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Emerging Trends and Future Prospects in Microfluidic Systems for Prevention and Diagnosis of Infection Pathogens Publisher



Dabbagh Moghaddam F1 ; Rafiee M2 ; Setayeshfar A3 ; Moradi A4 ; Esmaeili Y5 ; Romana Bertani F1 ; Neisiany RE6, 7 ; You Z8 ; Nazarzadeh Zare E9, 10
Authors
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Authors Affiliations
  1. 1. Institute for Photonics and Nanotechnologies, National Research Council, Via Fosso del Cavaliere, 100, Rome, 00133, Italy
  2. 2. Department of Veterinary Sciences, University of Wyoming, 1174 Snowy Range Road Laramie, Laramie, 82070, WY, United States
  3. 3. Charles Perkins Centre and School of Medical Sciences, Faculty of Medicine and Health, The University of Sydney, Sydney, 2006, NSW, Australia
  4. 4. Department of Cellular and Molecular Biology, Faculty of Basic Sciences, Lahijan Branch, Islamic Azad University, Lahijan, 4416939515, Iran
  5. 5. Biosensor Research Center, School of Advanced Technologies in Medicine, Isfahan University of Medical Sciences, Isfahan, 8174673461, Iran
  6. 6. Biotechnology Centre, Silesian University of Technology, Krzywoustego 8, Gliwice, 44–100, Poland
  7. 7. Department of Polymer Engineering, Hakim Sabzevari University, Sabzevar, 9617976487, Iran
  8. 8. State Key Laboratory for Modification of Chemical Fibers and Polymer Materials, College of Materials Science and Engineering, Institute of Functional Materials, Research Base of Textile Materials for Flexible Electronics and Biomedical Applications (China Textile Engineering Society), Shanghai Engineering Research Center of Nano-Biomaterials and Regenerative Medicine, Donghua University, Shanghai, 201620, China
  9. 9. School of Chemistry, Damghan University, Damghan, 36716–45667, Iran
  10. 10. Centre of Research Impact and Outreach, Chitkara University, Punjab, Rajpura, 140417, India

Source: Advanced Materials Technologies Published:2024


Abstract

Infectious diseases caused by bacteria, viruses, fungi, and parasites pose a significant societal challenge. In response, scientists are developing advanced technology to enhance the prevention, diagnosis, and treatment of such diseases. One such promising technology is microfluidic systems, which are utilized in organ-on-a-chip systems to replicate the microenvironments of organs. These systems have potential applications in drug screening, disease modeling, and personalized medicine. This review provides an overview of recent advances in organ-on-a-chip platforms and their potential for preventing and diagnosing various infections. After discussing traditional techniques employed in studying infectious diseases, the role of microfluidic platforms in detecting infections is delved in. It is expound on advanced microfluidic-based strategies for infection diagnosis, such as the polymerase chain reaction-based microfluidic devices, enzyme linked immunosorbent assay-based microfluidic devices, hierarchical nanofluidic molecular enrichment systemand µWestern blotting-based microfluidic devices, and smartphone-based microfluidic devices. Additionally, future research challenges and perspectives are discussed on microfluidic systems in biomedical and regenerative medicine applications. Consequently, microfluidic platforms have the potential to serve as fundamental frameworks for understanding infectious diseases, thereby leading to personalized regenerative medicine. hierarchical nanofluidic molecular enrichment system. © 2024 Wiley-VCH GmbH.
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