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Perioperative Glucose Management

Perioperative Glucose Management. An Evolving Standard of Care. Objectives. Harmful effects of hyperglycemia Beneficial effects of insulin + glycemic control Observational studies Interventional studies Protocol implementation. Surgery.

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Perioperative Glucose Management

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  1. Perioperative Glucose Management An Evolving Standard of Care

  2. Objectives • Harmful effects of hyperglycemia • Beneficial effects of insulin + glycemic control • Observational studies • Interventional studies • Protocol implementation

  3. Surgery • Stress + fasting associated with surgery leads to relative insulin deficiency • ↑ insulin resistance • ↓ insulin secretion • Insulin deficiency leads to hyperglycemia + excess circulating free fatty acids Gandhi GY et al. Mayo Clin Proc 2008;83:418-30

  4. Surgical stress • Degree of hyperglycemia depends on severity + extent of tissue trauma; anesthesia factors • Elective intraperitoneal surgery +nondiabetics: ↑ 126-180 mg/dL (7-10 mmol/L) • Cardiac surgery: impressive disturbance of glucose homeostasis. • > 270 mg/dL (15 mmol/L) in nondiabetics • > 360 mg/dL (20 mmol/L) in diabetics Schricker + Carvalho. J CTVA 2005;19:684-8

  5. Surgical stress + hyperglycemia • Typical metabolic + endocrine alterations • ↑ glucose production • ↓ glucose utilization • ↑ renal absorption of filtered glucose • ↓ insulin activity • Cardiac surgery: pancreatic hypoperfusion, excess glucose in prime + cardioplegia, hypothermia Schricker + Carvalho J CTVA 2005. Smith et al: JCTVA 2005;19:201-8

  6. Immune system + hyperglycemia • Impaired microvascular response • Adhesion + transmigration of leucocytes • Complement cascade • Cytokine network • Chemokine formation • Chemotaxis, phagocytosis • Generation of reactive O2 species • Neutrophil apoptosis Turina M. CCM 2005;33:1624

  7. Beneficial effects of glycemic control • Protects hepatocytic mitochondria • Improved PMN neutrophil function • Better bactericidal + opsonic activity • Partial correction of abnormal serum lipids • Counteracts catabolism of critical illness • ↑ endothelial function + myocardial protection • ↓ inflammation + apoptosis Brindley et al. CJA 2006;53:947-9

  8. Beneficial effects of insulin • Stimulates glucose uptake + lipogenesis • Inhibits lipolysis, proteolysis +glycogenolysis • Multiple nonmetablic effects: • ↓ levels circulating adhesion molecule + E-selectin • ↓ circulating NO levels by suppressing inducible nitric oxide synthetase gene expression • Protects vascular endothelium from injury • Prevents organ system dysfunction Schricker J CTVA 2005. Langouche et al. J Clin Invest 2005.

  9. Insulin infusion + glycemic control • Avoids sustained cellular glucose overload + toxicity in many cell types • ↓ likelihood for vital organ dysfunction • Prevents damage to mitochondrion • Blunts stress response to CPB Van den Berghe Ann Int Med 2007;146;307-8 Albacker et al. Ann Thorac Surg 2008;86:20-7

  10. Observational studies • Relationship of hyperglycemia + adverse outcomes well investigated • Neurologic illness, trauma • Myocardial infarction • Burns • Cardiac surgery • Critical care • Kidney transplant donors Gandhi et al Mayo Clin Proc 2008;83:418-30. Blasi-Ibanez et al. Anesthesiology 2009;110:333

  11. Interventional studies • DCCT + EDIC 1993+ 2003; UKPDS 1998 + 2008 ↓ complications + mortality in diabetics • DIGAMI 2: ↓ mortality in diabetics w AMI [Eur Heart J 2005] • Leuven trial 2001: 34% ↓ mortality + 40-50% ↓ in important co-morbidities [NEJM 2001, postop surgical pts] • Krinsley: 29% ↓ mortality + ↓ renal insufficiency [Mayo Clin Proc 2004, postop ICU]

  12. Cardiac Surgery + Intraop Insulin • Furnary et al: ↓ mortality + deep sternal wound infections in diabetics [Ann Thor Surg 1999 + J TCVS 2003] • Lazar et al: ↓ infection, Afib, ischemia, inotropes, LOS, mortality in diabetics [Circulation 2004]

  13. Portland Diabetic Project • 23,619 cardiac surgery pts, 1987-2005 • 5510 had diabetes, 40% on insulin • 1987-92: subcut regular insulin, target 150-200 • 1992-05: continuous regular insulin, target ↓ over time, currently 70-110 in ICU • 3-BG= average value of all glucose measures on each of 3 days: POD 0, 1, 2 [24-72 measures] • Current 3- BG = 121 mg/dl Furnary AP. Endocrine Practice 2006;12[Supp 3]:22-6. http://www.providence.org/protocoldownload

  14. Portland Diabetic Project, results • ↓ risk of death by 60%, mainly pump failure + afib (4.4% vs 1.1%) • Annual CABG mortality < nondiabetics • ↓ risk of deep sternal wound infection by 77% (2% to 0.6%) • Other effects: ↓ transfusion, afib, inotropes, infections, LOS Furnary AP, Wu YX. Endocrine Practice 2006;12 (Supp 3) :22-6

  15. Boston GIK Study • 149 diabetic pts, CABG • Randomized to GIK vs std therapy • GIK started before anesthesia induction + continued until 12 hr postop. • GIK: insulin 4.8 u/hr+ dextrose 1.5 g/h + KCL 2.4 mEq//h. Target: 125-200. • Std therapy: sliding scale subcut insulin if > 250 Lazar et al. Circulation 2004;109:1497-1502

  16. Boston GIK Study, results • ↓ glucose: 138 vs 260 [12 hr postop] • ↓ afib: 17 vs 42% • ↓ LOS 6.5 vs 9.2 days • ↓ infections: 0 vs 13 pts [pneumonia, wound] • Other: postop: ↑ CI, ↓ pacing, ↓ inotropes • Other: 2yrs: improved outcome, ↓ ischemia, ↓ wound infections Lazar et al. Circulation 2004;109:1497-1502

  17. Mayo Intraop Cardiac Surgery Study • 400 pts: 20% diabetics, Hg A1C 7% • Randomized to intraop intensive vs std therapy • Intensive: • Insulin started > if 100 mg/dl. Target 80-100 • Std therapy: • sliding scale IV insulin 200-250, or IV insulin if > 250 • Postop: • Both groups had intensive IV insulin, target 80-100 Gandhi GY et al. Ann Intern Med 2007;146:233-43

  18. Mayo Intraop Cardiac Surgery Study • ↓ glucose after CPB: 123 vs 148 [19 u insulin] • ↓ glucose ICU arrival: 114 vs 157 • All pts normoglycemic afterwards by protocol design (103-104 mg/dl, 72-73 u insulin/ 24 h) • No difference in 1o or 2o outcomes: • death, sternal wound infection, cardiac arrest, arrhythmias, ARF, > 24h intubation, LOS • More deaths + strokes in treatment gp (4 vs 0, P =0.06; 8 vs 1, P = 0.02) Gandhi GY et al. Ann Intern Med 2007;146:233-43

  19. Neurosurgical Patients • RCT 483 adult pts admitted to neuro ICU postop [20% head trauma]: IIT, target gluc 80-110, vs control (gluc < 200). Excluded pts w diabetes • LOS shorter + infection rate lower with IIT • More hypoglycemic (gluc < 50) episodes in IIT • 94% of IIT gp had hypoglycemic episodes • No difference in mortality + Glasgow outcome scale between gps Bilotta et al. Anesthesiology 2009;110:611

  20. Rethinking Glucose Control • Tight glucose control did not prevent CV deaths + macrovascular complications in type 2 diabetes • ADVANCE • VADT • ACCORD • Tight glucose control leads to hypoglycemia • VISEP • Glucontrol ADA 2008: 68th Annual Scientific Sessions

  21. Meta-analysis of IIT • 29 RCTs, 8432 pts • No mortality difference • Tightness of control • Surgical, medical, med/surg • ↓ sepsis (10.9 vs 13.4%) • ↑ hypoglycemia (< 40 mg/dL, 13.7 vs 2.5%) Wiener et al. JAMA. 2008;300(8):933-944

  22. Consensus recommendations *ADA. **SCCM. ***AHA. Loh-Trivedi + Rothenberg, 2008

  23. Protocol Implementation • Periop glycemic control depends on: • nature of surgery • severity of illness, age • sensitivity to insulin • modality used to achieve glycemic control • body temp, caloric intake, infection • Preop diabetes + treatment

  24. Protocol Implementation, cont’ • Interaction between glucose metabolism + surgical trauma + CPB is complex • Optimal intraop glycemic control cannot be achieved by occasional measurements of glucose + reactive adjustments of insulin infusion Schricker + Carvalho. J CTVA 2005

  25. Cardiac surgery + intraop glycemic control • Hyperinsulinemic, normoglycemic clamp • Infuse insulin at constant rate • Infuse dextrose to clamp blood glucose at a specific level Carvalho et al. Anesth Analg 2004 Smith et al. J CTVA 2005 Van Wezel at al. J Clin Endocrinol Metab 2006

  26. Cardiac surgery + intraop glycemic control • IV insulin • IV GIK • Sliding scale insulin • Adjust rate + dose based on glucose levels Furnary et al. Ann Thorac Surg 1999 + J TCVS 2003 Lazar et al. Circulation 2004 Gandhi et al. Ann Int Med 2007

  27. Iatrogenic hypoglycemia • Brain cannot synthesize glucose or store more than a few min supply as glycogen • Brain is critically dependent on continuous supply of glucose from circulation • Signs + symptoms masked by anesthesia: • anxiety, palpitations, tremor, sweating, hunger, paresthesias, cognitive dysfct, seizures, coma, brain damage Cryer et al. Diabetes Care 2003;26:1902-12

  28. Glycemic thresholds • 72-108 mg/dL (4.0-6.0 mmol/L) : • normal range • ~ 65-70 mg/dL (3.6-3.9 mmol/L): • neuroendocrine response (↑ glucagon + epinephrine) • ~ 50-55 mg/dL (2.8-3.0 mmol/L): • neurologic symptoms, cognitive impairment • Thresholds may be shifted in poorly controlled diabetics Cryer et al. Diabetes Care 2003;26:1902-12

  29. My Perspective • Current treatment does not provide plasma glucose-regulated insulin replacement or secretion • Pharmacokinetics of insulin are imperfect • Time course of short acting analogues measured in hrs • Time course of endogenous insulin in nondiabetics measured in min • Iatrogenic hypoglycemia can be minimized but not eliminated if goal of treatment is near- euglycemia

  30. Glycemic control: future directions • Glucose – regulated insulin replacement via pancreatic islet transplant (diabetics) • Bio-engineered artificial β-cell (diabetics) • Closed loop insulin replacement systems: • reliable glucose sensor necessary • CGMS gold: measures subcut glucose q 10 s • CGMS guardian: measures interstitial glucose q 5min • CSII: continuous subcut insulin infusion • IV-intraperitoneal systems Cryer et al. Diabetes Care 2003. Ferrari. Curr Opin Anaesthesiol 2008

  31. Summary • Glycemic control of benefit in pts with diabetes, + in nondiabetic critically ill patients • Optimal periop glycemic control will carry risk of iatrogenic hypoglycemia • Periop control can be achieved in most pts through coordinated protocols, but ideal glucose level not known

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