AUTHOR=Smith Morgan E. , Newcomb Ken , Otano Yilian Alonso , Michael Edwin 

TITLE=A hierarchical model-based framework for evaluating probabilities of area-wide freedom from lymphatic filariasis infection based on sentinel site surveillance data

JOURNAL=Frontiers in Tropical Diseases

VOLUME=Volume 4 - 2023

YEAR=2023

URL=https://www.frontiersin.org/journals/tropical-diseases/articles/10.3389/fitd.2023.1233763

DOI=10.3389/fitd.2023.1233763

ISSN=2673-7515

ABSTRACT=Design of population surveys to substantiate the elimination of disease transmission across large implementation units (IUs) has become important as many parasite control efforts approach their ending stages. This is especially true for the global program to eliminate lymphatic filariasis (LF), which has successfully reduced infection prevalence in many endemic countries, such that focus has shifted to how best to determine that area-wide elimination of this macroparasitic disease has been achieved. The WHO has recommended a 2-stage lot quality assurance sampling (LQAS) framework based on sampling children from selected clusters within an IU called the Transmission Assessment Survey (TAS) for supporting the making of such decisions, but questions have emerged regarding the reliability of this strategy for assessing if LF is broken effectively everywhere within an area. Here, we develop and describe an alternative probabilistic framework that combines infection status information from longitudinal parasitological surveys of whole communities carried out in sentinel sites, imperfect diagnostic tests, and locally-applicable extinction thresholds predicted by transmission models, to overcome the problems associated with TAS. We applied the framework to LF infection and intervention data from the country of Malawi as a case study, and demonstrate how our hierarchical coupled model-sentinel site survey tool can be used to estimate the probability that LF transmission has occurred at individual survey, village and country-wide scales. We also further demonstrate how the framework can be used in conjunction with zonal or areal design prevalences to estimate the number of sentinel sites and durations of interventions required to acquire sufficiently high confidence that an area is free from infection. Our results indicate that the application of the spatially-driven model-data freedom from infection tool developed here to follow up data from high risk sentinel sites in a region may also offer a highly cost-effective framework for guiding the making of high fiducial and defensible area-wide LF intervention stopping decisions.