SpotMalaria harnesses genomic technologies to monitor the global evolution of malaria parasites, delivering knowledge that will increase the efficiency of malaria elimination and eradication efforts.
Objectives & Coordination
Malaria control and elimination programmes often face practical obstacles that can be tackled more effectively with information about the parasite population.
Novel laboratory methods and analytical tools make it possible to rapidly sequence and genotype Plasmodium genomes from dried blood spots (DBS) collected from malaria patients – allowing for more comprehensive coverage in malaria endemic areas.
SpotMalaria connects local and national partners creating a sampling and reporting network for collecting large numbers of dried blood spots and uses a simple standardised operating procedure (SOP) that is easy to implement in the field.
Our main goal is to provide partners with actionable information to support malaria control interventions. We use state-of-the-art genetic and genomic technologies to rapidly genotype Plasmodium falciparum samples isolated from the finger-prick blood samples.
Our SpotMalaria partners receive a Genetic Report Card for each sample that they contribute, showing whether the parasites carry mutations that make them resistant to antimalarial drugs such as artemisinin or its ACT partner drugs. This allows our partners to rapidly detect changes in drug efficacy and to respond to these changes.
Currently, we report on genetic variations that are relevant to resistance to several antimalarial drugs:
In addition, we report on other genetic variations relevant to parasite epidemiology:
Detection of additional species of Plasmodium in a P. falciparum infection, such as P. vivax, P.knowlesi, P. malariae, P. ovale
Genetic barcodes (101 high-diversity SNPs across the genomes), used to estimate complexity of infection (COI), identify expanding strains and the geographic origins of samples.
We use a set of highly informative single nucleotide polymorphisms (SNPs) to “barcode” parasites, from which we can estimate complexity of infection. We are also able to determine if an infection comprises additional species of Plasmodium, such as P. vivax, P. malariae, P. ovale, and P. knowlesi.
The next project phase will focus on developing easy to use tools that incorporate genetic report card data in the context of the ever-growing database of genotyped malaria parasites. We are also working on methods that allow expansion of genotyping to global partner sites to speed up genotyping time. Additionally, we are working on genotyping methods for typing a similar set of informative loci in P. vivax dried blood spot samples.
In the early phases two networks of scientists, clinicians and public health teams have helped refine SpotMalaria. We have expanded our scope and while still working closely with these networks, we now have partners and collaborations from 24 different countries in Asia, Africa, and South America.
GenRe-Mekong is funded by the Bill & Melinda Gates Foundation to support malaria elimination efforts in the Greater Mekong Subregion, which straddles regions of Cambodia, Vietnam, Laos, Thailand, and South China. The GenRe-Mekong project aims to supply strategically important information from genetic data to national control programmes and other elimination projects, in the most easily implementable, timely, comprehensive and cost-effective manner possible.
Pathogens genomic Diversity Network Africa (PDNA)
The prospect of malaria elimination in Africa presents unique challenges. Malaria is more common and acquired immunity can mean that drug pressure is lower, in addition to the non-biological factors, for example social and political factors, that can affect transmission dynamics. While drug resistance is a large problem, there is also a need to determine how parasite genetics both influence and are influenced by these differences across African populations. To answer these questions, we're partnering with researchers from the PDNA to establish important baseline genetic data across as many populations as possible.
Ghansah et al. Monitoring parasite diversity for malaria elimination in sub-Saharan Africa. Science, 2014; 345(6202): 1297-8. DOI: 10.1126/science.1259423.
For partners that have publications using data produced by the project we ask that the following statement is included in the acknowledgements.
This publication uses data from the MalariaGEN SpotMalaria project as described in 'Jacob CG et al.; Genetic surveillance in the Greater Mekong Subregion and South Asia to support malaria control and elimination; eLife 2021;10:e62997DOI: 10.7554/eLife.62997'. The project is coordinated by the MalariaGEN Resource Centre with funding from Wellcome (206194, 090770). The authors would like to thank the staff of Wellcome Sanger Institute Sample Management, Genotyping, Sequencing and Informatics teams for their contribution.