Feasibility Study of a Standardized Novel Animal Model for Cervical Vertebral Augmentation in Sheep Using a PTH Derivate Bioactive Material

Feasibility Study of a Standardized Novel Animal Model for Cervical Vertebral Augmentation in Sheep Using a PTH Derivate Bioactive Material

Prophylactic local treatment involving percutaneous vertebral augmentation using bioactive materials is a new treatment strategy in spine surgery in humans for vertebral bodies at risk. Standardized animal models for this procedure are almost non-existent. The purpose of this study was to: (i) prove...

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Bibliographic Details
Published in:Veterinary sciences Vol. 1; no. 2; pp. 96 - 120
Main Authors: Klein, Karina, Schense, Jason, Kronen, Peter, Fouche, Nathalie, Makara, Mariano, Kämpf, Katharina, Steffen, Thomas, von Rechenberg, Brigitte
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-09-2014
Subjects:
animal model
Animal models
Apoptosis
Bone growth
Bone histomorphometry
Bone marrow
Bone surgery
Cell adhesion & migration
Cement
cervical spine
Embolisms
Feasibility studies
Fibrin
fibrin matrix
Fluorescent indicators
Fractures
Growth factors
Histology
Osteogenesis
Osteoporosis
Parathyroid
Parathyroid hormone
Peptides
Physiology
PTH derivate
Sheep
Stem cells
Strontium
Vertebrae
vertebral augmentation
Switzerland
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Summary:Prophylactic local treatment involving percutaneous vertebral augmentation using bioactive materials is a new treatment strategy in spine surgery in humans for vertebral bodies at risk. Standardized animal models for this procedure are almost non-existent. The purpose of this study was to: (i) prove the efficacy of PTH derivate bioactive materials for new bone formation; and (ii) create a new, highly standardized cervical vertebral augmentation model in sheep. Three different concentrations of a modified form of parathyroid hormone (PTH) covalently bound to a fibrin matrix containing strontium carbonate were used. The same matrix without PTH and shams were used as controls. The bioactive materials were locally injected. Using a ventral surgical approach, a pre-set amount of material was injected under fluoroscopic guidance into the intertrabecular space of three vertebral bodies. Intravital fluorescent dyes were used to demonstrate new bone formation. After an observation period of four months, the animals were sacrificed, and vertebral bodies were processed for µCT, histomorphometry, histology and sequential fluorescence evaluation. Enhanced localized bone activity and new bone formation in the injected area could be determined for all experimental groups in comparison to the matrix alone and sham with the highest values detected for the group with a medium concentration of PTH.
ISSN:2306-7381
2306-7381
DOI:10.3390/vetsci1020096