Amedeo Franco Bonatti,Giovanni Vozzi,Carmelo De Maria
Amedeo Franco Bonatti
Bioprinting technologies have been extensively studied in literature to fabricate three-dimensional constructs for tissue engineering applications. However, very few examples are currently available on clinical trials using bioprinted produ...
Cancer-mediated axonal guidance of sensory neurons in a microelectrode-based innervation MPS [0.03%]
微电极支配MPS介导的癌症感受神经元轴突导向
Matthijs van der Moolen,Andrea Lovera,Fulya Ersoy et al.
Matthijs van der Moolen et al.
Despite recent advances in the field of microphysiological systems (MPSs), availability of models capable of mimicking the interactions between the nervous system and innervated tissues is still limited. This represents a significant challe...
3D-printed bioink loading with stem cells and cellular vesicles for periodontitis-derived bone defect repair [0.03%]
用于牙周病衍生骨缺损修复的装载干细胞和细胞囊泡的3D打印生物墨水
Guang-Tao Yu,Wen-Xiang Zhu,Yu-Yue Zhao et al.
Guang-Tao Yu et al.
The suitable microenvironment of bone regeneration is critically important for periodontitis-derived bone defect repair. Three major challenges in achieving a robust osteogenic reaction are the exist of oral inflammation, pathogenic bacteri...
Enhancement of lacrimal gland cell function by decellularized lacrimal gland derived hydrogel [0.03%]
脱细胞泪腺衍生水凝胶对泪腺细胞功能的增强作用
Katharina E Wiebe-Ben Zakour,Sema Kaya,Julia C Matros et al.
Katharina E Wiebe-Ben Zakour et al.
Sustainable treatment of aqueous deficient dry eye (ADDE) represents an unmet medical need and therefore requires new curative and regenerative approaches based on appropriatein vitromodels. Tissue specific hydrogels retain the individual b...
Development of hybrid 3D printing approach for fabrication of high-strength hydroxyapatite bioscaffold using FDM and DLP techniques [0.03%]
利用FDM和DLP技术制造高强羟基磷灰石生物支架的混合3D打印方法的发展
Yu-Jui Cheng,Tsung-Han Wu,Yu-Sheng Tseng et al.
Yu-Jui Cheng et al.
This study develops a hybrid 3D printing approach that combines fused deposition modeling (FDM) and digital light processing (DLP) techniques for fabricating bioscaffolds, enabling rapid mass production. The FDM technique fabricates outer m...
4D printed shape-shifting biomaterials for tissue engineering and regenerative medicine applications [0.03%]
用于组织工程和再生医学的4D打印智能生物材料
Maria Kalogeropoulou,Pedro J Díaz-Payno,Mohammad J Mirzaali et al.
Maria Kalogeropoulou et al.
The existing 3D printing methods exhibit certain fabrication-dependent limitations for printing curved constructs that are relevant for many tissues. Four-dimensional (4D) printing is an emerging technology that is expected to revolutionize...
Cation-crosslinked κ-carrageenan sub-microgel medium for high-quality embedded bioprinting [0.03%]
用于高质量嵌入式生物打印的阳离子交联κ-卡拉胶亚微凝胶介质
Hua Zhang,Yang Luo,Zeming Hu et al.
Hua Zhang et al.
Three-dimensional (3D) bioprinting embedded within a microgel bath has emerged as a promising strategy for creating intricate biomimetic scaffolds. However, it remains a great challenge to construct tissue-scale structures with high resolut...
Bioassembly of multicellular spheroids to mimic complex tissue structure using surface-modified magnetized nanofibers [0.03%]
利用表面修饰的磁化纳米纤维组装多细胞球体以模仿复杂组织结构
Hayeon Byun,Sangmin Lee,Heungsoo Shin
Hayeon Byun
Advancements in biofabrication have led to major strides toward creating authentic organ models; however, replicating intricate organ structures without scaffolds remains challenging. In this study, we introduce a method utilizing surface-m...
Ionically annealed zwitterionic microgels for bioprinting of cartilaginous constructs [0.03%]
用于软骨构建生物打印的离子退火两性微凝胶
František Surman,Maryam Asadikorayem,Patrick Weber et al.
František Surman et al.
Foreign body response (FBR) is a pervasive problem for biomaterials used in tissue engineering. Zwitterionic hydrogels have emerged as an effective solution to this problem, due to their ultra-low fouling properties, which enable them to ef...
Uniform cerebral organoid culture on a pillar plate by simple and reproducible spheroid transfer from an ultralow attachment well plate [0.03%]
通过简单可重复的超低吸附孔板类器官转移实现支柱板上的均匀脑类器官培养
Prabha Acharya,Pranav Joshi,Sunil Shrestha et al.
Prabha Acharya et al.
Human induced pluripotent stem cell (iPSC)-derived brain organoids have potential to recapitulate the earliest stages of brain development, serving as an effectivein vitromodel for studying both normal brain development and disorders. Howev...