# Susceptibility of Anopheles stephensi SDA500 strain to common insecticides and efficacy of glazed tile bioassay for resistance characterization

**Authors:** Michele Matera, Melanie Nolden, Sebastian Horstmann, Derric Nimmo, Mark J.I. Paine, David Weetman

PMC · DOI: 10.1016/j.crpvbd.2026.100347 · 2026-01-01

## TL;DR

This study tests the insecticide susceptibility of a commonly used mosquito strain and compares two bioassay methods for efficiency and accuracy.

## Contribution

The first comprehensive LC50 dataset for Anopheles stephensi SDA500 and a comparison of bioassay methods for insecticide resistance testing.

## Key findings

- SDA500 strain of Anopheles stephensi is fully susceptible to all tested insecticides.
- Glazed tile bioassays offer a faster and less resource-intensive alternative to bottle bioassays.
- Divergence in results was observed for certain insecticides requiring MERO®.

## Abstract

Research on the urban malaria vector Anopheles stephensi has intensified in recent years following its rapid spread throughout the Horn of Africa and beyond. In addition to behavioural and ecological traits which may limit the efficacy of control efforts, insecticide resistance is a notable problem in invasive An. stephensi populations. The most frequently used laboratory reference strain for An. stephensi is SDA500 originally colonized from Pakistan; though considered insecticide susceptible, quantitative demonstration of this crucial assumption is lacking. We characterized the susceptibility status of SDA500 against multiple insecticide classes used for adult and larval control using the standard WHO techniques for larval bioassays and two alternatives for adults: bottle bioassays and glazed tile bioassays. SDA500 showed full susceptibility against all insecticides tested, and via dose-response assays, we provide the first comprehensive LC50 dataset for a strain of An. stephensi, filling a key knowledge gap and providing an important resource for all future studies of resistance in this important malaria vector. Whilst tile and bottle adult bioassays produced broadly comparable results for both SDA500 and additional laboratory strains, differences were found when testing neonicotinoids and butenolides, which require the addition of the compound MERO® for effectiveness. Nevertheless, the glazed tile bioassay represents a much higher throughput and less resource-intensive technique than bottle bioassays for simultaneous screening of multiple insecticides.

Image 1

•The reference SDA500 strain of Anopheles stephensi was characterized for susceptibility to 19 insecticides.•Dose-response curves provided a baseline for future studies on resistance in this invasive malaria vector.•Two methods – standard WHO bottle bioassay and the newer glazed tile assay were compared.•Whilst results from the methods were generally correspondent, divergence was noted for insecticides requiring MERO®.•Glazed tile assays may represent an economical, rapid and higher throughput alternative to bottle bioassays.

The reference SDA500 strain of Anopheles stephensi was characterized for susceptibility to 19 insecticides.

Dose-response curves provided a baseline for future studies on resistance in this invasive malaria vector.

Two methods – standard WHO bottle bioassay and the newer glazed tile assay were compared.

Whilst results from the methods were generally correspondent, divergence was noted for insecticides requiring MERO®.

Glazed tile assays may represent an economical, rapid and higher throughput alternative to bottle bioassays.

## Linked entities

- **Diseases:** malaria (MONDO:0005136)
- **Species:** Anopheles stephensi (taxon 30069)

## Full-text entities

- **Diseases:** malaria (MESH:D008288)
- **Chemicals:** MERO (-), neonicotinoids (MESH:D000073943), butenolides (MESH:C004511)
- **Species:** Anopheles stephensi (Asian malaria mosquito, species) [taxon 30069]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12811468/full.md

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Source: https://tomesphere.com/paper/PMC12811468