Nosocomial Infections David M. Parenti, M.D.
Nosocomial Infections
David M. Parenti, M.D.
Definitions
sterilization: use of physical procedures or chemical agents to destroy all microbes, including spores, viruses, fungi
disinfection: use of physical procedures or chemical agents to destroy most microbes– high, intermediate, low level
antisepsis: use of chemical agents on skin or other tissue to inhibit or kill microbes
Nosocomial Infections Infection acquired in the hospital: > 48 hours
after admission$5 billion annually: increased hospital length
of stay, antibiotics, morbidity and mortality related to severity of underlying disease,
immunosuppression, invasive medical interventions
frequently caused by antibiotic-resistant organisms: MRSA, VRE, resistant Gram-negative bacilli, Candida
Sites of Nosocomial Infections
UTI
BSI
SSIPneum
Other
Klevens. Pub Health Rep 2007;122:160
36%
11%20%
22%
11%
Nosocomial InfectionTypes of Transmissionairborne
– tuberculosis, varicella, Aspergilluscontact
– S. aureus, enterococci, Gram-negative bacilli
common vehicle– food contamination– Salmonella, hepatitis A
Patient 1 A 67 yo female with poorly controlled
hypertension was admitted because of a right-sided stroke. She had confusion, limitation of mobility of her left leg, and urinary incontinence. A urinary (Foley) catheter was placed and she was evaluated for rehabilitation.
4 days later she developed a temp to 103º F and blood pressure of 90/60 and was transferred to the ICU. Blood and urine cultures grew resistant Klebsiella.
Nosocomial UTIUp to 25% of hospitalized patients are
catheterized at some time during their hospital stay.
15% colonized (bacteruria)– 5-10% per day of catheterization– 50% after 14 days
Gram-negative bacilli, VRE, Candida – frequent antimicrobial resistance
Antibiotic-ResistantGram-Negative Bacilli increasingly a problem in the ICU: UTI, pneumonia selective pressure from high-level antibiotic usage in
hospital and community E. coli, Klebsiella, Enterobacter, Pseudomonas,
Serratia, Acinetobacter resistance to extended spectrum penicillins,
cephalosporins, aminoglycosides, quinolones colonization at multiple body sites: GI, skin, pharynx
Nosocomial UTI Pathogenesisexternal
– most common– colonization of urethral meatus– movement of bacteria along fluid layer
on external catheter surface internal
– colonization of urine in bag, ascend through catheter lumen
Nosocomial UTI Prevention*avoid catheterization
– minimize duration of catheterization– intermittent (“in and out”) catheterization
aseptic insertion techniqueclosed systemdependent drainagesilver-coated catheters
Patient 2 A 45 yo male is admitted for community-acquired
pneumonia. He has a long history of iv drug use, but has not used in several years. The intern has difficulty starting a peripheral iv so places a femoral venous catheter. His cough and fever begin to improve.
On hospital day 3 he has fever, chills and a WBC of 18,000. Blood cultures are positive for vancomycin-resistant Enterococcus.
Vascular Device-Associated Bacteremiamajor cause of morbidity and mortality in
hospitalized patients150 million intravascular devices are
purchased by hospitals yearlyestimated 50,000-100,000 intravascular
device- related bacteremias in U.S./year– non-cuffed central venous catheters
account for 90% of vascular catheter-related bacteremias
CVC-Associated BacteremiasGWUH 2009 Staphylococcus aureus, MRSA, S. epidermidis Enterococcus faecalis, VRE Streptococcus agalactiae (group B strep)
Acinetobacter, Klebsiella pneumoniae, Enterobacter cloacae
Candida albicans, C. parapsilosis
Vascular Device-Associated Bacteremia: Pathogenesis initial step is colonization of the insertion or
access hub biofilm formation allows attachment of bacteria development of bacteremia
IV Catheter Biofilm 24 hours after Insertion
Coagulase Negative StaphylococciSlime-producing, Catheter Surface
Vascular Catheter InfectionsRisk Factors type of catheter: plastic > steel
– multiple > single lumen location of catheter
– central > peripheral– internal jugular, femoral > subclavian
duration of placement: > 72 hoursemergent placement > electiveskill of venipuncturist: others > i.v. team
Vascular Catheter InfectionsClinical Clues local inflammation or phlebitis at catheter
insertion site bacteremia caused by associated organisms:
MRSA, CNS, VRE, Candida
above waist38%
inguinal area86%
hand or arm29%
Bonten MJM . Lancet 1996; 348:1615
Vascular Catheter InfectionsDiagnosisMaki rollplate technique catheter tip or intracutaneous segment is rolled on
agar plate colonies are counted > 15 colonies correlates with colonization and
potential source of bacteremia
Maki DG. NEJM 1977;296:1305
Semipermanent Tunneled Catheters (Groshong, Hickman, Mediport) long term i.v. therapymuch lower rate of infection dacron cuff incites inflammatory response, fibrosis
at insertion site prevents bacteria from migrating along external
catheter surface locations of infection: exit site, tunnel, tip
– tunnel infection always requires catheter removal septic thrombophlebitis/pulmonary emboli
Groshong catheter
CVC-Associated BacteremiaPrevention (Bundles)*minimize duration of catheterizationuse single vs multiple lumen catheterssite placementmeticulous insertion technique
– drapes, gown/gloves/maskantibiotic impregnated catheters impregnated dressing (Biopatch)outbreak/cluster control
Chlorhexidine/Silver Sulfadiazine-Coated CVCs158 hospitalized patients with 403 triple-
lumen, polyurethane venous catheterschlorhexidine/silver sulfadiazine-coated vs
uncoated catheters-external surfaceuncoated coated p
colonization 24.1% 13.5% < 0.005bacteremia 4.7% 1% < 0.03
Maki DG; Ann Intern Med 1997;127:257
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VRE RFLP GWUH 2004
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Patient 3 A 52 yo male is admitted with a severe headache
and is found to have a subarachnoid hemorrhage from a ruptured aneurysm. The neurosurgeons evacuate the hematoma and clip his aneurysm. Post-op he remains on a ventilator.
On hospital day 5 he spikes a fever to 102º F and is noted to have copious secretions from his endotracheal tube. Increasing amounts of inspired O2 are required. Blood and sputum cultures grow highly resistant Enterobacter cloacae.
Nosocomial Pneumonia300,000 cases/year in U.S.
– 10-15% of nosocomial infections leading cause of death from nosocomial
infection– crude mortality 35-50%
ventilator-associated pneumonias occur 48-72 h post endotracheal intubation
organisms may originate from endogenous flora, other patients, visitors, or environmental sources
Ventilator Associated Pneumonia GWUH 2009
Staphylococcus aureus, MRSA
Proteus mirabilis, Serratia marcescens, Pseudomonas aeruginosa, Stenotrophomonas maltophilia
Nosocomial PneumoniaEpisodes Mortality
Klebsiella, 30% 40%Enterobacter
S. aureus 27% 33%P. aeruginosa 15% 72%S. pneumoniae 12% 43%E. coli 10% 31%anaerobes 2% 0%
Bryan CS. Am Rev Resp Dis 1984;129:668-671
Gram-Negative Bacilli ColonizationRisk Factors
severity of underlying illnessduration of hospitalizationprior or concurrent use of antibioticsadvanced age intubationmajor surgeryachlorhydria ?
Ventilator-Associated PneumoniaPrevention*limit duration of ventilationhandwashing/glovesclosed ventilator circuitssemi-recumbent positioning
– avoid large gastric volumesavoid prolonged nasal intubation
– prevent sinusitis? maintain gastric acidity
Patient 4 A 73 yo male is admitted with chest pain and
severe coronary artery disease. He has emergent 3-vessel coronary artery bypass grafting. He recovers fairly well from the surgery but on post-op day 10 develops fever and purulent drainage from the inferior aspect of the wound.
He returns to the operating room for extensive debridement of sternal osteomyelitis. Cultures grow methicillin-resistant Staphylococcus aureus.
Patient 4
Surgical Site Infection (SSI) usually introduction of skin organisms into the
wound– S. aureus, Gram-negative bacilli
risk factors– underlying disease– skill of the operator– duration of operative procedure
may not become clinically apparent until after discharge
risk may be decreased by appropriately timed pre-operative antibiotics
MRSA 1960 methicillin-resistant S. aureus identifiedMRSA 60% of S. aureus isolates at GW are MRSA
(2007) Community-acquired: recent increase in incidence Hospital-acquired: > 48 h after admission Healthcare-associated community-onset:
– previous positive MRSA culture– history of hospitalization, surgery, dialysis or
residence in long term care facility in the last year– indwelling catheter/percutanous device
MRSA IsolatesPulse Field Gel Electrophoresis (PFGE)
MRSAMechanism of Resistancechromosomal mecA
gene*altered PBP 2´ or 2a
in cell wall low affinity for all ß-
lactam antibiotics
Hospital-acquired MRSABSI 76%pneumonia 13%osteomyelitis 6%endocarditis 3%cellulitis 4%skin abscess/necrosis 1%
mortality 2.5%www.cdc.gov/abcs
Hospital-acquired MRSARisk factors:
– prolonged hospitalization– prolonged antimicrobial therapy– location in an intensive care unit– proximity to a known MRSA case
Persistent colonization up to 4 years: naresContamination of environmental surfaces
– up to 30%: bed rails, table, BP cuff
SSI Prevention no shaving of operative site: clippers or no hair
removal hand hygiene; fastidious aseptic technique surgical site antisepsis with chlorhexidine prophylactic antibiotics
– single dose 30-60 minutes prior to incision– second dose for prolonged surgeries
laminar air flow or HEPA filtration; limit traffic in the operating room
pre-operative screening for S. aureus
Patient 5A 26 yo medical student draws blood from
a patient for a classmate. He is in a hurry and sticks his thumb while recapping (?) the needle. The patient has been tested positive for HIV and hepatitis C. The student has received the hepatitis B immunization series.
HCW Blood/Body Fluid ExposureRisk Factorsneedlestick/sharp>>mucosal>>non-intact skin inoculum: viral titer, volume of bloodneedle type
– hollow-bore needles > solid-bore– large bore > small bore
decreased risk with glove use
GWU Health Care WorkersPercutaneous Exposures: 2007-09Occupation
– Hospital staff 38-49%*
– Residents 39-56%*
– Students 6-11%Location
– ER 7-14%– ICU 7-21%*
– OR 31-52%*
– other floors 24-27%*
– Pathology 3-8%
Risk of Transmission following Percutaneous ExposureHIV 0.3%Hepatitis C 1.9%HBeAg - < 6%HBeAg + 30%estimated US transmission for yr 2000*
– 390 cases of HCV– 40 cases of HBV– 5 cases of HIV
Henderson DK. Clin Microbiol Rev.2003;16:546* Prüss-Üstün A. Am J Ind Med 2005;48:482
HCW Blood/Body Fluid ExposureManagementbaseline serologies, including the patient if
necessaryassessment of riskHIV: antiretroviral therapyhepatitis B: hepatitis B immune globulin
and hepatitis B vaccine if non-immunehepatitis C: close follow up
HCW Blood/Body Fluid ExposurePreventionSLOW DOWNdo not recap needlesdispose of sharps in the proper receptacleuse needleless systems whenever possibleheptitis B immunization
Isolation to protect both patients and personnelStandard Precautions
– routinely consider all body fluids and moist surfaces as potentially infectious
airborne precautionsdroplet precautionscontact precautions
IsolationAirborne Precautions transmission of pathogen via inhalation of
droplet nuclei– tuberculosis, varicella, ? influenza
private roomnegative pressure> 10 air exchanges per hourStaff: particulate respirators
IsolationDroplet Precautions
respiratory secretions via close personal contact
group A strep, influenzaprivate roomparticulate respiratordo not need negative pressure or increased
air exchanges
IsolationContact Precautions
transmitted via hands of personnel, inanimate surfaces
MRSA, VRE, highly resistant GN rodsprivate roomgloves with patient contacthandwashing
Michael Jackson Approach
Handwashing
most important means to prevent spread of nosocomial pathogens
hand cultures of medical personnelGN bacilli S. aureus
random sample 45% 11%serial sample 100% 64%persistent carrier 16% 16%
Puerpural SepsisIgnaz Semmelweis
Ignaz Semmelweis (1847) observed differences in the incidence of puerpural sepsis (group A strep) on 2 different wards
one ward was staffed by obstetricians, medical students: mortality 8%
one ward was staffed by midwives: mortality 2%
Puerpural SepsisIgnaz Semmelweis
Observation #1: lower mortality when students were on vacation
Observation #2: pathologist cut during autopsy developed similar illness
Solution: HAND HYGIENE in the autopsy room prevented transmission of organisms to the delivery suite
Ignaz SemmelweisDecreased Mortality with Improved Hand Hygiene
Ignaz Semmelweis(1818-65)Chlorinated lime hand antisepsis