Aquarius Population Health

Antimicrobial resistance (AMR) has developed to every class of antibiotic used for the treatment of gonorrhoea – and in recent years several multi-drug resistant strains of gonorrhoea have been reported in the UK and elsewhere. Once the prevalence of resistance to a first-line treatment reaches 5%, an alternative drug is selected as first-line treatment. In the UK, as with many other countries, ceftriaxone is the current first-line treatment for gonorrhoea. There are few alternative treatments available should ceftriaxone resistance become widespread and therefore steps are being taken to preserve the effectiveness of ceftriaxone by avoiding its use for infections that could be treated using other antibiotics.

Aquarius was commissioned by the Applied Diagnostic Research and Evaluation Unit (ADREU) at St. Georges London to compare the cost and effectiveness of five different strategies to test for antibiotic susceptibility in NG infections. We developed a decision tree model to assess how point-of-care (POC) testing could be used to diagnose gonorrhoea and at the same time test for antibody susceptibility, allowing the use of previously abandoned antibiotics for the majority of patients, thereby sparing ceftriaxone use.

The results of the model showed that all five strategies cost more than the current strategy of not testing for AMR. The paper concludes that AMR POC testing may enable improved antibiotic stewardship but would require investment into the health system.

The article was published in October in Eurosurveillance and is available free online [link].

Harding-Esch EM, Huntington SE, Harvey MJ, Weston G, Broad CE, Adams EJ, et al. Antimicrobial resistance point-of-care testing for gonorrhoea treatment regimens: cost-effectiveness and impact on ceftriaxone use of five hypothetical strategies compared with standard care in England sexual health clinics. Eurosurveillance [Internet]. 2020;25(43). Available from: https://www.eurosurveillance.org/content/10.2807/1560-7917.ES.2020.25.43.1900402

Back to all publications