List the two big causes of hyperglycemic crises.
Lack of or insufficient insulin replacement therapy
Undiagnosed, untreated diabetes mellitus
Treatment failure in known diabetics:
Insulin pump failure
Forgotten insulin injection
Poor adherence to insulin therapy
Inability to afford treatment
Increased insulin demand
Stress: infections, surgery, trauma, myocardial infarction, burns, heatstroke
Drugs: glucocorticoid therapy, cocaine use, alcohol abuse
What is a common initial manifestion of type 1 DM?
DKA, often precipitated by infection (e.g., pneumonia, urinary tract infection), is a common initial manifestation of type 1 diabetes mellitus (∼ 30% of cases).
Overview (table).
Describe the osmotic diuresis and hypovolemia in DKA (diabetic ketoacidosis).
Osmotic diuresis and hypovolemia
Insulin normally elevates cellular uptake of glucose from the blood.
In the insulin-deficient state of DKA, hyperglycemia occurs.
Hyperglycemia, in turn, leads to progressive volume depletion via osmotic diuresis.
Insulin deficiency → hyperglycemia → hyperosmolality → osmotic diuresis and loss of electrolytes → hypovolemia
Hypovolemia resulting from DKA can lead to acute kidney injury (AKI) due to decreased renal blood flow! Hypovolemic shock may also develop.
Describe the metabolic acidosis with increased anion gap in DKA.
Insulin deficiency also increases fat breakdown (lipolysis).
Metabolic acidosis develops as the free fatty acids generated by lipolysis become ketones, two of which are acidic (acetoacetic acid and beta-hydroxybutyric acid).
Serum bicarbonate is consumed as a buffer for the acidic ketones. Metabolic acidosis with an elevated anion gap is therefore characteristic of DKA.
Insulin deficiency → ↑ lipolysis → ↑ free fatty acids → hepatic ketone production (ketogenesis) → ketosis → bicarbonate consumption (as a buffer) → anion gap metabolic acidosis
Describe the intracellular potassium deficit of DKA.
As a result of hyperglycemic hyperosmolality, potassium shifts along with water from inside cells to the extracellular space and is lost in the urine.
Insulin normally promotes cellular potassium uptake but is absent in DKA, compounding the problem.
A total body potassium deficit develops in the body, although serum potassium may be normal or even paradoxically elevated.
Insulin deficiency → hyperosmolality → K+ shift out of cells + lack of insulin to promote K+ uptake → intracellular K+depleted → total body K+ deficit despite normal or even elevated serum K+
Describe the Hyperosmolar hyperglycemic state (HHS).
Primarily affects patients with type 2 diabetes
The pathophysiology of HHS is similar to that of DKA.
However, in HHS, there are still small amounts of insulin being secreted by the pancreas, and this is sufficient to prevent DKA by suppressing lipolysis and, in turn, ketogenesis.
HHS is characterized by symptoms of marked dehydration (and loss of electrolytes) due to the predominating hyperglycemia and osmotic diuresis.
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