Daniel S. Hagg, MD
January 15, 2016
Sepsis Care and the New Core Measures
Outline What is sepsis? A brief history of sepsis care How should we take care of septic patients now? Core measures What strategies work? Advice for small hospitals
Bacteria in the Blood
Sepsis is NOT
Sepsis IS
The inflammatory response to infection
Sepsis is a major clinical problem
DISEASE NUMBER OF DEATHS/YEAR Severe Sepsis (Angus, 2001) 215,000
AMI (Minino, 2002) 193,000
Lung Cancer (Minino, 2002) 156,000
Colon Cancer (Minino, 2002) 57,000
Breast Cancer (Minino, 2002) 42,000
Minino AM, Arias E, Kochanek KD, et al. Deaths: final data for 2000. National Vital Statistics Reports Web Site.
A patient presenting with severe sepsis has a mortality risk 6-10 times greater than AMI 4-5 times greater than stroke
Diagnosis Terms to foster common dialogue
Diagnosis Sepsis = Systemic Inflammatory Response Syndrome
(SIRS) plus suspected infection Sepsis ≠ hypotension
First some definitions (you can’t treat what you don’t recognize) What is “SIRS”? Systemic inflammatory response syndrome
What is “sepsis?”
Severity of sepsis? (and why it matters) Sepsis Severe sepsis 20-35% mortality Septic shock 30-70% mortality
SIRS criteria (need ≥ 2 out of 4) • Temp >38.3C or < 36C
• HR > 90 bpm • RR >20/min or pCO2 <32 mmHg
• WBC < 4000, >12000, or >10% bands
SEPSIS is a MEDICAL EMERGENCY
• SIRS and a SUSPECTED infection
More definitions What is “severe sepsis?”
Evidence of sepsis-induced tissue hypoperfusion or organ dysfunction:
Hypotension Elevated lactate > 4 Urine output <0.5ml/kg for >2hr Acute hypoxemia (P:F ratio < 300) Altered mental status Cr >2 mg/dL Bilirubin >2mg/dL Platelet <100, INR >1.5 Paralytic ileus
What is “septic shock?”
• Severe sepsis = sepsis + any end organ damage (mortality 20-35%)
• Septic shock = severe sepsis + need for vasopressors despite fluid resuscitation
(mortality 30-70%)
Progressive Mortality can be reversed
SIRS
Date of download: 7/22/2014 Copyright © 2014 American Medical Association. All rights reserved.
From: Mortality Related to Severe Sepsis and Septic Shock Among Critically Ill Patients in Australia and New Zealand, 2000-2012
JAMA. 2014;311(13):1308-1316. doi:10.1001/jama.2014.2637
Mean Annual Mortality in Patients With Severe SepsisError bars indicate 95% CI.
Figure Legend:
Date of download: 7/22/2014 Copyright © 2014 American Medical Association. All rights reserved.
From: Mortality Related to Severe Sepsis and Septic Shock Among Critically Ill Patients in Australia and New Zealand, 2000-2012
JAMA. 2014;311(13):1308-1316. doi:10.1001/jama.2014.2637
Adjusted Annual Odds for the Change in Hospital Outcomes Reported as Odds Ratios Referenced Against the Year 2000When considered as a continuous variable, there was no difference between patients with severe sepsis or septic shock and other patients in the database for the
decline in mortality over time (odds ratio [OR], 0.94 [95% CI, 0.94-0.95] vs 0.94 [95% CI, 0.94-0.94]; P = .37), whereas significant differences were observed in the change over time for discharge to home (OR, 1.03 [95% CI, 1.02-1.03] vs 1.01 [95% CI, 1.01-1.01]; P < .001) and
discharge to rehabilitation facilities (OR, 1.08 [95% CI, 1.07-1.09] vs 1.09 [95% CI, 1.09-1.10]; P < .001). Discharge to rehabilitation included discharge to rehabilitation facilities and chronic care facilities such as nursing homes. ICU indicates intensive care unit.
Figure Legend:
How did we do it?
Randomized trial of usual care v. early goal directed therapy
263 patients
16% Absolute risk reduction in mortality
Goal Directed therapy 1. Recognize sepsis (give fluid bolus) 2. Administer fluids to goal CVP 3. Give vasopressors to target MAP 4. Check ScVO2 and treat accordingly
1. low with normal Hgb, give dobutamine 2. low with low hgb, give blood
Early therapy reduces mortality
ARR: 46.5 – 30.5 = 16%. Therefore NNT: 1/ARR or 1/0.16 = 6.25
Comparisons in EGDT vs. Controls
• Hospital costs decrease 22.9%
• $2,749 - $7019 per QALY
Implementation and effectiveness analysis
Survivorship has substantially increased
But now I’m told goal-directed therapy is dead
ProCESS Trial Objectives Study EGDT in multi-center format Compare 3 protocols Wild-type resuscitation Protocol guided standard care Protocol guided EGDT
Interventions
Important Highlights
Outcomes
Outcomes
Outcomes
Outcomes
What is important All of these patients received fluids equivalent to Rivers et al
EGDT 97%+ antibiotics within 6 hours >70% received antibiotics prior to enrollment
All “identified” as sepsis
Editorial
What should we do now? Our best recommendations are those of the core measures However, everything starts with EARLY recognition and a
sense of medical emergency
Identifying those at risk and making early diagnosis
Be suspicious….. The key trait for making early diagnosis is having a constantly
elevated index of suspicion Physicians need to look for sepsis in the same way they look
for stroke or AMI, in fact, it is probably more important
Some thoughts on early diagnosis
A role for lactate?
ED at Beth Israel Hospital in Boston 1287 patients with lactates drawn
Lactate up = higher mortality
More on Lactate
Blood pressure changes?
Isolated low BP?
4700 consecutive ED admissions screened for any episode of low BP
887 cases found
Episodes of hypotension
Core Measures In development since before 2007 Extremely complicated measures “specifications manual” = 63 pages long!
labelled as SEP-1
Strategies Create a culture of passion for the care of septic patients
Become an evangelist!
Take every moment to coach up the team
Sepsis care is a TEAM effort
Teach away medical mythology
create pathways and order sets that leverage current practices in other areas into best sepsis care
Common Myths 1. Avoiding Fluids in certain patient populations
1. Renal failure
2. Heart failure
2. Giving Normal Saline because the potassium is high
3. There is a “maximum” vasopressor dose
4. We give fluids to raise the blood pressure
Myth #1 I am commonly told that people “didn’t want to give too much
fluid” due to either heart failure or renal failure
The 30cc/kg bolus septic patients need is well tolerated by almost everyone.
Avoiding sufficient fluids is practicing as per the control group in Dr. Rivers goal-directed trial
Sepsis associated renal failure is much harder to reverse if we fail to restore perfusion
Myth #2 It is common to avoid Lactated Ringer’s if there is acute kidney
injury or elevated potassium due to potassium content
There is only 4mEq/L of potassium
LR is a neutral pH buffered solution vs. NS that has a pH of 4.5 and causes a hyperchloremic acidosis
Most hyperkalemia is due to acidosis related cellular shifts. correcting the acidosis fixes the hyperkalemia.
Myth #3
The patient is on “max” norepi There is simply no such thing. They need what they need. I
have used doses as high as 4mkg/kg/min (>400mkg/min) in patients who survive.
Myth # 4 Fluids are given to raise the blood pressure Fact: fluids fill the ventricles and improve stroke
volume/cardiac output. If cardiac output doesn’t increase with fluid, the patient will
NOT benefit from more fluid. Use vasopressors.
Straight leg raise
Antibiotics
Retrospective data collection at 22 centers
All patients with sepsis
Evaluated appropriate abx by whether it fit guidelines or covered eventual cultures
Outcomes
Summary Sepsis is a MEDICAL EMERGENCY
Sepsis care has evolved substantially over 15 years with significantly reduced mortality
The core of sepsis care is:
Early diagnosis
Early fluids
Early antibiotics
The new core measures reflect these data
Advice Find committed and motivated people Give them the time, tools and authority to work on this
system Support the message every day Be prepared for this to take a long time
Daniel S. Hagg Assistant Professor, Director of MICU
Director of Inpatient Quality for the Department of Medicine Oregon Health and Sciences University 503-494-6668 or Cell 503-228-0459