DIABETIC EMERGENCIES

1. DIABETIC EMERGENCIES Trevor Langhan MD January 31st, 2008 University of Calgary

2. Objectives • Case based approach to important glucose related presentations • Mixed in with some physiology to understand treatment plans

3. Case 1 • 21 year old Japanese exchange student • In Canada past 6 months • Felt sick for past 2 days and was not eating • Now billeting family says he is acting confused

4. Case 1 • In to ED via EMS • Pt too drowsy to provide accurate history • Responds to pain • Thin male, looks dehydrated • PMHx: Type 1 DM since 6 yrs old • Questions?

5. Case 1 • Vitals: • T – 38.2 • HR – 130 • BP – 100/60 • RR – 28 • Sats – 98% • Bedside tests: • Chemstrip – “high” • Additional labs?

6. Case 1 • Na+ 130 • K+ 6.3 • HCO 8 • Cl 108 • Cr 165 • Glucose 38 • What is his AG? • 14 – is this right?

7. Na+ correction for increase Glucose • Multiple sources of information for formula…. • Common: • Increase Na+ 1.6 for every 5.6 mmol/L glucose • Easiest: • Increase Na+ 3 mmol/L for every 10 mmol/L of glucose

8. Na+ correction for increase Glucose • Hyperglycemia (and hyperlipidemia) leads to increase in osmolar funciton of blood • H20 is drawn from the cells into the vascular space • Dilutional hyponatremia • For our guy his Na+ = 139 mmol/L • 3 mmol increase Na+ / 10 mmol glucose

9. Case 1 • With the new Na+ his AG is actually 23 • So he has an anion gap metabolic acidosis…. • How are you going to get his acid/base status? • ABG vs. VBG…..

10. Ma OJ et al. Arterial Blood Gas Results Rarely Influence Emergency Physician Management of Patients with Suspected Diabectic Ketoacidosis. Acad Emerg Med. Aug 2003, 10:8. • Prospective observational study • Inclusion: DKA pts • VBG, ABG, chem 6 • ABG result changed: • Altered treatment in 7/200 (3.5%, 1.7-7.1% CI) • dispostion in 2/200 cases (1%, 0.3-3.6% CI) • VBG pH correlated with ABG pH (r = 0.951)

11. Case 1 • What is the source of his gap acidosis? • Ketone production from fatty acid breakdown • How are you going to prove that? • Urine vs. blood….

12. Urine vs. blood • Urine dip stick • Nitroprusside reaction • Qualitatively assess for ketones • Only measures which ketone? • Acetoacetate • Does not measure B-Hydroxy Buterate • AA:BHB ratio is 1:3 (can be as high as 1:30) • So might have false –ve urine dip despite gross ketosis

13. Case 1 • So you’ve proven he’s got an AGMA • And shown where the acidosis is coming from…. • Dx: Diabetic ketoacidosis

14. DKA - Diagnosis • Clinical • Dehydration • High cap glucose • Ketones in urine or plasma • Confirmed: • Blood pH • Serum Bicarb • Serum Osmolality

16. DKA • Three main problems: • Hyperglycemia • Osmotic diuresis • Dehydration – can be profound • 5-7 litre total fluid deficit • Loss of electrolytes • K+, Na+, Mg+, PO4- • Acidosis • Transcelluar shift of H+ and K+ • Falsely normal K+ (or even high)

17. DKA - Treatment • Fluid rehydration • Pts in hypovolemic shock need assessment of ABCs • Treat with boluses of 0.9% NS • Avoid pressors – etiology of shock is decreased intravascular volume • Adults – 1-2 litres over 1 hour • Subsequent fluid change to 0.45% NS

18. DKA- Treatment • Peds – 20 cc/kg bolus initially if shock • Otherwise start with 10 cc/kg • Goal to replace fluid deficit over 24-48 hours • Dreaded risk of cerebral edema….

19. Multi-center, retrospective • Included DKA pts with CE • Matched for illness severity to DKA pts with no CE • Log regression • Risk Factors: • High urea • Use of Bicarb • Low PCO2

20. Why do they get Cerebral Edema?

21. Marcin JP et al. Factors associated with adverse outcomes in children with diabetic ketoacidosis-related cerebral edema. Journal of Pediatrics. 141(6); Dec 2002. • 3 variables were found to be associated with a poor outcome of children with DKA-related cerebral edema • Elevated initial BUN concentration • More profound neurologic depression at the time of diagnosis of cerebral edema • Intubation with associated hyperventilation to a PCO2 level <22 mm Hg.

22. DKA - Treatment • Boluses of fluid to increase intravascular volume • What next? • Stop lipolysis and the production of ketone bodies • His glucose is 38 mmol/L • How do you want to treat him?

23. DKA - Treatment • IV regular insulin is the start • No RCT to prove bolus vs. just starting an infusion • Current practice is to only start an infusion at 0.1 unit/kg/hour • No need to quickly drive glucose into the cells • Rehydration and osmotic diuresis will eliminate most excess glucose

24. Umpierrez GE et al. Diabetic Ketoacidosis and Hyperglycemic Hyperosmolar Nonketotic Syndrome. Am J Med Sci. 311(5); May 1996, pp 225-233. • Kitabchi et al. Compare ‘high dose’ to ‘low dose insulin’ in DKA treatment • RCT, prospective • No difference in: • Rate of decline of blood glucose • Rate of decline of ketone body concentration • Time to resolve acidosis • High doses of insulin associated with: • 25% increase in hypoglycemic events • Greater hypokalemia

25. DKA - Treatment • Current standard has become ‘low dose’ insulin • Constant infusion at 0.1 units/kg • No current need to bolus administer insulin

26. DKA - Treatment • As glucose is trending down add a glucose containing solution to IV fluid • Glucose < 14 mmol/L • Drop insulin infusion by 50% • Add D5 to your ½ NS maintenance • Run at 200-400 cc/hr for first 12 hours

27. Loss of Electrolytes

28. Electrolyte Replacement • Loss of: • Cl-, Na+, K+, PO4 • Most NB to replace is K+ • Myocardial cell membrane stability • Risk of dysrhythmia, death

29. Electrolyte Replacement • DKA – K+ may be normal or elevated • Acidosis may lead to ‘false normal’ K+ levels • True body K+ much lower • Treatment of DKA may lead to lowering of K+ • Insulin • HCO3

30. Electrolyte Replacement • Hold insulin until you’ve checked the K+ • Don’t give insulin if K+ < 3.3 mmol/L • If K+ normal or high start rehydration and insulin • K+ < 5.0 mmol add 20-40 mmol/L of K+ to IV fluids • Ensure Mg+ supplemented as well

31. DKA – Treatment summary • IV fluids – bolus ++ if shocky • Check lytes • Replace K+ early • Add to IV fluid as K+ < 5.0 mmol/L • Insulin infusion 0.1 units/kg/hr • Look for inciting event… • Infection, MI, trauma, pancreatitis…

32. DKA - Treatment • Bicarb is rarely indicated • Risk of hypokalemia • No proven indications • Guidelines suggest that if: • pH < 7.0 – after 1 hour of treatment • Give one amp diluted in 200 cc over 1 hour

33. CASE 1-B • 77 y F from nursing home • Not eating or drinking lately • Vague abdominal pain expressed to care home staff yesterday • Didn’t come down for lunch

34. CASE 1-B • EMS called when she was found in her room • HR 120 BP 90/50 RR 18 Sat 98% • GCS 9 • Glucose ‘high’

35. CASE 1-B • Labs: • Na+ 144 mmol/L • K+ 5.4 mmol/L • Cl- 124 mmol/L • HCO3 20 mmol/L • Glucose 49 mmol/L • Urea 15 mmol/L • VBG 7.34 / 40 / 90 / 21

36. Hyperosmolarity • 2 Na+ + gluc + urea = osmolarity • DKA osmo usually < 320 mmol/L • HHS > 320 mmol/L

37. Hyperglycemic Hyperosmolar State • Formerly known as HONK • Pts can have ketosis so misleading name • Marked hyperglycemia and dehydration • Profound electrolyte losses • Due to insulin resistance and excess counter regulatory hormones

38. Hyperglycemic Hyperosmolar State • More likely to occur in older, obese pts • More often Type 2 DM • May develop over days – weeks • Frequent in elderly: • free water deprived • compromised renal fxn

39. Hyperglycemic Hyperosmolar State • Some insulin present so no ketone production • No subsequent acidosis (pH > 7.3)

40. Hyperglycemic Hyperosmolar State • LOOK for underlying cause • Older more frail pts • IV fluids • Insulin infusion • Monitoring and correction of electrolytes • K+ depleted but not as low as DKA • No acidosis, so no shift

41. Diagnosis - Laboratory

43. Complications of DKA and HHS • Cerebral Edema • ARDS • Hypoglycemia and Hypokalemia • Thrombosis and PE • No RCT to tell us what to do • Venous stasis, viscous blood, underlying artherosclerosis – set up for clot • Consider Heparin sc for DVT prophylaxis in high risk patients

44. Prognosis - summary • DKA mortality 4-10% • HHA mortality 10-50% • Not as different as I always thought: • IV fluids • Lower glucose with IV insulin infusion • Anticipate and correct electrolyte abnormalities (K+ most NB in DKA) • Add glucose to IV at gluc < 15 mmol/L • Look for precipitant

45. CASE 2 • 3 month old boy with gastroenteritis • To ED with parents lethargic • Has not been eating well • Clinically looks dry • Glucose 1.6 mmol/L • Tx: 4 cc/kg D10W • IV fluids, improved

46. CASE 3 • 25 y female • Took her insulin 30 minutes ago to kill self • Seizure in waiting room • Tx: IV glucose • 1 amp D50W • Additional amps as needed • May require infusion of D10W

47. CASE 4 • 27 year old Type 1 DM • Took insulin this am as usual • Skipped breakfast, then vigorous exercise • Now confused, cant’ find keys • EMS called

48. CASE 4 • Initial glucose 2.2 mmol/L • Vitals stable, GCS 13 • Given IM glucagon and some oral CHO • Now glucose is 6.6 mmol/L • Feels well, A&O x 3 • EMS patches to cancel transport • Alert, cooperative pts, responsible adults • Tolerating oral CHO

49. Hypoglycemia - Summary • Bolus IV glucose • D50W adults (1-3 amps) • D25W peds (4 cc/kg) • D10W neonate-2 years (4 cc/kg) • NO IV can give Glucagon IM 1-2 mg • Prolonged hypoglycemia after OD of insulin may need Dextrose infusion D10W • Treatment is eating CHO meals

50. CASE 5 • 55 year old male Type 2 DM • Acting confused at home • Wife called EMS • Meds: • Metformin • Altace • Glyburide • ASA