用于骨止血和缺损修复的可塑形自固化生物活性骨蜡
Moldable self-setting and bioactive bone wax for bone hemostasis and defect repair.
作者信息
Liu Ziyang, Liu Chuang, Zhou Huan, Liang Chunyong, Chen Wei, Bai Yanjie, Ma Xinlong, Zhang Yingze, Yang Lei
机构信息
Department of Orthopedics, Tianjin Hospital, Tianjin, China.
Center for Health Sciences and Engineering, Hebei Key Laboratory of Biomaterials and Smart Theranostics, School of Health Sciences and Biomedical Engineering, Hebei University of Technology, Tianjin, China.
出版信息
J Orthop Translat. 2025 Jan 20;50:223-234. doi: 10.1016/j.jot.2024.11.009. eCollection 2025 Jan.
OBJECTIVE
Bone injury complicated with bleeding and irregular shaped defect are challenging in orthopedic surgery and practices due to the lack of reliable hemostasis and simultaneous defect repair strategy. Bone wax is a century-old biomaterial for bleeding management in orthopedic surgery, characterized with ready-to-use advantage but the risk of failed bone reunion due to the biological inertness and non-degradability. In current work, integration of bioceramic cement and premixed concept was motivated to prepare a in situ self-setting bioactive calcium phosphate based bone wax (CaPBW) for bone hemostasis and defect repair.
METHODS
A moldable, in situ self-setting bioactive CaPBW with a novel formulation of calcium phosphate cement (CPC), monetite (DPCA) granules, modified starch and polyethylene glycol (PEG) was developed for bone hemostasis and defect repair. The CaPBW material was evaluated by characterization, physical and chemical properties, biocompatibility, osteogenic ability and hemostatic ability.
RESULTS
CaPBW adopted the ready-to-use feature of traditional bone wax, showing feasibility in shape molding and defect sealing. When interacted with physiological fluid like blood, CaPBW could transformed from putty to solid state within tens of minutes due to the gradual PEG-water exchange and CPC hydration, providing mechanical stability for bleeding clotting and bone defect filling. studies revealed the superiority of CaPBW over bone wax in blood coagulation and osteoblast differentiation, along with hemocompatibility and osteogenesis confirmation. studies demonstrated the reliability of CaPBW in hemostasis and bone regeneration compared to traditional bone wax, promoting the efficacy of bone bleeding and new bone formation.
CONCLUSION
As compared to traditional bone hemostatic agent bone wax, CaPBW not only preserved its advantages in handling and defect sealing, but also provided platform for temporary physical support and bone regeneration acceleration.
THE TRANSLATIONAL POTENTIAL OF THIS ARTICLE
The integrated design of osteogenesis and hemostasis makes CaPBW have the dual functions as bone hemostasis material and artificial bone substitute. CaPBW therefore demonstrates a strategy of next-generation bone wax with high translational potential for orthopedic surgery.
目的
由于缺乏可靠的止血和同步缺损修复策略,骨损伤合并出血和不规则形状缺损在骨科手术及实践中具有挑战性。骨蜡是骨科手术中用于止血管理的一种有百年历史的生物材料,具有即用优势,但因生物惰性和不可降解性存在骨愈合失败的风险。在当前研究中,受生物陶瓷水泥和预混概念整合的启发,制备了一种用于骨止血和缺损修复的原位自固化生物活性磷酸钙基骨蜡(CaPBW)。
方法
开发了一种具有可塑性、原位自固化的生物活性CaPBW,其具有磷酸钙水泥(CPC)、磷酸二钙(DPCA)颗粒、改性淀粉和聚乙二醇(PEG)的新型配方,用于骨止血和缺损修复。通过表征、物理和化学性质、生物相容性、成骨能力和止血能力对CaPBW材料进行评估。
结果
CaPBW具备传统骨蜡的即用特性,在形状塑造和缺损封闭方面显示出可行性。当与血液等生理流体相互作用时,由于PEG - 水的逐渐交换和CPC水化,CaPBW可在数十分钟内从油灰状转变为固态,为出血凝血和骨缺损填充提供机械稳定性。研究揭示了CaPBW在凝血和成骨细胞分化方面优于骨蜡,同时证实了其血液相容性和成骨能力。研究表明,与传统骨蜡相比,CaPBW在止血和骨再生方面具有可靠性,可提高骨出血和新骨形成的效果。
结论
与传统骨止血剂骨蜡相比,CaPBW不仅保留了其在操作和缺损封闭方面的优势,还为临时物理支撑和加速骨再生提供了平台。
本文的转化潜力
成骨与止血的一体化设计使CaPBW兼具骨止血材料和人工骨替代物的双重功能。因此,CaPBW展示了一种具有高转化潜力的下一代骨蜡策略,可用于骨科手术。
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