Acceleration of callus formation during fracture healing using basic fibroblast growth factor-kidney disease domain-collagen-binding domain fusion protein combined with allogenic demineralized bone powder

Wataru Saito; Kentaro Uchida; Osamu Matsushita; Gen Inoue; Hiroyuki Sekiguchi; Jun Aikawa; Hisako Fujimaki; Masashi Takaso

首页> 外文期刊>Journal of Orthopaedic Surgery Research >Acceleration of callus formation during fracture healing using basic fibroblast growth factor-kidney disease domain-collagen-binding domain fusion protein combined with allogenic demineralized bone powder

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Acceleration of callus formation during fracture healing using basic fibroblast growth factor-kidney disease domain-collagen-binding domain fusion protein combined with allogenic demineralized bone powder

机译：碱性成纤维细胞生长因子-肾脏疾病域-胶原结合域融合蛋白结合同种异体脱钙骨粉促进骨折愈合过程中的愈伤组织形成

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Background To repair fractures with large bone defects or gaps, demineralized allogenic bone matrix (DBM) is often applied to the fracture site. However, studies have shown that the use of DBM alone has limited efficacy for repairing fractures. In the present study, we developed an allogenic demineralized bone powder (DBP) with basic fibroblast-derived growth factor containing a polycystic kidney disease (PKD) domain and collagen-binding domain (CBD) from Clostridium histolyticum collagenase (ColH) and investigated the stimulatory effects of bFGF-PKD-CBD combined with allogenic DBP on bone growth in a mouse femur fracture model.

机译：背景技术为了修复具有较大骨缺损或间隙的骨折，通常将脱矿质的异体骨基质（DBM）应用于骨折部位。但是，研究表明，单独使用DBM修复骨折的疗效有限。在本研究中，我们开发了具有碱性成纤维细胞衍生生长因子的异体脱矿质骨粉（DBP），该生长因子包含溶组织梭状芽孢杆菌胶原酶（ColH）的多囊肾疾病（PKD）域和胶原结合域（CBD），并研究了其刺激性bFGF-PKD-CBD联合同种异体DBP对小鼠股骨骨折模型骨生长的影响

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《Journal of Orthopaedic Surgery Research》 |2015年第1期|共页
作者
Wataru Saito; Kentaro Uchida; Osamu Matsushita; Gen Inoue; Hiroyuki Sekiguchi; Jun Aikawa; Hisako Fujimaki; Masashi Takaso;
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中图分类整形外科学（修复外科学）;
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1. Acceleration of bone formation during fracture healing by injectable collagen powder and human basic fibroblast growth factor containing a collagen-binding domain from Clostridium histolyticum collagenase [J] . SaitoW., UchidaK., UenoM., Journal of biomedical materials research, Part A . 2014,第9期

机译：注射胶原蛋白粉和含有来自溶组织梭状芽孢杆菌胶原酶的胶原结合域的人碱性成纤维细胞生长因子促进骨折愈合过程中的骨形成
2. Acceleration of bone formation during fracture healing by injectable collagen powder and human basic fibroblast growth factor containing a collagen-binding domain from Clostridium histolyticum collagenase [J] . SaitoW., UchidaK., UenoM., Journal of biomedical materials research, Part A . 2014,第9期

机译：注射胶原蛋白粉和含有来自溶组织梭状芽孢杆菌胶原酶的胶原结合域的人碱性成纤维细胞生长因子促进骨折愈合过程中的骨形成
3. Acceleration of bone formation during fracture healing by injectable collagen powder and human basic fibroblast growth factor containing a collagen-binding domain from Clostridium histolyticum collagenase [J] . SaitoW., UchidaK., UenoM., Journal of biomedical materials research, Part A . 2014,第9期

机译：可注射胶原粉末和人碱性成纤维细胞生长因子的骨折愈合过程中骨形成的加速度，含有蛋白质溶液胶原酶的胶原结合域
4. Bone Formation Enhancement By Using An Injectable Cell Trasplantation Matrix Containing Hydroxyapatite And Basic Fibroblast Growth Factor [C] . M.S. Park, S.S. Kim, C.Y. Choi, Society for Biomaterials Transactions 30th Annual Meeting & Exposition vol.28: New Applications and Technologies . 2005

机译：使用包含羟基磷灰石和碱性成纤维细胞生长因子的可注射细胞移植基质增强骨形成
5. Acceleration of callus formation during fracture healing using basic fibroblast growth factor-kidney disease domain-collagen-binding domain fusion protein combined with allogenic demineralized bone powder [O] . Wataru Saito, Kentaro Uchida, Osamu Matsushita, 2015

机译：碱性成纤维细胞生长因子-肾脏疾病域-胶原结合域融合蛋白与同种异体脱钙骨粉相结合促进骨折愈合过程中的愈伤组织形成
6. Acceleration of callus formation during fracture healing using basic fibroblast growth factor-kidney disease domain-collagen-binding domain fusion protein combined with allogenic demineralized bone powder [O] . 2015

机译：碱性成纤维细胞生长因子-肾脏疾病域-胶原结合域融合蛋白与同种异体脱钙骨粉相结合促进骨折愈合过程中的愈伤组织形成

Acceleration of callus formation during fracture healing using basic fibroblast growth factor-kidney disease domain-collagen-binding domain fusion protein combined with allogenic demineralized bone powder

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