BOFAS Abstracts Archive

You can search for abstracts by using the search bar below.
Alternatively you can browse through podium and poster presentations by selecting the year and / or type below. You can further refine your search using tags or use the search bar.

 



Categories: Abstracts, 2022, Podium

Blasting BMAC: a novel therapy to improve healing in fusion surgery

S. Stewart, A. Darwood, C. Higgins, S. Masouros, A. Ramasamy

1Imperial College London, London, United Kingdom

2Academic Department of Military Surgery and Trauma, Royal Centre for Defence Medicine, Birmingham, United Kingdom

Winner of the BOFAS 2022 Klenerman Prize for Best Basic Science Paper

Introduction: Fusion represents an effective treatment option in patients affected by end-stage arthritis. To minimise the risk of non-union following fusion, biological preparations such as bone marrow aspirate concentrate (BMAC) are commonly used intra-operatively. Mechanotransduction represents an emerging field of research whereby physical stimuli can be used to modulate the behaviour and differentiation of cells. Blast waves (a subtype of shock waves) are one such physical stimulus. The aim of this study was to investigate whether the osteogenic potential of BMAC can be enhanced using a blast wave, and thus improve its efficacy in fusion surgery.
Methods: Human BMAC samples were obtained from three healthy patients and exposed to a single blast wave (peak overpressure= 50psi), before being placed in a suspension of mesenchymal stem cells, to represent the biological environment of the fusion site. Three test groups were used: MSC (the experimental control); MSC + BMAC; MSC + BMAC + blast wave. Calcium mineralisation assays were performed on the MSCs on Day 7 and 14 to assess for osteoblastic transformation.
Results: Calcium mineralisation on Day 7 was significantly increased in the MSC + BMAC group compared to the MSC group (mean percentage change 42.12 vs 0.0, p=0.012). The MSC + BMAC + blast wave group also demonstrated significantly increased levels compared to the MSC + BMAC group (84.56 vs. 42.14, p=0.039). The difference in calcium mineralisation between the MSC and MSC + BMAC + blast wave groups was strongly significant (0.00 vs. 84.56, p=0.003).  
Conclusion: Exposure of BMAC to a single blast wave enhances its osteogenic potential. This represents a potential novel way to improve healing following fusion surgery and reduce the rates of non-union.

Previous Article Biopatch grafting of large or recalcatrant osteochondral defects of the talus
Next Article Bone tumours of the foot & ankle: an analysis of 131 cases
Print


Click thumbnail below to view poster / thumbnail:

Archive of Abstracts

2024   -   Prize Winners  |  All Abstracts
2023   -   Prize Winners  |  All Abstracts
2022   -   Prize Winners  |  All Abstracts
2021   -   Prize Winners  
2019   -   Podium  |  Poster
2018   -   Podium  |  Poster
2017   -   Podium  |  Poster
2016   -   Podium  |  Poster
2015   -   Podium  |  Poster
2014   -   Podium  |  Poster
2013   -   Podium  |  Poster
2011   -   All Abstracts
2009   -   All Abstracts
2008   -   All Abstracts
2007   -   All Abstracts
2006   -   All Abstracts
2005   -   All Abstracts
2004   -   All Abstracts
2002   -   All Abstracts
2001   -   All Abstracts
2000   -   All Abstracts
1999   -   All Abstracts
1998   -   All Abstracts
1997   -   All Abstracts
1996   -   All Abstracts
1995   -   All Abstracts
1994   -   All Abstracts
1993   -   All Abstracts
1991   -   All Abstracts
1990   -   All Abstracts
1989   -   All Abstracts
1987   -   All Abstracts
1985   -   All Abstracts
1983   -   All Abstracts