Larval Indices of Vector Mosquitoes as Predictors of Dengue Epidemics: An Approach to Manage Dengue Outbreaks Based on Entomological Parameters in the Districts of Colombo and Kandy, Sri Lanka

Lahiru Udayanga; Subashinie Aryaprema; Nayana Gunathilaka; M C M Iqbal; Thilan Fernando; W Abeyewickreme

doi:10.1155/2020/6386952

Larval Indices of Vector Mosquitoes as Predictors of Dengue Epidemics: An Approach to Manage Dengue Outbreaks Based on Entomological Parameters in the Districts of Colombo and Kandy, Sri Lanka

Biomed Res Int. 2020 Jun 16:2020:6386952. doi: 10.1155/2020/6386952. eCollection 2020.

Authors

Lahiru Udayanga^{1

2}, Subashinie Aryaprema³, Nayana Gunathilaka¹, M C M Iqbal⁴, Thilan Fernando⁵, W Abeyewickreme^{1

6}

Affiliations

¹ Faculty of Medicine, University of Kelaniya, Ragama, Sri Lanka.
² Department of Biosystems Engineering, Faculty of Agriculture & Plantation Management, Wayamba University of Sri Lanka, Makadura, Sri Lanka.
³ Regional Entomologist-Western Province, Colombo, Sri Lanka.
⁴ Plant and Environmental Sciences, National Institute of Fundamental Studies, Kandy, Sri Lanka.
⁵ Anti Malaria Campaign, Ministry of Health, Colombo 5, Sri Lanka.
⁶ Department of Para clinical Sciences, Faculty of Medicine, Sir John Kotelawala Defense University, Rathmalana, Sri Lanka.

Abstract

Background: Early detection of dengue epidemics is a vital aspect in control programmes. Predictions based on larval indices of disease vectors are widely used in dengue control, with defined threshold values. However, there is no set threshold in Sri Lanka at the national or regional levels for Aedes larval indices. Therefore, the current study aimed at developing threshold values for vector indices in two dengue high-risk districts in Sri Lanka.

Methods: Monthly vector indices (House Index [HI], Container Index [CI], Breteau Index for Aedes aegypti [BI_agp], and Ae. albopictus [BI_alb]), of ten selected dengue high-risk Medical Officer of Health (MOH) areas located in Colombo and Kandy districts, were collected from January 2010 to June 2019, along with monthly reported dengue cases. Receiver Operating Characteristic (ROC) curve analysis in SPSS (version 23) was used to assess the discriminative power of the larval indices in identifying dengue epidemics and to develop thresholds for the dengue epidemic management.

Results: Only HI and BI_agp denoted significant associations with dengue epidemics at lag periods of one and two months. Based on Ae. aegypti, average threshold values were defined for Colombo as Low Risk (2.4 ≤ BI_agp < 3.8), Moderate Risk (3.8 ≤ BI_agp < 5), High Risk (BI_agp ≥ 5), along with BI_agp 2.9 ≤ BI_agp < 4.2 (Low Risk), 4.2 ≤ BI_agp < 5.3 (Moderate Risk), and BI_agp ≥ 5.3 (High Risk) for Kandy. Further, 5.5 ≤ HI < 8.9, 8.9 ≤ HI < 11.9, and HI ≥ 11.9 were defined as Low Risk, Moderate Risk, and High Risk average thresholds for HI in Colombo, while 6.9 ≤ HI < 9.1 (Low Risk), 8.9 ≥ HI < 11.8 (Moderate Risk), and HI ≥ 11.8 (High Risk) were defined for Kandy.

Conclusions: The defined threshold values for Ae. aegypti and HI could be recommended as indicators for early detection of dengue epidemics and to drive vector management activities, with the objective of managing dengue epidemics with optimal usage of financial, technical, and human resources in Sri Lanka.

MeSH terms

Aedes / growth & development*
Animals
Dengue* / epidemiology
Dengue* / prevention & control
Dengue* / transmission
Epidemics*
Humans
Larva / growth & development
Mosquito Control
Mosquito Vectors / growth & development*
Sri Lanka / epidemiology