Injectable ultrasound-powered bone-adhesive nanocomposite hydrogel for electrically accelerated irregular bone defect healing

被引：48

作者：

Zhou, Shiqi ^{[1
]}

Xiao, Cairong ^{[2
]}

Fan, Lei ^{[4
]}

Yang, Jinghong ^{[1
]}

Ge, Ruihan ^{[1
]}

Cai, Min ^{[1
]}

Yuan, Kaiting ^{[1
]}

Li, Changhao ^{[1
]}

Crawford, Ross William ^{[5
,6
]}

Xiao, Yin ^{[7
,8
]}

Yu, Peng ^{[2
]}

Deng, Chunlin ^{[2
]}

Ning, Chengyun ^{[2
]}

Zhou, Lei ^{[3
]}

Wang, Yan ^{[1
]}

机构：

[1] Sun Yat Sen Univ, Hosp Stomatol, Guanghua Sch Stomatol, Guangdong Prov Key Lab Stomatol, Guangzhou 510055, Guangdong, Peoples R China

[2] South China Univ Technol, Natl Engn Res Ctr Tissue Restorat & Reconstruct, Sch Mat Sci & Engn, Guangzhou 510641, Guangdong, Peoples R China

[3] Guangzhou Med Univ, Affiliated Hosp 3, Dept Spine Surg, Guangzhou Key Lab Spine Dis Prevent & Treatment, Guangzhou 510150, Guangdong, Peoples R China

[4] Southern Med Univ, Nanfang Hosp, Dept Orthoped Surg, Guangzhou 510515, Guangdong, Peoples R China

[5] Queensland Univ Technol, Inst Hlth & Biomed Innovat, Ctr Biomed Technol, Brisbane, Qld 4059, Australia

[6] Queensland Univ Technol, Australia China Ctr Tissue Engn & Regenerat Med, Ctr Biomed Technol, Brisbane, Qld 4059, Australia

[7] Griffith Univ, Sch Med & Dent, Nathan, Qld 4111, Australia

[8] Griffith Univ, Menzies Hlth Inst Queensland, Nathan, Qld 4111, Australia

来源：

JOURNAL OF NANOBIOTECHNOLOGY | 2024年 / 22卷 / 01期

基金：

中国国家自然科学基金;

关键词：

Nanocomposite hydrogel; Bone adhesive; Injectability and self-healing; Bone defects; Electrical stimulation; STIMULATION; INTERFACE;

D O I：

10.1186/s12951-024-02320-y

中图分类号：

Q81 [生物工程学（生物技术）]; Q93 [微生物学];

学科分类号：

071005 [微生物学]; 090105 [作物生产系统与生态工程];

摘要：

The treatment of critical-size bone defects with irregular shapes remains a major challenge in the field of orthopedics. Bone implants with adaptability to complex morphological bone defects, bone-adhesive properties, and potent osteogenic capacity are necessary. Here, a shape-adaptive, highly bone-adhesive, and ultrasound-powered injectable nanocomposite hydrogel is developed via dynamic covalent crosslinking of amine-modified piezoelectric nanoparticles and biopolymer hydrogel networks for electrically accelerated bone healing. Depending on the inorganic-organic interaction between the amino-modified piezoelectric nanoparticles and the bio-adhesive hydrogel network, the bone adhesive strength of the prepared hydrogel exhibited an approximately 3-fold increase. In response to ultrasound radiation, the nanocomposite hydrogel could generate a controllable electrical output (-41.16 to 61.82 mV) to enhance the osteogenic effect in vitro and in vivo significantly. Rat critical-size calvarial defect repair validates accelerated bone healing. In addition, bioinformatics analysis reveals that the ultrasound-responsive nanocomposite hydrogel enhanced the osteogenic differentiation of bone mesenchymal stem cells by increasing calcium ion influx and up-regulating the PI3K/AKT and MEK/ERK signaling pathways. Overall, the present work reveals a novel wireless ultrasound-powered bone-adhesive nanocomposite hydrogel that broadens the therapeutic horizons for irregular bone defects.

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