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Introduction
We currently dedicate ourselves in the development of extracellular matrix (ECM)-derived bioink formulation from natural sources utilized for 3D bioprinting. We evaluated the printability of formulated bioink via rheological tests, scanning electron microscope (SEM) as well as performing cellular experiments to testify the biocompatibility of bioink. Apart from that, fiber-hydrogel hybrid network for vascular biofabrication via 3D bioprinting is also our research interest for now.
Skills and Expertise
Current institution
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September 2019 - present
Publications
Publications (5)
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 construction techniques, many studies have contributed to skeletal muscle tissue engineering (STME). This review su...
Here, we present a protocol for 3D printing heart tissues using thiol-norbornene photoclick collagen (NorCol). We describe steps for synthesizing NorCol, preparing bioink and the support bath, and cell-laden printing. We then detail procedures for the loading of C2C12 cells into NorCol, ensuring structural integrity and cell viability after printin...
3D bioprinting emerges as a critical tool in biofabricating functional 3D tissue or organ equivalents for regenerative medicine. Bioprinting techniques have been making strides in integrating automation, customization, and digitalization in coping with diverse tissue engineering scenarios. The convergence of robotic arm-based 3D bioprinting techniq...
Neural tissue engineering (NTE) has made remarkable strides in recent years and holds great promise for treating several devastating neurological disorders. Selecting optimal scaffolding material is crucial for NET design strategies that enable neural and non-neural cell differentiation and axonal growth. Collagen is extensively employed in NTE app...
Bioprinting is an emerging approach for constructing sophisticated tissue analogues with detailed architectures such as vascular networks, which requires bioink fulfill the highly printable property and provide a cell-friendly microenvironment mimicking native extracellular matrix (ECM). Here, we developed a human placental ECM-derived bioink (hp-b...
