富血小板血浆可改善人间充质干细胞的扩增,并在磷酸钙陶瓷中保留分化能力和体内骨形成能力。
Platelet-rich plasma improves expansion of human mesenchymal stem cells and retains differentiation capacity and in vivo bone formation in calcium phosphate ceramics.
作者信息
Vogel Julia P, Szalay Krisztian, Geiger Florian, Kramer Martin, Richter Wiltrud, Kasten Philip
机构信息
Department of Orthopaedic Surgery, University of Heidelberg, Schlierbacher Landstr. 200a, 69118 Heidelberg, Germany.
出版信息
Platelets. 2006 Nov;17(7):462-9. doi: 10.1080/09537100600758867.
INTRODUCTION
Mesenchymal stem cells (MSC) applied to bone substitution materials can improve bone healing. Bone formation in biocomposites is highly dependent on the kind of biomaterial, its pre-treatment and the applied cells. Potentially immunogenic or infectious supplements such as fetal calf serum (FCS) should be avoided in cell expansion media. Therefore, we developed an expansion protocol free of xenogenic supplements. Cells expanded with two different media were tested on distinct biomaterials for their bone formation capacity after ectopic implantation in vivo, as well as for their growth rate and differentiation capacity in vitro.
METHODS
MSC of six donors were expanded with cell expansion medium containing FCS (2%) or platelet-rich plasma (PRP, 3%). Their growth rate and osteogenic, adipogenic and chondrogenic differentiation capacity were compared in vitro. For the in vivo bone formation assay, expanded cells (2 x 105 or 2 x 106) were seeded on calcium-deficient hydroxyapatite (CDHA; n = 12) and on beta-tricalcium phosphate (beta-TCP; n = 12) blocks, which had been coated with either fibronectin or human serum. They were then implanted subcutaneously in severe combined immunodeficient mice (SCID), harvested after 8 weeks and analysed by histology. Bone formation was assessed by a semi-quantitative bone score, after toluidine blue and alizarin red staining. Human cells were detected by an in situ hybridisation for human-specific alu sequences.
RESULTS
PRP-supplemented expansion medium yielded two-fold higher cell numbers compared to medium with FCS (P = 0.046) after 3 weeks (four passages) and retained a similar capacity to differentiate towards the osteogenic, chondrogenic and adipogenic lineage. In vivo bone formation was equal for cells expanded with PRP and FCS and depended on the specific surface area of the carrier. CDHA (specific surface area (SSA) 48 m2/g) showed a significantly better bone formation in deep layers (P = 0.005) than beta-TCP (SSA 0.5 m2/g). Fibronectin-coating of the ceramics was slightly superior to coating with human serum (P = 0.045).
CONCLUSIONS
The replacement of FCS by PRP eliminated risks connected with the use of xenogeneic supplements. It improved expansion of MSC and retained their differentiation and in vivo bone formation capacity in a setting adaptable to autogenous use.
引言
应用于骨替代材料的间充质干细胞(MSC)可促进骨愈合。生物复合材料中的骨形成高度依赖于生物材料的种类、预处理方式及所应用的细胞。细胞扩增培养基中应避免使用潜在具有免疫原性或传染性的添加剂,如胎牛血清(FCS)。因此,我们开发了一种不含异种添加剂的扩增方案。用两种不同培养基扩增的细胞,在体内异位植入后,在不同生物材料上测试其骨形成能力,以及在体外测试其生长速率和分化能力。
方法
6名供体的MSC用含2%FCS的细胞扩增培养基或富含血小板血浆(PRP,3%)进行扩增。比较它们在体外的生长速率以及成骨、成脂和成软骨分化能力。对于体内骨形成试验,将扩增后的细胞(2×10⁵或2×10⁶)接种于用纤连蛋白或人血清包被的缺钙羟基磷灰石(CDHA;n = 12)和β-磷酸三钙(β-TCP;n = 12)块上。然后将其皮下植入严重联合免疫缺陷小鼠(SCID)体内,8周后取出并进行组织学分析。经甲苯胺蓝和茜素红染色后,通过半定量骨评分评估骨形成情况。通过针对人特异性alu序列的原位杂交检测人细胞。
结果
3周(4代)后,与含FCS的培养基相比,添加PRP的扩增培养基产生的细胞数量高出两倍(P = 0.046),并且保留了向成骨、成软骨和成脂谱系分化的相似能力。用PRP和FCS扩增的细胞在体内的骨形成情况相同,且取决于载体的比表面积。CDHA(比表面积(SSA)48 m²/g)在深层的骨形成明显优于β-TCP(SSA 0.5 m²/g)(P = 0.005)。陶瓷的纤连蛋白包被略优于人血清包被(P = 0.045)。
结论
用PRP替代FCS消除了与使用异种添加剂相关的风险。它改善了MSC的扩增,并在适合自体使用的环境中保留了它们的分化能力和体内骨形成能力。
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