| Literature DB >> 34781274 |
Leyla Amirifar1, Mohsen Besanjideh1, Rohollah Nasiri1,2,3,4, Amir Shamloo1,5, Fatemeh Nasrollahi2,3,4, Natan Roberto de Barros2,3,4, Elham Davoodi2,3,6, Ahmet Erdem2,3,7, Mahboobeh Mahmoodi2,3,8, Vahid Hosseini2,3,4, Hossein Montazerian2,3, Jamileh Jahangiry2,3, Mohammad Ali Darabi2,3,4, Reihaneh Haghniaz2,3,4, Mehmet R Dokmeci2,3,4, Nasim Annabi9, Samad Ahadian2,3,4, Ali Khademhosseini2,3,4,9,10.
Abstract
Droplet-based microfluidic systems have been employed to manipulate discrete fluid volumes with immiscible phases. Creating the fluid droplets at microscale has led to a paradigm shift in mixing, sorting, encapsulation, sensing, and designing high throughput devices for biomedical applications. Droplet microfluidics has opened many opportunities in microparticle synthesis, molecular detection, diagnostics, drug delivery, and cell biology. In the present review, we first introduce standard methods for droplet generation (i.e. passive and active methods) and discuss the latest examples of emulsification and particle synthesis approaches enabled by microfluidic platforms. Then, the applications of droplet-based microfluidics in different biomedical applications are detailed. Finally, a general overview of the latest trends along with the perspectives and future potentials in the field are provided.Entities:
Keywords: cell; detection; diagnostics; droplet; drug delivery; microfluidics; particle synthesis
Mesh:
Year: 2022 PMID: 34781274 DOI: 10.1088/1758-5090/ac39a9
Source DB: PubMed Journal: Biofabrication ISSN: 1758-5082 Impact factor: 9.954