Biodegradable Zn-5Dy Alloy with Enhanced Osteo/Angio-Genic Activity and Osteointegration Effect via Regulation of SIRT4-Dependent Mitochondrial Function.
Yue HanXian TongRunqi ZhouYilin WangYuge ChenLiang ChenXinhua HongLinmei WuZhiqiang LinYichi ZhangXuejia ZhangChaoming HuBin LiYifan PingZelin CaoZhou YeZhongchen SongYuncang LiCuie WenYongsheng ZhouJixing LinShengbin HuangPublished in: Advanced science (Weinheim, Baden-Wurttemberg, Germany) (2024)
Zinc (Zn)-dysprosium (Dy) binary alloys are promising biodegradable bone fracture fixation implants owing to their attractive biodegradability and mechanical properties. However, their clinical application is a challenge for bone fracture healing, due to the lack of Zn-Dy alloys with tailored proper bio-mechanical and osteointegration properties for bone regeneration. A Zn-5Dy alloy with high strength and ductility and a degradation rate aligned with the bone remodeling cycle is developed. Here, mechanical stability is further confirmed, proving that Zn-5Dy alloy can resist aging in the degradation process, thus meeting the mechanical requirements of fracture fixation. In vitro cellular experiments reveal that the Zn-5Dy alloy enhances osteogenesis and angiogenesis by elevating SIRT4-mediated mitochondrial function. In vivo Micro-CT, SEM-EDS, and immunohistochemistry analyses further indicate good biosafety, suitable biodegradation rate, and great osteointegration of Zn-5Dy alloy during bone healing, which also depends on the upregulation of SIRT4-mediated mitochondrial events. Overall, the study is the first to report a Zn-5Dy alloy that exerts remarkable osteointegration properties and has a strong potential to promote bone healing. Furthermore, the results highlight the importance of mitochondrial modulation and shall guide the future development of mitochondria-targeting materials in enhancing bone fracture healing.
Keyphrases
- single molecule
- bone regeneration
- heavy metals
- bone mineral density
- soft tissue
- oxidative stress
- bone loss
- drug delivery
- postmenopausal women
- ischemia reperfusion injury
- hip fracture
- cell death
- risk assessment
- genome wide
- poor prognosis
- signaling pathway
- cell proliferation
- reactive oxygen species
- human health
- smoking cessation
- vascular endothelial growth factor
- endoplasmic reticulum