Stem cell based intervertebral disc (IVD) regeneration is quickly moving towards clinical applications. However, many aspects need to be investigated to routinely translate this therapy to clinical applications, in particular, the most efficient way to deliver cell to the IVD. Cells are commonly delivered to the IVD through the annulus fibrosus (AF) injection. However, recent studies have shown serious drawbacks of this approach. As an alternative we have described and tested a new surgical approach to the IVD via the endplate-pedicles (transpedicular approach). The Purpose of the study was to test MSCs/hydrogel transplantation for IVD regeneration in a grade IV preclinical model of IDD on large size animals via the transpeducular approach with cell dose escalation. Adult sheep (n=18) underwent bone marrow aspiration for autologous MSC isolation and expansion. MSC were suspended in autologous PRP and conjugated with Hyaluronic Acid and Batroxobin at the time of transplant (MSCs/hydrogel). Nucleotomy was performed via the transpedicular approach in four lumbar IVDs and that were injected with 1) hydrogel, 2) Low doses of MSC/hydrogel, 3) High doses of MSC/hydrogel, 4) no injection (CTRL). The endplate tunnel was sealed using a polyurethane scaffold. X-ray and MRI were performed at baseline and 1,3,6,12 months. Disc macro- and micro-morphology were analysed at each time point.Background
Methods
Intra-articular injection of humanised monoclonal anti-VEGF antibody (Bevacizumab, Avastin®) in a osteoarthritis rabbit model is related to positive restorative effects in terms of histopathologic evaluation. Vascular endothelial growth factor (VEGF) is generally undetectable in adult human articular cartilage under physiological conditions. Upon exposure to pathological stimulation such as inflammation, hypoxia or accumulating mechanical stress, VEGF would be up regulated in hypertrophic chondrocytes of arthritic cartilage leading to osteophyte formation, disregulation of chondrocyte apoptosis and induction of catabolic factors, including matrix metalloproteinases (MMPs). This Summary Statement
Introduction
