Intensive Management of Inpatient Hyperglycemia Nicole L. Artz, MD “The conventional view serves...
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Transcript of Intensive Management of Inpatient Hyperglycemia Nicole L. Artz, MD “The conventional view serves...
Intensive Management of Inpatient Hyperglycemia
Nicole L. Artz, MD
“The conventional view serves to protect us from the painful job of thinking.”
John Kenneth Galbraith (1908-2006)
Outline
Background Data Insulins Protocols Cases
Hyperglycemia – Scenarios
Patient with known diabetesdefined as FBG > 126 mg/dl or random BG >=
200 on 2 or more occasions. Patient with previously undiagnosed
diabetesHgbA1C abnormal and/or hyperglycemia
persists after hospital discharge. Stress hyperglycemia
Background Prevalence of DM in hospitalized patients-
12-26% Prevalence of inpatient hyperglycemia-
38% (chart review of 1886 medical and surgical pts at community teaching hospital)
1/3 with newly discovered hyperglycemia
References: Clement S, Braithwaite SS, Magee MF, et al. Management of diabetes and
hyperglycemia in hospitals. Diabetes Care. 2004;27(2):553-91. Umpierrez GE, Isaacs SD, Bazargan N, You X, Thaler LM, Kitabchi AE.
Hyperglycemia: an independent marker of in-hospital mortality in patients with undiagnosed diabetes. J Clin Endocrinol Metab. 2002;87(3):978-82.
Background Why do we care about inpatient
hyperglycemia?
Total In-patient Mortality
1.7%3.0%
16.0%
0.00%
2.00%
4.00%
6.00%
8.00%
10.00%
12.00%
14.00%
16.00%
Normoglycemia Known Diabetes NewHyperglycemia
•Umpierrez GE, Isaacs SD, Bazargan N, You X, Thaler LM, Kitabchi AE. Hyperglycemia: an independent marker of in-hospital mortality in patients with undiagnosed diabetes. J Clin Endocrinol Metab. 2002;87(3):978-82.
Additional studies correlating hyperglycemia with morbidity/mortality…. Acute MI- Increased risk of CHF, cardiogenic shock,
and mortality… Cardiac Surgery- Greater mortality, increased deep-
sternal wound infections, and more overall infections.. Acute CVA- Increased risk of mortality, poor
functional recovery, and increased final infarct size… Elective Surgery- Increased risk of nosocomial
infection w/ early postoperative hyperglycemia
Capes SE, Lancet. 2000;355(9206):773-8.Capes SE, Stroke. 2001;32(10):2426-32.Parsons MW, Ann Neurol. 2002;52(1):20-8.Furnary, AP Circulation. 1999/100(#18)I-591.Pomposelli, JJ et al. J of Parenteral and Enteral Nurtrition, 1997: 22(2) 77-81.
Cause or Effect?Intervention Studies
Post-CABG Patients Portland Protocol Study
On-going,17 year pre-post intervention study comparing conventional treatment with subcutaneous insulin (1987-1991) vs. continuous insulin infusion (1992-2001) in patients with diabetes.
CII therapy normalized the rates of hospital mortality (2.5%) and DSWI rates (0.8%) in pts with DM to those of nondiabetic patients.
Furnary, et al. J Thoracic Cardiovascular Surgery 125: 1007-1021, 2003
0.00%
2.00%
4.00%
6.00%
8.00%
10.00%
12.00%
14.00%
16.00%
<150 150-175
175-200
200-225
225-250
>250
0.9%1.3%
2.3%
4.1%
6.0%
14.5%
Average postoperative glucose (mg/dl)
Mortality
Effect on Healthcare Resources…
Length of Stay 3-BG (3 day average post-op BG) independently
predictive of longer LOS: 1 day increased LOS for each 50 mg/dL increase in 3-BG.
Cost of Care Conservatively estimated savings of $680 per patient.
Furnary, et al. J Thoracic Cardiovascular Surgery 125: 1007-1021, 2003
SICU patients
Randomized controlled trial of intensive insulin infusion therapy to maintain BG 80-110 mg/dl vs conventional therapy to maintain BG 180-200 mg/dl in mechanically ventilated surgical ICU pts. 60% were cardiac surgery patients.
Van den Berghe G, et al. N Engl J Med. 2001;345(19):1359-67.
0.00%
2.00%
4.00%
6.00%
8.00%
10.00%
12.00%
ICU In-Hospital
IntensiveConventional
ARR-3.4% ARR-3.7%
Mortality
Intensive therapy also reduced episodes of bacteremia, acute renal failure requiring dialysis, # of blood transfusions, and critical illness polyneuropathy.
Reduced ICU length of stay by 3 days for pts requiring >5 days of ICU care.
NO to Sliding Scales!!
WHY? Sliding scale regimen ordered on admission is usually
used throughout the hospital stay without modification Ineffective- Treats hyperglycemia after it has already
occurred, instead of preventing the occurrence of hyperglycemia
This “reactive” approach can lead to rapid changes in blood glucose levels, exacerbating both hyperglycemia and hypoglycemia
Queale, W. Arch Intern Med/Vol 157, Mar 10, 1997, 545-552.
Smith, WD, Am J Health Syst Pharm. 2005 Apr 1; 62(7): 714-9.
Schoeffler JM, Ann Pharmacother. 2005 Oct; 39(10) 1606-9.
Basal/Bolus Concept In healthy patients, pancreas
secretes large amounts of insulin with meals (“bolus or prandial”)
However, it also makes smaller amount of insulin in between meals (when fasting, overnight, etc) to suppress liver glucose production (“basal”)
We try to mimic this as much as possible with current therapy
4:004:00
2525
5050
8:008:00 12:0012:00 16:0016:00 20:0020:00 24:0024:00 4:004:00
BreakfastBreakfast LunchLunch DinnerDinner
Pla
sma
insu
lin
(P
lasm
a in
suli
n (µ U
/ml)
U/m
l)
TimeTime
8:008:00
Physiological Serum Insulin Secretion Profile
The Basal/Bolus Insulin Concept
Basal insulinSuppresses glucose production between
meals and overnight40% to 50% of daily needs
Bolus insulin (prandial/mealtime)Limits hyperglycemia after meals Immediate rise and sharp peak at 1 hour 10% to 20% of total daily insulin
requirement at each meal
EffectiveOnset Peak Duration
Lispro/Aspart <15 min 1 hr 3 hr Regular 1/2-1 hr 2-3 hr 3-6 hr NPH/Lente 2-4 hr 7-8 hr 10-12 hrGlargine 1-2 hr Flat/Predictable 24 hr
Pharmacokinetics of Current Insulin Preparations
400
350
300
250
200
150
100
MealSC injection
50
00 30 60
Time (min)90 120 180 210150 240
Lispro500450400350300250
150
50
200
100
00 50 100
Time (min)150 200 300250
Pla
sm
a i
ns
uli
n (
pm
ol/
L)
Pla
sm
a i
ns
uli
n (
pm
ol/
L)
MealSC injection
Heinemann, et al. Diabet Med. 1996;13:625–629; Mudaliar, et al. Diabetes Care. 1999;22:1501–1506.
Short-Acting Insulin Analogs
Aspart
RegularRegular
Lepore, et al. Diabetes. 1999;48(suppl 1):A97.
6
5
4
3
2
1
00 10
Time (h) after SC injection
End of observation period
20 30
GlargineNPH
Glu
cose
uti
lizat
ion
rat
e(m
g/k
g/h
)
Glargine vs NPH Insulin
NPH
Glargine
4:00 16:00 20:00 24:00 4:00
Breakfast Lunch Dinner
8:0012:008:00
Time
Glargine
Lispro Lispro Lispro
Pla
sma
insu
lin
Basal/Bolus Treatment with Rapid-acting & Long-acting Insulin Analogs
Insulin Requirements Basal Insulin
Baseline insulin needed whether eating or NPO ex. Glargine (Lantus®)
Prandial Insulin Also referred to as bolus or mealtime insulin, usually
administered before eating ex. Lispro (Humalog®) and Aspart (Novolog®)
Correction or Supplemental Insulin Insulin used to treat hyperglycemia that occurs before
meals or between meals Given in addition to scheduled insulin At bedtime, often is given at a reduced dose in order to
avoid nocturnal hypoglycemia With NPO patients or patient who is receiving
scheduled nutritional and basal insulin but not eating meals
Initial Approach….
Check HgbA1C Accuchecks QAC and HS Discontinue Oral Diabetes Medications
Cannot gain rapid control of hyperglycemia Sulfonylureas- Increased risk of hypoglycemia w/
decrease in po intake Metformin- Increased risk of lactic acidosis if ARF Thiazolidinediones- may be contraindicated by
development of chf, edema
Calculating Basal/Bolus Insulin
Type 2 DM on insulin- Add all insulin doses together (this is the Total Daily Dose)
Type 2 DM new to insulin OR Newly Discovered Hyperglycemia- Calculate starting Total Daily Dose of 0.6 units/kg/day.
In general, 50% of the total insulin should be basal and 50% mealtime insulin, the latter divided in 3 doses for each meal
BASAL Insulin
Cut the TDD in half and give as insulin Glargine (Lantus®).
This is Basal insulin. May give insulin Glargine (Lantus®) at any
time and then re-dose every 24 hours.
PRANDIAL Insulin
When the patient is eating, give the remaining 50% of the TDD as rapid acting insulin lispro (Humalog). Give 1/3 AFTER each meal.
This is prandial insulin Cut the prandial dose in ½ if the patient only
eats ½ the meal. Hold prandial dose if patient does not eat.
Correction Factor Insulin…the new, improved “sliding scale” To correct pre-meal hyperglycemia Given in addition to scheduled mealtime
insulin as one injection after the meal Give if pt NPO Algorithms based upon the total insulin
dose per day
Correction Factor Insulin
Premeal BG
Lispro
Insulin
130-170 1 unit
171-220 2 units
221-270 3 units
271-320 4 units
>320 5 units
Premeal BG
Lispro
Insulin
130-170 1 unit
171-220 3 units
221-270 5 units
271-320 7 units
>320 9 units
40 units insulin/day 41-80 units insulin/day
Correction Factor Insulin
Premeal BG
Lispro
Insulin
130-170 3 unit
171-220 5 units
221-270 7 units
271-320 9 units
>320 11 units
>80 units insulin/day
Correction Factor Insulin
Only HALF correction dose is given at bedtime
Goals for Ward Patients
Pre-prandial BS 90-130 mg/dL All BS <180 mg/dl
Adjusting Basal Insulin
Make daily adjustments of basal insulin based on fasting (AM) BG
Fasting BG Change to Glargine
<70 ↓ 20%
71-90 ↓10%
90-130 no change
131-180 ↑ by 10%
181-230 ↑ 20%
231-280 ↑ 30%
>281 ↑ 40%
Adjusting Prandial Insulin
Recalculate prandial insulin dose using new basal insulin amount divided by 3
If the Patient is NPO or unable to eat Insulin glargine (Lantus) should still be
given Accuchecks every 6 hours Prandial insulin not needed Correction insulin should still be given BG goal 90-130 mg/dl
Patients without History of Diabetes
In patients without a history of diabetes and normal hemoglobin A1C insulin glargine dose can be TAPERED by
20% of the first dose per day and they can be discharged without treatment
Transition from Drip to SQ Insulin Patient should be stable on the same IV
drip rate for 3 hours Multiply the drip rate/hour X 20 Give
this as daily dose of Glargine (Lantus®) SQ
Discontinue the IV drip 2 hours after the insulin Glargine (Lantus®) dose
May give insulin Glargine (Lantus®) at any time and then re-dose every 24 hours
This is Basal insulin
Transition from Drip to SQ Insulin When patient is able to eat Insulin drip stable at a rate of 3 units/hour Glargine calculated as 3 X 20 = 60 units Glargine 60 units SQ given and drip
stopped 2 hours later Patient to start eating
Total lispro dose to be 60 units per day so 60/3 20 units with each meal
If the Patient is on Tube Feeds
Consult Endocrine. If continuous, ALL insulin requirements
should be supplied by Glargine. If suddenly stopped, immediately begin
infusion of D10 at same rate tube feeds were running to avoid hypoglycemia.
If the Patient is on Steroids
Consult Endocrine Increased post-prandial hyperglycemia-
may need to use much greater prandial insulin doses, or change to NPH.
Discharge
Patient with Type 2 Diabetes HbA1C >7% represents suboptimal diabetic control
and anti-diabetic Rx should be improved prior to discharge.
Each oral diabetic agent will only lower HbA1C by 1-2%. A pt w/ HbA1C of 12% on 2 oral agents will require insulin to reach goal <7%.
Note: Illinois public aid now covers Lispro (Humalog) and Glargine (Lantus) for outpaients.
Practice Cases
45 yr old woman with h/o DM type 2 admitted for elective cholecystectomy.
At home, taking glipizide 10 mg bid and Metformin 1000 mg po bid.
Weight is 100 kg.
Case 1 Cont…
What is her Total Daily Insulin Requirement? 100 kg X 0.6 units/kg = 60 units
How much basal insulin (Lantus) should you give? 30 units (50% of TDD)
How much prandial insulin will she need with each meal? 10 units given AFTER each meal.
Case 1 Cont…
Which correction factor algorithm will she require?Medium Dose Algorithm
Premeal BG
Lispro
Insulin
130-170 1 unit
171-220 3 units
221-270 5 units
271-320 7 units
>320 9 units41-80 units insulin/day
Case 1 Cont….
Post-operative Day 1 her fasting blood glucose is 170. Calculate her new basal and bolus insulin doses.Lantus 33 units Q 24 hours.Lispro 11 units after each meal.
Case 1 Cont…
She does well and is ready for discharge on POD #3
Her HbA1C ordered at admission was 10%. She states that she takes her pills consistently at home.
Discharge regimen?
Case 1 Cont…
What additional things must happen before discharge? Patient diabetes education- DVD, patient handouts Ability to use glucometer appropriately Ability to give insulin injections Scripts for test strips, lancets, insulin, needles, and
syringes!) Ensure f/u apt with PCP w/in 2 weeks
Case 2
58 y/o male with h/o DM type 2 previously treated with oral diabetes medications now admitted to D6 ICU after CABG.
Started on insulin infusion per RN-initiated protocol.
Determined ready for transfer out of the ICU to the floor on POD 2.
Case 2
The pt is on an insulin gtt at 3 units/hr. The nurse asks you for transfer insulin orders.What do you need to know to write these?
Has the pt been on a stable drip rate for the last 3 hrs?
Is the patient eating, or NPO?
Case 2
The nurse reports the insulin gtt has been stable at 3 units/hr for the past 3 hrs and the patient’s most recent BG was 116.
Calculate the initial dose of insulin glargine.3 X 20 = 60 units glargine
When will you discontinue the insulin gtt?2 hours after glargine is given
Case 2
Order prandial insulin for this patient.Lispro 20 units SQ given after each meal
Order a correction factor insulin- which algorithm will you choose?High Dose Algorithm (>80 units insulin/day)
Case 2
You are called by the patient’s nurse. The patient’s pre-meal glucose was 140 but the patient did not eat his lunch. She is not sure how much insulin to give. What should you tell her?Hold the prandial insulin but give the
correction factor insulin
Case 2
The following day, the patient’s fasting BG is 88. How will you adjust his insulin?Adjust basal insulin
Decrease glargine (Lantus®) by 10%: 54 units SC glargine daily
Adjust prandial insulin 54 units/3 = 18 units lispro (Humalog®) SC after
each meal
Case 2
You follow the protocol, adjusting insulin doses daily until the patient is ready for discharge.
Hgb A1C checked at time of admission was 10%.
Current insulin regimen is:Glargine (Lantus®) 40 units dailyLispro (Humalog®) 13 units tid after meals
Case 2
Should this patient go home on insulin?Yes! (HgbA1C of 10%)
Patient has Medicaid insurance. What insulin will you send him home on?Glargine (Lantus) and Lispro (Humalog) now
covered!
Case 3
57 year old diabetic woman POD #4 who has been transitioned to SQ insulin 2 days ago but is still not eating.
FBG this AM was 220. Current glargine dose is 20 units per day
and lispro correction factor at low dose algorithm.
Case 3
Correction dose lispro of 2 units given now. The nurse wants to hold the glargine b/c the
patient is not eating. What should you tell her? Give the Glargine! How much? Increase daily glargine dose by 20% so by 4 units
24 units glargine daily.
The patient starts eating the next day. What dose of lispro should you order?
Case 3
Glargine dose is 24 units daily so total daily lispro dose will also be 24 24 units/3 lispro 8 units after each meal
Next day, you are called because the patient’s BG at lunch is 65. She is awake and not symptomatic. How do you treat this?
To Treat HYPOGLYCEMIA ( Blood Glucose Less than 70 mg/dl )
If Patient is: Blood Glucose Treatment:
ALERT & EATINGBG is less than 50
mg/dlGive 30 grams of
carbohydrate
( 8 oz. of juice)
ALERT & EATING BG = 50 - 69 mg/dlGive 15 grams of
carbohydrate
( 4 oz. of juice )
NPO or NOT ALERTBG less than 70
mg/dlGive 25 grams (1 amp)
D50 W IVP
Notify MD!
Case 4
64 year old male who has no known history of diabetes and hemoglobin A1C of 5.4%.
Transferred from the ICU on glargine 15 units per day.
He will start eating today. How much lispro will you start?
Case # 3
Total daily lispro dose should be 15 units. Divided by 3 for dose of 5 units lispro with each meal.
On the next day, insulin dose should be decreased by 20% glargine 12 units q day lispro 4 units with meals
Change has a considerable psychological impact on the human mind. To the fearful it is threatening because it means things may get worse. To the hopeful it is encouraging because things may get better. To the confident it is inspiring because the challenge exists to make things better.
King Whitney Jr.