Chemical Self-Assembly of Multifunctional Hydroxyapatite with a Coral-like Nanostructure for Osteoporotic Bone Reconstruction

Quan Hongyu; He Yuwei; Sun Jujiang; Yang Weihu; Luo Wei; Dou Ce; Kang Fei; Zhao Chunrong; He Jian; Yang Xiaochao; Dong Shiwu; Jiang Hong

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Chemical Self-Assembly of Multifunctional Hydroxyapatite with a Coral-like Nanostructure for Osteoporotic Bone Reconstruction

机译：多功能羟基磷灰石的化学自组装，珊瑚样纳米结构用于骨质疏松骨重建

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Bone defects/fractures are common in older people suffering from osteoporosis. Traditional hydroxyapatite (HA) materials for osteoporotic bone repair face many challenges, including limited bone formation and aseptic loosening of orthopedic implants. In this study, a new multifunctional HA is synthesized by spontaneous assembly of alendronate (AL) and Fe3O4 onto HA nanocrystals for osteoporotic bone regeneration. The chemical coordination of AL and Fe3O4 with HA does not induce lattice deformation, resulting in a functionalized HA (Func-HA) with proper magnetic property and controlled release manner. The Func-HA nanocrystals have been encapsulated in polymer substrates to further investigate their osteogenic capability. In vitro and in vivo evaluations reveal that both AL and Fe3O4, especially the combination of two functional groups on HA, can inhibit osteoclastic activity and promote osteoblast proliferation and differentiation, as well as enhance implant osseointegration and accelerate bone remodeling under osteoporotic condition. The as-developed Func-HA with coordinating antiresorptive ability, magnetic property, and osteoconductivity might be a desirable biomaterial for osteoporotic bone defect/fracture treatment.

机译：骨缺陷/骨折在患有骨质疏松症的老年人中常见。传统的羟基磷灰石（HA）材料用于骨质疏松骨骼修复面临许多挑战，包括有限的骨形成和骨科植入物的无菌松动。在该研究中，通过Alendronate（Al）和Fe3O4的自发组装在HA纳米晶体中，合成新的多官能HA，用于骨质疏松骨再生。 HA与HA的Al和Fe3O4的化学配位不会诱导晶格变形，导致具有适当磁性和控释方式的官能化的HA（FunC-HA）。 FunC-HA纳米晶体已被包封在聚合物底物中，以进一步研究其骨形成能力。体外和体内评价揭示了Al和Fe3O4，尤其是HA上两种官能团的组合，可以抑制骨细胞活性并促进成骨细胞增殖和分化，以及增强植入物骨整合和在骨质疏松条件下加速骨重塑。具有协调的反红细胞能力，磁性和骨导电性的AS开发的FunC-HA可能是骨质疏松骨缺损/断裂处理的理想生物材料。

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来源
《ACS applied materials & interfaces》 |2018年第30期|共14页
作者
Quan Hongyu; He Yuwei; Sun Jujiang; Yang Weihu; Luo Wei; Dou Ce; Kang Fei; Zhao Chunrong; He Jian; Yang Xiaochao; Dong Shiwu; Jiang Hong;
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作者单位

Third Mil Med Univ Sch Biomed Engn Dept Biomed Mat Sci Chongqing 400038 Peoples R China;

Third Mil Med Univ Sch Biomed Engn Dept Biomed Mat Sci Chongqing 400038 Peoples R China;

Third Mil Med Univ Sch Biomed Engn Dept Biomed Mat Sci Chongqing 400038 Peoples R China;

Chongqing Univ Coll Bioengn Minist Educ Key Lab Biorheol Sci &

Technol Chongqing 400044 Peoples R China;

Guizhou Prov Peoples Hosp Dept Orthoped Guiyang 550002 Peoples R China;

Third Mil Med Univ Southwest Hosp Dept Orthoped Chongqing 400038 Peoples R China;

Third Mil Med Univ Sch Biomed Engn Dept Biomed Mat Sci Chongqing 400038 Peoples R China;

Third Mil Med Univ Sch Biomed Engn Dept Biomed Mat Sci Chongqing 400038 Peoples R China;

Third Mil Med Univ Coll Pharm Chongqing 400038 Peoples R China;

Third Mil Med Univ Sch Biomed Engn Dept Biomed Mat Sci Chongqing 400038 Peoples R China;

Third Mil Med Univ Sch Biomed Engn Dept Biomed Mat Sci Chongqing 400038 Peoples R China;

Third Mil Med Univ Sch Biomed Engn Dept Biomed Mat Sci Chongqing 400038 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类化学工业;
关键词
functionalization; hydroxyapatite; bisphosphonate; magnetic nanoparticles; osteoporotic bone reconstruction;

机译：官能化;羟基磷灰石;双膦酸盐;磁性纳米粒子;骨质疏松骨重建;
入库时间 2022-08-20 16:32:15

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专利

1. Chemical Self-Assembly of Multifunctional Hydroxyapatite with Coral-like Nanostructure for Osteoporotic Bone Reconstruction (vol 10, pg 25547, 2018) [J] . Quan Hongyu, He Yuwei, Sun Jujiang, ACS applied materials & interfaces . 2019,第51期

机译：骨质疏松骨重建珊瑚样纳米结构的多功能羟基磷灰石化学自组装（Vol 10，PG 25547,2018）
2. Developing a novel resorptive hydroxyapatite-based bone substitute for over-critical size defect reconstruction: physicochemical and biological characterization and proof of concept in segmental rabbit's ulna reconstruction [J] . Milutin Micic, Djordje Antonijevic, Sanja Milutinovic-Smiljanic, Biomedizinische Technik . 2020,第4期

机译：开发一种新型复苏羟基磷灰石的骨替代过度临界大小缺陷重构：在节段性兔溃疡重建中的物理化学和生物学特性和概念证明
3. An Effect of Cationic CTAB and Anionic SDS Surfactants on the Physicochemical Properties of Hydroxyapatite Nanostructures for Bone Tissue Engineering [J] . Yahia I. S., Keshk Sherif M. A. S., Shkir Mohd, Journal of Nanoelectronics and Optoelectronics . 2020,第3期

机译：阳离子CTAB和阴离子SDS表面活性剂对骨组织工程羟基磷灰石纳米结构物理化学性质的影响
4. Quantitative Changes of Bone Volume and Immunohistochemical Analysis of Biomarkers in Healthy, Osteoporotic and Osteoporotic Sham Surgery Affected Rabbit Bone Controls [C] . Janis Zarins, Mara Pilmane, llze Salma International Baltic Conference of Engineering Materials and Tribology . 2017

机译：健康，骨质疏松和骨质疏松假手术中骨骨骨体积和免疫组织化学分析的定量变化影响兔骨对照
5. Utilizing a hydroxyapatite-binding domain to deliver bone regenerative molecules to hydroxyapatite and allograft bone to enhance osteogenesis. [D] . Culpepper, Bonnie Kathleen. 2013

机译：利用羟基磷灰石结合域将骨再生分子传递至羟基磷灰石和同种异体骨，以增强成骨作用。
6. Ultrasmall Superparamagnetic Iron Oxide Labeled Silk Fibroin/Hydroxyapatite Multifunctional Scaffold Loaded With Bone Marrow-Derived Mesenchymal Stem Cells for Bone Regeneration [O] . Qin Liu, Longbao Feng, Zelong Chen, 2020

机译：超超顺磁性氧化铁标有丝纤维蛋白/羟基磷灰石多功能支架骨髓衍生的间充质干细胞用于骨再生
7. Correction to Chemical Self-Assembly of Multifunctional Hydroxyapatite with Coral-like Nanostructure for Osteoporotic Bone Reconstruction [O] . Hongyu Quan, Yuwei He, Jujiang Sun, 2019

机译：用珊瑚状纳米结构进行化学自组装的化学自组装，用于骨质疏松骨重建

Chemical Self-Assembly of Multifunctional Hydroxyapatite with a Coral-like Nanostructure for Osteoporotic Bone Reconstruction

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