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Sepsis and Septic Shock: An Update for the Primary Care Provider

This presentation provides an update on the definition, epidemiology, outpatient management, and outcomes of sepsis and septic shock. It also discusses the mandates for sepsis management by CMS and NY State.

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Sepsis and Septic Shock: An Update for the Primary Care Provider

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  1. Sepsis and Septic Shock: An Update for the Primary Care Provider National Association for Pediatric Nurse Practitioners Western NY branch, November 2016 Meeting Amanda B. Hassinger, MD, MS Director of Quality & Patient Safety Division of Pediatric Critical Care Women & Children’s Hospital of Buffalo Assistant Professor, Department of Pediatrics University at Buffalo Jacobs School of Medicine and Biomedical Sciences

  2. Disclosure • No financial conflicts to report

  3. Objectives • The evolution of the definition of sepsis • Recent epidemiology • Outpatient sepsis management • Progress on outcomes • CMS and NY State Mandates

  4. The Evolution of “Sepsis” SEPSIS = life-threatening organ dysfunction* caused by a dysregulated host response to infection *even subtle amounts = 10% increase in mortality.

  5. Previous Sepsis Paradigm SIRS = Systemic Inflammatory Response ↑↓WBC, ↑↓Temperature, ↑HR, ↑ RR

  6. SIRSThe“Systemic Inflammatory Response Syndrome” • Sign of whole-body inflammation • At least 2 of 4 criteria:1,2 1. Core temperature: >38 or <36°C 2. White blood count: >12 or <4,000/mm3 OR > 10% immature neutrophils 3. Abnormal heart rate: >90bpm OR > 2 SD above normal for age, bradycardia in infants2 4. Abnormal respiratory rate: >20bpm OR> 2 SD normal for age *For children: One must be temperature or WBC2 • Bone et al. Chest. 1992; 101:1644. • Goldstein et al. PCCM. 2005;6:2.

  7. SIRS: Lessons Learned • Do not necessarily indicate a “dysregulated, life-threatening response” • Occur in many normal physiologic conditions • 88% of ICU patients have SIRS on admission3 and 93% at some point during their stay4 • Approximately half of 270,000 adults on general floors meet SIRS criteria at some point5 • SIRS = APPROPRIATE host response • Dulhunty JM, et al. Intensive Care Med 2008;34:1654 • Sprung CL, et al. Intensive Care Med 2006;32:421 • Churpek MM, et al. Am J RespirCrit Care Med2015;192:958.

  8. Is There a New SIRS? • SIRS was meant to be a screen for early signs of organ failure • Three common elements emerged as signs of organ failure: • Hypotension • Altered mental status • Tachypnea • qSOFA6 is a quick screen for these 3 elements 6. Singer, et al. JAMA. 2016;315:801.

  9. 6. Singer, et al. JAMA. 2016;315:801.

  10. 1992 Consensus Definition “SEPSIS” least sick stage of the continuum from SIRS to septic shock. • Bone et al. Chest. 1992; 101:1644.

  11. 2016 SEPSIS-3 Paradigm Shift • Sepsis = Infection + ≥2 pt ↑SOFA score • Septic Shock = Sepsis + (vasopressor therapy needed to elevate MBP ≥65mm Hg + lactate >2mmol/L despite adequate fluid resuscitation) 6. Singer, et al. JAMA. 2016;315:801.

  12. Pediatrics still using this one. 7. Vincent JL et al. Crit Care. 2016;20:210.

  13. The Epidemiology of Sepsis • True incidence is unknown • Likely the leading cause of mortality and critical illness worldwide • “Septicemia” #9 on the CDC list of COD in 20008 • Annually, $20-25 billion of total US hospital costs (5.2% of all costs)8,9 • Increasing in incidence in all age-groups9 Vincent JL, et al. Lancet. 2013;381:774. Gaieski DF, et al. Crit Care Med. 2013;41:1167.

  14. Severe Sepsis Estimates • Incidence* is rising by 13% per year • Highest increase in: • >85 year olds: 62.8118.3 cases per 1000 admits • Non-whites: 118.3203.6 cases per 1000 admits Vincent JL, et al. Lancet. 2013;381:774. Gaieski DF, et al. Crit Care Med. 2013;41:1167. Gohil SK et al. Clin Infect Dis. 2016;62(6):695 Cluzet VC et al. Clin Infect Dis. 2016;62:704.

  15. 10. Gohil SK et al. Clin Infect Dis. 2016;62(6):695

  16. 9. Gaieski et al. Crit Care Med 2013; 41:1167.

  17. Adult Sepsis Epidemiology • Incidence has risen over the last 20 years • Due to aging population, more co-morbidities • Actual incidence rise is confirmed in data from the UK, Croatia, Australia, New Zealand11 • Likely slower than reported • Proven by stable US hospital admission rates • Overall mortality related to sepsis has been increasing while case-fatality is decreasing = “overuse” of the term in less sick patients 11. Cluzet VC et al. Clin Infect Dis. 2016;62:704.

  18. Pediatric Sepsis Epidemiology…

  19. Pediatric Sepsis Epidemiology • Estimated $4-5 Billion annually 12. Ruth A et al. PCCM. 2014;15:828. 13. Weiss SL et al. Am J RespirCrit Care Med. 2015;191:1147 14. Hartman ME, et al. PCCM. 2013;14:686.

  20. PSS: Common Pattern? Pediatric Sepsis Definitions 12. Ruth A et al. PCCM. 2014;15:828.

  21. 12. Ruth A et al, PCCM. 2014;15:828. 14. Hartman ME, et al. PCCM. 2013;14:686.

  22. Pediatric Sepsis Epidemiology • Incidence has risen over the last 20 years • Very low birth weight infants, more comorbidities • Likely slower rise in incidence than reported • Overall mortality related to sepsis has been increasing while case-fatality is decreasing = “overuse” of the term in less sick patients

  23. Outpatient Sepsis Management • Recognition • RECOGNITION • Early RECOGNITION!

  24. What does “Sepsis” Look Like?

  25. Presentation: Adult Sepsis qSOFA = RR> 22bpm, AMS, SBP<100mmHg

  26. “Pediatric” SS ≠ “Small Adult” Sepsis • Children frequently get infections • “Normal” varies significantly by age • Children are poor historians • Early stages more subtle, pediatric cases recognized later • Hypotension is a verylate sign

  27. Presentation: Pediatric SS

  28. PSS ≠ Adult Sepsis qSOFA = AMS, RR> 22bpm, SBP<100mmHg • Signs of evolving organ dysfunction in children: • Change in mental status • Excessive tachycardia • Change in perfusion Where is BP!?! Hypotension is a late, late sign of decompensated shock in children = Slippery slope to irreversible shock and death You wait for hypotension, you’ve waited too long! qPOFA? = Excessive tachycardia, AMS, change in CR

  29. “Excessive” Tachycardia • Data exist for the effects of fever* on HR *Measured as core temperature, can differ from axillary/oral temps by 1o • HR higher than expected = “excessive” • May be compensation for poor oxygen delivery, poor cardiac function or an underlying acidosis

  30. Outpatient Sepsis Management • RECOGNITION • Source identification

  31. Sepsis: Common Sources • ADULTS: • Resp • UTI • GI • PEDS: • Resp • Blood • GI Adults: 58% hospital-acquired Peds:43% hospital-acquired

  32. PSS: Common Sources 1995 to 200514: Respiratory infections = 1/2 Primary bacteremia = 1/5 2004-2012 (PICU)12: Bacteremia = ~2/3 Respiratory = ~ 1/2 12. Ruth A et al. PCCM. 2014;15:828. 14. Hartman ME, et al. PCCM. 2013;14:686.

  33. Outpatient Sepsis Management • RECOGNITION • Source identification • Empiric antibiotics

  34. Cultures and Antibiotics • Surviving Sepsis Campaign recommends: • Blood cultures should be sent prior to antibiotic administration.* • Use of 1,3 beta-D-glucan assay, mannan and anti-mannan antibody assays • Empiric IV/IM antibiotics, as early as possible • Ideally < 1 hour after recognition15 ***Do not delay antibiotics if competing interests arise*** 15. Dellinger RP, et al. Crit Care Med. 2013;41:580.

  35. Microbiology of Sepsis • Staph • Strep • E. Coli #1

  36. Microbiology of PSS • Staph • Strep • E. Coli #1 21% in 201313 13. Weiss et al, Am J RespirCrit Care Med. 2015;191:1147. 14. Hartman ME, et al. PCCM. 2013;14:686

  37. Choice of Antibiotics • Broad spectrum • Gram +  Gram -  mixed infections • Depends on: • Local antibiograms • Suspected source • Patient circumstances

  38. Abstracted from Kaleida Health WCHOB Pediatric Severe Sepsis Protocol

  39. Outpatient Sepsis Management • Recognition • Source identification • Antibiotics • Prompt referral to a higher level of care if showing signs of organ failure Early recognition and treatment is life-saving!

  40. Adult Severe Sepsis Outcomes • Total mortality ↑: 14.7-29.9% in 2009 • 229,044 deaths in 2009 (#3 COD) 9. Gaieski et al. Crit Care Med 2013; 41:1167.

  41. Adult Severe Sepsis Outcomes • Case fatality ↓from 16-35% in 2004 to 12-25% in 2009 9. Gaieski et al. Crit Care Med 2013; 41:1167.

  42. Pediatric SS Outcomes • Severe sepsis in U.S. PICUs, 2004-15: • Median of 17 hospital/7 ICU days and $77,000 • Mortality down-trending, but still >10% Overall case fatality rate dropped by 14% from 19952005 And by 37% from 2004-2012. 12. Ruth A et al. PCCM. 2014;15:828.

  43. 14. Hartman ME, et al. PCCM. 2013;14:686.

  44. Latest PSS: Outcomes • International point prevalence study: • Mortality rate 25% • Nearly 1 in 5 survivors with moderate/severe disability 13. Weiss et al, Am J RespirCrit Care Med. 2015;191:1147.

  45. Early recognition 12. Ruth A et al. PCCM. 2014;15:828.

  46. Has Care ReallyImproved? • Bundle use, EGDT, SS Campaign = ↓ mortality • Rely on RECOGNITION and IMPLEMENTATION • Recognition delays impact care and outcomes13 • 67% of severe sepsis patients have MODS at diagnosis • 1/3 go on to new/progressive organ dysfunction within week • Protocol implementation an issue • Example: Antibiotics after the “sick + sepsis” determination17 • Easy, right? • 60 minutes longer on wards than in ER • Delay = independently ⬆ mortality risk 13. Weiss SL et al, Am J RespirCrit Care Med. 2015;191:1147. 17. Weiss SL, et al. Crit Care Med 2014; 42:2409.

  47. Where are the Roadblocks? • 1000 physicians from US, Europe interviewed18 • 90% agreed sepsis symptoms “easily misattributed” • < 25% of intensivists correctly defined “sepsis” • 9 in 10 agreed patients “often treated too late” • 250 nurses from 500-bed US children’s hospital19 • Knowledge of, attitudes towards SIRS and sepsis • Clinical scenarios testing: SIRS/Sepsis or not? • Average correct score of 61%, more difficulty with early stages • 20% “uncomfortable” recognizing SIRS • 10% “uncomfortable” recognizing septic shock 18. Poeze M et al. Crit Care. 2004;8:R409. 19. Jeffrey AD et al. Pediatric Nursing. 2014;40:271.

  48. PRESS Study • 412 providers surveyed, 75% completion • Single-center free standing children’s hospital • MDs, RNs, RTs, mid-levels in the ED, PICU, General floors • Knowledge adequate • Average correct score for scenarios of 65% • Culture concerning • 11% ICU RNs uncomfortable telling others a patient has sepsis • 25% Peds MDs uncomfortable diagnosing shock if BP is normal • 42% ICU RNs, 75% Pediatric residents hesitate at least some of the timeto diagnose sepsis for fear of “making too big a deal” • Nearly 1/3 residents have been discouraged by a superior from using this diagnosis

  49. To Make a Cultural Change… • Challenges to recognition and management everywhere • Inpatient & outpatient • Across disciplines, departments, provider roles WHERE DO WE GO FROM HERE?

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