Implementation and Evaluation of Gradient Strip Antimicrobial Susceptibility Testing in US Public Health Laboratories to Respond to Resistant Gonorrhea

Details

• Alternative Title:
  Sex Transm Dis
• Personal Author:
  Raphael, Brian H. ; Pham, Cau D. ; Sharpe, Samera ; Mauk, Kerry ; Harvey, Alesia ; Khubbar, Manjeet ; Triplett, Laura ; Soge, Olusegun O. ; Denny, Michael ; Palavecino, Elizabeth L. ; Finney, Rose ; Olsen, Aaron ; Carlson, Jonathan ; St. Cyr, Sancta B. ; Schlanger, Karen ; Kersh, Ellen N. ; Raphael, Brian H. ; Pham, Cau D. ; Sharpe, Samera ; Mauk, Kerry ; Harvey, Alesia ; Khubbar, Manjeet ; Triplett, Laura ; Soge, Olusegun O. ; Denny, Michael ; Palavecino, Elizabeth L. ; Finney, Rose ; Olsen, Aaron ; Carlson, Jonathan ; St. Cyr, Sancta B. ; Schlanger, Karen ; Kersh, Ellen N.
• Corporate Authors:
  Strengthening the US Response to Resistant Gonorrhea Working Group ; Strengthening the US Response to Resistant Gonorrhea Working Group
• Description:
  Background:
  
  Gradient strip antimicrobial susceptibility testing using Etest is conducted by local public health jurisdictions participating in the Strengthening the US Response to Resistant Gonorrhea (SURRG) program to inform public health responses to resistant gonorrhea. Proficiency testing results across the participating laboratories were analyzed and a comparison of Etest with the agar dilution method was conducted.
  
  Methods:
  
  Laboratories participating in SURRG performed Etest for azithromycin (AZM), cefixime (CFX), and ceftriaxone (CRO). Concurrence between minimum inhibitory concentrations (MICs) obtained with Etest versus the agar dilution method using corresponding isolates was defined as ±1 double dilution. Specific levels of reduced susceptibility were termed “alerts” and included isolates with the following MICs: ≥2.0 μg/mL (AZM), ≥0.25 μg/mL (CFX), and ≥0.125 μg/mL (CRO). Categorical (alert/nonalert) agreement was calculated for MICs determined using Etest and agar dilution methods.
  
  Results:
  
  Strengthening the US Response to Resistant Gonorrhea laboratories had high proficiency testing scores (≥98%) and low levels of interlaboratory variations in MICs. The overall concurrence of MICs (essential agreement) determined using agar dilution, and Etest was 96% (CRO), 96% (CFX), and 95% (AZM). Depending on the antibiotic tested, between 27% and 66% of isolates with alert MICs determined by Etest also had alert MICs using the reference agar dilution methodology; however, most of these alert MICs were detected at threshold levels.
  
  Conclusions:
  
  This study demonstrates that MICs produced by SURRG laboratories using Etest have a high level of concurrence with agar dilution. Although confirmation of specific alert MICs varied, Etest facilities rapid detection and response to emerging resistant gonorrhea.
  
  
• Subjects:
  Anti-Bacterial Agents Article Gonorrhea Humans Laboratories Microbial Sensitivity Tests Neisseria Gonorrhoeae Public Health
• Source:
  Sex Transm Dis. 48(12):S157-S160 ; Sex Transm Dis. 48(12):S157-S160
• Pubmed ID:
  34433794
• Pubmed Central ID:
  PMC10210089
• Document Type:
  Journal Article
• Funding:
  CC999999/ImCDC/Intramural CDC HHSUnited States/
• Volume:
  48
• Issue:
  12
• Collection(s):
  CDC Public Access
• Main Document Checksum:
  urn:sha256:01828da8d62df02559bc66f04bc2ec8e4b439e1650eb30db34c4f8b1f4ffb02f
• Download URL:
  https://stacks.cdc.gov/view/cdc/128975/cdc_128975_DS1.pdf
• File Type:
  [PDF - 73.52 KB ]