3D printability and biochemical analysis of revalorized orange peel waste [0.03%]
再生成品的3D打印能力和生化分析:以橙皮废料为例
Jian Da Tan,Cheng Pau Lee,Su Yi Foo et al.
Jian Da Tan et al.
Orange peels are often discarded as food waste despite being a nutritious source of vitamins and antioxidants. These orange peel wastes (OPW) are produced in millions of tons globally every year; discarding them results in detrimental envir...
Multimaterial and multiscale scaffold for engineering enthesis organ [0.03%]
用于组织 enthesis 器官的多材料和多尺度支架
Simone Micalizzi,Lara Russo,Chiara Giacomelli et al.
Simone Micalizzi et al.
Tendon and ligament injuries are relevant clinical problems in modern society, and the current medical approaches do not guarantee complete recovery of the physiological functionalities. Moreover, they present a non-negligible failure rate ...
Yu Liu,Yangyang Liu,Jiayue Liu et al.
Yu Liu et al.
Edible bird's nests (EBN)-the nests of swiftlet birds harvested from the wild- are high-end healthcare food in East Asia, while their excessive harvesting poses increasing ecological, environmental, and food safety concerns. Here, we report...
A sturgeon cartilage extracellular matrix-derived bioactive bioink for tissue engineering applications [0.03%]
一种用于组织工程应用的鲟鱼软骨基质衍生生物墨水
Xiaolin Meng,Zheng Zhou,Xin Chen et al.
Xiaolin Meng et al.
Three-dimensional (3D) bioprinting provides a promising strategy for tissue and organ engineering, and extracellular matrix (ECM)-derived bioinks greatly facilitate its applications in these areas. Decellularized sturgeon cartilage ECM (dSC...
Synthesis of biocompatible BSA-GMA and two-photon polymerization of 3D hydrogels with free radical type I photoinitiator [0.03%]
生物相容性BSA-GMA的合成及自由基型I双光子引发剂的三维水凝胶打印
Teng Li,Jie Liu,Min Guo et al.
Teng Li et al.
Although the development of three-dimensional (3D) printing technology is growing rapidly in the biomedical field, it remains a challenge to achieve arbitrary 3D structures with high resolution and high efficiency. Protein hydrogels fabrica...
Swelling compensation of engineered vasculature fabricated by additive manufacturing and sacrifice-based technique using thermoresponsive hydrogel [0.03%]
基于热响应水凝胶的牺牲法制备血管化组织工程构建体的膨胀补偿研究
Xue Yang,Shuai Li,Xin Sun et al.
Xue Yang et al.
Engineered vasculature is widely employed to maintain the cell viability within in vitro tissues. A variety of fabrication techniques for engineered vasculature have been explored, with combination of additive manufacturing with a sacrifice...
Functional materials of 3D bioprinting for wound dressings and skin tissue engineering applications: A review [0.03%]
用于伤口敷料和皮肤组织工程应用的3D生物打印功能材料:综述
Huan Fang,Jie Xu,Hailin Ma et al.
Huan Fang et al.
The skin plays an important role in vitamin D synthesis, humoral balance, temperature regulation, and waste excretion. Due to the complexity of the skin, fluids loss, bacterial infection, and other life-threatening secondary complications c...
Photocurable 3D-printed PMBG/TCP biphasic scaffold mimicking vasculature for bone regeneration [0.03%]
仿血管骨再生PHBB/TCP双相支架的光固化3D打印技术
Changru Zhang,Ya Ren,Weiqing Kong et al.
Changru Zhang et al.
Mesoporous bioglass (MBG) with excellent osteointegration, osteoinduction, and biodegradability is a promising material for bone regeneration. However, its clinical application is hindered by complex processing and a lack of personalization...
Advances in 3D printing techniques for cartilage regeneration of temporomandibular joint disc and mandibular condyle [0.03%]
用于颞下颌关节盘和髁突软骨再生的3D打印技术进展
Shoushan Hu,Yating Yi,Chengxinyue Ye et al.
Shoushan Hu et al.
Temporomandibular joint (TMJ) osteoarthritis causes fibrocartilage damage to the TMJ disc and mandibular condyle, resulting in local pain and functional impairment that further reduces patients' quality of life. Tissue engineering offers a ...
3D-printed biodegradable magnesium alloy scaffolds with zoledronic acid-loaded ceramic composite coating promote osteoporotic bone defect repair [0.03%]
载有 zoledronic 酸陶瓷复合涂层的 3D 打印可降解镁合金支架促进骨质疏松性骨缺损修复
Zhaoyang Ran,Yan Wang,Jiaxin Li et al.
Zhaoyang Ran et al.
Osteoporotic fracture is one of the most serious complications of osteoporosis. Most fracture sites have bone defects, and restoring the balance between local osteogenesis and bone destruction is difficult during the repair of osteoporotic ...