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Expandable Sendai-Virus-Reprogrammed Human iPSC-Neuronal Precursors: In Vivo Post-Grafting Safety Characterization in Rats and Adult Pig
- Kobayashi, Yoshiomi;
- Shigyo, Michiko;
- Platoshyn, Oleksandr;
- Marsala, Silvia;
- Kato, Tomohisa;
- Takamura, Naoki;
- Yoshida, Kenji;
- Kishino, Akiyoshi;
- Bravo-Hernandez, Mariana;
- Juhas, Stefan;
- Juhasova, Jana;
- Studenovska, Hana;
- Proks, Vladimir;
- Driscoll, Shawn P;
- Glenn, Thomas D;
- Pfaff, Samuel L;
- Ciacci, Joseph D;
- Marsala, Martin
- et al.
Published Web Location
https://doi.org/10.1177/09636897221107009Abstract
One of the challenges in clinical translation of cell-replacement therapies is the definition of optimal cell generation and storage/recovery protocols which would permit a rapid preparation of cell-treatment products for patient administration. Besides, the availability of injection devices that are simple to use is critical for potential future dissemination of any spinally targeted cell-replacement therapy into general medical practice. Here, we compared the engraftment properties of established human-induced pluripotent stem cells (hiPSCs)-derived neural precursor cell (NPCs) line once cells were harvested fresh from the cell culture or previously frozen and then grafted into striata or spinal cord of the immunodeficient rat. A newly developed human spinal injection device equipped with a spinal cord pulsation-cancelation magnetic needle was also tested for its safety in an adult immunosuppressed pig. Previously frozen NPCs showed similar post-grafting survival and differentiation profile as was seen for freshly harvested cells. Testing of human injection device showed acceptable safety with no detectable surgical procedure or spinal NPCs injection-related side effects.
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