Journal Club Grand Rounds

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Journal Club Grand Rounds

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Journal Club Grand Rounds Nilda Franco, MD Richard Gerkin, MD Kristin Manley, DO Cheryl W. O Malley, MD 29 RCTs with a total of 8432 patients.NNH 8.9 Give a little ... – PowerPoint PPT presentation

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Title: Journal Club Grand Rounds

1
Journal Club Grand Rounds

Nilda Franco, MD
Richard Gerkin, MD
Kristin Manley, DO
Cheryl W. OMalley, MD

2
Revamped Journal Club

Teach critical appraisal JAMA Users Guides
Review 2 important articles around a common theme
One retro landmark
One recent
Statistical Principle
Review how to apply these studies to current
practice

3
November 2001
4
What we knew

Hyperglycemia in critically ill patients was
common
Hyperglycemia was associated with worse outcomes
Physiologic rationale for improvements with
glycemic control.
Outpatient control benefited type 1 and type 2 DM
Diabetes and Insulin-Glucose infusion in Acute MI
(DIGAMI)

5
First DIGAMI Insulin Therapy Improves Outcomes
in Patients with MI

IV insulin in AMI X 24 hours
Then subcutaneous for 3 months
Target glucose 126-180mg/dL
29 reduction in mortality- 1 year
28 reduction in mortality- 3.4 year
Which component (type of insulin) was responsible
for the reduction?

6
Intensive Insulin Therapy in Critically Ill
Patients

Known famously as the Van Den Berghe trial
Published in the New England Journal of Medicine
in November 2001

7
Hypothesis of the study

Study was to determine whether normalization of
blood glucose levels with intensive insulin
therapy reduces mortality and morbidity in
critically ill patients.

8
Study design

Prospective, randomized controlled trial at one
university hospital in Belgium.
Involved adults admitted to the surgical ICU
between 2/2/2000 and 1/18/2001 who were
mechanically ventilated.
A total of 1548 patients were enrolled
On admission to the ICU patients were randomly
assigned to either intensive or conventional
insulin therapy

9
Study design continued.

Assignments to the treatment groups were made
with the use of sealed envelopes
Permuted block randomization and stratification
according to the type of illness were used to
balance the two groups

10
. Van den Berghe G et al. N Engl J Med
20013451359-1367
11
Study design continued.

Pts were given IV glucose 200-300gm over the
first 24 hours followed by parental/enteral/combin
ed feeding
Undiluted arterial blood was used obtain the
whole blood glucose on admission and Q4hours
The dose of the insulin was adjusted by a team of
nurses and a study physician that were not
involved in the clinical care of the patients.
The laboratory staff, electrophysiologist, and
pathologist involved in the patients care were
unaware of the treatment assignments of the
patients.

12
Study design Conventional Group

The group had a continuous infusion of insulin
mixed with normal saline and administered via
pump if the glucose level exceeded 215 mg/dL.
Whole blood glucose levels were maintained
between 180-200 mg/dL

13
Study design Intensive Treatment

In the group the insulin infusion was started if
the blood glucose level exceeded 110 mg/dL.
Whole blood glucose levels were maintained
between 80-110 mg/dL

14
What Data Was Collected?

Baseline demographics, information to calculate
APACHE scores, and Therapeutic Intervention
Scoring System scores, blood glucose levels.
Blood cultures were obtained if there was a
temperature of 38.5 degrees Celsius or above.
Weekly electromyographic screening for critical
illness polyneuropathy was performed if duration
of ICU stay was greater than 1 week

15
Outcome Measures of the Study

Death from any cause during ICU stay
Number of days in ICU, prolonged stay or need for
readmission
Ventilatory support
Renal replacement therapy
Inotropic/pressor support
Critical-illness polyneuropathy
C-reactive protein, WBC, body temperature
Bloodstream infection
Use of antibiotics for more than 10 days
Hyperbilirubinemia

16
Results of the Study

Intensive Insulin Group
Almost all required insulin.
AM glucose was 103 mg/dL on average.
39 patients affected by hypoglycemia
Conventional Treatment Group
39 required insulin therapy
Average AM blood glucose was 153 mg/dL.
The remainder of the group had average AM glucose
of 140 mg/dL.

17
Results

The trial had interim analyses of the overall
mortality that were investigated at 3 month
intervals. During the 4th interval it was
determined that the conventional treatment was
inferior and the study should be terminated
early.

18
Results on Mortality

35 patients in the intensive-treatment group died
during ICU stay as compared to 63 patients in the
conventional group.
Apparent Risk reduction of 42
Greatest reduction in deaths were those due to
multiple-organ failure and associated sepsis

19
Leuven Study Intensive Insulin Therapy in the
Surgical ICU
100 96 92 88 84 80 0
100 96 92 88 84 80 0
Intensive treatment
Intensive treatment
Conventional treatment
Survival in ICU,
In-Hospital Survival,
Conventional treatment
Mortality ? 42, Plt.04
Mortality ? 34, Plt.01
0
20
40
60
80
100
120
140
160
0
50
100
150
200
250
Days After Admission
Days After Admission
Van den Berghe G, et al. N Engl J Med. 2001.
20
Risk Factors for Increased Mortality

APACHE II score of 9 or higher during the first
24 hours
Older in age
Admission involving non-cardiac surgery
Outside hospital referral
In the conventional insulin group without a prior
history of diabetes or hyperglycemia

21
Intensive Insulin Therapy in Critically Ill
Surgical Patients Morbidity and Mortality
Benefits
Mortality
Sepsis
Dialysis
Polyneuropathy
Blood Transfusion
N 1,548
34
41
44
46
Reduction()
50
van den Berghe G, et al. N Engl J Med.
200134513591367.
22
Van den Berghe Morbidity Data
30
Glucose 180-200
25
Glucose 80-110
20
of Patients
15
10
5
0
gt14d on Ventilator
gt14d in ICU
Peak Cr. gt2.5
ICU Sepsis
Hyperbilirubinemia
Antibiotics gt10d
Polyneuropathy
23
Are the Results of the Study Valid?

Was the Assignment of the Patients to Treatment
Randomized?
The assignment to the two groups was randomized
using permuted blocks.

24
Were All Patients Who Entered the Trial Properly
Accounted for and Attributed at Its Conclusion?

Patients were accounted for but the trial was
stopped early secondary to results showing a
better outcome with mortality in the intensive
insulin group.

25
Were Patients, Their Clinicians, and Study
Personnel Blind to Treatment?

Mostly-The clinicians involved could not be
completely blinded because the blood sugar
monitoring basically revealed the patient group.
To minimize the bias the physician and ICU nurses
involved in the insulin adjustment were blinded
to important outcome measures and did not take
part in clinical decisions.
Lab personnel, EMG physician, pathologist were
all blinded to the treatment groups of the
patients.

26
Were the Groups Similar at the Start of the Trial?

Yes. Secondary to the randomization with permuted
blocks-the groups had no significant difference
between them at the beginning of the trial.

27
Aside From the Experimental Intervention, Were
the Groups Treated Equally?

The only differences in the treatments between
the two groups were the insulin therapy and the
antibiotics for the patients. The patients in the
intensive insulin group required a shorter
duration and less frequency of use of the
antibiotics since there was an overall lower
significant outcome of sepsis.

28
What Were the Results?

How Large was the Treatment Effect?
Is significant with the risk reduction of death
being 42 (ARR 8.0-4.6 3.4)
Number needed to treat
1/ARR 1/0.034 29.4

29
How Precise Was the Estimate of Treatment Effect?

Precision is the relative width of the confidence
interval
For mortality, the risk reduction was 42 (95 CI
22-62). This is slightly wide.

30
Were all Clinically Important Outcomes Considered?

Yes
Mortality
Morbidity (Table 4)
Hypoglycemia

31
Are the Likely Treatment Benefits Worth the
Potential Harms and Costs?

According to this study results the treatment
benefits do outweigh the harm and costs
39 patients in the intensive insulin control
group did have hypoglycemic episodes
The study using whole arterial blood with the
measurement of the glucose likely was protective
of hypoglycemic events as usually whole blood
glucose is measured 15 lower than plasma
glucose
The study also gave the patients 24 hours of IV
glucose at the start of the study which probably
helped lower the adverse outcome of severe
hypoglycemia and death

32
Can the Results be Applied to My Patient Care?

-Single European center
-Largely surgical patients

33
Examples of clinical trials and other studies
demonstrating better outcomes with improved
glycemic control.
Setting BG Threshold Outcomes
General medical and surgicalUmpierrez Pomposelli gt189 gt230gt220 ? Mortality ICU LOS? Infection rates
Acute MICapes Bolk lt100.8 vs 199.8gt109.8 gt124 ? Mortality? Mortality CHF shock
Cardiac surgeryFurnary Zerr gt150 ? Mortality? Sternal wound infection
StrokeWilliams Bruno gt13090-180 ? Mortality (HR 1.87) LOS60 ? Penumbra salvage56 cm2 ? Infarct size
No diabetes Diabetes
34
Even more conditions have better outcomes with
better glycemic control

Chemotherapy outcomes (remission, survival, and
infection rates) Weiser et al. Cancer 2004 Mar
15100(6)1179-85
Reduced rates of kidney transplant rejection
Mathew et al, Transplantation 2001 Oct
1572(7)1321-4
Better outcomes in a mixed med / surgical real
world ICU setting Krinsley JS. Mayo Clin Proc.
2004799921000.
Better outcomes in community acquired pneumonia
The weight of evidence supports a goal of good
glycemic control for all inpatients!

35
American Association of Clinical
EndocrinologistsInpatient Consensus Conference
- 2003

Conference Conclusions
Improved glycemic control during hospitalization
results in improved clinical outcomes
Diabetes management during hospitalization needs
to become a much greater priority
Upper Limit Inpatient Glycemic Targets
ICU 110 mg/dl (6.1 mmol/L)
Non-critical care
Pre-prandial 110 mg/dl (6.1 mM)
Maximum 180 mg/dL (10 mM)

AACE Position Statement on Inpatient Diabetes and
Metabolic Control Endocrine Practice 10 (1)
77-82, 2004
36
Targets established in Dec 2003
ICU Non-ICU Preprandial Non-ICU Maximal
AACE/ACE ADA 110 mg/dL 100 mg/dL 110 mg/dL 90-130 mg/dL 180 mg/dL 180 mg/dL

AACE Position Statement on Inpatient Diabetes and
Metabolic Control
Endocrine Practice 10 (1) 77-82, 2004
Garber AJ et al. American College of
Endocrinology Task Force on Inpatient Diabetes
Metabolic Control. Endocr Pract. 20041077-82.
American Diabetes Association. Diabetes Care.
200528S4-S36.

37
History of Inpatient Glucose Control 2006

ACE, AACE ADA plus numerous co-sponsoring
organizations Call to Action Consensus
Conference
Addressing systemic implementation barriers
Inpatient hyperglycemia a quality-of-care
measure
ACE/ADA Task Force on Inpatient Diabetes. Endocr
Pract. 200612458-468.

38
Joint CommissionInpatient Diabetes Certification

Specific staff education requirements
Written blood glucose monitoring protocols
Plans for treatment of hypoglycemia and
hyperglycemia
Data collection of incidences of hypoglycemia
Diabetes self-care education
Identified program champion or team

http//www.jointcommission.org/certificationprogra
ms/inpatientdiabetes accessed May 20, 2010.
39
Intensive Insulin Therapy in the Medical ICU

Greet Van den Berghe, M.D., Ph.D., and the Leuven
Group
N Engl J Med, Volume 3545449-461, February 2,
2006

RCT of insulin infusion to goal of 80-110 mg/dL
vs usual therapy (180-200 mg/dL).
1,200 patients randomized
A priori outcome of interest patients in MICU
for gt 3 days
Only 17 were diabetic

40
Conclusions MICU study

Intention to treat Intensive insulin therapy
significantly reduced overall morbidity but not
mortality.
Morbidity Reduced (newly acquired kidney injury,
ICU days, hospital days and days on the vent.)
Predefined population analysis (ICU gt 3 d)
In-house mortality reduced (ARR 9.5-NNT10)
ICU mortality reduced (ARR 7.2-NNT 14) p.05
BUT, More deaths (18.8 vs 26.8) in patients in
ICU lt 3 days
-Once adjusted for patients with care limited or
withdrawn in the first 72 hours it was (37.8 vs
33.5-p.1)
More studies needed

41
Glucontrol Study (abstract info)

Mixed population of ICU patients (medical,
scheduled and trauma surgery)
N 3500, multicenter, Europe
Target glucose
80 110 mg/dl vs. 140 180 mg/dl
Endpoint in-hospital and 28 day mortality
Start October 2004

42
GLUCONTROL
Group A (n 550)
Group B (n 551)
P
Age, yr
65 (51-74)
65 (51 74)
0.9207
Sex ratio, M/F
352/198
338/213
0.3827
41.2 32.7 18.1 7.9
Category Medical Scheduled Surgery
Emergency Surgery Trauma
42.9 31.3 18.1 7.7
0.9437
Philippe Devos, MD Jean-Charles Preiser MD,
PhD University Hospital of Liège - Belgium
43
GLUCONTROL
300

p lt 0.0001
250
200
Blood glucose, mg/dl
147 mg/dl
150
119 mg/dl
100
50
Group A
Group B
44
GLUCONTROL
Group A (n 550) Group B (n 551) P
ICU death rate, 16.7 15.2 0.5022
Hospital death rate, 24.5 20.7 0.1452
Day 28 death rate, 19.5 16.2 0.1685
Hypoglycemia 8.6 vs
4
Median (IQR)
45

VISEP
Brunkhorst et al, N Engl J Med 358125-39, 2008

46
VISEP Trial

Study Aim 600 subjects with sepsis randomized
to conventional or intensive insulin therapy
Methods
Conventional Therapy CII started at BG gt 200
mg/dl and adjusted to maintain a BG 180 - 200
mg/dl.
Intensive Therapy group CII started at BG gt 110
mg/dl and adjusted to maintain BG 80 -110 mg/dl
(Leuvens protocol)
Primary Outcomes
Mortality (28 days) and morbidity (sequential
organ failure dysfunction, SOFA)
Safety end-point hypoglycemia (BGlt40 mg/dl)

47
VISEP Trial
Mortality rate,
Data from 488 patients IIT goal 80 110
mg/dL mean BG 112 mg/dl CIT goal 180 200
mg/dL mean BG 151 mg/dl
Brunkhorst et al, N Engl J Med 358125-39, 2008
48
Infusion Protocols Variable Hypoglycemia Rates
49
Wiener, R. S. et al. JAMA 2008300933-944.
50
Association of Tight Glucose Control vs Usual
Care With Outcomes Among Critically Ill Adults
Subgroup studies RR
Hospital Mortality Very tight (lt110) Moderately tight (lt150) Overall 14 13 27 0.90 (0.77-1.08) 0.99 (0.83-1.18) 0.93 (0.85-1.03)
Septicemia Very tight (lt110) Moderately tight(lt150) Overall 4 5 9 0.80 (0.57-1.11) 0.64(0.41-1) 0.76 (0.59-.97)
New need for Dialysis Very tight (lt110) Moderately tight(lt150) Overall 4 5 9 0.95(.7-1.29) 0.98(0.59-1.61) 0.96 (0.76-1.20)

Wiener, R. S. et al. JAMA 2008300933-944.

51
Meta-Analysis results
Subgroup studies RR
Severe Hypoglycemia Very tight Moderately tight Overall 11 4 15 5.23(4.12-6.54) 4.37(2.19-5.72) 5.13 (4.09-5.42)
Percent of patients with gt1 BG Less than 40 13.7
of patients VS 2.5 NNH8.9
52
Bringing it home Whats been happening at Good
Sam?

IV order set
Early 2004- multidisciplinary group
May 2004- subcut order set
Oct 2005- larger scale data collection
2006- revisions in protocol and data analysis
June 2007- new tube feed order set
Dec 2007- IV order set standardized and data
collection
Jan 2008-System-wide initiative targeting
glycemic control (70-140 mg/dL)
in the ICU

53
(No Transcript)
54
BGSMC Second Floor ICUs a win- win
55
How low do we need to go? Tight/intensive vs
Moderate/good

Waiting for NICE SUGAR

56
Original Article Intensive versus Conventional
Glucose Control in Critically Ill Patients
The NICE-SUGAR Study Investigators
N Engl J Med Volume 360(13)1283-1297 March 26,
2009
57
Hypothesis of the Study

That intensive glucose control reduces
mortality at 90 days

58
Assessment, Randomization, and Follow-up of the
Study Patients
The NICE-SUGAR Study Investigators. N Engl J Med
20093601283-1297
59
Baseline characteristics
The NICE-SUGAR Study Investigators. N Engl J Med
20093601283-1297
60
Methods

RCT involving medical and surgical ICUs of 42
hospitals in New Zealand, Australia and North
America
Eligible patients were those expected to require
treatment in the ICU on 3 or more consecutive
days
Control of blood sugar was achieved with IV
infusion of insulin in saline

61
Methods

The trial intervention was discontinued once a
patient was eating or discharged from the ICU but
it was resumed if the patient was readmitted to
the ICU within 90 days.
It was discontinued permanently at the time of
death or 90 days after randomization, whichever
occurred first.

62
Methods

Blood samples for glucose measurement were
obtained by arterial catheters whenever possible,
the use of capillary samples was discouraged
Blood glucose levels were measured with the use
of point of care or arterial blood gas analyzer
or laboratory analyzer in routine use at each
center.

63
Calorie Administration, and Corticosteroid
Treatment, According to Treatment Group

Calorie administration 891 in intensive control
group and 872 in conventional control group
(mostly by enteral route, but also by parenteral
route and as IV glucose)
34.6 in intensive control group and 31.7 in the
conventional control group received
corticosteroids main indication was septic
shock

64
NICE-SUGAR Study Design
6104 ICUa patients

Conventional
IV insulin if BG gt180 mg/dL
Target 140-180 mg/dL

Intensive IV insulin if BG gt108 mg/dL Target
81-108 mg/dL
69 insulin BG 144 mg/dL
97 insulin BG 115 mg/dL
Primary Outcome 90-day mortality
aOne third were surgical patients and two thirds
were medical patients 20 had diabetes.
NICE-SUGAR Study Investigators, et al. N Engl J
Med. 2009.
65
NICE-SUGAR

Intensive control vs conventional control
Mortality 27.5 vs 24.9 P 0.02
ARR27.5-24.9 2.6 ?NNH 38
Severe hypoglycemia (BG 40 mg/dl) 6.8 vs 0.5
Plt0.001
No significant difference between the two
treatment groups in the median number of days in
the ICU or hospital

The NICE-SUGAR Study Investigators. N Engl J Med.
20093601283-1297.
66
Conclusion

In this large, international, randomized trial,
we found that intensive glucose control increased
mortality among adults in the ICU a blood
glucose target of 180 mg or less per deciliter
resulted in lower mortality than did a target of
81 to 108 mg per deciliter

Are the test results of the study valid?

Was the assignment to patients randomized?
Yes, 6104 patients underwent randomization,
3054 were assigned to undergo intensive control
and 3050 to undergo conventional control. Data
with regard to primary outcome was available for
3010 and 3012 respectively.

Were all patients who entered the trial properly
accounted for and attributed at its conclusion?
Yes all the patients were accounted for.
Study treatment was discontinued prematurely on
304/3054 in the intensive control group and
225/3050 in the conventional control group.
Patients were withdrawn because of patients
request or surrogate request, physicians request,
were switched to palliative care, had other
reason, or were withdrawn because of serious
adverse event.

Was follow up complete?
At the completion of the trial data on vital
status 90 days after randomization were
unavailable for 82 of the 6104 patients (1.4),
44 in the intensive control group and 38 in the
conventional control group.
For 74 of those 82 patients the vital status data
were missing because consent had been withheld or
withdrawn

Were patients analyzed in groups to which they
were randomized?
Yes, they were analyzed in either the
intensive glucose control group or the
conventional glucose control group.

Were the groups similar at the start of the
trial?
Yes. According to Table 1, the groups were
similar in the measured baseline characteristics.

Aside from experimental intervention, were the
groups treated equally?
Yes, they were both in the same environment they
were allowed to eat the same diet (by enteral
route, parenteral rout and IV glucose) for a
total of 891 calories for the intensive glucose
control group and 871 calories for the
conventional glucose control group.
Both groups also received corticosteroid
treatment.

Blood sample for glucose measurement was obtained
by means of arterial catheters in both groups
whenever possible.
The use of capillary sample was discouraged.
Blood glucose level was measured via the use of
point of care or arterial blood gas analyzers in
both groups

What were the results?

How large was the treatment effect?
90 days after randomization 27.5 in the
intensive control group had died as compared to
24.9 in the conventional control group,
therefore intensive glucose control increased
mortality among adults in the ICU. The absolute
difference in mortality was 2.6. The odds ratio
was 1.14

How precise was the estimate of the treatment?
Precision is defined by the tightness of the
confidence interval of the treatment effect.
For the odds ratio of 1.14, the 95 CI was 1.02
to 1.28. This odds ratio is significant because
it does not include 1.00.
It is somewhat precise, because it says the
true odds ratio is likely from 1.02 to 1.28.

78
NNT

What is your number?

79
Absolute Risk (AR)

The incidence of disease in a group (either the
exposed or nonexposed group)
Absolute Risk Reduction (ARR) is the disease
incidence that can be attributed to an exposure

80
Absolute Risk (AR)

AR Incidence in each group
ARR Incidence in exposed group Incidence in
unexposed group

81
Smoking Example
ARR 50/500 35/500 15/500 0.03
82
Number Needed to Treat(NNT)

The number of patients that need to be treated to
prevent one additional case of the disease
NNT 1/ARR

83
Smoking Example
NNT 1/ARR 1
1 33.3
50/500 35/500 15/500
84
Toxic Example
ARR 100/1000 90/1000 10/1000
85
Number Needed to Treat(NNH)

The number of patients that need to be treated to
cause one additional bad outcome
NNH 1/ARR

86
Toxic Example
NNH 1/ARR 1
1 100
100/1000 90/1000 10/1000
87
NNTWhat is a good number?

How serious is the outcome?
How expensive is the treatment
How serious are side effects of the treatment?
What is the NNH for a side effect?

88
Now What?
89
BGSMC Response to NICE SUGAR
90
Glycemic Control in the NICE-SUGAR Leuven 1
Studies
Glycemic Target Results Mean (SD) Values in Target
NICE-SUGAR 81-108 118 (25) 25
LEUVEN I 80-110 103 (19) 53
Control Target Control Results Mean (SD) Overlap Within 2 SD of interventional mean
NICE-SUGAR 140-180 145 (26) 80
LEUVEN I 180-210 153 (33) 30
91
RCT Glycemic Control Targets in Critically Ill
Patients
Intensive Target Range Mean achieved
Conventional Target Range Mean yellow bar

Van den Berghe 1
103

112
VISEP

118
Glucontrol
118
NICE SUGAR
BG lt40 70 100 130 140 160 180
200 250 299 400
92
Intensive Insulin Therapy Mortality in ICU
Patients Meta-analysis of 26 Articles
no. deaths/total n
Risk ratio

ICU
Mixed
Medical
Surgical
All

IIT 1351/5051 253/724
77/1037 1681/6812
Control 1301/5089 270/736 110/935
1681/6760
(95 CI) 0.99 (0.87-1.12) 1.00 (0.78-1.28) 0.63
(0.44-0.91) 0.93 (0.83-1.04)
Griesdale DE, et al. CMAJ. 2009.
93
Intensive Insulin Therapy and Mortality in
Critically Ill Patients A Meta-analysis
No. Events/Total No. Patients No. Events/Total No. Patients No. Events/Total No. Patients No. Events/Total No. Patients
Study IIT Control Risk ratio (95 CI)
Van den Berghe et al 39/765 6/783 6.65 (2.83-15.62)
Henderson et al 7/32 1/35 7.66 (1.00-58.86)
Bland et al 1/5 1/5 1.00 (0.08-11.93)
Van den Berghe et al 111/595 19/605 5.94 (3.70-9.54)
Mitchell et al 5/35 0/35 11.00 (0.63-191.69)
Azevedo et al 27/168 6/169 4.53 (1.92-10.68)
De La Rosa et al 21/254 2/250 10.33 (2.45-43.61)
Devos et al 54/550 15/551 3.61(2.06-6.31)
Oksanen et al 7/39 1/51 9.15 (1.17-71.35)
Brunkhorst et al 42/247 12/290 4.11(2.2-7.63)
Iapichino et al 8/45 3/45 2.67 (0.76-9.41)
Arabi et al 76/266 8/257 9.18 (4.52-18.63)
Mackenzie et al 50/121 9/119 5.46 (2.82-10.60)
NICE-SUGAR 206/3016 15/3014 13.72 (8.15-23.12)
Overall 654/6138 98/6209 5.99 (4.47-8.03)
Hypoglycemic Events
Favors IIT Favors Control
0.1
1
10
Risk Ratio (95 CI)
Griesdale DE, et al. CMAJ. 2009.
94
Intensive Insulin Therapy Mortality in ICU
Patients Meta-analysis of 26 Articles

IIT had no effect on overall risk of death
IIT may benefit patients in SICU
6-fold increased risk of severe hypoglycemia
among IIT patients compared with controls
Risk for hypoglycemic events did not differ by
type of ICU or by intensity of insulin therapy

Griesdale DE, et al. CMAJ. 2009.
95
History of Inpatient Glucose Control 2009

Updated AACE/ADA Consensus Statement
Identifies reasonable, achievable, and safe
glycemic targets
Describes protocols, procedures, and system
improvements

Moghissi ES et al AACE/ADA Inpatient Glycemic
Control Consensus Panel. Endocr Pract.
200915353-369. http//www.aace.com/pub/pdf/guide
lines/InpatientGlycemicControlConsensusStatement.p
df.
96
Updated AACE/ADA Consensus Statement 2009
NICE Sugar
118
lt40 70 100 130 140 160 180 200
250 299 400
2009 AACE/ADA goals

Identifies reasonable, achievable, and safe
glycemic targets
Describes protocols, procedures, and system
improvements

Moghissi ES et al AACE/ADA Inpatient Glycemic
Control Consensus Panel. Endocr Pract.
200915353-369. http//www.aace.com/pub/pdf/guide
lines/InpatientGlycemicControlConsensusStatement.p
df.
97
AACE/ADA Target Glucose Level in ICU Patients-
revised after NICE SUGAR

ICU setting
Starting threshold of no higher than 180 mg/dL
Once IV insulin is started, the glucose level
should be maintained between 140 and 180 mg/dL
Lower glucose targets (110-140 mg/dL) may be
appropriate in selected patients
Targets lt110 mg/dL or gt180 mg/dL are not
recommended

Moghissi ES, et al. Endocr Pract. 2009.
98
Recommendations for Managing Inpatient
Hyperglycemia
Antihyperglycemic Therapy
Insulin Recommended
Oral Agents Not Generally Recommended
SC Insulin Non-critically ill patients
IV Insulin Critically ill ICU patients
Clement S, et al. Diabetes Care. 2004 Moghissi
ES, et al. Endocr Pract. 2009.
99
Will the results help me to care for my patients?