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Orthopaedic Proceedings
Vol. 96-B, Issue SUPP_11 | Pages 65 - 65
1 Jul 2014
Kuntz L Tuebel J Marthen C Hilz F von Eisenhart-Rothe R Burgkart R
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Introduction

Despite the high regenerative capacity of bone, large bone defects often require treatment involving bone grafts. Conventional autografting and allografting treatments have disadvantages, such as donor site morbidity, immunogenicity and lack of donor material. Bone tissue engineering offers the potential to achieve major advances in the development of alternative bone grafts by exploiting the bone-forming capacity of osteoblastic cells. However, viable cell culture models are essential to investigate osteoblast behavior. Three-dimensional (3D) cell culture systems have become increasingly popular because biological relevance of 3D cultures may exceed that of cell monolayers (2D) grown in standard tissue culture. However, only few direct comparisons between 2D and 3D models have been published. Therefore, we performed a pilot study comparing 2D and 3D culture models of primary human osteoblasts with regard to expression of transcription factors RUNX2 and osterix as well as osteogenic differentiation.

Patients and Methods

Primary human osteoblasts were extracted from femoral neck spongy bone obtained during surgery procedures. Primary human osteoblasts of three donor patients were cultured in monolayers and in three different 3D culture models: 1) scaffold-free cultures, also referred to as histoids, which form autonomously after multilayer release of an osteoblast culture; 2) short-term (10-day) collagen scaffolds seeded with primary human osteoblasts (HOB); 3) long-term (29-day) collagen scaffolds seeded with HOB. Expression levels of transcription factors RUNX2 and osterix, both involved in osteoblast differentiation, were investigated using quantitative PCR and immunohistochemical staining. Furthermore, markers of osteogenic differentiation were evaluated, such as alkaline phosphatase activity, osteocalcin expression, and mineral deposition, as well as the expression of collagen type I and fibronectin extracellular matrix proteins.