Engineering strategies for the construction of oriented and functional skeletal muscle tissues [0.03%]
构建具有定向性和功能性的骨骼肌组织的工程策略
Tingting Fan,Minxuan Jia,Heng Liu et al.
Tingting Fan et al.
The growth and formation of tissues, such as skeletal muscle, involve a complex interplay of spatiotemporal events, including cell migration, orientation, proliferation, and differentiation. With the continuous advancement of in vitro const...
Biofabrication of an in situ hypoxia-delivery scaffold for cartilage regeneration [0.03%]
用于软骨再生的原位缺氧传递支架的生物制造技术研究
Roberto Di Gesù,Antonio Palumbo Piccionello,Giampiero Vitale et al.
Roberto Di Gesù et al.
Osteoarthritis (OA) is a debilitating joint condition affecting millions of people worldwide, triggering painful chondral defects (CDs) that ultimately compromise the overarching patients' quality of life. Currently, several reconstructive ...
Graphene oxide and in-situ carbon reinforced hydroxyapatite scaffolds via ultraviolet-curing 3D printing technology with high osteoinductivity for bone regeneration [0.03%]
通过紫外光固化3D打印技术制造具有高成骨诱导性的氧化石墨烯和原位碳增强羟基磷灰石支架用于骨再生
Hongyu Zhao,Xiao Niu,Shitong Wei et al.
Hongyu Zhao et al.
Ultraviolet photopolymerization additive manufacturing has been used to fabricate calcium phosphate (Ca-P) ceramic scaffolds for repairing bone defects, but it is still a challenge for 3D printed Ca-P scaffolds to simultaneously enhance the...
ATPS-enabled single-step printing of chemically and mechanically on-demand tunable perfusable channels in ejectable constructs [0.03%]
ATPS使可注射结构中化学和机械性能按需调节的灌注通道的一步打印成为可能
Malin Becker,Francisca Luísa Fernandes Gomes,Isa Robin Porsul et al.
Malin Becker et al.
3D bioprinting approaches offer highly versatile solutions to replicate living tissue and organ structures. While current bioprinting approaches can generate desired shapes and spatially determined patterns, the material selection for embed...
High-resolution bioprinting of complex bio-structures via engineering of the photopatterning approaches and adaptive segmentation [0.03%]
通过光图案化方法和自适应分割的工程设计实现复杂生物结构的高分辨率生物打印
Ceren Babayigit,Jorge Alfonso Tavares Negrete,Rahim Esfandyarpour et al.
Ceren Babayigit et al.
Digital Light Processing (DLP) technology has significantly advanced various applications, including 3D bioprinting, through its precision and speed in creating detailed structures. While traditional DLP systems rely on light-emitting diode...
Enhanced gelatin methacryloyl nanohydroxyapatite hydrogel for high-fidelity 3D printing of bone tissue engineering scaffolds [0.03%]
用于高精度打印骨组织工程支架的改良明胶甲基丙烯酰胺纳米羟基磷灰石水凝胶
Toufik Naolou,Nadine Schadzek,Iliyana Pepelanova et al.
Toufik Naolou et al.
Patients suffering from large bone defects are in urgent need of suitable bone replacements. Besides biocompatibility, such replacements need to mimic the 3D architecture of bone and match chemical, mechanical and biological properties, ide...
Biotechnological advances in 3D modeling of cancer initiation. Examples from pancreatic cancer research and beyond [0.03%]
癌症起始的3D建模中的生物技术进展。以胰腺癌研究为例及更多方面
C Handschin,H Shalhoub,A Mazet et al.
C Handschin et al.
In recent years, biofabrication technologies have garnered significant attention within the scientific community for their potential to create advancedin vitrocancer models. While these technologies have been predominantly applied to model ...
Two-photon polymerization of miniaturized 3D scaffolds optimized for studies on glioblastoma multiforme in spaceflight-like microgravity conditions [0.03%]
双光子聚合微型化3D支架,优化用于空间飞行类微重力条件下胶质母细胞瘤的研究
Giada Graziana Genchi,Claudio Conci,Özlem Şen et al.
Giada Graziana Genchi et al.
The obtainment of innovative models recalling complex tumour architectures and activities in vitro is a challenging drive in the understanding of pathology molecular bases, yet a crucial passage to the identification of targets for advanced...
A review of graded scaffolds made by additive manufacturing for tissue engineering: design, fabrication and properties [0.03%]
添加剂制造的梯度支架在组织工程中的应用进展:设计、制造和性质回顾
Yue Wang,Shangsi Chen,Haowen Liang et al.
Yue Wang et al.
The emergence of tissue engineering (TE) has provided new vital means for human body tissue/organ repair. TE scaffolds can provide temporary structural support for cell attachment, growth, and proliferation, until the body restores the mech...
Kiranmai Gaddam,Shibu Chameettachal,Sriya Yeleswarapu et al.
Kiranmai Gaddam et al.
The kidneys are vital for maintaining bodily homeostasis and are susceptible to various diseases that disrupt their function. Traditionally, research on kidney diseases has relied on animal models and simplistic two-dimensional cell culture...