期刊
ACS BIOMATERIALS SCIENCE & ENGINEERING
卷 7, 期 7, 页码 3053-3068出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsbiomaterials.1c00475
关键词
diatoms; biosilica; drug delivery; nanoparticle synthesis; frustules; biomedical applications
Diatoms are unicellular microalgae with unique micro- to nanoscale structures that can be utilized in nanomedicine and drug/gene delivery. Their applications in nanotechnology and biotechnology include bioimaging/biosensing, drug/gene delivery, photodynamic therapy, microfluidics, biophotonics, solar cells, and molecular filtrations. Genetically engineered diatom microalgae-derived nanoporous biosilica have enabled targeted anticancer drug delivery and show promise for various applications in the future.
Diatoms are unicellular microalga found in soil and almost every aquatic environment (marine and fresh water). Biogenic silica and diatoms are attractive for biotechnological and industrial applications, especially in the field of biomedicine, industrial/synthetic manufacturing processes, and biomedical/pharmaceutical sciences. Deposition of silica by diatoms allows them to create micro- or nanoscale structures which may be utilized in nanomedicine and especially in drug/gene delivery. Diatoms with their unique architectures, good thermal stability, suitable surface area, simple chemical functionalization/modification procedures, ease of genetic manipulations, optical/photonic characteristics, mechanical resistance, and eco-friendliness, can be utilized as smart delivery platforms. The micro- to nanoscale properties of the diatom frustules have garnered a great deal of attention for their application in diverse areas of nanotechnology and biotechnology, such as bioimaging/biosensing, biosensors, drug/gene delivery, photodynamic therapy, microfluidics, biophotonics, solar cells, and molecular filtrations. Additionally, the genetically engineered diatom microalgae-derived nanoporous biosilica have enabled the targeted anticancer drug delivery to neuroblastoma and B-lymphoma cells as well as the mouse xenograft model of neuroblastoma. In this perspective, current trends and recent advances related to the applications of diatoms for the synthesis of nanoparticles, gene/drug delivery, biosensing determinations, biofuel production, and remediation of heavy metals are deliberated, including the underlying significant challenges and future perspectives.
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