Microfluidic Paper-based Device for Medicinal Diagnosis

doi:10.2174/1568026623666221103103211

. 2022;22(27):2282-2313.

doi: 10.2174/1568026623666221103103211.

Microfluidic Paper-based Device for Medicinal Diagnosis

Atchara Lomae^{1

2}, Pattarachaya Preechakasedkit², Kanyapat Teekayupak¹, Yosita Panraksa^{1

3}, Jutiporn Yukird², Orawon Chailapakul¹, Nipapan Ruecha^{1

2}

Affiliations

¹ Electrochemistry and Optical Spectroscopy Center of Excellence (EOSCE), Department of Chemistry, Faculty of Science, Chulalongkorn University, 254 Phayathai Road, Pathumwan, Bangkok, 10330, Thailand.
² Metallurgy and Materials Science Research Institute, Chulalongkorn University, Soi Chula 12, Phayathai Rd., Pathumwan, Bangkok, 10330, Thailand.
³ Mycobacteria Research Laboratories, Department of Microbiology, Immunology, and Pathology, Colorado State University, Fort Collins, CO 80523, United States of America.

PMID: 36330618
DOI: 10.2174/1568026623666221103103211

Microfluidic Paper-based Device for Medicinal Diagnosis

Atchara Lomae et al. Curr Top Med Chem. 2022.

. 2022;22(27):2282-2313.

doi: 10.2174/1568026623666221103103211.

Authors

Atchara Lomae^{1

2}, Pattarachaya Preechakasedkit², Kanyapat Teekayupak¹, Yosita Panraksa^{1

3}, Jutiporn Yukird², Orawon Chailapakul¹, Nipapan Ruecha^{1

2}

Affiliations

¹ Electrochemistry and Optical Spectroscopy Center of Excellence (EOSCE), Department of Chemistry, Faculty of Science, Chulalongkorn University, 254 Phayathai Road, Pathumwan, Bangkok, 10330, Thailand.
² Metallurgy and Materials Science Research Institute, Chulalongkorn University, Soi Chula 12, Phayathai Rd., Pathumwan, Bangkok, 10330, Thailand.
³ Mycobacteria Research Laboratories, Department of Microbiology, Immunology, and Pathology, Colorado State University, Fort Collins, CO 80523, United States of America.

PMID: 36330618
DOI: 10.2174/1568026623666221103103211

Abstract

Background: The demand for point-of-care testing (POCT) devices has rapidly grown since they offer immediate test results with ease of use, makingthem suitable for home self-testing patients and caretakers. However, the POCT development has faced the challenges of increased cost and limited resources. Therefore, the paper substrate as a low-cost material has been employed to develop a cost-effective POCT device, known as "Microfluidic paper-based analytical devices (μPADs)". This device is gaining attention as a promising tool for medicinal diagnostic applications owing to its unique features of simple fabrication, low cost, enabling manipulation flow (capillarydriven flow), the ability to store reagents, and accommodating multistep assay requirements.

Objective: This review comprehensively examines the fabrication methods and device designs (2D/3D configuration) and their advantages and disadvantages, focusing on updated μPADs applications for motif identification.

Methods: The evolution of paper-based devices, starting from the traditional devices of dipstick and lateral flow assay (LFA) with μPADs, has been described. Patterned structure fabrication of each technique has been compared among the equipment used, benefits, and drawbacks. Microfluidic device designs, including 2D and 3D configurations, have been introduced as well as their modifications. Various designs of μPADs have been integrated with many powerful detection methods such as colorimetry, electrochemistry, fluorescence, chemiluminescence, electrochemiluminescence, and SER-based sensors for medicinal diagnosis applications.

Conclusion: The μPADs potential to deal with commercialization in terms of the state-of-the-art of μPADs in medicinal diagnosis has been discussed. A great prototype, which is currently in a reallife application breakthrough, has been updated.

Keywords: Device design; Lateral flow assay (LFA); Medicinal diagnosis; Microfluidic paper-based analytical devices (μPADs); Paper-based analytical device; Pointof- care testing (POC); Three-dimensional (3D) configuration.; Two-dimensional (2D) configurations.

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Label-Free Detection of Waterborne Pathogens Using an All-Solid-State Laser-Induced Graphene Potentiometric Ion Flux Immunosensor.
Preechakasedkit P, Pulsrikarn C, Nuanualsuwan S, Rattanadilok Na Phuket N, Citterio D, Ruecha N. Preechakasedkit P, et al. Anal Chem. 2024 Sep 12;96(38):15476-83. doi: 10.1021/acs.analchem.4c03607. Online ahead of print. Anal Chem. 2024. PMID: 39263981 Free PMC article.

References

1. Sher M.; Zhuang R.; Demirci U.; Asghar W.; Paper-based analytical devices for clinical diagnosis: recent advances in the fabrication techniques and sensing mechanisms. Expert Rev Mol Diagn 2017,17(4),351-366 - DOI - PubMed
1. Meredith N.A.; Quinn C.; Cate D.M.; Reilly T.H.; Volckens J.; Henry C.S.; Paper-based analytical devices for environmental analy-sis. Analyst (Lond) 2016,141(6),1874-1887 - DOI - PubMed
1. Manisha H.; Priya Shwetha P.D.; Prasad K.S.; Low-Cost paper Analytical Devices for Environmental and Biomedical Sensing Applica-tions. Environmental, Chemical and Medical Sensors 2018,315-341 - DOI
1. Busa L.S.A.; Mohammadi S.; Maeki M.; Ishida A.; Tani H.; Tokeshi M.; Advances in microfluidic paper-based analytical devices for food and water analysis. Micromachines (Basel) 2016,7(5),86 - DOI
1. Ayong L.S.; Tume C.B.; Wembe F.E.; Simo G.; Asonganyi T.; Lando G.; Ngu J.L.; Development and evaluation of an antigen detection dipstick assay for the diagnosis of human onchocerciasis. Trop Med Int Health 2005,10(3),228-233 - DOI - PubMed

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N41A640073/National Research Council of Thailand (NRCT)

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[1] Sher M.; Zhuang R.; Demirci U.; Asghar W.; Paper-based analytical devices for clinical diagnosis: recent advances in the fabrication techniques and sensing mechanisms. Expert Rev Mol Diagn 2017,17(4),351-366 - DOI - PubMed

[2] Sher M.; Zhuang R.; Demirci U.; Asghar W.; Paper-based analytical devices for clinical diagnosis: recent advances in the fabrication techniques and sensing mechanisms. Expert Rev Mol Diagn 2017,17(4),351-366 - DOI - PubMed

[3] Meredith N.A.; Quinn C.; Cate D.M.; Reilly T.H.; Volckens J.; Henry C.S.; Paper-based analytical devices for environmental analy-sis. Analyst (Lond) 2016,141(6),1874-1887 - DOI - PubMed

[4] Meredith N.A.; Quinn C.; Cate D.M.; Reilly T.H.; Volckens J.; Henry C.S.; Paper-based analytical devices for environmental analy-sis. Analyst (Lond) 2016,141(6),1874-1887 - DOI - PubMed

[5] Manisha H.; Priya Shwetha P.D.; Prasad K.S.; Low-Cost paper Analytical Devices for Environmental and Biomedical Sensing Applica-tions. Environmental, Chemical and Medical Sensors 2018,315-341 - DOI

[6] Manisha H.; Priya Shwetha P.D.; Prasad K.S.; Low-Cost paper Analytical Devices for Environmental and Biomedical Sensing Applica-tions. Environmental, Chemical and Medical Sensors 2018,315-341 - DOI

[7] Busa L.S.A.; Mohammadi S.; Maeki M.; Ishida A.; Tani H.; Tokeshi M.; Advances in microfluidic paper-based analytical devices for food and water analysis. Micromachines (Basel) 2016,7(5),86 - DOI

[8] Busa L.S.A.; Mohammadi S.; Maeki M.; Ishida A.; Tani H.; Tokeshi M.; Advances in microfluidic paper-based analytical devices for food and water analysis. Micromachines (Basel) 2016,7(5),86 - DOI

[9] Ayong L.S.; Tume C.B.; Wembe F.E.; Simo G.; Asonganyi T.; Lando G.; Ngu J.L.; Development and evaluation of an antigen detection dipstick assay for the diagnosis of human onchocerciasis. Trop Med Int Health 2005,10(3),228-233 - DOI - PubMed

[10] Ayong L.S.; Tume C.B.; Wembe F.E.; Simo G.; Asonganyi T.; Lando G.; Ngu J.L.; Development and evaluation of an antigen detection dipstick assay for the diagnosis of human onchocerciasis. Trop Med Int Health 2005,10(3),228-233 - DOI - PubMed

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Microfluidic Paper-based Device for Medicinal Diagnosis

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Microfluidic Paper-based Device for Medicinal Diagnosis

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