infectious diseases
Gono-Caucus 2017 : Defining Multi-Drug Resistant Neisseria gonorrhoeae
by Anne M . Gaynor , PhD , manager , HHST
Gonorrhea ’ s colloquial nickname —“ The Clap ”— may suggest a less-thanserious infection , but the continued emergence of multi-drug resistant strains and the dwindling list of potential treatment options heighten global concern for the potential of untreatable infections that lead to severe sequelae . In 2013 the US Centers for Disease Control and Prevention ( CDC ) 1 classified drug-resistant Neisseria gonorrhoeae as one of three pathogens at “ Threat Level : Urgent ” based on the nearly 30 % of strains of N . gonorrhoeae that are resistant to at least one antibiotic . It was also recognized as a pathogen of concern in a 2014 World Health Organization Report 2 and by the US White House in the National Action Plan for Combating Antibiotic Resistant Bacteria ( CARB ). 3
A final report of Gono-Caucus 2017 will be published in the future by APHL along with all of the presentations . The report will include a more complete summary , including the associated antibiotics . A public comment period on proposed changes will follow .
N . gonorrhoeae continues to develop resistance to the antibiotics used for treatment , necessitating ongoing surveillance of drug-resistance to inform treatment recommendations . Antimicrobial resistance acquired by N . gonorrhoeae tends to remain within the microbial population even in the absence of selective antimicrobial pressure . The terms “ multidrug resistant ” ( MDR ) and “ extensively drug resistant ” ( XDR ) have been used to describe N . gonorrhoeae that have become resistant to more than one class of antimicrobial agents . However , the classification of N . gonorrhoeae resistant phenotypes into MDR- or XDR- N . gonorrhoeae is complicated by changing treatment options that reflect the evolution of antimicrobial resistance . While there is a standardized classification scheme , 4 the use of the terms MDR and XDR have been inconsistent .
APHL , in collaboration with the CDC Division of STD Prevention , hosted Gono-Caucus 2017 in early January to bring together experts in the field of N . gonorrhoeae antimicrobial resistance to better define and discuss communication strategies involving standardized MDR and XDR definitions . The first day covered the current definitions of MDR bacteria used for other healthcare-associated infections and tuberculosis , implications of MDR N . gonorrhoeae , as well as data trends from the US and international surveillance systems of MDR N . gonorrhoeae , and genetic mutations associated with drugresistance . The second day moved to topics such as identifying treatment failures , drug distribution and penetration in various anatomic sites , the role of minimum inhibitory concentration ( MIC ) and its potential relevance to clinical outcomes , and clinical and public health responses to MDR N . gonorrhoeae . Discussion points included the standardization of MIC values used to define drug-resistance , the potential value of categorical resistance or use of terms such as “ reduced susceptibility ,” and the importance of a classification scheme that can be clearly and succinctly conveyed to Congress , the media , the US public , healthcare providers and laboratorians .
At the conclusion of the meeting , participants came up with two proposals for a classification scheme . Groups were asked to clearly and succinctly state their proposal for both MDR and XDR classification . In developing these proposals , the following topics were discussed :
• Inclusion and / or the role of genetic or genotypic data
• Potential changes in antimicrobial breakpoints ( which vary by country and by regulatory / oversight body ) or methodology to detect resistance
• Flexibility to address new or changing treatment recommendations
• The varied ability and usage of certain antibiotics .
Current and Proposed New Multi-Drug Resistant Classifications
Current 4 Proposal : New Proposal 2 : Modified Tapsall 4
MDR |
Isolate has phenotypic resistance to one antimicrobial agent in category I and at least two in category II |
Isolate has phenotypic resistance to at least two antimicrobial agents being assessed for surveillance . * If penicillin and tetracycline are tested , then MDR would require resistance to four antimicrobial agents |
Isolate has phenotypic resistance to two antimicrobial agents currently recommended for treatment in category I and at least two antimicrobial agents less frequently used for treatment due to emerging resistance . |
XDR |
Isolate has phenotypic resistance to two antimicrobial agents in category I and at least two in category II |
Term not used |
Isolate has phenotypic resistance to two antimicrobial agents currently recommended for treatment and at least two antimicrobial agents less frequently used for treatment due to emerging resistance . |
Potential Outcomes N / A
Initial modeling indicates that the definition would result in stable level of MDR-GC over time . a
Initial modeling indicates that the definition would result in an increase in MDR-GC isolates over time . a
a . Trends in N . gonorrhoeae antimicrobial resistance demonstrate few remaining treatment options and increasing numbers of isolates resistant to multiple antimicrobial agents
References 1 . Centers for Disease Control and Prevention . Antibiotic Resistance Threats in the United States , 2013 . Available at : https :// www . cdc . gov / drugresistance / pdf / ar-threats-2013-508 . pdf 2 . World Health Organization . Antimicrobial Resistance : Global Report on Surveillance . 2014 . Available at : http :// apps . who . int / iris / bitstream / 10665 / 112642 / 1 / 9789241564748 _ eng . pdf
3 . Task Force for Combating Antibiotic-Resistant Bacteria . National Action Plan to Combat Antibiotic-Resistant Bacteria . 2015 . Available at : https :// obamawhitehouse . archives . gov / sites / default / files / docs / national _ action _ plan _ for _ combating _ antibotic-resistant _ bacteria . pdf
4 . Tapsall JW , Ndowa F , Lewis DA , Unemo M . Meeting the public health challenge of multidrug-and extensively drug-resistant Neisseria gonorrhoeae . Expert Rev Anti Infect Ther ., 2009:7 ( 7 ); 821-834
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LAB MATTERS Spring 2017 |
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