Search Results - "Fang, Yongcong"

Novel biomimetic fiber incorporated scaffolds for tissue engineering by Yongcong, Fang, Zhang, Ting, Liverani, Liliana, Boccaccini, Aldo R., Sun, Wei

“…From a structural perspective, an ideal scaffold ought to possess interconnected macro pores with sizes from 10 to 100 μm to facilitate cell infiltration and…”
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Design, Characterization, and 3D Printing of Cardiovascular Stents with Zero Poisson’s Ratio in Longitudinal Deformation by Wang, Chengjin, Zhang, Lei, Fang, Yongcong, Sun, Wei

“…Inherent drawbacks associated with drug-eluting stents have prompted the development of bioresorbable cardiovascular stents. Additive manufacturing…”
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3D Printed Conductive Multiscale Nerve Guidance Conduit with Hierarchical Fibers for Peripheral Nerve Regeneration by Fang, Yongcong, Wang, Chengjin, Liu, Zibo, Ko, Jeonghoon, Chen, Li, Zhang, Ting, Xiong, Zhuo, Zhang, Lei, Sun, Wei

“…Nerve guidance conduits (NGCs) have become a promising alternative for peripheral nerve regeneration; however, the outcome of nerve regeneration and functional…”
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A patient-specific lung cancer assembloid model with heterogeneous tumor microenvironments by Zhang, Yanmei, Hu, Qifan, Pei, Yuquan, Luo, Hao, Wang, Zixuan, Xu, Xinxin, Zhang, Qing, Dai, Jianli, Wang, Qianqian, Fan, Zilian, Fang, Yongcong, Ye, Min, Li, Binhan, Chen, Mailin, Xue, Qi, Zheng, Qingfeng, Zhang, Shulin, Huang, Miao, Zhang, Ting, Gu, Jin, Xiong, Zhuo

“…Cancer models play critical roles in basic cancer research and precision medicine. However, current in vitro cancer models are limited by their inability to…”
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Rapid Fabrication of Cell-Laden Microfibers for Construction of Aligned Biomimetic Tissue by Lu, Bingchuan, Li, Mingfeng, Fang, Yongcong, Liu, Zibo, Zhang, Ting, Xiong, Zhuo

“…Bottom-up engineering of tissue constructs is being rapidly developed and broadly applied in biomanufacturing. As one type of building block, cell-laden…”
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Recent advances on bioengineering approaches for fabrication of functional engineered cardiac pumps: A review by Fang, Yongcong, Sun, Wei, Zhang, Ting, Xiong, Zhuo

“…The field of cardiac tissue engineering has advanced over the past decades; however, most research progress has been limited to engineered cardiac tissues…”
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3D Printing of Cell‐Laden Microgel‐Based Biphasic Bioink with Heterogeneous Microenvironment for Biomedical Applications by Fang, Yongcong, Guo, Yihan, Ji, Mengke, Li, Binhan, Guo, Yujiang, Zhu, Jieming, Zhang, Ting, Xiong, Zhuo

“…A major challenge in 3D extrusion bioprinting is the limited number of bioink that fulfills the opposing requirements for printability with requisite…”
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A heart-on-a-chip platform for online monitoring of contractile behavior via digital image processing and piezoelectric sensing technique by Sakamiya, Mutsuhito, Fang, Yongcong, Mo, Xingwu, Shen, Junying, Zhang, Ting

“…lA heart-on-a-chip platform with online monitoring of contractile behavior for 3D cardiac tissue constructs was developed via an image processing system and a…”
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Expanding Embedded 3D Bioprinting Capability for Engineering Complex Organs with Freeform Vascular Networks by Fang, Yongcong, Guo, Yihan, Wu, Bingyan, Liu, Zibo, Ye, Min, Xu, Yuanyuan, Ji, Mengke, Chen, Li, Lu, Bingchuan, Nie, Kaiji, Wang, Zixuan, Luo, Jianbin, Zhang, Ting, Sun, Wei, Xiong, Zhuo

“…Creating functional tissues and organs in vitro on demand is a major goal in biofabrication, but the ability to replicate the external geometry of specific…”
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3D Bioprinted GelMA‐Nanoclay Hydrogels Induce Colorectal Cancer Stem Cells Through Activating Wnt/β‐Catenin Signaling by Zhang, Yanmei, Wang, Zixuan, Hu, Qifan, Luo, Hao, Lu, Bingchuan, Gao, Yunhe, Qiao, Zhi, Zhou, Yongsen, Fang, Yongcong, Gu, Jin, Zhang, Ting, Xiong, Zhuo

“…Cancer stem cells (CSCs) are a rare cell population in tumors that are responsible for tumor recurrence and metastasis. They are a priority as therapeutic…”
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Matrix Stiffness of GelMA Hydrogels Regulates Lymphatic Endothelial Cells toward Enhanced Lymphangiogenesis by Qin, Ziyue, Chen, Heming, Fang, Yongcong, Wu, Geng, Chen, Qiang, Xue, Bin, Xu, Rongyao, Zheng, Kai, Jiang, Hongbing

“…Lymphatic vessel regeneration is crucial for various tissue engineering strategies, particularly in resolving inflammation and restoring tissue homeostasis. In…”
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Omnidirectional elastic constraint-based embedded 3D printing in non-yield stress fluids for engineering complex tissues by Wu, Bingyan, Zeng, Zhaoxi, Fang, Yongcong, Zhang, Zhenrui, Tian, Yueming, Lu, Bingchuan, Li, Binhan, Liu, Zibo, Zhang, Ting, Xiong, Zhuo

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A Heart‐Breast Cancer‐on‐a‐Chip Platform for Disease Modeling and Monitoring of Cardiotoxicity Induced by Cancer Chemotherapy by Lee, Junmin, Mehrotra, Shreya, Zare‐Eelanjegh, Elaheh, Rodrigues, Raquel O., Akbarinejad, Alireza, Ge, David, Amato, Luca, Kiaee, Kiavash, Fang, YongCong, Rosenkranz, Aliza, Keung, Wendy, Mandal, Biman B., Li, Ronald A., Zhang, Ting, Lee, HeaYeon, Dokmeci, Mehmet Remzi, Zhang, Yu Shrike, Khademhosseini, Ali, Shin, Su Ryon

“…Cardiotoxicity is one of the most serious side effects of cancer chemotherapy. Current approaches to monitoring of chemotherapy‐induced cardiotoxicity (CIC) as…”
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Satellite‐Based On‐Orbit Printing of 3D Tumor Models by Mo, Xingwu, Zhang, Yanmei, Wang, Zixuan, Zhou, Xianhao, Zhang, Zhenrui, Fang, Yongcong, Fan, Zilian, Guo, Yihan, Zhang, Ting, Xiong, Zhuo

“…Space three dimension (3D） bioprinting provides a precise and bionic tumor model for evaluating the compound effect of the space environment on tumors, thereby…”
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Optimizing Bifurcated Channels within an Anisotropic Scaffold for Engineering Vascularized Oriented Tissues by Fang, Yongcong, Ouyang, Liliang, Zhang, Ting, Wang, Chengjin, Lu, Bingchuan, Sun, Wei

“…Despite progress in engineering both vascularized tissues and oriented tissues, the fabrication of 3D vascularized oriented tissues remains a challenge due to…”
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Engineering Highly Vascularized Bone Tissues by 3D Bioprinting of Granular Prevascularized Spheroids by Fang, Yongcong, Ji, Mengke, Wu, Bingyan, Xu, Xinxin, Wang, Ge, Zhang, Yanmei, Xia, Yingkai, Li, Zhe, Zhang, Ting, Sun, Wei, Xiong, Zhuo

“…The convergence of 3D bioprinting with powerful manufacturing capability and cellular self-organization that can reproduce intricate tissue microarchitecture…”
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3D printing of vascularized hepatic tissues with a high cell density and heterogeneous microenvironment by Fang, Yongcong, Ji, Mengke, Yang, Yi, Guo, Yihan, Sun, Ruobin, Zhang, Ting, Sun, Wei, Xiong, Zhuo

“…Three-dimensional bioprinting has emerged as an appealing approach for creating functional tissues; however, a lack of suitable bioinks with high cell density…”
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Multi-scale hierarchical scaffolds with aligned micro-fibers for promoting cell alignment by Wang, Chengjin, Xu, Yuanyuan, Xia, Jingjing, Zhou, Zhenzhen, Fang, Yongcong, Zhang, Lei, Sun, Wei

“…Cell alignment plays an essential role in cytoskeleton reorganization, extracellular matrix remodeling, and biomechanical properties regulation of tissues such…”
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3D Bioprinted GelMA‐Nanoclay Hydrogels Induce Colorectal Cancer Stem Cells Through Activating Wnt/β‐Catenin Signaling (Small 18/2022) by Zhang, Yanmei, Wang, Zixuan, Hu, Qifan, Luo, Hao, Lu, Bingchuan, Gao, Yunhe, Qiao, Zhi, Zhou, Yongsen, Fang, Yongcong, Gu, Jin, Zhang, Ting, Xiong, Zhuo

“…Cancer Stem Cells In article number 2200364, Zhuo Xiong and co‐workers report that 3D bioprinted GelMA‐nanoclay hybrid hydrogels can induce and enrich…”
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Expanding Embedded 3D Bioprinting Capability for Engineering Complex Organs with Freeform Vascular Networks (Adv. Mater. 22/2023) by Fang, Yongcong, Guo, Yihan, Wu, Bingyan, Liu, Zibo, Ye, Min, Xu, Yuanyuan, Ji, Mengke, Chen, Li, Lu, Bingchuan, Nie, Kaiji, Wang, Zixuan, Luo, Jianbin, Zhang, Ting, Sun, Wei, Xiong, Zhuo

“…Complex Organ Printing In article number 2205082, Zhuo Xiong and co‐workers report a generalizable bioprinting strategy of sequential printing in a reversible…”
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