Publication details

Nanotechnology and mesenchymal stem cells with chondrocytes in prevention of partial growth plate arrest in pigs

Authors

PLÁNKA Ladislav SRNEC Robert RAUŠER Petr STARÝ David FILOVÁ Eva JANCAR Josef JUHASOVÁ Jana KŘEN Leoš NEČAS Alois GÁL Petr

Year of publication 2012
Type Article in Periodical
Magazine / Source Biomedical Papers
MU Faculty or unit

Faculty of Medicine

Citation
Doi http://dx.doi.org/10.5507/bp.2012.041
Field Surgery incl. transplantology
Keywords mesenchymal stem cells; growth plate defect; cartilage; bone bridge
Attached files
Description Introduction. This study describes the results achieved using a combination of allogeneic mesenchymal stem cells (MSCs) with chondrocytes (CHC) and a new scaffold consisting of type-I collagen and chitosan nanofibers in the prevention of partial growth plate arrest after iatrogenic injury in pigs. Material and methods. The miniature pig was selected as an experimental model to compare the results in the left femoral bones (MSCs and CHC in scaffold transplantation into the iatrogenic partial distal growth plate defect) and right femoral bones (scaffold alone transplantation). The experimental group consisted of 10 animals. Bone marrow from os ilium as the source of MSCs was used. A porous cylinder consisting of 0.5% by weight type-I collagen and 30% by weight chitosan, was the optimal choice. The length of the bone and angular deformity of distal femur after the healing period was measured and the quality and structure of the newly formed cartilage was histologically examined. Results. Transplantation of the composite scaffold in combination with MSCs and chondrocytes led to the prevention of growth disorder and angular deformity in the distal epiphysis of the left femur. Compared to the right (control) femur, tissue similar to hyaline cartilage with signs of columnar organization typical of the growth plate occurred in most cases. Conclusions. The promising results of this study reveal the new and effective means for the prevention of bone bridge formation after growth plate injury.

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