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Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_13 | Pages 22 - 22
1 Mar 2013
Hopper N Henson F Brooks R Power J Ghose S Rushton N Wardale J
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The aim of this study was to evaluate the role of peripheral blood derived mononucleated cells (PBMC) in osteochondral repair. We compared the healing of a critical size osteochondral defect in the medial femoral condyle and lateral trochlear sulcus in an ovine model.


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_1 | Pages 215 - 215
1 Jan 2013
Ahmad Z Wardale J Henson F Brooks R Tytherleigh-Strong G Noorani A Siddiqui N Rushton N
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Introduction

Massive rotator cuff repairs have up to 60% failure rate and repair of a chronic repair can have up to 40% failure rate. With this in mind, new methodologies are being to being developed to overcome this problem. The use of tendon augmentation grafts is one of them. Prior attempts have shown equivocal or poorer outcomes to control repairs. Aims and objectives: The specific aim of these expereiments was to test how well ovine tendon cells would take to a specific biological augmentation graft (Ligamimetic), and wheter tissue engineering techniques would enhance this.

Method

Tendon cells harvested from ovine tendons will be cultured, exposed to the tendon augmentation graft, and analysed to see how well it takes to the tendon cells. We have conducted a 21 day experiment, sampling at days 7, 14, and 21. The experiment will look in sheep tendon cells:1. Platelet rich plasma: A comparison of the effects of platelet rich plasma to cell adherence, cell proliferation, and collagen production. Mesenchymal stem cell: A comparison of the effects of mesenchymal stem cells to the material on cell adherence, cell proliferation, and collagen production.


Orthopaedic Proceedings
Vol. 95-B, Issue SUPP_1 | Pages 216 - 216
1 Jan 2013
Ahmad Z Wardale J Henson F Brooks R Tytherleigh-Strong G Noorani A Siddiqui N Rushton N
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Introduction

Rotator cuff tears remain a problem, with massive tears having a failure rate of repair reported of up to 60%, despite advances in surgical techniques. Tissue engineering techniques offers the possibility of regenerating damaged tendon tissue to a pre-injury state. We explore these techniques by implanting two novel tendon augmentation grafts with use of platelet rich plasma (PRP) in sheep.

Methods

A total of 24 sheep were operated on, with the infraspinatus being surgically cut from its attachment to the humeral head. Each tendon was repaired using suture anchors and an interpositional implant according to 4 groups: (1) Empty control, (2) Novel collagen fibre implant with PRP (3) A novel collagen sponge implant (4) and the collagen sponge with PRP. The sheep were killed at 12 weeks and the implant site harvested and its histology evaluated.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVI | Pages 72 - 72
1 Aug 2012
Wardale J Hopper N Ghose S Rushton N
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Mesenchymal stem cells (MSCs) have potential for therapeutic repair of cartilage and bone but still require optimization in terms of their capacity to deposit an appropriate extracellular matrix (ECM). Adult human cartilage has a limited capacity for repair and is unusual in that it is one of the few tissues where injury is not followed by an influx of monocytes. We are studying the effects of co-culturing primary monocytes with MSCs differentiating along chondrogenic lineage but in addition we needed to investigate the effects of the monocytes on the mature chondrocytes that will result from the MSCs and will also be present in the host tissue.

Human articular cartilage chondrocytes were isolated from human donors undergoing knee replacement surgery for osteoarthritis (OA) with full ethical consent. Cultures were expanded and cells used below passage five for co-culture experiments. Monocytes were prepared from fresh heparinized human blood samples by Ficoll gradient. Co-cultures consisted of either chondrocyte micromasses overlaid with monocytes, or chondrocytes and monocytes seeded together within a collagen/glycosaminoglycan scaffold (Chondromimetic, Tigenix UK). Media, cell pellets and scaffolds were analysed for extracellular matrix (ECM) proteins and proteases by dot blot, western blot, zymography and immunohistochemistry.

Human chondrocytes maintained stable micromasses and laid down an ECM for at least 40 days. Human monocytes eventually formed a proliferating cell population with a rounded morphology on top of the chondrocyte micromasses. These cells established an adherent population with a fibroblastic morphology when replated on plastic. Analysis of chondrocyte ECM proteins indicated that monocytes affected deposition of types I and II collagen, decorin and fibronectin and the overall amounts of gelatinases released. RTPCR demonstrated a decrease in type I collagen expression and a concomitant increase in MMP13 expression.

The precise interaction between monocytes and and chondrocytes has yet to be established but is thought to involve a mixture of contact and paracrine factors. In this study co-culture of monocytes with chondrocytes resulted in phenotypic changes to the chondrocytes which may warrant the inclusion of monocytes in cartilage/bone repair and also provide information as to the responses of OA chondrocytes to external stimuli.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVI | Pages 50 - 50
1 Aug 2012
Hopper N Wardale J Rushton N
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Introduction

Mesenchymal stem cells (MSC) are an attractive cell population for regeneration of mesenchymal tissue such as bone and cartilage. Various studies have demonstrated the repair capacity of MSCs and even their usefulness in treating critical size defects. Much of the work conducted on adult stem cells has focused on MSCs found within the bone marrow stroma. Adipose tissue, like bone marrow, is derived from the embryonic mesenchyme and contains a stroma that is easily isolated. The aim of the present study is to evaluate the differentiation capability of adipose-tissue derived stem cells (ASC) extracted from the infrapatellar fat pad.

Materials and Methods

Human infrapatellar fat pad tissue was obtained from patients undergoing total joint replacement for osteoarthritis with full ethical consent. A multipotent progenitor cell population was derived after collagenase digestion from the adipose tissue. The ASCs were induced to differentiate towards adipogenic, chondrogenic, and osteogenic lineages for 21 days both in normoxic and hypoxic cell culture conditions. The differentiation and multilineage potential was assessed according to cell morphology and in vitro detection of tissue-specific differentiation molecules.


Orthopaedic Proceedings
Vol. 94-B, Issue SUPP_XXXVI | Pages 80 - 80
1 Aug 2012
Howard D Shepherd J Moavenian A Kew S Ghose S Rushton N Wardale J
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Meniscal cartilage provides joint stabilisation, load distribution, impact absorption and decreased friction in joints that have a complex movement such as the knee. If the meniscal cartilage degrades or is surgically removed, there is a strong probability, over time, of damage to the articular surface. The ability to regenerate damaged meniscal cartilage with an implanted device that replaces the biological equivalent would allow for joint stabilisation, robust movement and reduce the risk of damage to the articular cartilage. An implant with many of the characteristics of meniscus and with the ability to integrate correctly and firmly with the surrounding tissue, would be advantageous.

Inclusion of Platelet Rich Plasma (PRP) into the scaffolds to provide a concentrated source of matrix proteins and autologous growth factors may further enhance the regenerative repair process. To investigate the suitability of the collagen scaffolds, addition of meniscal chondrocytes and or PRP was examined in vitro.

Human meniscal chondrocyte cells were isolated, via collagenase digestion, from meniscal cartilage recovered from total knee replacement surgery. Meniscal chondrocytes were cultured in vitro to expand cell numbers. PRP was produced from volunteer's blood using a centrifuge and density based platelet recovery system. Release of Platelet Derived Growth Factor type AB (PDGF-AB) was measured by ELISA as an indicator of the behaviour of the peptide growth factor component. Combinations of scaffold, meniscal chondrocytes and PRP were tested for interaction, suitability and viability.

Experiments so far have shown good biocompatibility, in vitro, as meniscal chondrocytes were able to grow within the range of scaffolds produced. Cell retention could be enhanced by addition of PRP to the scaffolds. PDGF-AB was released over 5 days from the scaffold and PRP combination.

Further studies are in progress to derive relevant scaffold modifications and combinations for practical, robust, treatment strategies.