Details

Autor(en) / Beteiligte

• Martín-López, María
• González-Muñoz, Elena
• Gómez-González, Emilio
• Sánchez-Pernaute, Rosario
• Márquez-Rivas, Javier
• Fernández-Muñoz, Beatriz

Titel

Modeling chronic cervical spinal cord injury in aged rats for cell therapy studies

Ist Teil von

• Journal of clinical neuroscience, 2021-12, Vol.94, p.76-85

Ort / Verlag

Elsevier Ltd

Erscheinungsjahr

2021

Quelle

Alma/SFX Local Collection

Beschreibungen/Notizen

• •Rats showed reduced performance in behavior tests as they aged.•Aged rats had high death rates during training and after injury and cell transplantation.•Neural progenitor cells were present in the spinal cord 4 weeks after transplantation.•Neural progenitor cells could migrate and differentiate and did not cause tumors.•Aged rats failed to recover locomotor activity one month after cell transplantation. With an expanding elderly population, an increasing number of older adults will experience spinal cord injury (SCI) and might be candidates for cell-based therapies, yet there is a paucity of research in this age group. The objective of the present study was to analyze how aged rats tolerate behavioral testing, surgical procedures, post-operative complications, intra-spinal cell transplantation and immunosuppression, and to examine the effectiveness of human iPSC-derived Neural Progenitor Cells (IMR90-hiPSC-NPCs) in a model of SCI. We performed behavioral tests in rats before and after inducing cervical hemi-contusions at C4 level with a fourth-generation Ohio State University Injury Device. Four weeks later, we injected IMR90-hiPSC-NPCs in animals that were immunosuppressed by daily cyclosporine injection. Four weeks after injection we analyzed locomotor behavior and mortality, and histologically assessed the survival of transplanted human NPCs. As rats aged, their success at completing behavioral tests decreased. In addition, we observed high mortality rates during behavioral training (41.2%), after cervical injury (63.2%) and after cell injection (50%). Histological analysis revealed that injected cells survived and remained at and around the grafted site and did not cause tumors. No locomotor improvement was observed in animals four weeks after IMR90-hiPSC-NPC transplantation. Our results show that elderly rats are highly vulnerable to interventions, and thus large groups of animals must be initially established to study the potential efficacy of cell-based therapies in age-related chronic myelopathies.