1 / 49

SEPSIS & BACTEREMIA as approached by an Infectious Disease specialist

Karen Brust, MD January 10, 2010. SEPSIS & BACTEREMIA as approached by an Infectious Disease specialist. OUTLINE. General introduction to blood stream infections (epidemiology, morbidity/ mortality, etc.) Classifications Sources Dissemination Management of BSI. DEFINITION of BSI.

gizi
Télécharger la présentation

SEPSIS & BACTEREMIA as approached by an Infectious Disease specialist

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Karen Brust, MD January 10, 2010 SEPSIS & BACTEREMIAas approached by anInfectious Disease specialist

  2. OUTLINE • General introduction to blood stream infections (epidemiology, morbidity/ mortality, etc.) • Classifications • Sources • Dissemination • Management of BSI

  3. DEFINITION of BSI BACTEREMIA: - viable organisms cultured from blood Red (+) BCx & Green (-) BCx Seifert, CID 2009; 28:S238-45

  4. GENERAL INFO • Estimated 250,000 cases/ year • General associated mortality 16-40% • 13% will die b/c of CAUTI – assoc BSIs • Cost estimated at $25,000/ episode CDC, ’09, Scott.

  5. GENERAL INFO • ALL BSI are clinically relevant • Common “contaminants” • Bacillus species, not anthracis • Coagulase negative staph • Corynebacterium species • Propionibacterium • When to be concerned about “contaminants”? • repeatedly positive blood cultures • blood cultures that match other cultures

  6. GENERAL INFO • Of staph infections, >50% were MRSA • Of enterococcal, >26% were VRE • Of c. albicans, >10% were fluc resistant • Of all candida spp. 48% were glabrata & kruseii

  7. BSI CLASSIFICATION • PRIMARY vs SECONDARY bacteremia • 2° - BCx in the face of a known infection • HAI vs COMMUNITY-ACQUIRED • CAUTI • CLABSI • SSI • GRAM NEG vs POSITIVE vs FUNGAL

  8. Seifert, CID 2009; 28:S238-45

  9. THE ID APPROACH

  10. SOURCE – CASE #1 • HPI: 67 y/o WM admitted w/ 3d hx of malaise and a pre-syncopal event • PMH/PSH: htn, hlp, tob abuse, COPD, afib, diastolic dysfunction, cardiac arrest 6 yrs prior, now, s/p PM placement • MEDS: coreg, MVI, duonebs, lasix, coumadin, ASA • ALL: NKDA • SOCIAL: divorced, lives locally, no unusual field or forest exposures, +tob w/ ½ ppd x 50 yrs plus, no etoh/ drugs

  11. SOURCE – CASE #1 PE: AF, 146/85, 90, 20, 100% RA GENERAL: non-toxic, well-appearing HEENT: no significant findings CV: RRR, no m/g/r RESP: CTAB, no w/c/r ABD: NABS, soft, NT/ND, benign EXT: no c/c/e

  12. SOURCE – CASE #1 DATA: Blood cx: e. faecalis [(S) amp, PCN, Vanc, gent synergy] Workup so far revealed a negative TEE for valvular vegetations or lead involvement 11 Creat: 1.17 18.8 433K 32 70% N, 15% L

  13. SOURCE – CASE #1 WHERE DID HIS ENTEROCOCCUS COME FROM? NEXT STEP: IMAGING

  14. SOURCE – CASE #1

  15. SOURCE • Important to find source b/c of high chance of relapse if underlying issue not treated • Usual culprits for MRSA: • Intravenous catheters • Intravascular devices • Soft-tissue infections • Pneumonia (especially in the face of mechanical ventilation)

  16. SOURCE • CLUES? • S. bovis isolated? Think GI malignancy • Salmonella? vasc/ aneurysmal infection • Pneumococcus in a young pt? Think HIV • Recurrent meningococcus? Think terminal complement deficiency

  17. THE ID APPROACH

  18. DISSEMINATION - CASE #2

  19. DISSEMINATION • Organism-dependent • GPC / Candida >>> GNR • Host-dependent • Immunosuppressed state w/ delayed clearance • Prosthetic material in place • Advanced age and arthritis

  20. DISSEMINATION • Candidemia • Enterococcal Septicemia • Staph Bacteremia • FREQUENT SITES OF SPREAD? • Heart valves • Bone & joints • Intervertebral discs • Kidneys • Spleen

  21. DISSEMINATION - Candida • RISK • Immunosuppressed status • Chronic intravenous lines • MORTALITY • 2004-2008 data suggest a crude 12 wk Mortality of 35.2% • Isolation of pathogens • C. albicans species? 45.6% • C. non-albicans? 54.4% Horn, CID ’09; 48: 1695-703.

  22. DISSEMINATION - Candida • HEART • Infective Endocarditis • 4% risk of seeding • EYES • Endophthalmitis • 5% risk of seeding • Important to identify in order to treat appropriately Horn, CID ’09; 48: 1695-703.

  23. DISSEMINATION - Enterococcus • INCIDENCE • 2.3 episodes of bacteremia / 1000 d/c’s • MORTALITY • Crude 30 day mortality 23% • RISK of endocarditis • Higher if BSI is community-acquired • Higher if prosthetic or damaged valve • Higher in IVDU Patterson, Makki, Caballero-Granado.

  24. DISSEMINATION - Staph • 4 common risk factors increasing likelihood of 2nd site of involvement: • Community-acquired infection • Skin findings • Fever at 72h • Persistent bacteremia Fowler, Arch Int Med 2003; 163: 2066-2072.

  25. DISSEMINATION - Staph • Which patients are at risk? Del Rio, Ana. Patients at risk of complications of staphylococcus aureus bloodstream infections. CID 2009; 48: S246-253. Del Rio, CID 2009; 48: S246-253.

  26. DISSEMINATION - Staph • DIAGNOSIS? • Heart valves - TEE • Bone & joints – MRI (vs ortho eval for tap) • Intervertebral discs – especially if arthritic • Kidneys – CT scan • Spleen – CT scan

  27. DISSEMINATION - Staph • S. aureus, in general = mc pathogen IE • Right-sided IE in IVDU and left for non-IVDU • Overall estimated risk of infective endocarditis (IE) in face of s. aureus bacteremia (SAB) = 25% • TEE has a greater advantage over TTE in identifying cases • Cases in general but specific advantage in terms of complicated IE (abscess, perforation)

  28. DISSEMINATION - Staph Of all SAB, 25% picked up Of the negative TTE, 20% • TEE DATA: Fowler, JACC 1997; 30: 1072-8

  29. MANAGEMENT • Define the scenario • Immunosuppressed or not? • Organism? • Source? • Dissemination? • 40 y/o previously healthy female w/ MSSA bacteremia secondary to PICC line infection without metastatic dz, vs • 67 y/o neutropenic female s/p induction chemo w/ candidemia and aortic valve endocarditis

  30. MANAGEMENT – by organismCandida • Start empiric therapy with an echinocandin (micafungin, caspofungin, anidulafungin) • Narrow coverage after susceptibilities return • If candida species is fluconazole susceptible, then oral abx therapy is an option • Everyone gets a TEE & an eye exam

  31. MANAGEMENT – by organismEnterococcus • Start empiric therapy with a vanc • Narrow or expand coverage after susceptibilities return • If vanc sensitive: guidence by susceptibility pattern • If VRE: daptomycin preferred over linezolid • Everyone gets a TEE • But can debate if clearly nosocomial

  32. MANAGEMENT – by organismMSSA or MRSA • Start empiric therapy with vancomycin • Narrow coverage after susceptibilities return • If MSSA: preferred = cefazolin or nafcillin • If MRSA, Vanc MIC of > 2: daptomycin • Special circumstances • If PCN allergic: vanc • If waxing and waning GFR: dapto • Everyone gets a TEE & a daily review of systems

  33. MANAGEMENT • CLABSI • Secondary bacteremia w/out met dz • Primary bacteremia w/out metastatic dz • Immunosuppressed • Non-immunosuppressed • Infective endocarditis or equivalent * In order of treatment difficulty

  34. MANAGEMENT • CLABSI • Secondary bacteremia w/out met dz • Primary bacteremia w/out metastatic dz • Immunosuppressed • Non-immunosuppressed • Infective endocarditis or equivalent * In order of treatment difficulty

  35. MANAGEMENT – CLABSI • General principles • Remove focus if possible • Make an accurate diagnosis • CLABSI: growth of >15 colony-forming units (cfu) from a 5-cm segment of the catheter tip by semiquantitative (roll-plate) culture • BCx from cath tip matches peripheral BCx

  36. MANAGEMENT – CLABSI • My standard approach: • Suspect a CLABSI? (Matching BCx (+) from PICC and BCx (+) from periphery) • Pull PICC & culture tip • Establish peripheral iv • The next 3 following days, obtain BCx • Start your 2 weeks of therapy from the 1st set of negative cultures

  37. MANAGEMENT – CLABSI *CNS is only pathogen where “saving” the catheter is possible *Staph & candida, it is never possible IDSA guidelines, 2009

  38. MANAGEMENT - CLABSI • Staph BSI, 2 weeks EXCEPT: • Diabetic, • Immunosuppressed, • Prosthetic vascular device (stents, PM, etc) • Metastatic foci of infexn, endocarditis, or suppurative thrombophlebitis • Sustained bacteremia

  39. MANAGEMENT • CLABSI • Secondary bacteremia w/out met dz • Primary bacteremia w/out metastatic dz • Immunosuppressed • Non-immunosuppressed • Infective endocarditis or equivalent * In order of treatment difficulty

  40. MANAGEMENTSecondary bacteremia w/out met dz • In general, 2-4 weeks • Easily “killed” bugs, shorter course • Strep pneumoniae pneumonia and bacteremia – 2 weeks • Not so easily “killed”, longer course • Staph BSI – usually 4 weeks (especially if pt high risk of metastatic dz like prosthetic valve)

  41. MANAGEMENT • CLABSI • Secondary bacteremia w/out met dz • Primary bacteremia w/out metastatic dz • Immunosuppressed • Non-immunosuppressed • Infective endocarditis or equivalent

  42. MANAGEMENT – Primary bacteremia w/out metastatic dz • In general, 4 weeks • Immunosuppressed: 4 wks minimum • Immunocompetent: you can debate

  43. MANAGEMENT • CLABSI • Secondary bacteremia w/out met dz • Primary bacteremia w/out metastatic dz • Immunosuppressed • Non-immunosuppressed • Infective endocarditis or equivalent

  44. MANAGEMENT - Infective endocarditis or equivalent • In general, 6 weeks (but dependent on bug) • Remove material when possible (Vasc sx) • Cardiothoracic surgery consultation • When to consult?

  45. TAKE HOME POINTS • When in doubt, call an ID specialist • Always pay attention to cultured organisms, even “contaminants” • Find the source; when found, can the source be removed? • Don’t forget your surgical colleagues • Err on the side of longer treatment

  46. QUESTIONS?

  47. ABBREVIATIONS(just my own, not standardized) • BCx: blood culture • BSI: blood stream infection • CAUTI: catheter-associated UTI • CLABSI: central-line associated BSI • GPC: gram positive cocci • GNR: gram negative rods • IE: infective endocarditis • IVDU: intravenous drug use • MC: most common • SSI: surgical site infection

  48. REFERENCES Caballero-Granado, FJ. Attributable mortality rate and duration of hospital stay asoociated with enterococcal bacteremia. CID 2001; 32: 587-94. Del Rio, Ana. Patients at risk of complications of staphylococcus aureus bloodstream infections. CID 2009; 48: S246-253. Fowler, Vance. Clinical identifiers of complicated staphylococcus aureus bacteremia. Arch Int Med 2003; 163: 2066-2072. Fowler, Vance. Role of echocardiography in evaluation of patients with staph aureus bacteremia: experience in 103 patients. JACC 1997; 30: 1072-8 Horn, et al. Epidemiology and outcomes of candidemia in 2019 patients: Data from the prospective antifungal therapy alliance registry. Clinical Infectious Diseases 2009; 48: 1695-703.

  49. REFERENCES Makki. Enterococcal bacteremia: clinical features, the risk of endocarditis, and management. Medicine 1988; 67: 248-269. Mitchell, DH. Diagnosis and management of staphylococcus aureus bacteremia. Intern Med J 2005; 35: S17-24. Patterson, JE. An analysis of 110 serious enterococcal infections. Medicine 1995; 74: 191-00 Scott II, RD. The direct medical costs of healthcare-associated infections in US hospitals and the benefits of prevention, CDC, March 2009. Seifert, The Clinical Importance of Microbiological Findings in the Diagnosis and Management of Bloodstream Infections. CID 2009; 28:S238-45. www.idsociety.org

More Related