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Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 326 - 326
1 Jul 2014
Mumme M Pelttari K Gueven S Nuss K Von Rechenberg B Jakob M Martin I Barbero A
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Summary

Nasal Chondrocytes are safe and feasible for tissue engineering approaches in articular cartilage repair.

Introduction

As compared to articular chondrocytes (AC), nasal septum chondrocytes (NC) proliferate faster and have a higher and more reproducible capacity to generate hyaline-like cartilaginous tissues. Moreover, the use of NC would allow reducing the morbidity associated with the harvesting of cartilage biopsy from the patient. The objective of the present study was to demonstrate safety and feasibility in the use of tissue engineered cartilage graft based on autologous nasal chondrocytes for the repair of articular defect in goats.


Orthopaedic Proceedings
Vol. 91-B, Issue SUPP_I | Pages 20 - 20
1 Mar 2009
Jakob M Dick W Heberer M Martin I
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A major challenge to be faced in order to introduce cell-based therapies for bone repair into wide-spread surgical practice is to translate a research-scale production model into a manufacturing design that is reproducible, clinically effective, and economically viable. One possible means by which to achieve this goal is via a bioreactor system capable of controlling, automating, and streamlining all of the individual phases of the bone-tissue engineering process. In a first step to meeting this challenge, in this work we aimed at developing and validating a closed bioreactor system for

the efficient seeding of cells into 3-dimensional scaffolds and

the generation of osteoinductive constructs starting from human bone marrow-derived cells.

Our patented bioreactor technology essentially consists of scaffolds arranged in a circular plate, which is moved in alternating directions by a linear drive unit through a cell suspension/culture medium, thus resulting in the perfusion of the cell suspension/culture medium directly through the pores of the scaffolds in alternate directions. The cultivation chamber is fully isolated from the external environment, with liquid/gas exchange achieved through aseptic interfaces.

Human bone marrow nucleated cells from 3 donors were perfused through porous ceramic discs (8 mm diameter, 4 mm thick), resulting in adhesion of the osteoprogenitor cell fraction in the ceramic scaffolds. Efficiency of cell seeding was consistently greater than 80%. Cell seeded constructs were further cultivated under perfusion for a total of 20 days, resulting in the expansion of the osteoprogenitor cells directly within the scaffold pores and maintenance of greater than 90% cell viability. Ectopic implantation of the cultivated constructs yielded abundant and reproducible formation of bone tissue, distributed throughout the scaffold pores.

The developed bioreactor provides a simple and efficient approach

to establish and maintain 3D cultures of cells into scaffolds under perfusion, and

to generate osteoinductive grafts starting from minimally processed bone marrow aspirates and bypassing typical cell expansion in monolayers.

Incorporating the bioreactor unit into a system for automated medium change and monitoring/control of culture parameters is likely to lead to the development of a closed system for the standardized production of autologous cell-based bone substitutes.


The Journal of Bone & Joint Surgery British Volume
Vol. 82-B, Issue 3 | Pages 340 - 344
1 Apr 2000
Jakob M Rikli DA Regazzoni P

Stable fixation of fractures of the distal radius can be achieved by using two 2.0 mm titanium plates placed on the radial and intermediate columns angled 50° to 70° apart. We describe our results with this method in a prospective series of 74 fractures (58 severely comminuted) in 73 consecutive patients.

Early postoperative mobilisation was possible in all except four wrists. All of the 73 patients, except two with other injuries, returned to work and daily activities with no limitations. The anatomical results were excellent or good in 72 patients and fair in one.

Our discussion includes details of important technical considerations based on an analysis of the specific complications which were seen early in the series.