Tracking Global Trends in the Effectiveness of Antibiotic Therapy Using the Drug Resistance Index

Tracking Global Trends in the Effectiveness of Antibiotic Therapy Using the Drug Resistance Index
Using a stock-market type index, CDDEP researchers find large disparities in the effectiveness of antibiotic therapies worldwide

Antibiotic resistance poses an increasing threat to global health, development, and food security. Resistance has been driven, in part, by antibiotic use, which has grown 66 percent since the year 2000. Despite global commitments to address antimicrobial resistance, there remains no effective system to track progress at a global scale. Evaluating and communicating the problem of antibiotic resistance to a lay audience is challenging because of the large number of bacterial species and antibiotics involved. Furthermore, single bacterial species can be resistant to multiple classes of antibiotics, and thus the potential threat to patient health, varies based on a pathogen’s genetic makeup and background.

To better communicate the problem of resistance, researchers at CDDEP developed the Drug Resistance Index (DRI) which provides a snapshot of the effectiveness of antibiotic therapy by country. The DRI resembles stock market indices and combines antibiotic consumption measurements with resistance data to help compare aggregate resistance across time and between countries.

“The Drug Resistance Index provides useful and easy to understand metric that combines antibiotic use and resistance into a single number,” said study author Eili Klein. “This makes it easier for policymakers to understand the complex problem of resistance without getting into the details of the variety of different antibiotics and organisms, and to track the problem over time.”

Using resistance data from CDDEP’s ResistanceMap and antibiotic use data obtained from IQVIA’s MIDAS database, researchers calculated the DRI rates for 41 countries. Overall, the DRI rates varied widely across countries and ranged from a low of 8.1 in Sweden to a high of 71.6 in India.

High-income countries generally had lower DRI rates than low- and middle-income countries. The five countries with the lowest DRIs were Sweden (8.1), Canada (9.7), Norway (16.5), Finland (20.2), and Denmark (24.1). Countries with the highest DRIs, and therefore the lowest relative effectiveness of antibiotic therapy, included India (71.6), Thailand (60.6), Ecuador (60.3), and Venezuela (58.9). The DRIs for other select countries were 32.9 in Switzerland, 38.6 in Australia, 45.4 in the UK, 46.8 in Vietnam, and 49.2 in Mexico.

“The DRIs show that low- and middle-income countries not only suffer from a higher burden of disease, but they also have less access to newer, more effective drugs and thus a lower level of antibiotic effectiveness,” noted Dr. Klein.

Variations in DRIs were correlated with country income levels. In high-income countries, higher DRIs were due largely to differences in antibiotic use, with higher levels of antibiotic consumption leading to increases in resistance. For low- and middle-income countries, where per capita antibiotic use is generally lower than high-income countries, higher DRIs may reflect disparities in resistance surveillance and systemic challenges in healthcare systems that increase transmission of resistant pathogens.

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