoid recurrent episodes