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Orthopaedic Proceedings
Vol. 106-B, Issue SUPP_1 | Pages 84 - 84
2 Jan 2024
Taheri S Yoshida T Böker KO Foerster R Jochim L Flux A Grosskopf B Hawellek T Lehmann W Schilling A
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Articular cartilage (AC) and subchondral bone (SB) are intimately intertwined, forming a complex unit called the AC-SB interface. Our recent studies have shown that cartilage and bone marrow are connected by a three-dimensional network of microchannels (i.e. cartilage-bone marrow microchannel connector; CMMC), which differ microarchitecturally in number, size and morphology depending on the maturation stage of the bone and the region of the joint. However, the pathological significance of CMMC is largely unknown. Here, we quantitatively assessed how CMMC microarchitecture relates to cartilage condition and regional differences in early idiopathic osteoarthritis (OA).

Two groups of cadaveric female human femoral heads (intact cartilage vs early cartilage lesions) were identified and biopsy-based high-resolution micro-CT imaging was used. Subchondral bone (SB) thickness, CMMC number, maximum and minimum CMMC size, and CMMC morphology were quantified and compared between the two groups. The effect of joint region and cartilage condition on each dependent variable was examined.

The number and morphology of CMMCs were influenced by the region of the joint, but not by the cartilage condition. On the other hand, the minimum and maximum CMMC size was modified by both joint location and cartilage condition. The smallest CMMCs were consistently found in the load bearing region (LBR) of the joint. Compared to healthy subjects, the size of the microchannels was increased in early OA, most notably in the non-load bearing region (NLBR) and the peripheral rim (PR) of the femoral head. In addition, subchondral bone thinning was observed in early OA as a localized event associated with areas of partial chondral defect.

Our data suggest an enlargement of the SB microchannel network and a collective structural deterioration of the SB in early idiopathic OA.


Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 221 - 221
1 Jul 2014
Kueny R Fensky F Sellenschloh K Püschel K Rueger J Lehmann W Hansen-Algenstaedt N Morlock M Huber G
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Summary Statement

From a mechanical point of view, the clinical use of pedicle screws in the atlas is a promising alternative to lateral mass screws due to an increased biomechanical fixation.

Introduction

The most established surgical technique for posterior screw fixation in the atlas (C1) is realised by screw placement through the lateral mass [1]. This surgical placement may lead to extended bleeding from the paravertebral venous plexus as well as a violation of the axis (C2) nerve roots [1]. Using pedicle screws is an emerging technique which utilises the canal passing through the posterior arch enabling the use of longer screws with a greater contact area while avoiding the venous plexus and axis nerve roots. The aim of this ex vivo study was to investigate if pedicle screws in C1 bear the potential to replace the more common lateral mass screws. Therefore, the comparative biomechanical fixation strengths in terms of cycles to failure, stiffness, and removal torque were investigated.