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Bioimpacts. 2018;8(4): 237-240. doi: 10.15171/bi.2018.26
PMID: 30397578        PMCID: PMC6209828

Editorial

Microfluidic paper-based analytical devices (µPADs) for fast and ultrasensitive sensing of biomarkers and monitoring of diseases

Abdollah Abdollahi-Aghdam 1,2, Mir Reza Majidi 2, Yadollah Omidi 1,3 * ORCID

Cited by CrossRef: 26


1- Zalke J, Narkhede N, Rotake D, Govind Singh S. Facile chemiresistive biosensor functionalized with PANI/GOx and novel green synthesized silver nanoparticles for glucose sensing. Microchemical Journal. 2024;200:110339 [Crossref]
2- Pourseif M, Masoudi-Sobhanzadeh Y, Azari E, Parvizpour S, Barar J, Ansari R, Omidi Y. Self-amplifying mRNA vaccines: Mode of action, design, development and optimization. Drug Discovery Today. 2022;27(11):103341 [Crossref]
3- Krishna S, Jakmunee J, Mishra Y, Prakash J. ZnO based 0–3D diverse nano-architectures, films and coatings for biomedical applications. J Mater Chem B. 2024;12(12):2950 [Crossref]
4- Jiang N, Tansukawat N, Gonzalez-Macia L, Ates H, Dincer C, Güder F, Tasoglu S, Yetisen A. Low-Cost Optical Assays for Point-of-Care Diagnosis in Resource-Limited Settings. ACS Sens. 2021;6(6):2108 [Crossref]
5- Qin Y, Shen J, Qin Y, Hayilati B, Yao J, Zhang M. Research progress on the application of aptamer optimization technology and portable sensing devices in food safety detection. Critical Reviews in Food Science and Nutrition. 2024;:1 [Crossref]
6- Shahid I, Alzahrani A, Al-Ghamdi S, Alanazi I, Rehman S, Hassan S. Hepatitis C Diagnosis: Simplified Solutions, Predictive Barriers, and Future Promises. Diagnostics. 2021;11(7):1253 [Crossref]
7- Mohammadinejad A, Nooranian S, Kazemi Oskuee R, Mirzaei S, Aleyaghoob G, Zarrabi A, Selda Gunduz E, Nuri Ertas Y, Sheikh Beig Goharrizi M. Development of Lateral Flow Assays for Rapid Detection of Troponin I: A Review. Critical Reviews in Analytical Chemistry. 2024;54(7):1936 [Crossref]
8- Dorta-Gorrín A, Navas-Méndez J, Gozalo-Margüello M, Miralles L, García-Hevia L. Detection of SARS-CoV-2 Based on Nucleic Acid Amplification Tests (NAATs) and Its Integration into Nanomedicine and Microfluidic Devices as Point-of-Care Testing (POCT). IJMS. 2023;24(12):10233 [Crossref]
9- Ulloa-Gomez A, Lucas A, Koneru A, Barui A, Stanciu L. Simultaneous colorimetric and electrochemical detection of trace mercury (Hg2+) using a portable and miniaturized aptasensor. Biosensors and Bioelectronics. 2023;221:114419 [Crossref]
10- Pourali A, Omidi Y. Diagnosis of acute myocardial infarction: highlighting cardiac troponins as vital biomarkers. Bioimpacts. 2023;13(2):85 [Crossref]
11- Cai Y, Niu J, Liu Y, Du X, Wu Z. Online sample clean-up and enrichment of proteins from salty media with dynamic double gradients on a paper fluidic channel. Analytica Chimica Acta. 2020;1100:149 [Crossref]
12- Mahmoodpour M, Kiasari B, Karimi M, Abroshan A, Shamshirian D, Hosseinalizadeh H, Delavari A, Mirzei H. Paper-based biosensors as point-of-care diagnostic devices for the detection of cancers: a review of innovative techniques and clinical applications. Front Oncol. 2023;13 [Crossref]
13- Brazaca L, Imamura A, Blasques R, Camargo J, Janegitz B, Carrilho E. The use of biological fluids in microfluidic paper-based analytical devices (μPADs): Recent advances, challenges and future perspectives. Biosensors and Bioelectronics. 2024;246:115846 [Crossref]
14- Siripongpreda T, Rodthongkum N, Ummartyotin S. A critical review on cellulose wastes as the novel substrates for colorimetric and electrochemical sensors. Current Research in Green and Sustainable Chemistry. 2021;4:100190 [Crossref]
15- Chng K, Tan J, Park S, Lim J, Chua D, Le Q, Fang J, Ouyang J, Yap C, Tien S, Leo H, Kim S. Rapid one-step in situ synthesis of carbon nanoparticles with cellulosic paper for biosensing. Sensors and Actuators B: Chemical. 2021;339:129849 [Crossref]
16- Bakirhan N, Ozkan S. Recent Advances and Future Perspectives in Pharmaceutical Analysis. CPA. 2019;16(1):2 [Crossref]
17- Rewatkar P, Goel S. Realization of Optimized Wax Laminated Microfluidic Paper-Based Analytical Devices. ECS J Solid State Sci Technol. 2020;9(11):115025 [Crossref]
18- Chantipmanee N, Xu Y. Toward nanofluidics‐based mass spectrometry for exploring the unknown complex and heterogeneous subcellular worlds. VIEW. 2023;4(1) [Crossref]
19- Ortiz-Martínez M, Flores-DelaToba R, González-González M, Rito-Palomares M. Current Challenges and Future Trends of Enzymatic Paper-Based Point-of-Care Testing for Diabetes Mellitus Type 2. Biosensors. 2021;11(12):482 [Crossref]
20- Pourali A, Barar J, Rashidi M, Pavon-Djavid G, Omidi Y. Ultra-sensitive facile CdS nanocrystals-based electrochemical biosensor to detect myocardial infarction marker troponin. Microchemical Journal. 2021;165:106107 [Crossref]
21- Shandilya R, Ranjan S, Khare S, Bhargava A, Goryacheva I, Mishra P. Point-of-care diagnostics approaches for detection of lung cancer-associated circulating miRNAs. Drug Discovery Today. 2021;26(6):1501 [Crossref]
22- Singh N, Rai N, Singh A, Jain V, Narang J. Paper-based Microfluidic Devices for the Analysis of Various Pathogens from Diverse Samples. CAC. 2024;20(6):367 [Crossref]
23- Galanis P, Katis I, He P, Iles A, Kumar A, Eason R, Sones C. Laser-patterned paper-based flow-through filters and lateral flow immunoassays to enable the detection of C-reactive protein. Talanta. 2022;238:123056 [Crossref]
24- Allameh S, Rabbani M. A Distance-Based Microfluidic Paper-Based Biosensor for Glucose Measurements in Tear Range. Appl Biochem Biotechnol. 2022;194(5):2077 [Crossref]


As a peer-reviewed international open-access journal, BioImpacts publishes articles on basic and translational aspects of pharmaceutical and biomedical sciences. 
Acceptance rate: 24% 
Publication fee: Free of charge