Paper-based microchip electrophoresis for point-of-care hemoglobin testing

Muhammad Noman Hasan, Arwa Fraiwan, Ran An, Yunus Alapan, Ryan Ung, Asya Akkus, Julia Z. Xu, Amy J. Rezac, Nicholas J. Kocmich, Melissa S. Creary, Tolulope Oginni, Grace Mfon Olanipekun, Fatimah Hassan-Hanga, Binta W. Jibir, Safiya Gambo, Anil K. Verma, Praveen K. Bharti, Suchada Riolueang, Takdanai Ngimhung, Thidarat SuksangplengPriyaleela Thota, Greg Werner, Rajasubramaniam Shanmugam, Aparup Das, Vip Viprakasit, Connie M. Piccone, Jane A. Little, Stephen K. Obaro, Umut A. Gurkan

Research output: Contribution to journalArticle

Abstract

Nearly 7% of the world's population live with a hemoglobin variant. Hemoglobins S, C, and E are the most common and significant hemoglobin variants worldwide. Sickle cell disease, caused by hemoglobin S, is highly prevalent in sub-Saharan Africa and in tribal populations of Central India. Hemoglobin C is common in West Africa, and hemoglobin E is common in Southeast Asia. Screening for significant hemoglobin disorders is not currently feasible in many low-income countries with the high disease burden. Lack of early diagnosis leads to preventable high morbidity and mortality in children born with hemoglobin variants in low-resource settings. Here, we describe HemeChip, the first miniaturized, paper-based, microchip electrophoresis platform for identifying the most common hemoglobin variants easily and affordably at the point-of-care in low-resource settings. HemeChip test works with a drop of blood. HemeChip system guides the user step-by-step through the test procedure with animated on-screen instructions. Hemoglobin identification and quantification is automatically performed, and hemoglobin types and percentages are displayed in an easily understandable, objective way. We show the feasibility and high accuracy of HemeChip via testing 768 subjects by clinical sites in the United States, Central India, sub-Saharan Africa, and Southeast Asia. Validation studies include hemoglobin E testing in Bangkok, Thailand, and hemoglobin S testing in Chhattisgarh, India, and in Kano, Nigeria, where the sickle cell disease burden is the highest in the world. Tests were performed by local users, including healthcare workers and clinical laboratory personnel. Study design, methods, and results are presented according to the Standards for Reporting Diagnostic Accuracy (STARD). HemeChip correctly identified all subjects with hemoglobin S, C, and E variants with 100% sensitivity, and displayed an overall diagnostic accuracy of 98.4% in comparison to reference standard methods. HemeChip is a versatile, mass-producible microchip electrophoresis platform that addresses a major unmet need of decentralized hemoglobin analysis in resource-limited settings.

Original languageEnglish (US)
Pages (from-to)2525-2542
Number of pages18
JournalAnalyst
Volume145
Issue number7
DOIs
StatePublished - Apr 7 2020

ASJC Scopus subject areas

  • Analytical Chemistry
  • Biochemistry
  • Environmental Chemistry
  • Spectroscopy
  • Electrochemistry

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  • Cite this

    Hasan, M. N., Fraiwan, A., An, R., Alapan, Y., Ung, R., Akkus, A., Xu, J. Z., Rezac, A. J., Kocmich, N. J., Creary, M. S., Oginni, T., Olanipekun, G. M., Hassan-Hanga, F., Jibir, B. W., Gambo, S., Verma, A. K., Bharti, P. K., Riolueang, S., Ngimhung, T., ... Gurkan, U. A. (2020). Paper-based microchip electrophoresis for point-of-care hemoglobin testing. Analyst, 145(7), 2525-2542. https://doi.org/10.1039/c9an02250c