Litcius/Paper detail

Injectable Biomimetic Hydrogel Guided Functional Bone Regeneration by Adapting Material Degradation to Tissue Healing

Yamin Li, Yamin Li, Lan Xiao, Dai‐Xu Wei, Shengyang Liu, Zeren Zhang, Ruixian Lian, Liren Wang, Yunsu Chen, Jia Jiang, Yin Xiao, Changsheng Liu, Yulin Li, Yulin Li, Jinzhong Zhao

2023Advanced Functional Materials69 citationsDOIOpen Access PDF

Abstract

Abstract The treatment of irregular bone defects remains a clinical challenge since the current biomaterials (e.g., calcium phosphate bone cement (CPC)) mainly act as inert substitutes, which are incapable of transforming into a regenerated host bone (termed functional bone regeneration). Ideally, the implant degradation rate should adapt to that of bone regeneration, therefore providing sufficient physicochemical support and giving space for bone growth. This study aims to develop an injectable biomaterial with bone regeneration‐adapted degradability, to reconstruct a biomimetic bone‐like structure that can timely transform into new bone, facilitating functional bone regeneration. To achieve this goal, a hybrid (LP‐CPC@gelatin, LC) hydrogel is synthesized via one‐step incorporation of laponite (LP) and CPC into gelatin hydrogel, and the LC gel degradation rate is controlled by adjusting the LP/CPC ratio to match the bone regeneration rate. Such an LC hydrogel shows good osteoinduction, osteoconduction, and angiogenesis effects, with complete implant‐to‐new bone transformation capacity. This 2D nanoclay‐based bionic hydrogel can induce ectopic bone regeneration and promote ligament graft osseointegration in vivo by inducing functional bone regeneration. Therefore, this study provides an advanced strategy for functional bone regeneration and an injectable biomimetic biomaterial for functional skeletal muscle repair in a minimally invasive therapy.

Topics & Concepts

Materials scienceRegeneration (biology)Bone healingBiomedical engineeringDegradation (telecommunications)Self-healing hydrogelsSelf-healingTissue engineeringWound healingBiomimetic materialsNanotechnologyAnatomyPolymer chemistryCell biologyMedicineSurgeryComputer scienceTelecommunicationsPathologyBiologyAlternative medicineBone Tissue Engineering MaterialsDental Implant Techniques and OutcomesFacial Trauma and Fracture Management