The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infections

The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infections

Background: The breakpoint to minimum inhibitory concentration (MIC) quotient (BMQ) of an antimicrobial agent is the ratio of susceptible breakpoint divided by MIC of the test isolate. The higher the BMQ, the better is the therapeutic efficacy. The reporting of BMQ and MIC guiding table (MGT) when i...

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Main Authors: Sarumathi Dhandapani, Ketan Priyadarshi, Deepashree Rajshekar, Monika Sivaradjy, Haritha Madigubba, Apurba Sankar Sastry
Format: Article
Language:English
Published: Wolters Kluwer Medknow Publications 2023-07-01
Series:Journal of Current Research in Scientific Medicine
Subjects:
bloodstream infection
cascade reporting
minimum inhibitory concentration
vitek2
Online Access:https://journals.lww.com/10.4103/jcrsm.jcrsm_28_23
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author Sarumathi Dhandapani
Ketan Priyadarshi
Deepashree Rajshekar
Monika Sivaradjy
Haritha Madigubba
Apurba Sankar Sastry
author_facet Sarumathi Dhandapani
Ketan Priyadarshi
Deepashree Rajshekar
Monika Sivaradjy
Haritha Madigubba
Apurba Sankar Sastry
author_sort Sarumathi Dhandapani
collection DOAJ
description Background: The breakpoint to minimum inhibitory concentration (MIC) quotient (BMQ) of an antimicrobial agent is the ratio of susceptible breakpoint divided by MIC of the test isolate. The higher the BMQ, the better is the therapeutic efficacy. The reporting of BMQ and MIC guiding table (MGT) when integrated with cascade reporting is more useful, especially in bloodstream infections. Methodology: The study period was of 2 years (June 2019–May 2021). The blood culture (BC) isolates were subjected to susceptibility testing by VITEK® 2 automated antimicrobial susceptibility test (AST) system for all the antimicrobials at a time but reported only selectively (cascade reporting). The BMQ of the susceptible antibiotics was calculated and the MGT was developed by using a specialized “clinical microbiology reporting software.” Both the BMQ and MGT were included in the clinical microbiology report along with the suggested “drug of choice” (DOC) based on the highest BMQ. Results: A total of 2644 out of 56,663 BC episodes were included. Of all the AST results, 57.0% (1, 508) were found to be susceptible to ≥1 first-line antimicrobials tested and 8.7% (230) were found to be resistant to all antimicrobials tested. Overall in about 16.7% of episodes, BMQ-DOC reported was found to be different compared to the raw MIC-DOC, and the difference was found to be maximum for Pseudomonas aeruginosa (50.3%). Conclusion: Reporting of BMQ and MGT is impactful only when it is integrated with cascade reporting as BMQ can only be taken into consideration while comparing the agents of similar spectrum.
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publishDate 2023-07-01
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spelling doaj-art-7fb0d8363b5d48cfbc244bd5a5b817772025-08-20T03:02:03ZengWolters Kluwer Medknow PublicationsJournal of Current Research in Scientific Medicine2542-62732455-30692023-07-019210411210.4103/jcrsm.jcrsm_28_23The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infectionsSarumathi DhandapaniKetan PriyadarshiDeepashree RajshekarMonika SivaradjyHaritha MadigubbaApurba Sankar SastryBackground: The breakpoint to minimum inhibitory concentration (MIC) quotient (BMQ) of an antimicrobial agent is the ratio of susceptible breakpoint divided by MIC of the test isolate. The higher the BMQ, the better is the therapeutic efficacy. The reporting of BMQ and MIC guiding table (MGT) when integrated with cascade reporting is more useful, especially in bloodstream infections. Methodology: The study period was of 2 years (June 2019–May 2021). The blood culture (BC) isolates were subjected to susceptibility testing by VITEK® 2 automated antimicrobial susceptibility test (AST) system for all the antimicrobials at a time but reported only selectively (cascade reporting). The BMQ of the susceptible antibiotics was calculated and the MGT was developed by using a specialized “clinical microbiology reporting software.” Both the BMQ and MGT were included in the clinical microbiology report along with the suggested “drug of choice” (DOC) based on the highest BMQ. Results: A total of 2644 out of 56,663 BC episodes were included. Of all the AST results, 57.0% (1, 508) were found to be susceptible to ≥1 first-line antimicrobials tested and 8.7% (230) were found to be resistant to all antimicrobials tested. Overall in about 16.7% of episodes, BMQ-DOC reported was found to be different compared to the raw MIC-DOC, and the difference was found to be maximum for Pseudomonas aeruginosa (50.3%). Conclusion: Reporting of BMQ and MGT is impactful only when it is integrated with cascade reporting as BMQ can only be taken into consideration while comparing the agents of similar spectrum.https://journals.lww.com/10.4103/jcrsm.jcrsm_28_23bloodstream infectioncascade reportingminimum inhibitory concentrationvitek2
spellingShingle Sarumathi Dhandapani
Ketan Priyadarshi
Deepashree Rajshekar
Monika Sivaradjy
Haritha Madigubba
Apurba Sankar Sastry
The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infections
Journal of Current Research in Scientific Medicine
bloodstream infection
cascade reporting
minimum inhibitory concentration
vitek2
title The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infections
title_full The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infections
title_fullStr The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infections
title_full_unstemmed The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infections
title_short The role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient (minimum inhibitory concentration therapeutic index) and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture-proven bloodstream infections
title_sort role of cascade reporting integrated with breakpoint to minimum inhibitory concentration quotient minimum inhibitory concentration therapeutic index and minimum inhibitory concentration guiding table on clinical microbiology reporting of culture proven bloodstream infections
topic bloodstream infection
cascade reporting
minimum inhibitory concentration
vitek2
url https://journals.lww.com/10.4103/jcrsm.jcrsm_28_23
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