Abstract

Compared to bulk scaffolds and direct injection of cells alone, the injectable modular units have garnered enormous interest in repairing malfunctioned tissues due to convenience in the packaging of cells, improved cell retention, and minimal invasiveness. Moreover, the porous conformation of these microscale carriers could enhance the medium exchange and improve the level of nutrients and oxygen supplies. The present study illustrates the convenient fabrication of poly(lactic-co-glycolic acid)-based highly open porous microspheres (PLGA-HOPMs) by the facile microfluidic technology for cell delivery applications. The resultant monodispersed PLGA-HOPMs possessed particle sizes of ~400 µm and open pores of ~50 µm with interconnecting windows. Briefly, the emulsified oil droplets (PLGA solution in dichloromethane, DCM), wrapped with the 7.5% (w/v) gelatin aqueous phase, were introduced into the 1% (w/v) continuous flowing poly(vinyl alcohol) (PVA) aqueous solution through the coaxial nozzle in the customized microfluidic setup. Subsequently, the microspheres were subjected to solvent extraction and lyophilization procedures, resulting in the production of HOPMs. Notably, various formulations (concentrations of PLGA and porogen) and processing parameters (emulsifying power, needle gauge, and flow rate of dispersed phase) play crucial roles in the qualities and characteristics of the resulting PLGA HOPMs. Moreover, these architectures might potentially encapsulate various other biochemical cues, such as growth factors, for extended drug discovery and tissue regeneration applications.

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