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Magnetic field-guided cell delivery with nanoparticle-loaded human corneal endothelial cells.


ABSTRACT: To improve the delivery and integration of cell therapy using magnetic cell guidance for replacement of corneal endothelium, here we assess magnetic nanoparticles' (MNPs') effects on human corneal endothelial cells (HCECs) in vitro. Biocompatible, 50 nm superparamagnetic nanoparticles endocytosed by cultured HCECs induced no short- or long-term change in viability or identity. Assessment of guidance of the magnetic HCECs in the presence of different magnet shapes and field strengths showed a 2.4-fold increase in delivered cell density compared to gravity alone. After cell delivery, HCECs formed a functional monolayer, with no difference in tight junction formation between MNP-loaded and control HCECs. These data suggest that nanoparticle-mediated magnetic cell delivery may increase the efficiency of cell delivery without compromising HCEC survival, identity or function. Future studies may assess the safety and efficacy of this therapeutic modality in vivo. From the clinical editor: The authors show in this article that magnetic force facilitates the delivery of human corneal endothelial cells loaded by superparamagnetic nanoparticles to cornea, without changing their morphology, identity or functional properties. This novel idea can potentially have vast impact in the treatment of corneal endothelial dystrophies by providing self-endothelial cells after ex-vivo expansion.

SUBMITTER: Moysidis SN 

PROVIDER: S-EPMC4691344 | biostudies-literature | 2015 Apr

REPOSITORIES: biostudies-literature

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Magnetic field-guided cell delivery with nanoparticle-loaded human corneal endothelial cells.

Moysidis Stavros N SN   Alvarez-Delfin Karen K   Peschansky Veronica J VJ   Salero Enrique E   Weisman Alejandra D AD   Bartakova Alena A   Raffa Gabriella A GA   Merkhofer Richard M RM   Kador Karl E KE   Kunzevitzky Noelia J NJ   Goldberg Jeffrey L JL  

Nanomedicine : nanotechnology, biology, and medicine 20150114 3


To improve the delivery and integration of cell therapy using magnetic cell guidance for replacement of corneal endothelium, here we assess magnetic nanoparticles' (MNPs') effects on human corneal endothelial cells (HCECs) in vitro. Biocompatible, 50 nm superparamagnetic nanoparticles endocytosed by cultured HCECs induced no short- or long-term change in viability or identity. Assessment of guidance of the magnetic HCECs in the presence of different magnet shapes and field strengths showed a 2.4  ...[more]

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