Biomimetic camouflaged nanoparticles with selective cellular internalization and migration competences

“…For instance, coating nanoparticles with preosteoblastic cells like MC3T3-E1 cell membranes presents a promising strategy for certain bone diseases, as it demonstrates potential to overcome limitations in drug delivery, while optimizing drug loading and delivery features for enhanced efficacy. 89 Conversely, osteoclasts are responsible for breaking down bone tissue, which is essential for maintaining bone turnover. Nanoparticles coated with osteoclast membranes pose abundant RANK receptor, thereby neutralized RANKL to prevent osteoclastogenesis.…”

Cell membrane coated nanoparticles: cutting-edge drug delivery systems for osteoporosis therapy

“…For instance, coating nanoparticles with preosteoblastic cells like MC3T3-E1 cell membranes presents a promising strategy for certain bone diseases, as it demonstrates potential to overcome limitations in drug delivery, while optimizing drug loading and delivery features for enhanced efficacy. 89 Conversely, osteoclasts are responsible for breaking down bone tissue, which is essential for maintaining bone turnover. Nanoparticles coated with osteoclast membranes pose abundant RANK receptor, thereby neutralized RANKL to prevent osteoclastogenesis.…”

Cell membrane coated nanoparticles: cutting-edge drug delivery systems for osteoporosis therapy

Emerging platelet-based drug delivery systems

Harnessing extracellular vesicle membrane for gene therapy: EVs-biomimetic nanoparticles