Diabetic ketoacidosis: Difference between revisions
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==Differential Diagnosis==
==Differential Diagnosis==
=== Causes  ===
=== Causes  ===
*Insulin or oral hypoglycemic medication non-compliance  
*[[Insulin]] or oral hypoglycemic medication non-compliance  
*Infection  
*Infection  
*[[Cardiac Ischemia]]  
*[[Cardiac Ischemia]]  
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*When blood sugar(BS) < 250 switch to D5<sub>1/2</sub>NS@ 150-200 ml/hr(+/- KCl)  
*When blood sugar(BS) < 250 switch to D5<sub>1/2</sub>NS@ 150-200 ml/hr(+/- KCl)  


=== Insulin  ===
=== [[Insulin]] ===
*'''Check Potassium prior to insulin treatment!'''<ref>Aurora S, Cheng D, Wyler B, Menchine M. Prevalence of hypokalemia in ED patients with diabetic ketoacidosis. Am J Emerg Med 2012; 30: 481-4.</ref>
*'''Check Potassium prior to insulin treatment!'''<ref>Aurora S, Cheng D, Wyler B, Menchine M. Prevalence of hypokalemia in ED patients with diabetic ketoacidosis. Am J Emerg Med 2012; 30: 481-4.</ref>
**If potassium <3.5mEq/L, do not administer insulin
**If potassium <3.5mEq/L, do not administer insulin
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*Refractory hyperglycemia may be due to an associated infectious process contributing to the DKA
*Refractory hyperglycemia may be due to an associated infectious process contributing to the DKA


====IV Insulin Regimen====
====IV [[Insulin]] Regimen====
#Initial dose 0.1units/kg/hr of insulin
#Initial dose 0.1units/kg/hr of insulin
#When BS <200mg/dL, reduce to 0.02-0.05 U/kg/hr IV OR give subQ 0.1 U/kg q2hr and switch IV fluids to D5<sub>0.45%</sub>NS at 150cc/hr
#When BS <200mg/dL, reduce to 0.02-0.05 U/kg/hr IV OR give subQ 0.1 U/kg q2hr and switch IV fluids to D5<sub>0.45%</sub>NS at 150cc/hr
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*Chem 10 Q4hr (initially Q2hr)  
*Chem 10 Q4hr (initially Q2hr)  
*Check pH prn based on clinical status (eval respiratory compensation)
*Check pH prn based on clinical status (eval respiratory compensation)
*Check appropriateness of insulin dose Q1hr (see below)
*Check appropriateness of [[insulin]] dose Q1hr (see below)
*Corrected Electrolytes
*Corrected Electrolytes


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=== Sliding Scale ===
=== Sliding Scale ===
[[Insulin Sliding Scale]] to be started once patient's DKA has resolved and eating a full diet.
[[Insulin]] Sliding Scale to be started once patient's DKA has resolved and eating a full diet.


== Complications  ==
== Complications  ==

Revision as of 08:22, 29 April 2014

Background

Epidemiology

The mortality rate of DKA is approximately 2-5%[1]

Pathophysiology

Definition
  1. Hyperglycemia (glucose > 250 mg/dl)
  2. Acidosis (pH < 7.3)
  3. Ketosis

Hyperglycemia

  • Leads to osmotic diuresis and depletion of electrolytes including sodium, magnesium, calcium and phosphorous.
  • Further dehydration impairs glomerular filtration rate (GFR) and contributes to acute renal failure

Acidosis

  • Due to lipolysis / accumulation of of ketoacids (represented by anion gap)
  • Compensatory respiratory alkalosis
  • Breakdown of adipose creates first acetoacetate leading to conversion to beta-hydroxybutyrate

Dehydration

  • Causes Renin system activation in addition to the osmotic diuresis
  • Cation loss (in exchange for chloride) worsens metabolic acidosis

Clinical Features

History & Physical

  • Perform a thorough neurologic exam (cerebral edema increases mortality significantly, especially in children)
  • Assess for possible inciting cause (see Differential Diagnosis section)

Studies

  1. Blood Sugar>250
  2. AG>12
  3. Bicarb <15
  4. pH <7.2
  5. ketonemia and ketonuria
  • BS may be lower if there is impaired gluconeogenesis (liver failure patients or severe alcoholics)
  • Bicarb may be normal if there is concurrent alkalosis (e.g. vomiting)
    • In this case an elevated gap may be the only clue with anion gaps > 18 in severe ketonemia

Differential Diagnosis

Causes

Workup

  • CBC
  • Chem 10
  • UA
  • Serum ketones: Beta-hydroxybutrate, acetoacetate
  • hCG
  • ECG
  • VBG (equivalent to ABG for assessment of acid-base status)[2][3][4]
    • Venous pH ~ 0.03 lower than arterial pH
    • Verify that respiratory compensation is as expected
  • Chest xray is indicated if exam concerning for respiratory source of infection

Initial Management

Volume Repletion

  • Administer 20-30cc/kg normal saline bolus during the first hour
    • Most important step in treatment since osmotic diuresis is the major driving force[2]
    • Most adult patients are 3-6L depleted
  • When blood sugar(BS) < 250 switch to D51/2NS@ 150-200 ml/hr(+/- KCl)

Insulin

  • Check Potassium prior to insulin treatment![5]
    • If potassium <3.5mEq/L, do not administer insulin
    • If potassium <5.5 mEq/L but >3.5 mEq/L, then start potassium repletion along with your insulin[6]
  • A bolus dose is unnecessary and may contribute to increased hypoglycemic episodes[7]
  • Expect BS to fall by 50-100 mg/dL per hr if you administer 0.1units/kg/hr of insulin
  • Refractory hyperglycemia may be due to an associated infectious process contributing to the DKA

IV Insulin Regimen

  1. Initial dose 0.1units/kg/hr of insulin
  2. When BS <200mg/dL, reduce to 0.02-0.05 U/kg/hr IV OR give subQ 0.1 U/kg q2hr and switch IV fluids to D50.45%NS at 150cc/hr
  3. Maintain BS between 150 and 200 until resolution of DKA
    1. May require IV fluids to be switched to D100.45%NS when BS <150mg/dL
  4. Continue IV infusion for 2 hrs after subcutaneous insulin tx is begun
  5. SubQ route (appropriate only for mild DKA)
Do not stop insulin infusion until AG normalized AND bicarb normalized

SubQ(SC) Insulin Regimen:[8]

1hr Protocol
  1. Initial dose SC Aspart: 0.3 units/kg body wt, followed by
    1. SC aspart insulin at 0.1 units/kg every hour
    2. When blood glucose <250 mg/dl (13.8 mmol/l), change IV fluids to D5<sub 0.45%NS and reduce SC aspart insulin to 0.05 units/kg/hr
    3. Keep glucose at 150mg/dl (11 mmol/l) until resolution of DKA.
2hr Protocol
  1. Initial dose SC Aspart: 0.3 units/kg body wt, followed by
    1. SC aspart insulin at 0.2 units/kg 1 hr later followed by Q2hr dosing
    2. When blood glucose <250 mg/dl (13.8 mmol/l), change IV fluids to D5 0.45% saline and reduce SC aspart insulin to 0.1 units/kg/ 2hr
    3. Keep glucose at 150mg/dl (11 mmol/l) until resolution of DKA.

Electrolyte Repletion

  1. Potassium repletion is most important
  2. Sodium
    1. Serum concentration diluted as a result of osmotic gradient of glucose pulling more water into extracellular space
    2. Hyponatremia is a result of dilution. Start Normal Saline @ 250-500ml/hr
    3. If Hypernatremic then consider starting 1/2NS @ 250-500ml/hr after initial fluid bolus
  3. Hypophosphatemia: If < 1.0 mEq/L, start repletion.
    1. Severe hypophosphatemia can cause cardiac and respiratory dysfunction
  4. Hypomagnesemia – All patients who are hypokalemic are hypomagnesemic. Replete together as long as kidney function intact.

Bicarb

DKA Refractory to Treatment

Assess for other causes of DKA

Subsequent Management

Labs/Monitoring

  • Glucose check Q1hr
  • Chem 10 Q4hr (initially Q2hr)
  • Check pH prn based on clinical status (eval respiratory compensation)
  • Check appropriateness of insulin dose Q1hr (see below)
  • Corrected Electrolytes

Disposition

Admission: May require ICU

Sliding Scale

Insulin Sliding Scale to be started once patient's DKA has resolved and eating a full diet.

Complications

See Also

Source

  1. Lebovitz HE: Diabetic ketoacidosis. Lancet 1995; 345: 767-772.
  2. 2.0 2.1 Savage MW, Datary KK, Culvert A, Ryman G, Rees JA, Courtney CH, Hilton L, Dyer PH, Hamersley MS; Joint British Diabetes Societies. Joint British Diabetes Societies guideline for the management of diabetic ketoacidosis. Diabet Med. 2011 May;28(5):508-15.
  3. Gokel, Yuksel; Paydas, Saime; Koseoglu, Zikret; Alparslan, Nazan; Seydaoglu, Gulsah: Comparison of Blood Gas and Acid-Base Measurements in Arterial and Venous Blood Samples in Patients with Uremic Acidosis and Diabetic Ketoacidosis in the Emergency Room. American Journal of Nephrology 2000; 20:319-323.
  4. Ma OJ, Rush MD, Godfrey MM, Gaddis G. Arterial blood gas results rarely influence emergency physician management of patients with suspected diabetic ketoacidosis. Acad Emerg Med. Aug 2003;10(8):836-41
  5. Aurora S, Cheng D, Wyler B, Menchine M. Prevalence of hypokalemia in ED patients with diabetic ketoacidosis. Am J Emerg Med 2012; 30: 481-4.
  6. *http://emupdates.com/2010/07/15/correction-of-critical-hypokalemia/
  7. Goyal N, Miller J, Sankey S, Mossallam U. Utility of Initial Bolus insulin in the treatment of diabetic ketoacidosis. Journal of Emergency Medicine, Vol 20:10, p30.
  8. Umpierrez G. et al. Treatment of diabetic ketoacidosis with subcutaneous insulin aspart. Diabetes Care. 2004 Aug;27(8):1873-8 [PDF http://care.diabetesjournals.org/content/27/8/1873.full.pdf]
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