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hPSCs and NELL-1 Synergistically Enhance Spinal Fusion in Osteoporotic Rats.

TitlehPSCs and NELL-1 Synergistically Enhance Spinal Fusion in Osteoporotic Rats.
Publication TypeJournal Article
Year of Publication2015
AuthorsLee S, Zhang X, Shen J, James AW, Chung CG, Hardy R, Li C, Girgius C, Zhang Y, Stoker D, Wang H, Wu BM, Péault B, Ting K, Soo C
JournalStem Cells
Date Published2015 Jul 14
ISSN1549-4918
Abstract

Autologous bone grafts (ABGs) are considered as the gold standard for spinal fusion. However, osteoporotic patients are poor candidates for ABGs due to limited osteogenic stem cell numbers and function of the bone microenvironment. There is a need for stem cell-based spinal fusion of proven efficacy under either osteoporotic or non-osteoporotic conditions. The purpose of this study is to determine the efficacy of human perivascular stem cells (hPSCs), a population of mesenchymal stem cells isolated from adipose tissue, in the presence and absence of NELL-1, an osteogenic protein, for spinal fusion in the osteoporosis. Osteogenic differentiation of hPSCs with and without NELL-1 was tested in vitro. The results indicated that NELL-1 significantly increased the osteogenic potential of hPSCs in both osteoporotic and non-osteoporotic donors. Next, spinal fusion was performed by implanting scaffolds with regular or high doses of hPSCs, with or without NELL-1 in ovariectomized rats (n=41). Regular doses of hPSCs or NELL-1 achieved the fusion rates of only 20-37.5% by manual palpation. These regular doses had previously been shown to be effective in non-osteoporotic rat spinal fusion. Remarkably, the high dose of hPSCs+NELL-1 significantly improved the fusion rates among osteoporotic rats up to ∼83.3%. Micro-computed tomography imaging and quantification further confirmed solid bony fusion with high dose hPSCs+NELL-1. Finally, histologically, direct in situ involvement of hPSCs in ossification was shown using undecalcified samples. To conclude, hPSCs combined with NELL-1 synergistically enhances spinal fusion in osteoporotic rats, and has great potential as a novel therapeutic strategy for osteoporotic patients. This article is protected by copyright. All rights reserved.

DOI10.1002/stem.2103
Alternate JournalStem Cells
PubMed ID26173400
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