Sensitive near point-of-care detection of asymptomatic and submicroscopic Plasmodium falciparum infections in African endemic countries

Julie Balen; Dimbintsoa Rakotomalala Robinson; Ivana Pennisi; Matthew L. Cavuto; Francois Kiemde; Martin Chamai; Diane Yirgnur Some; Elliot Quigley; Kenny Malpartida-Cardenas; Mamadou O. Ndiath; Simon Correa; Bubacarr Darboe; Lindsay B. Stewart; Pantelis Georgiou; Mamadu Baldeh; Halidou Tinto; Aubrey J. Cunnington; Annette Erhart; Umberto D’Alessandro; Jesus Rodriguez-Manzano; Azumah Abdul-Tawab; Jamal-Deen Abdulai; Mohammed Abumanga; Jane Achan; Darlington A. Akogo; Angelina A. Amengu; Linda E. Amoah; Tochukwu D. Anyaduba; Emilia A. Udofia; Gordon A. Awandare; Frances B. da-Costa Vroom; Kevin Baker Leonard Baatiema; Fatou Baldeh; Jake Baum; Weston Baxter; Craig Bonnington; Salome A. Bukachi; Céire E. Costelloe; Luc P. de Witte; Samuel Duodu; Francis Dzabeng; Fahad A. Elnour; Joe Fitchett; Sahar Gamil; Sebastian S. Hachizovu; Prudence Hamade; Muzamil M. Abdel Hamid; Jethro A. Herberg; Waleed M. A. Jebreel; Jean-Bertin Kabuya; Flavia K. Bawa; Myrsini Kaforou; Dennis O. Laryea; Michael Levin; Christine Manyando; Abdelrahim O. Mohamed; Shola K. Molemodile Dele-Olowu; Nicolas Moser; Sydney Mwanza; Erick Odoyo; Patience Ofosuhemaa; Lucy C. Okell; Abubakr Omer; Francesca M. Piffer; Talya Porat; Anthony W. Sifuna; Maria Suau Sans; Faiza U. Bawah; Effua Usuf; Alfred E. Yawson; Shunmay Yeung; Asadu Sserwanga

doi:10.1038/s41467-025-64027-4

Sensitive near point-of-care detection of asymptomatic and submicroscopic Plasmodium falciparum infections in African endemic countries

Julie Balen
, Dimbintsoa Rakotomalala Robinson
, Ivana Pennisi
, Matthew L. Cavuto
, Francois Kiemde
, Martin Chamai
, Diane Yirgnur Some
, Elliot Quigley
, Kenny Malpartida-Cardenas
, Mamadou O. Ndiath
, Simon Correa
, Bubacarr Darboe
, Lindsay B. Stewart
, Pantelis Georgiou
, Mamadu Baldeh
, Halidou Tinto
, Aubrey J. Cunnington
, Annette Erhart
, Umberto D’Alessandro
, Jesus Rodriguez-Manzano

Azumah Abdul-Tawab, Jamal-Deen Abdulai, Mohammed Abumanga, Jane Achan, Darlington A. Akogo, Angelina A. Amengu, Linda E. Amoah, Tochukwu D. Anyaduba, Emilia A. Udofia, Gordon A. Awandare, Frances B. da-Costa Vroom, Kevin Baker Leonard Baatiema, Fatou Baldeh, Jake Baum, Weston Baxter, Craig Bonnington, Salome A. Bukachi, Céire E. Costelloe, Luc P. de Witte, Samuel Duodu, Francis Dzabeng, Fahad A. Elnour, Joe Fitchett, Sahar Gamil, Sebastian S. Hachizovu, Prudence Hamade, Muzamil M. Abdel Hamid, Jethro A. Herberg, Waleed M. A. Jebreel, Jean-Bertin Kabuya, Flavia K. Bawa, Myrsini Kaforou, Dennis O. Laryea, Michael Levin, Christine Manyando, Abdelrahim O. Mohamed, Shola K. Molemodile Dele-Olowu, Nicolas Moser, Sydney Mwanza, Erick Odoyo, Patience Ofosuhemaa, Lucy C. Okell, Abubakr Omer, Francesca M. Piffer, Talya Porat, Anthony W. Sifuna, Maria Suau Sans, Faiza U. Bawah, Effua Usuf, Alfred E. Yawson, Shunmay Yeung, Asadu Sserwanga

Research output: Contribution to journal › Article › peer-review

Abstract

Limited diagnostic capacity for detecting asymptomatic malaria infections with low parasite densities hinders elimination efforts in Africa. Here, we adapt a near point-of-care, LAMP-based diagnostic platform for malaria diagnosis using capillary blood. This Pan/Pf detection method meets the Malaria Eradication Research Agenda (malERA) criteria for community-level screening, with a limit of detection of 0.6 parasites/μL and a sample-to-result time under 45 minutes. We evaluate its performance on 672 capillary blood samples collected at the community level in The Gambia and Burkina Faso, including 146 Plasmodium falciparum positives confirmed by qPCR. The diagnostic platform achieved 95.2% sensitivity (95% CI: 90.4–98.1) and 96.8% specificity (95% CI: 94.9–98.0). It also detected 94.9% (130/137) of asymptomatic infections and 95.3% (41/43) of submicroscopic cases (<16 parasites/μL), outperforming expert microscopy (70.1% and 0%) and rapid diagnostic tests (49.6% and 4.7%). This field-deployable molecular diagnostic method offers a sensitive, scalable solution to support test-and-treat strategies for malaria elimination across Africa.

Original language	English
Journal	Nature Communications
Volume	16
Issue number	8925
DOIs	https://doi.org/10.1038/s41467-025-64027-4
Publication status	Published - 10 Oct 2025

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 3 Good Health and Well-being

Keywords

Africa
Burkino Faso
Diagnostic capacity
High-throughput screening
Infection control
Infection detection
Malaria
Malaria diagnosis
Microbiology techniques
Plasmodium falciparum
The Gambia

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Balen, J., Robinson, D. R., Pennisi, I., Cavuto, M. L., Kiemde, F., Chamai, M., Some, D. Y., Quigley, E., Malpartida-Cardenas, K., Ndiath, M. O., Correa, S., Darboe, B., Stewart, L. B., Georgiou, P., Baldeh, M., Tinto, H., Cunnington, A. J., Erhart, A., D’Alessandro, U., ... Sserwanga, A. (2025). Sensitive near point-of-care detection of asymptomatic and submicroscopic Plasmodium falciparum infections in African endemic countries. Nature Communications, 16(8925). https://doi.org/10.1038/s41467-025-64027-4

@article{ffcf88a02d0741618acd975e4f062b0f,

title = "Sensitive near point-of-care detection of asymptomatic and submicroscopic Plasmodium falciparum infections in African endemic countries",

abstract = "Limited diagnostic capacity for detecting asymptomatic malaria infections with low parasite densities hinders elimination efforts in Africa. Here, we adapt a near point-of-care, LAMP-based diagnostic platform for malaria diagnosis using capillary blood. This Pan/Pf detection method meets the Malaria Eradication Research Agenda (malERA) criteria for community-level screening, with a limit of detection of 0.6 parasites/μL and a sample-to-result time under 45 minutes. We evaluate its performance on 672 capillary blood samples collected at the community level in The Gambia and Burkina Faso, including 146 Plasmodium falciparum positives confirmed by qPCR. The diagnostic platform achieved 95.2\% sensitivity (95\% CI: 90.4–98.1) and 96.8\% specificity (95\% CI: 94.9–98.0). It also detected 94.9\% (130/137) of asymptomatic infections and 95.3\% (41/43) of submicroscopic cases (<16 parasites/μL), outperforming expert microscopy (70.1\% and 0\%) and rapid diagnostic tests (49.6\% and 4.7\%). This field-deployable molecular diagnostic method offers a sensitive, scalable solution to support test-and-treat strategies for malaria elimination across Africa.",

keywords = "Africa, Burkino Faso, Diagnostic capacity, High-throughput screening, Infection control, Infection detection, Malaria, Malaria diagnosis, Microbiology techniques, Plasmodium falciparum, The Gambia",

author = "Julie Balen and Robinson, \{Dimbintsoa Rakotomalala\} and Ivana Pennisi and Cavuto, \{Matthew L.\} and Francois Kiemde and Martin Chamai and Some, \{Diane Yirgnur\} and Elliot Quigley and Kenny Malpartida-Cardenas and Ndiath, \{Mamadou O.\} and Simon Correa and Bubacarr Darboe and Stewart, \{Lindsay B.\} and Pantelis Georgiou and Mamadu Baldeh and Halidou Tinto and Cunnington, \{Aubrey J.\} and Annette Erhart and Umberto D{\textquoteright}Alessandro and Jesus Rodriguez-Manzano and Azumah Abdul-Tawab and Jamal-Deen Abdulai and Mohammed Abumanga and Jane Achan and Akogo, \{Darlington A.\} and Amengu, \{Angelina A.\} and Amoah, \{Linda E.\} and Anyaduba, \{Tochukwu D.\} and Udofia, \{Emilia A.\} and Awandare, \{Gordon A.\} and Vroom, \{Frances B. da-Costa\} and \{Leonard Baatiema\}, \{Kevin Baker\} and Fatou Baldeh and Jake Baum and Weston Baxter and Craig Bonnington and Bukachi, \{Salome A.\} and Costelloe, \{C{\'e}ire E.\} and Witte, \{Luc P. de\} and Samuel Duodu and Francis Dzabeng and Elnour, \{Fahad A.\} and Joe Fitchett and Sahar Gamil and Hachizovu, \{Sebastian S.\} and Prudence Hamade and Hamid, \{Muzamil M. Abdel\} and Herberg, \{Jethro A.\} and Jebreel, \{Waleed M. A.\} and Jean-Bertin Kabuya and Bawa, \{Flavia K.\} and Myrsini Kaforou and Laryea, \{Dennis O.\} and Michael Levin and Christine Manyando and Mohamed, \{Abdelrahim O.\} and Dele-Olowu, \{Shola K. Molemodile\} and Nicolas Moser and Sydney Mwanza and Erick Odoyo and Patience Ofosuhemaa and Okell, \{Lucy C.\} and Abubakr Omer and Piffer, \{Francesca M.\} and Talya Porat and Sifuna, \{Anthony W.\} and Sans, \{Maria Suau\} and Bawah, \{Faiza U.\} and Effua Usuf and Yawson, \{Alfred E.\} and Shunmay Yeung and Asadu Sserwanga",

year = "2025",

month = oct,

day = "10",

doi = "10.1038/s41467-025-64027-4",

language = "English",

volume = "16",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Research",

number = "8925",

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Balen, J, Robinson, DR, Pennisi, I, Cavuto, ML, Kiemde, F, Chamai, M, Some, DY, Quigley, E, Malpartida-Cardenas, K, Ndiath, MO, Correa, S, Darboe, B, Stewart, LB, Georgiou, P, Baldeh, M, Tinto, H, Cunnington, AJ, Erhart, A, D’Alessandro, U, Rodriguez-Manzano, J, Abdul-Tawab, A, Abdulai, J-D, Abumanga, M, Achan, J, Akogo, DA, Amengu, AA, Amoah, LE, Anyaduba, TD, Udofia, EA, Awandare, GA, Vroom, FBD-C, Leonard Baatiema, KB, Baldeh, F, Baum, J, Baxter, W, Bonnington, C, Bukachi, SA, Costelloe, CE, Witte, LPD, Duodu, S, Dzabeng, F, Elnour, FA, Fitchett, J, Gamil, S, Hachizovu, SS, Hamade, P, Hamid, MMA, Herberg, JA, Jebreel, WMA, Kabuya, J-B, Bawa, FK, Kaforou, M, Laryea, DO, Levin, M, Manyando, C, Mohamed, AO, Dele-Olowu, SKM, Moser, N, Mwanza, S, Odoyo, E, Ofosuhemaa, P, Okell, LC, Omer, A, Piffer, FM, Porat, T, Sifuna, AW, Sans, MS, Bawah, FU, Usuf, E, Yawson, AE, Yeung, S & Sserwanga, A 2025, 'Sensitive near point-of-care detection of asymptomatic and submicroscopic Plasmodium falciparum infections in African endemic countries', Nature Communications, vol. 16, no. 8925. https://doi.org/10.1038/s41467-025-64027-4

TY - JOUR

T1 - Sensitive near point-of-care detection of asymptomatic and submicroscopic Plasmodium falciparum infections in African endemic countries

AU - Balen, Julie

AU - Robinson, Dimbintsoa Rakotomalala

AU - Pennisi, Ivana

AU - Cavuto, Matthew L.

AU - Kiemde, Francois

AU - Chamai, Martin

AU - Some, Diane Yirgnur

AU - Quigley, Elliot

AU - Malpartida-Cardenas, Kenny

AU - Ndiath, Mamadou O.

AU - Correa, Simon

AU - Darboe, Bubacarr

AU - Stewart, Lindsay B.

AU - Georgiou, Pantelis

AU - Baldeh, Mamadu

AU - Tinto, Halidou

AU - Cunnington, Aubrey J.

AU - Erhart, Annette

AU - D’Alessandro, Umberto

AU - Rodriguez-Manzano, Jesus

AU - Abdul-Tawab, Azumah

AU - Abdulai, Jamal-Deen

AU - Abumanga, Mohammed

AU - Achan, Jane

AU - Akogo, Darlington A.

AU - Amengu, Angelina A.

AU - Amoah, Linda E.

AU - Anyaduba, Tochukwu D.

AU - Udofia, Emilia A.

AU - Awandare, Gordon A.

AU - Vroom, Frances B. da-Costa

AU - Leonard Baatiema, Kevin Baker

AU - Baldeh, Fatou

AU - Baum, Jake

AU - Baxter, Weston

AU - Bonnington, Craig

AU - Bukachi, Salome A.

AU - Costelloe, Céire E.

AU - Witte, Luc P. de

AU - Duodu, Samuel

AU - Dzabeng, Francis

AU - Elnour, Fahad A.

AU - Fitchett, Joe

AU - Gamil, Sahar

AU - Hachizovu, Sebastian S.

AU - Hamade, Prudence

AU - Hamid, Muzamil M. Abdel

AU - Herberg, Jethro A.

AU - Jebreel, Waleed M. A.

AU - Kabuya, Jean-Bertin

AU - Bawa, Flavia K.

AU - Kaforou, Myrsini

AU - Laryea, Dennis O.

AU - Levin, Michael

AU - Manyando, Christine

AU - Mohamed, Abdelrahim O.

AU - Dele-Olowu, Shola K. Molemodile

AU - Moser, Nicolas

AU - Mwanza, Sydney

AU - Odoyo, Erick

AU - Ofosuhemaa, Patience

AU - Okell, Lucy C.

AU - Omer, Abubakr

AU - Piffer, Francesca M.

AU - Porat, Talya

AU - Sifuna, Anthony W.

AU - Sans, Maria Suau

AU - Bawah, Faiza U.

AU - Usuf, Effua

AU - Yawson, Alfred E.

AU - Yeung, Shunmay

AU - Sserwanga, Asadu

PY - 2025/10/10

Y1 - 2025/10/10

N2 - Limited diagnostic capacity for detecting asymptomatic malaria infections with low parasite densities hinders elimination efforts in Africa. Here, we adapt a near point-of-care, LAMP-based diagnostic platform for malaria diagnosis using capillary blood. This Pan/Pf detection method meets the Malaria Eradication Research Agenda (malERA) criteria for community-level screening, with a limit of detection of 0.6 parasites/μL and a sample-to-result time under 45 minutes. We evaluate its performance on 672 capillary blood samples collected at the community level in The Gambia and Burkina Faso, including 146 Plasmodium falciparum positives confirmed by qPCR. The diagnostic platform achieved 95.2% sensitivity (95% CI: 90.4–98.1) and 96.8% specificity (95% CI: 94.9–98.0). It also detected 94.9% (130/137) of asymptomatic infections and 95.3% (41/43) of submicroscopic cases (<16 parasites/μL), outperforming expert microscopy (70.1% and 0%) and rapid diagnostic tests (49.6% and 4.7%). This field-deployable molecular diagnostic method offers a sensitive, scalable solution to support test-and-treat strategies for malaria elimination across Africa.

AB - Limited diagnostic capacity for detecting asymptomatic malaria infections with low parasite densities hinders elimination efforts in Africa. Here, we adapt a near point-of-care, LAMP-based diagnostic platform for malaria diagnosis using capillary blood. This Pan/Pf detection method meets the Malaria Eradication Research Agenda (malERA) criteria for community-level screening, with a limit of detection of 0.6 parasites/μL and a sample-to-result time under 45 minutes. We evaluate its performance on 672 capillary blood samples collected at the community level in The Gambia and Burkina Faso, including 146 Plasmodium falciparum positives confirmed by qPCR. The diagnostic platform achieved 95.2% sensitivity (95% CI: 90.4–98.1) and 96.8% specificity (95% CI: 94.9–98.0). It also detected 94.9% (130/137) of asymptomatic infections and 95.3% (41/43) of submicroscopic cases (<16 parasites/μL), outperforming expert microscopy (70.1% and 0%) and rapid diagnostic tests (49.6% and 4.7%). This field-deployable molecular diagnostic method offers a sensitive, scalable solution to support test-and-treat strategies for malaria elimination across Africa.

KW - Africa

KW - Burkino Faso

KW - Diagnostic capacity

KW - High-throughput screening

KW - Infection control

KW - Infection detection

KW - Malaria

KW - Malaria diagnosis

KW - Microbiology techniques

KW - Plasmodium falciparum

KW - The Gambia

U2 - 10.1038/s41467-025-64027-4

DO - 10.1038/s41467-025-64027-4

M3 - Article

SN - 2041-1723

VL - 16

JO - Nature Communications

JF - Nature Communications

IS - 8925

ER -

Sensitive near point-of-care detection of asymptomatic and submicroscopic Plasmodium falciparum infections in African endemic countries

Abstract

UN SDGs

Keywords

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