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Detection of Carbapenemases From a Technologist’s Perspective

Detection of Carbapenemases From a Technologist’s Perspective. Courtney Fraser MLS (ASCP) Microbiology Supervisor ACL Laboratories. Disclosure.

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Detection of Carbapenemases From a Technologist’s Perspective

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  1. Detection of Carbapenemases From a Technologist’s Perspective Courtney Fraser MLS (ASCP) Microbiology Supervisor ACL Laboratories

  2. Disclosure • I will discuss specific brand names in this presentation. I do not have stock in, nor receive honoraria for any commercial product mentioned in this presentation.

  3. Introduction • Automation is not available for carbapenemase confirmatory testing. • Resistance mechanisms are not typically discussed in the classroom for most MLS students. • Seasoned Techs currently in the field are not used to resistance in organisms and are unfamiliar with the mechanisms related to resistance. • Education needed on antibiotic classifications.

  4. Purpose of Presentation • Define types of carbapenemases and understand classifications • When to test • How to test • How to incorporate instrumentation tools

  5. What is a Carbapenemase? • First, need to understand what are the carbapenems: • Ertapenem • Imipenem • Meropenem • Doripenem • Second, the suffix –ase indicates an enzyme • A carbapenemase is an enzyme produced by bacteria that hydrolyze (deactivate) carbapenems

  6. Carbapenems Meropenem • All share a common β-lactam ring, β-lactamases • target the β-lactam ring) • differences are in ring stabilization from hydrolysis • protection of ring from β-lactamase by addition of large groups blocking the substrate site Imipenem Ertapenem Large groups

  7. Why Important? • Studies have shown that rapid detection of carbapenemases have attributed to positive patient treatment outcomes. • Infection Control emergency – These mechanisms can be plasma-mediated allowing for easy transmission to other organisms. • Detection of these resistance mechanisms should initiate contact precautions for patients , thus reducing the spread of nosocomial related infections. • Deter inappropriate antibiotic use thus prolonging the efficacy of available antibiotics

  8. The Rise of Carbapenemases

  9. ACL LaboratoriesOverview ACL Laboratories is defined as an operating management agreement between Advocate Health Care and Aurora Health Care. • Two Central Labs (Rosemont, IL., West Allis, WI.) • Total of 27 hospitals Rosemont

  10. Wisconsin vs. Illinois 2011

  11. KPC Isolates 2009 and 2011 - Chicago

  12. Types of β-Lactamases/Carbapenemases • Carbapenemases • Type A (Ambler)– KPC – 1st described 1998, endemic in NYC since 2004. Moving west. 1st isolates in Chicago area in 2/08 • Type B – Metallo ß-lactamases • Found in Stenotrophomonas maltophilia • Enterobacteriaceae and P. aeruginosa - Reported sporadically in U.S. • Watch out for NDM-1 which has spread to Europe (Sweden and England) from India • Type D – Oxa-40 – Endemic in Acinetobacter baumannii in the Chicago area since 2002 • Hyper AmpC producers • Mutations in AmpC promoter and attenuator/promoter regions • Poorly inhibited by lactam—lactamase inhibitor combinations • E. coli produces AmpC (poorly) and is unlike other bacteria with AmpC the gene is not inducible • No ampR regulatory gene All the above can give a positive Hodge Test!

  13. Types of Carbapenemases S. marcescens enzyme Pediatr Infect Dis J. 2010;29(1):68-70. 

  14. Recommendations for Screening • Any Enterobacteriaceae • At least one carbapenem with an increased MIC (ertapenem is most sensitive, but not specific) and at least one resistant 3rd or 4th generation cephalosporins: • Ceftriaxone • Ceftazidime • Cefotaxime • Ceftizoxime • Cefepime • Screen for KPC, MBL, and AmpC • ESBL testing is performed by automated instrumentations.

  15. KPC • Klebsiella pneumoniae Carbapenemase • 1st reported on the East Coast of the United States in the late 1990’s • Currently found worldwide. Can be associated with other Enterobacteriaceae. • KPC gene is plasmid-mediated which has contributed to the rapid dissemination across the globe. • Hydrolyze all beta-lactam antibiotics. • Can be detected by • Modified Hodge Test • Boronic Acid inhibition

  16. Modified Hodge Test (MHT) • Used for the detection of KPC producing isolates • Carbapenem disk: meropenem – gold standard – most specific • Increased MIC for imipenem seen is Proteus, Providencia, and Morganella • Indentation of the inhibition zone indicates that the test strain is hydrolyzing the carbapenem. • Not specific for KPC • AmpC enzymes can give weak false positive results that can be accentuated by porin loss

  17. Modified Hodge Test (MHT)

  18. Alternative Test • Rosco kit for carbapenemase detection • 4 disks all on one plate: • Meropenem (MRP10) • Meropenem + Boronic Acid (MRPBO) *KPC • Meropenem + Cloxacillin (MR+CX) *AmpC • Meropenem + DPA Dipicolinic acid (MR+DP) *MBL • Easier to read compared to the MHT • Reduced the risk of false positives for KPC • Detects true hyperproduction of AmpC by utilizing a carbapeneminstead of a cephamycin

  19. Rosco Kit

  20. Positive for KPC

  21. Metallo Beta-Lactamase (MBL) • Uses a zinc cation for the hydrolysis of the beta-lactam ring • Activity is inhibited by EDTA (similar to clavulanic acid and ESBL) • Hydrolyze all beta-lactam antibiotics except aztreonam. • Chromosomal presence found in Stenotrophomonas, Aeromonas, and Chryseobacterium. • Clinically significant MBLs have transmitted to other bacterial pathogens.

  22. Detection of MBL Ratio MP/MPI >8 (or 3 fold)

  23. AmpC • Chromosomal = MY SPACE bugs • (Morgenella, Y. enterocolitica, Serratia, Providencia, Aeromonas, Citrobacter, Enterobacter) • Inducible = Any MYSPACE or Enterobacteriaceae containing AmpC plasmid • Organism may develop resistance during prolonged therapy with 3rd generation cephalosporins. • Identified in organisms exhibiting the following: • Resistant to cephamycins • Cefoxitin • Cefotetan • Sensitive to Cefepime • Hyperproduction = Any Enterobacteriaceae • Caused by a mutation in the AmpC gene leading to permanent hyperproduction or derepression.

  24. The AmpC gene is now found on a plasmid • We can no longer predict which bacteria are AmpC positive • Amp C is upregulated by treatment with β-lactam drugs • Amount of enzyme produced is dependant on the selection of stable mutants with upregulated genes.

  25. AmpC + Porin Loss = “Carbapenemase”

  26. AmpC • Many different AmpC enzymes • C. freundii cluster • CMY-2 • Enterobacter cluster • MIR-1, ACT-1 • M. morganii cluster** • DHA-1 • H. alvei cluster • ACC-1 • Aeromonas cluster • CMY-1 and FOX-1 • Degree of carbapenemase resistance is dependant on type of AmpC in a porin deficient isolate

  27. Detection of AmpC Hyperproducer

  28. Education and Training • In the past, technologists did not need to use antibiotic classification in everyday use. • Education may be needed to help technologists understand the importance of classifications. • Tools are available in automated instrumentation that can help technologists on the bench.

  29. MicroScan Report

  30. Vitek Observa Report

  31. Tools in Instrumentation • Custom comments/alerts can be printed on the patient report generated from the instrument. • Activation of these tools can significantly increase the technologist’s awareness on when to appropriately screen for carbapenemases. • Can also be used for many other difficulties in AST reporting.

  32. Creating a MicroScan Comment

  33. MicroScan Alert Rules

  34. MicroScan Patient Report

  35. How to Build a BIOART Rule

  36. Vitek Patient Report

  37. References • Bush, Karen, Jacoby, George, Antimicrobial Agents and Chemotherapy,Minireview Updated Functional Classification of Beta-Lactamases, Mar. 2010, Vol.54, No. 3, p.969-976. • Fernando, Pasteran, Tania Mendez, Melina Rapoport, Leonor Guerriero, and Alejandra Corso, Controlling False Positive Results Obtained with the Hodge…J. Clin. Microbiol. 2010, 48(4):1323 (2010). • Gazin, Muriel, Fabienne Paasch, Herman Goossens and Surbhi Malhotra-Kumar, Current Trends in Culture-Based and Molecular Detection of ESBL Harboring and Carbapenem Resistant Enterobacteriaceae, J. Clin. Microbiol. 2012, 50(4). • Rosco Diagnotica www.rosco.dk • Siemens Microscan • Biomerieux Vitek 2 Observa

  38. THANK YOU!!! • A big THANK YOUto the ACL Sensitivity Training Team!!! Your passion and dedication to AST testing has served both patients and your fellow coworkers. • Questions?

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