Recent advances in the utilization of microfluidics for biological and biomedical analysis are reviewed. The introduction of novel materials and techniques into microfluidics leads to more effective analysis of proteins, nucleic acids, small molecules, single cell, and diverse organs with great potential ...
3D printed magnetic digital microfluidics for biomedical applications Single-cell manipulation and analysis is critical to the study of many fundamental biological processes and uncovering cellular heterogeneity, and presents the potential for extremely valuable applications in biomedical fields, including... ...
Microfluidic devices have emerged as a potent tool for biomedical engineering: (1) as disease diagnostic tools that can detect a wide range of biomolecules and biomarkers such as (2) biosensors that provide a rapid analysis of biological particles through small quantities and minimum reagents with ...
Yang, Y.et al.Microfluidics for biomedical analysis.Small Methods4, 1900451.https://doi.org/10.1002/SMTD.201900451(2020). ArticleCASGoogle Scholar Preetam, S.et al.Emergence of microfluidics for next generation biomedical devices.Biosens. Bioelectron.: X10, 100106.https://doi.org/10.1016/J.BIOS...
biological environments, improving the relevance of screening results.As microfluidic technologies continue to advance, they hold the potential to streamline drug discovery and other biomedical applications, paving the way for more targeted, personalized therapies and accelerating the development of new ...
This biomedical microdevice can be used as an integrated and portable high-throughput screening tool for enzyme linked immunosorbent assay (ELISA), clinical diagnostics, drug discovery, microreaction technology, bioseparations, etc. In order for the device to function properly, precise control of the ...
Many emerging opportunities exist for microfluidics — a mature technology in other biomedical areas — in male infertility diagnosis and treatment, and promising microfluidic approaches are under investigation for addressing male infertility. Microfluidic approaches can improve our fundamental understanding of ...
For biomedical applications, microfluidic chip arrays are being used to identify multiple bioparticles [1]. Recent developments in micro-fabrication technologies enabled different types of microfluidic functions such as micro-pumps [2, 3], micro-mixers [4], particle concentrator [5, 6], and ...
Therefore, single cell analysis has become an attractive and challenging field of modern biomedical research. With the rapid development of next generation sequencing (NGS) technology, more and more sequencing technology platforms have emerged and become the foundation of precision medicine. To explore ...
Yafouz, Dielectrophoresis for biomedical sciences applications: A review. Sensors (Switzerland) 17(3), 449 (2017). https://doi.org/10.3390/s17030449 Article Google Scholar K. Rappa, J. Samargia, M. Sher, J.S. Pino, H.F. Rodriguez, W. Asghar, Quantitative analysis of sperm rheotaxis...