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Healthcare-Associated Infections and Infection Control

Healthcare-Associated Infections and Infection Control. Timothy H. Dellit, MD Medical Director, Infection Control Harborview Medical Center. Patient Safety and Infection Control. Prevention, monitoring, and feedback Healthcare-associated infections Catheter-associated bloodstream infections

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Healthcare-Associated Infections and Infection Control

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  1. Healthcare-Associated Infections and Infection Control Timothy H. Dellit, MD Medical Director, Infection Control Harborview Medical Center

  2. Patient Safety and Infection Control • Prevention, monitoring, and feedback • Healthcare-associated infections • Catheter-associated bloodstream infections • Ventilator-associated pneumonia • Surgical site infections • Catheter-associated UTI • Transmission of multidrug-resistant/marker organisms • MRSA • VRE • Carbapenem-resistant Acinetobacter • ESBL-producing organisms → MDR Enterobacteriaceae • C. difficile • Aspergillus in burn and immunocompromised populations • Tuberculosis

  3. Increasing Regulation and Reporting CMS and “preventable events” FY2008 Catheter-associated urinary tract infection Vascular catheter-associated infections Mediastinitis after CABG FY2009 SSI following select orthopedic procedures Spinal fusion Elbow and shoulder arthroplasty SSI following bariatric surgery Mandatory reporting of healthcare-associated infections (HB 1106) Central line infections in ICU: July 2008 Ventilator-associated pneumonia: January 2009 Selected surgical site infections: January 2010 Cardiac surgery Total hip and knee arthroplasty Hysterectomy CMS RHQDAPU FY2013-FY2015 CLA-BSI SSI CA-UTI Central line bundle compliance MRSA bacteremia C. difficile Influenza vaccination of HCW

  4. “MDRO Bundle” • Hand Hygiene • Contact precautions • Minimize shared equipment • Environmental cleaning • Healthcare-associated infections preventive bundles • Catheter-associated BSI • Ventilator-associated pneumonia • Catheter-associated UTI • SCIP measures • Active surveillance cultures • Chlorhexidine baths • Antimicrobial stewardship • Patient and staff education Lancet 2000;356:1307-12

  5. Role of Environmental Contamination Contact Contamination Percent positive Percent of Surfaces Positive for MRSA Infect Control Hosp Epidemiol 1997;18:622-627

  6. Who are you sleeping with? 40% increased risk of transmission associated with prior occupant’s MRSA or VRE carriage Arch Intern Med 2006;166:1945-1951 Infect Control Hosp Epidemiol 2011;32:201-6

  7. To Survey or Not to Survey? • Interventions over 9 yr • Sterile CVC placement • Alcohol-based hand hygiene • Hand hygiene campaign • ICU surveillance for MRSA (16 months) • 29% of newly detected MRSA carriers develop infection within 18 months Surveillance Cultures Reduce MRSA Bacteremia 75% 67% Incidence density per 1000 pt-days 40% • Reduced ICU transmission by 47% • 43 vs. 23 cases per 1000 at risk patients Clin Infect Dis 2003;36:281-5 Clin Infect Dis 2006;43:971-8

  8. VA MRSA Initiative • Decreased transmission • Reduced HAIs • MRSA VAP • MRSA CLA-BSI • C. difficile in non-ICU • VRE in ICU and non-ICU N Engl J Med 2011;364:1419-30

  9. Active Surveillance and Contact Precautions in ICU • Cluster randomized study in 18 ICUs • Surveillance cultures for MRSA and VRE • - Mean delay in results 5.2 days N Engl J Med 2011;364:1407-18

  10. Daily Chlorhexidine Baths *per 1000 pt-days Crit Care Med 2009;37:1858-1865

  11. Chlorhexidine baths in Trauma ICU • Before and after introduction of daily CHG baths in TICU • In pre-contact precaution era • Reduction in CR-BSI from 8.4 to 2.1 per 1000 catheter-days (P=0.01) • Reduction in MRSA VAP from 5.7 to 1.6 per 1000 vent-days (P=0.03) Arch Surg 2010;145:240-246

  12. HMC Nosocomial MRSA RatesQuarterly Number of Cases 2007: 331 Cases 2008: 268 Cases 2009: 154 Cases 2010: 142 Cases 0.9 per 1000 pt-days Source: Infection Control, for more information, please contact Dr. Tim Dellit, thdellit@u.washington.edu Confidential QI

  13. Which of the following bundle elements is NOT correct? • VAP and head of bed > 30 degrees • VAP and sedation awakening • VAP and DVT prophylaxis • Central line and maximum barriers including full body drape, sterile gown, sterile gloves, mask with eye protection, and haircover • Central line and povidone-iodine skin prep • Central line and hand hygiene

  14. Central Line-Associated BSI • ICU CVC utilization 0.39 – 0.71 catheters/pt • 15 million catheter-days per year in US • ICU rate 1.2 to 5.3 per 1000 catheter-days (NHSN mean) • 80,000 CR-BSI annually in US ICUs • Attributable mortality 0-35% • Healthcare cost $296 million to $2.3 billion • Attributable cost $15,000-$56,000 • Prolonged ICU and hospital LOS Clin Infect Dis 2002;35:1281-307 National healthcare Safety Network (HNSN) Report, Data Summary for 2009

  15. NHSN CLA-BSI Pathogens 1986-1989 1992-1999 2006-2007 Pathogen (%) (%) (%) Coag-negative staphylococci 27 37 34 Staphylococcus aureus 16 13 10* Enterococcus 8 13 16 Candida sp. 8 8 12 Enterobacter 5 5 4 Pseudomonas aeruginosa 4 4 3 Klebsiella pneumoniae 4 3 5 E. Coli 6 2 3 Clin Infect Dis 2002;35:1281-307 Infect Control Hosp Epidemiol 2008;29:996-1011 *MRSA 5.6%, MSSA 4.3%

  16. Prevention of Catheter-Associated BSI • IHI “Central Line Bundle” • Hand hygiene • Chlorhexidine skin prep • Maximal barriers • Full drape • Mask, hair cover, sterile gown, sterile gloves • Optimal catheter site selection • Daily review of line necessity • Implementation AND documentation Institute for Healthcare Improvement

  17. Bundle in Action Median Bloodstream Infections per 1000 Catheter-Days Months After Implementation Reduction in mean rate from 7.7 to 1.4 per 1000 catheter-days N Engl J Med 2006;355:2725-32

  18. UHC Benchmark of Key Performance Measures Infect Control Hosp Epidemiol 2008;29:440-2

  19. National Reduction in CLA-BSI JAMA 2009;301:727-36

  20. MRSA Central Line-Associate BSI 50% reduction in MRSA CLA-BSI (0.43 vs 0.21 per 1000 catheter-days) JAMA 2009;301:727-36

  21. Hospital-Acquired UTI • 40% of healthcare-associated infections • 80% due to indwelling urethral catheter Survey of Hospital Monitoring • Potential Strategies • Insertion/care • • Catheter reminders/ • automatic stop orders • • Bladder US scanners • • Condom catheters • • Antimicrobial catheters No monitoring (%) Clin Infect Dis 2008;46:243-50 Aymptomatic bacteriuria vs. Symptomatic UTI in patients without localizing GU symptoms

  22. CA-UTI PathogensNHSN 2006-2007 Infect Control Hosp Epidemiol 2008;29:996-1011

  23. Catheter-Associated UTI • Duration of catheterization is primary risk • Providers unaware of catheter status • Students 21% • Interns 22% • Residents 27% • Attendings 38% • Daily assessment of need, especially when transferred from ICU to floor Am J Med 2000;109:476-80

  24. Ventilator-Associated Pneumonia • Rate 0.7 – 7.4 per 1000 ventilator days (NHSN 2009) • 10-30% of intubated patients • Incidence increases with duration of MV • Day 1-5: 3% risk per day • Day 6-10: 2% risk per day • > 10 days: 1% risk per day • Attributable mortality rate 33-50% • Increased LOS 7-9 days • Cost of $40,000 per patient • Accounts for 50% of ICU antimicrobials • Clinical vs. microbiologic definitions • Poor external quality measure Am J Respir Crit Care Med 2005;171:388-416

  25. NHSN Pooled Mean VAP by Unit2009 Report Rate per 1000 vent-days BICU: Burn PICU: Pediatric med/surg CICU: Coronary NICU: Neurosurgery CT ICU: Cardiothoracic SICU: Surgical MICU: Medical TICU: Trauma Am J Infect Control 2009;37:783-805

  26. “Ventilator Bundle” *Institute for Healthcare Improvement Head of bed elevation > 30 degrees Daily “sedation awakening” and assessment of readiness to extubate Oral care (chlorhexidine) Peptic ulcer disease prophylaxis Deep vein thrombosis prophylaxis

  27. Late Onset VAP Pathogens

  28. Which of the following has been demonstrated to reduce surgical site infections and is currently part of SCIP recommendations? • Peri-operative prophylactic antibiotics should be given within 60 minutes after incision • Peri-operative prophylactic antibiotics should be given within 60 minutes before incision and discontinued within 24 hours • Peri-operative antibiotics should be continued until the drains are out • Nasal carriage of S. aureus should be eradicated prior to surgery • Pre-surgical bath with chlorhexidine

  29. Surgical Care Improvement Project • Implemented by CDC and Centers for Medicare and Medicaid Services in 2002 • Nationally included procedures • Cardiothoracic, vascular, colon, hip or knee arthroplasty, vaginal or abdominal hysterectomy • Performance measures (Baseline of 34,133 medicare patients in 2001) • Antimicrobial prophylaxis within 1 hr of incision (55.7%) • Antimicrobial agent c/w current guidelines (92.6%) • Discontinuation within 24 hours after surgery (40.7%) • Also, clipping rather than shaving, normothermia, glucose control, morning beta-blocker, DVT prophylaxis • Role of MRSA screening? Arch Surg 2005;140:174-82

  30. Perioperative Prophylactic AntibioticsTiming of Administration 14/369 15/441 1/41 1/47 Infections(%) 1/81 2/180 5/699 5/1009 Hours From Incision N Engl J Med 1992;326:281-6

  31. Society of Thoracic Surgeons Rationale Unique patient risks Cardiopulmonary bypass, systemic hypothermia Devastating sequelae of mediastinitis (7-20% mortality) No randomized studies < 48 hrs in CT surgery Major Recommendations Postoperative prophylactic antibiotics are given for 48 hours or less Duration not dependent on chest tube removal If risk for MRSA, then vancomycin AND cefazolin Routine mupirocin administration for all patients in the absence of documented negative testing for staphylococcal colonization Ann Thorac Surg 2006;81:397-404 Ann Thorac Surg 2006;83:1569-76

  32. Is Vancomycin Alone Adequate? Pathogens causing deep SSI following CABG, Hip and Knee Arthroplasty • Acceptable for cardiac, vascular, or orthopedic surgery: • Beta-lactam allergy • Documented rationale NNIS 1994-2003

  33. Meta-analysis of Seven Randomized Studies: Glycopeptide vs. β-Lactam for Prevention of Surgical Site Infection after Cardiac Surgery MSSA more frequent in vancomycin group 3.7% vs. 1.3% (J Thorac Cardiovasc Surg 2002;123:326-32) Clin Infect Dis 2004;38:1357-63

  34. Intranasal Mupirocin and Surgical Site Infections Nasal carriage of S. aureus and risk of surgical site infection Orthopedic surgery with prosthetic implants in 272 patients, RR 8.9(Infect Control Hosp Epidemiol 2000;21:319-323) Cardiothoracic surgery in 1980 patients, OR 9.6 (J Infect Dis 1995;171:216-9) 10/10 pre- and post-surgical pairs identical by phage typing Randomized, double-blind, placebo-controlled trial of pre-surgical mupirocin in 3864 patients (N Eng J Med 2002;346:1871-7) No difference in nosocomial infections, nosocomial S. aureus infections, or S. aureus surgical site infections S. aureus carriers (N=891) 4.5 fold increase in S. aureus SSI Significant reduction in S. aureus nosocomial infections (4.0 vs. 7.7) Trend towards decreased S. aureus SSI (3.7 vs. 5.9, 37%, P=0.15) Same strain in nares and site of infection in 85%

  35. Universal Screening of Surgical Patients?JAMA 2008;299:1149-57 Prospective, cross-over study of 21,754 surgical patients 87% on admission MRSA colonization 5.1% Standard practices for all patients with MRSA Contact precautions Adjustment of pre-op prophylaxis Intranasal mupirocin and chlorhexidine body wash No difference in MRSA SSI (0.99 vs. 1.14 per 100) 34% of MRSA carriers did not receive appropriate pre-op prophylaxis None identified through outpatient screening developed MRSA infection

  36. 2% Chlorhexidine and 70% alcohol (Chloraprep) vs. 10% Povidone Iodine for Surgical-Site Antisepsis • Randomized, multi-center • 849 patients • Clean-contaminated surgery NNT: 17 patients N Engl J Med 2010;362:18-26

  37. Pre-operative Chlorhexidine Baths Cochrane Review of six randomized trials with 10,007 patients RR Chlorhexidine vs. placebo 0.91 (0.80 to 1.04) Chlorhexidine vs. bar soap 1.02 (0.57 to 1.84) Chlorhexidine vs. no washing 0.36 (0.17 to 0.79) Cochrane Database Syst Rev. 2007 Apr 18;(2):CD004985. Review

  38. It’s a small world… 26 y o medical student returns April 20, 2009 from an international elective in Mexico. On April 27 she presents to ED with 4 day h/o fever 39 C, cough, HA, myalgias, and diarrhea. That same day you hear reports of a novel Influenza A virus H1N1 associated with increased mortality in Mexico.

  39. Which of the following is MOST correct regarding influenza? • No special precautions are necessary for patients with suspected influenza since it is not very transmissible. • Influenza is primarily transmitted by large droplets (> 5 microns), therefore healthcare workers should use Droplet Precautions with a surgical mask with eye protection for routine care to prevent contamination of mouth, nose, and conjunctiva. • Patients with 2009 H1N1 should be placed in airborne isolation with use of N-95 respirators while patients with H1N1 seasonal influenza should be placed in droplet precautions. • A negative rapid antigen test rules out influenza • Influenza vaccination of healthcare workers does not have an impact on patients.

  40. Modes of Transmission Droplets Thought to be primary mode of transmission Coughing, sneezing, and talking Heavy; settle within 6 feet of the source Airborne Related to procedures → aerosolized particles Contact Direct: skin-to-skin contact Indirect: contact with virus in the environment

  41. Respiratory Protection Debate • *Recommending organizations: • World Health Organization (WHO) • Infectious Disease Society of America • Healthcare Infection Control Practices • Society for Healthcare Epidemiology of America • Advisory Committee (HICPAC) • Association of Professionals in Infection Control • CDC (during 2009-2010 influenza season) • Fit-tested N95 respirators for care of patients with 2009 H1N1 • Prioritized usage if limited resources • Yet, Standard and Droplet Precautions for seasonal influenza? • Infection Control and Infectious Diseases Societies* • No evidence that 2009 H1N1 transmitted differently than seasonal influenza • Standard and Droplet Precautions for routine care

  42. Surgical Mask vs. N95 RespiratorRandomized Study *RT-PCR or serology JAMA 2009;302:1865-71

  43. UW Medicine Standard, Droplet, and Contact Precautions for routine care Place mask on coughing patients Separate sick from non-sick patients Surgical mask, eye protection, gown, and gloves N95 respirators for higher-risk aerosol-generating procedures Intubation and extubation Bronchoscopy Open suctioning of airway Cardiopulmonary resuscitation Suspected or Confirmed Cases of Influenza

  44. 43 y o woman from Eritrea with 3 week h/o non-productive cough, fever, and night sweats

  45. Now What? AFB smear neg x 5 (3 sputum, 2 BAL) Sputum AMTD neg

  46. Which of the following is the BEST approach? Remove from airborne isolation as a negative AMTD test rules out infectious TB Begin 4 drug therapy and remove patient from airborne isolation due to multiple negative AFB smears Begin 4 drug therapy and keep in airborne isolation Obtain interferon-gamma releasing assay (IGRA) as a negative result would rule out TB

  47. 44 y o Vietnamese man with 6 month h/o pain and swelling of left medial thigh associated with fevers and night sweats

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