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ICU Varese
Le infezioni nelle Unità di Terapia Intensiva: è possibile ridurne l’incidenza? Paolo Grossi Clinica Malattie Infettive e Tropicali Università degli Studi dell’Insubria – Ospedale di Circolo e Fondazione Macchi, Varese 2nd INFECTIVOLOGY TODAY "L’infettivologia del III millennio: NON solo AIDS" PAESTUM 18-20 MAGGIO 2006 Studio INF-NOS 2002-04 Multicentrica Prevalenza di IN totale e per area 60 % prevalenza 51,2 50 41,3 37,3 40 40,7 30 20 10 7,7 4,7 4,9 0 totale A'02 7 3,5 A'03 area chirurgica 5 5,9 3,4 4,4 7,5 4,7 4,9 P'04 A'04 area critica Studi di prevalenza area medica Prevalenza di pazienti con IN e durata degenza al momento dello studio Tutto l’ospedale 35 30 25 20 15 10 5 0 A'02 A'03 P'04 A'04 prevalenza % DM infetti gg DM non infetti gg Prevalenza di pazienti con IN e durata degenza al momento dello studio Area critica 45 40 35 30 25 20 15 10 5 0 A'02 A'03 P'04 A'04 prevalenza % DM infetti gg DM non infetti gg Principali patologie infettive in pazienti ricoverati in Terapia Intensiva VENTILATOR ASSOCIATED PNEUMONIA (VAP) BLOODSTREAM INFECTION (BSI) URINARY TRACT INFECTION (UTI) INTRA ABDOMINAL INFECTION (IAI) Incidence rates and distribution of pathogens most commonly isolated from monomicrobial nosocomial BSIs and associated crude mortality rates for all patients, patients in ICU, and patients in non-ICU wards. Hilmar Wisplinghoff, et al. CID 2004; 39:309–17 Infections in ICU ● Intensive care units can be considered as ‘factories’ for creating, disseminating and amplifying resistance to antibiotics, for many reasons: ◦ importation of resistant microorganisms at admission, ◦ selection of resistant strains with an extensive use of broad spectrum antibiotics, ◦ cross-transmission of resistant strains via the hands or the environment. Collateral Damage from Cephalosporins & Quinolones “Collateral damage’ is a term used to refer to ecological adverse effects of antibiotic therapy; namely, the selection of drugresistant organisms and the unwanted development of colonization or infection with multidrug-resistant organisms.” “…Neither third-generation cephalosporins nor quinolones appear suitable for sustained use in hospitals as “workhorse” antibiotic therapy….” Paterson DL. Clin Infect Dis 2004:38(Suppl 4):S341-S345 National Nosocomial Infections Surveillance (NNIS) System Report, data summary from January 1992 through June 2004 Am J Infect Control 2004;32:470-85. Perugia, 11 maggio 2006 Staphylococcus aureus: invasive isolates resistant to methicillin (MRSA) in 2004 (European Antimicrobial Resistance Surveillance Scheme http://www.earss.rivm.nl) Enterococcus faecium: proportion of invasive isolates resistant to vancomycin in 2004. (European Antimicrobial Resistance Surveillance Scheme http://www.earss.rivm.nl) Enterobatteri produttori di ESBL _____________________________________________ Pazienti Isolati ESBL No. No. (%) _____________________________________________ Ricoverati (1999) 8.015 509 (6,3) Ricoverati (2003) 6.850 504 (7,4) Ambulatoriali (2003) 2.226 79 (3,5) _____________________________________________ Luzzaro F. et eal. JCM, May 2006, p. 1659–1664 SORVEGLIANZA NAZIONALE 2003 Pazienti ospedalizzati (n=504) 16,2% Chirurgia ICU Medicina 16,5% 52,4% Terapia Intensiva Neurochirurgia Cardiochirurgia Onco-Ematologia Chirurgia Medicina Pediatria The Italian map of MBL producer has been updated on the basis of this nationwide survey. MBL-producing P. aeruginosa are present over the whole national territory, though the impact of MBL producers remains relatively low. VIM producers are more prevalent than IMP producers. Production of MBL in other GNNFs and Enterobacteriaceae is limited to occasional isolates. VARESE VIM-1 VIM-2 IMP-2 IMP-12 IMP-13 MILANO VIM-1 VERONA VIM-1 VIM-2 IMP-2 CREMONA VIM-2-like TORINO VIM-1 P. aeruginosa P. putida A. xylosoxydans Acinetobacter spp. TRIESTE VIM-1 VIM-2 PAVIA VIM-1 VIM-2 SIENA VIM-1 GENOVA VIM-1 PERUGIA IMP-like ATRI IMP-13 PISA VIM-4 L’AQUILA VIM-4 ROMA VIM-1 VIM-2 IMP-2 IMP-13 SASSARI VIM-1-like PALERMO VIM-1 VIM-11 PESCARA IMP-13 S. GIOVANNI ROTONDO IMP-13 FOGGIA VIM-like NAPOLI VIM-1-like IMP-13 AVELLINO VIM-like IMP-13 45th ICAAC Washington, 2005 CATANIA VIM-1 16th ECCMID Nice, 2006 Resistenza ai carbapenemici in A. baumannii in Italia Model for comprehensive surveillance and prevention of health care-associated adverse events in the United States Temporal Relationship between Prevalence of MRSA in One Hospital and Prevalence of MRSA in the Surrounding Community: A Time Series Analysis Screening at patient discharge should be tested as new measure to control Spread of MRSA in the community I. M. GOULD, et al. ICAAC 2004 Proposed schematic to classify methicillin-resistant Staphylococcus aureus (MRSA) isolates as nosocomial or community-onset strains among individuals with and individuals without health care–associated risk factors. Salgado et al. CID 2003;36:131-139 Evaluating the Probability of MRSA Carriage at Admission to a Large University Hospital with Endemic MRSA • Screening was performed by nasal and inguinal swabs within 24 hours of admission, and included other sites when clinically indicated. • From January through August 2003, 90% (12,072/13,440) of all admissions were screened. Overall, 399 admissions (prevalence, 3.3%) were found colonized (n=368, 92%) or infected (n=31, 8%) with MRSA. • The prevalence of positive admissions was highest in sub-acute (5.7%) and chronic care wards (12.8%). • MRSA carriers (n=355) were more likely to have one or several of the following risk factors (all p<.001): – older age – prior hospitalization – antibiotic exposure – invasive procedures – greater severity of underlying illness D. PITTET, et al. ICAAC 2004 The Inanimate Environment Can Facilitate Transmission X represents VRE culture positive sites ~ Contaminated surfaces increase cross-transmission ~ Abstract: The Risk of Hand and Glove Contamination after Contact with a VRE (+) Patient Environment. Hayden M, ICAAC, 2001, Chicago, IL. The spectrum of contaminant bacterial flora of patient’s files in ICU and surgical wards. Panhotra Bodh R., et al, Am J Infect Control 2005;33:398-401 Origin of Nosocomial Infection Microorganisms: Water • Splash from sink drain, toilet flushing • Faucet aerator, faucet, water lines • Water from vase in surgical ward Trautmann, 2005 Aeromonas, Acinetobacter, Pseudomonas, Flavobacterium, Flavimonas, Legionella, Mycobacteria Factors influencing adherence to handhygiene practices Observed risk factors for poor adherence to recommended hand-hygiene practices • • • • • • • • • Physician status (rather than a nurse) Nursing assistant status (rather than a nurse) Male sex Working in an intensive-care unit Working during the week (versus the weekend) Wearing gowns/gloves Automated sink Activities with high risk of cross-transmission High number of opportunities for hand hygiene per hour of patient care Adapted from Pittet D. Infect Control Hosp Epidemiol 2000;21:381–6. Can we do something else ? Relationship between workload (modified TIS) and the number of trained nurses on day duty per week. Dancer et al. Am J Infect Control 2006;34:10-7. Relationship between workload (modified TIS) and the number of trained nurses on day duty per week. Dancer et al. Am J Infect Control 2006;34:10-7. Ospedale di Varese: procedure messe in atto per il controllo delle infezioni nosocomiali 2001 Revisione dei protocolli terapeutici 2002 Adozione della richiesta motivata per l’utilizzo di alcuni antibiotici ad ampio spettro (associata ad attività di formazione) 2003 Elaborazione e diffusione di direttive interne all'ospedale per le indicazioni più importanti (gestione di CVC e dispositivi medicochirurgici, emocolture) 2004 Revisione dei protocolli per la profilassi delle infezioni delle ferite chirurgiche 2005 Adozione di un nuovo protocollo per la disinfezione delle mani 2006 Informatizzazione della richiesta motivata di antibiotici ICU Varese: percentuali di resistenza ai farmaci Staphylococcus aureus (2001-2005) 100 78,4 80 52,5 2001 60 2002 2003 2004 40 2005 20 0 i ci ll i n Pe na a ll in i c a Ox C ina c a x flo o r ip Er it i ci m o r na Ge in a c i m nta ICU Varese: percentuali di resistenza ai farmaci Enterococcus faecium (2001-2005) 100 80 2001 60 2002 40 2003 2004 40 25 20 8 0 Am a lin l i pic m nta e G HL a n ici i co Te n pla ina nc Va o a ci n i m 2005 ICU Varese: percentuali di resistenza ai farmaci Pseudomonas aeruginosa (2001-2005) 60 50 38,5 33,7 40 2001 24,7 30 2002 2003 21,8 2004 2005 20 10 0 e Pi p i lli rac na azo t er a p i P C im e d i az ef t C pim e f e e ICU Varese: percentuali di resistenza ai farmaci Pseudomonas aeruginosa (2001-2005) 60 50,2 43,1 50 40 2001 2002 24,1 30 2003 2004 20 2005 6,7 10 0 in kac i Am a Cip a c in a lo x f o r m ne e ip Im Me m ne e rop ICU Varese: percentuali di resistenza ai farmaci Enterobacteriaceae (2001-2005) 100 80 2001 60 2002 2003 40 24,6 20,4 14,8 20 0 a l in l i c pi Am o Am av. l c xi - C m id i z a ef t e Ge in a c i m nta C ina c a x flo o r ip 2004 2005 Isolati di K. pneumoniae produttore di ESBL in Terapia intensiva (2001-2005) 80 70 60 N. di isolati 50 40 30 20 38 25 10 1/20 2/19 3/15 1/17 2002 2003 2004 2005 0 2001 ESBL-positivi ESBL-negativi Isolati di E. coli produttore di ESBL in Terapia intensiva (2001-2005) 80 70 60 N. di isolati 50 40 30 20 5/43 1/34 1/52 1/34 2/51 2001 2002 2003 2004 2005 10 0 ESBL-positivi ESBL-negativi Perugia, 11 maggio 2006 Il controllo delle resistenze batteriche si basa su attività di: sorveglianza, controllo e formazione Sorveglianza da laboratorio Microrganismi sentinella (P. aeruginosa MDR, A. baumannii MDR, MRSA, Enterobatteri produttori di ESBL, Enterococchi VRE) Controllo delle resistenze Epidemiologia delle resistenze Profilassi antibiotica in chirurgia: protocolli e verifica applicativa Prescrizione motivata di molecole antibiotiche di classi selezionate Linee guida in patologie selezionate e nei trattamenti empirici Gestione dei CVC e dei dispositivi medico-chirurgici Protocollo lavaggio mani Misure di isolamento (VRE, C. difficile) Controllo del consumo da farmacia Formazione Migliorare la prescrizione di antibiotici con misure educative Elaborare e diffondere le direttive interne all'ospedale per le indicazioni più importanti Infectious Diseases Expert Resources Infectious Diseases Specialists Healthcare Epidemiologists Clinical Pharmacists Infection Control Professionals Optimal Patient Care Clinical Pharmacologists Clinical Microbiologists Surgical Infection Experts