05/03/18

Typhoid superbug spreading in Pakistan

typhoid
Electron microscope image of S. Typhi Copyright: Alain Grillet/Sanofi Pasteur [CC BY-NC-ND 2.0]. This image has been cropped.

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  • A first major spread of an extensively drug-resistant (XDR) typhoid strain
  • The strain H58 gained an additional strand of DNA that made it extremely resistant
  • Study says typhoid bugs can easily turn XDR and spread globally

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[ISLAMABAD] The emergence and spread of an extensively drug-resistant (XDR) strain of Salmonella enterica serovar Typhi (S. Typhi), the bacterium responsible for typhoid fever, highlights the need for urgent measures against the disease, according to a study by researchers in Pakistan and the UK.

While multidrug resistant (MDR) S. Typhi strains have become common, the study, which was published in 20 February in mBio, reports that this is the first large-scale spread of an XDR clone, with over 300 recorded cases (although local health authorities say that there are already 800) reported in Pakistan’s Sindh province since November 2016. One travel-associated XDR typhoid case has also surfaced in the UK. 

“The multidrug strain, identified as H58, is resistant to three first-line drugs for typhoid — ampicillin, chloramphenicol, and trimethoprim-sulfamethoxazole. While MDR typhoid can be treated with second-line medicines like ceftriaxone and fluoroquinolone, the new XDR strain is showing resistance to these drugs as well”

Rumina Hasan, Aga Khan University

Rumina Hasan, professor of pathology at the Aga Khan University (AKU) and an author of the study, tells SciDev.Net that the new XDR typhoid strain has mutated to gain additional DNA or plasmids that encode for resistance to multiple antibiotics.

The genetic roots that confer the XDR strain with resistance to five classes of antibiotic drugs were uncovered through genome sequencing of typhoid samples from Pakistan by researchers at the Wellcome Sanger Institute (WSI) and their collaborators at Public Health England and the AKU.

The researchers believed that it probably picked up the plasmid from E. Coli, a bacteria commonly associated with food poisoning through faecal contamination. They also warned that treatment options for typhoid are running out and preventive strategies are urgently needed.

“The multidrug strain, identified as H58, is resistant to three first-line drugs for typhoid — ampicillin, chloramphenicol, and trimethoprim-sulfamethoxazole. While MDR typhoid can be treated with second-line medicines like ceftriaxone and fluoroquinolone, the new XDR strain is showing resistance to these drugs as well,” Hasan tells SciDev.Net

Elizabeth Klemm of the WSI, who co-led the study, says the findings are significant because, while sporadic cases of XDR have been reported in a few countries in Asia and Africa, this is for the first time that “such high levels (large-scale cases) of drug-resistance in typhoid disease have been observed”.   

Typhoid fever, a highly contagious, life-threatening bacterial infection, spreads in areas with poor sanitation, resulting in contamination of food or drinking water. Symptoms include fever, stomach pain, headache and constipation or diarrhoea.

Sergey Eremin, a medical officer for the Antimicrobial Drug Resistance, Infection Control and Publications Unit at the World Health Organization, says the case underscores the fact that S. Typhi can quickly acquire new resistance mechanisms via plasmids and spread resistance genes within and even between different species of bacteria.

More importantly, the study shows the ease with which S. Typhi can transform from MDR to XDR by acquiring a plasmid, and the ability of XDR clones to spread globally, Eremin tells SciDev.Net.

Besides vaccination campaigns, he suggests that Pakistan should strengthen surveillance for antimicrobial resistance, and improvement of sanitation and access to safe drinking water.
 
This piece was produced by SciDev.Net’s Asia & Pacific desk.