Tight Glycemic Control: �How Sweet It Is! : Tight Glycemic Control: How Sweet It Is! Virginia Point of Care Coordinators
April 22, 2005
Disclosures: Disclosures State faculty for the Surgical Infection Prevention Initiative
No financial or other conflicts of interest
Claudette Dalton, M.D.
“What, me worry?”: “What, me worry?” Surgical Infection Prevention Initiative (SIP) /Surgical Care Improvement Project (SCIP)
Literature
JCAHO/ CMS/ ACS/ ASA/ ICU/ POC/ NQF/ IOM/ QI/ PI/ VHQC
ICU standard of care
? General standard of care
Core Knowledge Needed: Core Knowledge Needed Impact on outcomes
Target BGs/Protocols
Difference between insulins and how they are given
How/when to test consistently
Treatment and prevention of hypoglycemia
Documentation pathways
Terms and definitions
Definitions: Definitions Hyperglycemia is a blood sugar over 110 in a fasting patient and over 125 in a patient who has eaten.
Hypoglycemia—40-70 mg/Dl
Point of care testing
Immediate results that alter management
Diabetes mellitus
Types I and II, gestational
Hyperglycemia
Steroids
Stress
Other meds
Conditions that Predispose to Hypoglycemia: Conditions that Predispose to Hypoglycemia Advanced age
Decreased oral intake
Chronic renal failure
Liver disease
Use of Beta blockers
Mistiming of meals in relationship to insulin dosing
Infrequent or missed monitoring Lack of coordination with transportation and floor
Knowledge deficits by providers
Unreadable, unusual or convoluted orders
Difficult to follow protocols
Physician insisting on different protocol
What is the evidence? : What is the evidence? Risk of microvascular complications
Renal and retinal disease
Diabetes Control and Complications Trial
Risk of macrovascular complications
CAD and stroke
Capes SE. Stroke 2001; 32:2427
DIGAMI and Malmberg K. Circulation. 1999. 99:2626-2632
Risk of mortality
Risk of infections
Cost of care
ACE and AACE recommendations
Unanswered Questions: Unanswered Questions What is “optimal control”?
How long does the patient need to be in good control?
Can we take “tight control” too far?
What is the role of lipids in glucose control?
Do we need to aggressively treat other medical conditions at the same time?
The Role of Blood Sugar in Infections: The Role of Blood Sugar in Infections Poor wound healing in general/many already colonized
Deoxyglucose inhibits glycolytic metabolism which generates energy for superoxide production
No absolute Km identified but glucose level proportional to neutrophil activity
Granulocyte functions—improve when glucose control is good—i.e. <200mg/dL
Adherence
Delays chemotaxis
Impairs phagocytosis
Decreased bacteriocidal activity
Other DM Complications in Surgery: Other DM Complications in Surgery Cellular immunity
Decreased complement fixation
Collagen—increased collagenase activity
Role of microvascular damage
34% of insulin dependent diabetics are colonized with s. aureus
Cardiac cellular function
Vanderbilt Study�Latham R. et.al. Infact Control Hosp Epidemiol. 2001; 22:607-612: Vanderbilt Study Latham R. et.al. Infact Control Hosp Epidemiol. 2001; 22:607-612 Prospective, 1044 CABG and valve ops
6% had undiagnosed diabetes
SSI pts.—62% of known diabetics had hyperglycemia/37% of non-DM patients
Dx of DM associated with 2.7X risk for SSI
Rate of SSIs correlated with degree of hyperglycemia
Hyperglycemia during periop is independent risk factor
Vanderbilt, con’t: Vanderbilt, con’t Similar to other studies, 6% were undiagnosed diabetics
19% in this study had abnormal HgbA1c and another 11% had glucose >200
But Hgb A1c did not correlate with SSIs
Still, suggest that screening with HgbA1c for diagnosis of DM is cost effective if therapy is initiated
Perioperative Glucose Control: Perioperative Glucose Control 1,000 cardiothoracic surgery patients
Diabetics and non-diabetics with hyperglycemia Patients with a blood sugar > 300 mg/dL during or within 48 hours of surgery had more than 3X the likelihood of a wound infection!
Latham R, et al. Infect Control Hosp Epidemiol. 2001.
What factor makes the difference?: What factor makes the difference? Patients may be undiagnosed (4.2%--or higher!)
Most infections when glucose level is >200 mg/dL
Risk same if glucose high anytime in first 48 hours
Hyperglycemia doubles risk—2—2.7X
20mg/Dl increase = 30% increase risk of death
May directly affect cardiac cellular function
Can be stress or medication induced
Capes SE. Lancet. 2000. 773-778 and Clement S. Diabetes Care. 2004. 27:553-591
Ain’t No Mountain High Enough…: Ain’t No Mountain High Enough… Enormous percentage of our patients are diabetic
Another percentage are undiagnosed or hyperglycemic from other causes
Adding nutrition and crisis management
Source of blood
Timing of testing
Tests used
Ain’t no Valley Low Enough…: Ain’t no Valley Low Enough… Hypoglycemia is a blood glucose of 40-70
Institution dependent
Cause seizures, brain death if too low
Anesthesia and sedation block usual symptoms
Blood source
Timing of testing
Tests used
Is There a River Wide Enough?: Is There a River Wide Enough? Who is the crew and who is the coxswain?
Untraditional looking crew
Nutritionist, Pharmacist, QI/PI, managers
Lab, nurses, doctors, educators
Constant educational needs
Policies
Which protocol?
Point of care testing and decision making
Patients go through multiple units while in the hospital—transitions are trouble points
Costs/equipment
Protocol, protocol, who has a protocol? : Protocol, protocol, who has a protocol? Portland, van den Berghe, Yale, home-grown?
Elements to look for
While NPO, when feeding, when crisis
Timing of doses/testing
Subcu vs IV—continuous (CII) vs. bolus
Different protocol for night shift, for sicker patients, for iconoclastic docs?
Start higher to avoid going lower—how low is too low?
How many get hypoglycemic on each protocol?
KISS –or not?
Education, re-education and more education
Requires an IV for most of the protocols
UVA Protocol: UVA Protocol ICU generated
95 is ICU target, <175 is SIP target, 125-175 is general floor target
No subcu
Tests q 1h till stable X 2, then q 2h
Hypoglycemia at 80 mg/Dl--!!! This is very unusual
Capillary unless needs checking, then venous—not sure why we do not use arterial in ICU
UVA SIP Glucose Compliance: UVA SIP Glucose Compliance
Portland�Furnary. J Thorac CardiovascSurg, 2003; 125: 1007-21: Portland Furnary. J Thorac CardiovascSurg, 2003; 125: 1007-21 http://www.starwood.com
Endocr Pract 2004; 10: 21-33
Tests q .5-2 hrs
Continuous IV only
Avg. 3 day Blood glucose
13,649 patients since 1987—prospective interventional
1.5% hypoglycemia rate (60 mg/Dl)
van den Berghe�NEJM 2001. 345:1359-1367: van den Berghe NEJM 2001. 345:1359-1367 1548 SICU patients. Randomized, prospective, controlled.
IV insulin to maintain between 80 and 110 mg/Dl
Relatively short
Measures q 2h until goal, then q 4h
Hypoglycemia at 60
No additional protocols for adding nutrition, crises, weaning
Yale: Yale Goldberg PA, et al. Diabetes Care. 2004; 27:461-467
Current BG leads you to table. Hourly rate of change is guide. Nomogram. Complicated.
Target is 100-139 mg/Dl. Very little hypoglycemia
Mean time to target is 4.6 hrs. Median is 9 hrs.
Protocol rated “easy”, no additions for nutrition, weaning, crises.
Other protocols: Other protocols Markovitz—Endocr Pract. 2002; 8:10-16
Has default algorithm
Testing frequency lowers as stabilizes
Hourly rate=hourly maintenance rate +(blood glucose-150)/ISF
Cut off is 100
UNC—not published yet
Target of 80-110. Has no hypoglycemia cut-off.
Florida Hospital—not published, looks like blend of Markovitz format and Portland amounts
Glucommander
Free Form Protocols-Basic Concepts: Free Form Protocols-Basic Concepts Usual start dose is 0.15 u/kg
Continuous IV weaned to bolus weaned to usual
Think Basal/Nutritional/Correction (Crisis) as three distinct levels with different needs
Basal needs long acting agent like glargine
Nutritional needs medium acting at 1 unit/10 gms of CHO
Crisis/correctional needs short acting like Lispro or Aspartine
More Basics to Keep in Mind: More Basics to Keep in Mind Use regular insulin or NPH in drips
Regular insulin at doses of 0.5-1 unit/ml
Infuse at 0.1 unit dose increments
Use IV fluids with glucose—usually D5
Monitor potassium
Have D50 available and oral CHO also.
But is CII cheaper than SQ? : But is CII cheaper than SQ? Direct and indirect costs for 3 days of q 4h SQ=$32/pt
Costs of 3 days of Cont IV infusion with q 1-2 h test =$170/pt ($138 difference)
Cost of DSWI =$2613/pt + $2081 for 1.8 additional days
$4694-138 =$4556/pt or $4,556,000 per 1000 CABGs
US Hospital savings = 103K CABGs =$469 million/yr
Point of Care Testing: Point of Care Testing Essential
Timing is crucial
Which blood source? Urine? Same over time?
Sensitivity vs. specificity
What interferes with the test you use?
No way to get trends at this time
What would you want in a testor that you do not have now…?
Who needs to be involved? What skills do they need or bring to share?
More on POC Testing: More on POC Testing Bedside monitoring vs. central lab
Does the person doing the test matter?
Self-monitoring?
Cost, accuracy, accountability
Will we live long enough to see a non-invasive bedside monitor? Wireless?
Ketones, albumin, HbA1c, glycated serum proteins-better than blood glucose?
The Pieces You Need: The Pieces You Need Know the literature and other rationales
Have a credible champion
The right protocol
Forms, policies and order sets
The right team
Enough equipment
Strong Quality Improvement department
What to Do with the Pieces: What to Do with the Pieces Start with one unit
Keep all data in one place
Solid communication system
Accurate test administered by trained professionals
Timely changes in treatment
Start high, move lower
Never stop educating
Have a safety plan
Consider special circumstances
Data that may help you…: Data that may help you… Knowing what percentage of patients are diabetic—and guesstimating percent of unrecognized hyperglycemic patients
Literature
Knowing what surgical infection rate is
Estimating cost to your institution in terms of:
Mortality
LOS
Financial Costs
Thanks…: Thanks… Questions, comments, suggestions?
ced2t@virginia.edu