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Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_16 | Pages 22 - 22
1 Apr 2013
Tan H Cuthbert RJ Jones E Churchman S McGonagle D Giannoudis PV
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We hypothesise that the Masquelet induced membrane used for the reconstruction of large bone defects were likely to involve mesenchymal stem cells (MSCs), given the excellent resultant skeletal repair. This study represents the first characterisation in humans of the induced membrane formed as a result of the Masquelet technique.

Methods

Induced membranes and matching periosteum were harvested from 7 patients. Cytokines (BMP2, VEGF, SDF1) and cell lineage markers (CD31, CD271, CD146) were studied by immunohistochemisty. Flow cytometry was used to measure the cellularity and cellular composition. MSCs were enumerated using a colony forming unit fibroblast assay. In expanded cultures, a 96-gene array card was used to assess their transcriptional profile. Alkaline phophatase, alizarin red and calcium assays were employed to measure their in vitro osteogenic potential

Results

Membrane was more cellular(p=0.028), had more MSC phenotype(p=0.043) compared to matched periosteum. The molecular profiles were similar, except for 2-fold abundance of SDF-1 in membrane (p=0.043)compared to periosteum. Membrane and periosteum had a similar proportion of endothelial cells and CFU-F colonies; expanded MSCs from both sources were highly osteogenic.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVII | Pages 455 - 455
1 Sep 2012
Cox G Mcgonagle D Boxall S Buckley C Jones E Giannoudis P
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Introduction

MSCs have long promised benefits of synthesising bone/cartilage, treating non-unions and potentially accelerating fracture repair. This potential has been tempered by MSC scarcity in the ‘gold-standard’ iliac crest bone marrow aspirate (ICBMA) and the resulting need to expand numbers via cell-culture. Culture of MSCs is time-consuming, expensive and results in cells with a reduced differentiation capacity.

The reamer-irrigator-aspirator (RIA) is an innovation designed to reduce intra-medullary (IM) pressures during reaming of long-bones via continuous irrigation and suction. Aspirated contents are passed via a coarse filter, which traps bony-fragments before moving into a ‘waste’ bag - from which MSCs have been previously isolated. We examined liquid and solid phases found in this ‘waste’, performed a novel digestion of the solid phase and made a comparative assessment in terms of number, phenotype and differentiation capacity with matched ICBMA.

Methods

The filtrate ‘waste’ bag from RIA reaming (6 patients) was filtered (70μm) and the solid fraction digested for 60min (37°C) with collagenase. MSCs were isolated from liquid & solid fractions and from 10ml matched ICBMA. Enumeration of MSCs was achieved via colony-forming-unit-fibroblast (CFUF) assay and flow-cytometry on fresh sample using CD45low, CD271+. MSCs were cultured by virtue of their plastic adherence and passaged in standard, non-haematopoietic media. Passage (P2) cells were differentiated towards osteogenic, adipogenic and chondrogenic lineages with their phenotype assessed with flow cytometry CD33 CD34 CD45 CD73 CD90 CD105.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVII | Pages 453 - 453
1 Sep 2012
Cox G Giannoudis P Boxall S Buckley C Mcgonagle D Jones E
Full Access

Introduction

Iliac crest bone marrow aspirate (ICBMA) is frequently cited as the ‘gold-standard’ source of MSCs. Mesenchymal stem cells have been shown to reside within the intramedullary (IM) cavities of long-bones and a comparative assessment with ICBMA has not yet been performed.

Methods

Aspiration of the IM cavities of 6 patients' femurs with matched ICBMA was performed. The long-bone-fatty-bone-marrow (LBFBM) aspirated was filtered (70μm) and the solid fraction digested for 60min (37°C) with collagenase. Enumeration was performed via the colony-forming-unit-fibroblast (CFU-F) assay and using the CD45low CD271+ phenotype via flow-cytometry. Passaged (P2) cells were differentiated towards osteogenic, adipogenic and chondrogenic lineages with their phenotype assessed using flow-cytometry CD33 CD34 CD45 CD73 CD90 CD105.


The Journal of Bone & Joint Surgery British Volume
Vol. 93-B, Issue 4 | Pages 517 - 524
1 Apr 2011
Cox G McGonagle D Boxall SA Buckley CT Jones E Giannoudis PV

The scarcity of mesenchymal stem cells (MSCs) in iliac crest bone marrow aspirate (ICBMA), and the expense and time in culturing cells, has led to the search for alternative harvest sites. The reamer-irrigation-aspirator (RIA) provides continuous irrigation and suction during reaming of long bones. The aspirated contents pass via a filter, trapping bony fragments, before moving into a ‘waste’ bag from which MSCs have been previously isolated. We examined the liquid and solid phases, performed a novel digestion of the solid phase, and made a comparative assessment in terms of number, phenotype and differentiation capacity with matched ICBMA.

The solid fraction from the filtrate was digested for 60 minutes at 37°C with collagenase. Enumeration was performed via the colony-forming unit fibroblast (CFU-F) assay. Passage (P2) cells were differentiated towards osteogenic, adipogenic and chondrogenic lineages, and their phenotypes assessed using flow cytometry (CD33, CD34, CD45, CD73, CD90, and CD105).

MSCs from the RIA phases were able to differentiate at least as well as those from ICBMA, and all fractions had phenotypes consistent with other established sources. The median number of colonies for the three groups was: ICBMA = 8.5 (2 to 86), RIA-liquid = 19.5 (4 to 90), RIA-solid = 109 (67 to 200) per 200 μl. The mean total yield of cells for the three groups was: ICBMA = 920 (0 to 4275), RIA-liquid = 114 983 (16 500 to 477 750), RIA-solid = 12 785 (7210 to 28 475).

The RIA filtrate contains large numbers of MSCs that could potentially be extracted without enzymatic digestion and used for bone repair without prior cell expansion.