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机译:兔颅骨缺陷模型评价3D印刷kagome结构支架的机械强度和骨再生能力
Wonkwang Univ Coll Engn Dept Mech Design Engn 460 Iksandae Ro Iksan 54538 Jeonbuk South Korea;
Univ Ulsan Coll Med Biomed Engn Res Ctr Asan Med Ctr Asan Inst Life Sci 88 Olymp Ro 43 Gil Seoul 05505 South Korea;
Univ Ulsan Coll Med Asan Med Ctr Dept Oral &
Maxillofacial Surg 88 Olymp Ro 43 Gil Seoul 05505 South Korea;
Wonkwang Univ Coll Engn Dept Mech Design Engn 460 Iksandae Ro Iksan 54538 Jeonbuk South Korea;
Univ Ulsan Coll Med Biomed Engn Res Ctr Asan Med Ctr Asan Inst Life Sci 88 Olymp Ro 43 Gil Seoul 05505 South Korea;
Wonkwang Univ Coll Engn Dept Mech Design Engn 460 Iksandae Ro Iksan 54538 Jeonbuk South Korea;
Pukyong Natl Univ Coll Engn Dept Biomed Engn Busan 48513 South Korea;
Korea Univ Coll Med Dept Biomed Engn Seoul 02841 South Korea;
Wonkwang Univ Coll Engn Dept Mech Design Engn 460 Iksandae Ro Iksan 54538 Jeonbuk South Korea;
Univ Ulsan Coll Med Biomed Engn Res Ctr Asan Med Ctr Asan Inst Life Sci 88 Olymp Ro 43 Gil Seoul 05505 South Korea;
Customized bone graft; Kagome-structure scaffold; Bone defect model; Poly-caprolactone; 3D printing;
机译:使用兔颅骨缺损模型评估3D打印的Kagome结构支架的机械强度和骨再生能力
机译:3D印刷的聚己内酯支架与β-三磷酸钙混合,作为兔颅骨缺陷中的骨再生材料
机译:机械强力3D打印稀释镁掺杂硅灰石支架对兔颅骨缺损成骨能力的系统评价
机译:3D打印的超弹性骨支架可加速关键尺寸颅盖骨缺损中的骨再生
机译:使用异体骨替代物治疗严重家兔颅骨缺损,评估原位形成的生物可吸收膜和高压氧对骨再生的影响。
机译:机械强力3D打印稀释镁掺杂硅灰石支架对兔颅骨缺损成骨能力的系统评价
机译:具有较小孔径尺寸的3D绘制的β-三钙支架,其在临界大小的颅骨缺损大鼠模型中的体内骨再生和生物力学性质