Injectable microfluidic hydrogel microspheres for cell and drug delivery
Z Zhao, Z Wang, G Li, Z Cai, J Wu… - Advanced Functional …, 2021 - Wiley Online Library
Microfluidic hydrogel microspheres have been broadly studied across a wide range of
industries and applications, and their use in the medical field, including control cells and …
industries and applications, and their use in the medical field, including control cells and …
Progress of microfluidic hydrogel‐based scaffolds and organ‐on‐chips for the cartilage tissue engineering
Cartilage degeneration is among the fundamental reasons behind disability and pain across
the globe. Numerous approaches have been employed to treat cartilage diseases …
the globe. Numerous approaches have been employed to treat cartilage diseases …
Advanced microfluidic devices for fabricating multi‐structural hydrogel microsphere
Hydrogel microspheres are a novel functional material, arousing much attention in various
fields. Microfluidics, a technology that controls and manipulates fluids at the micron scale …
fields. Microfluidics, a technology that controls and manipulates fluids at the micron scale …
Microfluidic tissue engineering and bio‐actuation
Bio‐hybrid technologies aim to replicate the unique capabilities of biological systems that
could surpass advanced artificial technologies. Soft bio‐hybrid robots consist of synthetic …
could surpass advanced artificial technologies. Soft bio‐hybrid robots consist of synthetic …
Recent progress in the fabrication of flexible materials for wearable sensors
H Liu, L Wang, G Lin, Y Feng - Biomaterials Science, 2022 - pubs.rsc.org
Wearable sensors have been widely studied because of their small size, light weight, and
potential for the noninvasive tracking and monitoring of human physiological information …
potential for the noninvasive tracking and monitoring of human physiological information …
Multi-material digital light processing bioprinting of hydrogel-based microfluidic chips
Recent advancements in digital-light-processing (DLP)-based bioprinting and hydrogel
engineering have enabled novel developments in organs-on-chips. In this work, we …
engineering have enabled novel developments in organs-on-chips. In this work, we …
Highly conductive PPy–PEDOT: PSS hybrid hydrogel with superior biocompatibility for bioelectronics application
X Ren, M Yang, T Yang, C Xu, Y Ye, X Wu… - … Applied Materials & …, 2021 - ACS Publications
Conductive polymer hydrogels (CPHs) hold significant promise in broad applications, such
as bioelectronics and energy devices. Hitherto, the development of a facile and scalable …
as bioelectronics and energy devices. Hitherto, the development of a facile and scalable …
[HTML][HTML] 3D bioprinting strategies, challenges, and opportunities to model the lung tissue microenvironment and its function
M Barreiro Carpio, M Dabaghi, J Ungureanu… - … in Bioengineering and …, 2021 - frontiersin.org
Human lungs are organs with an intricate hierarchical structure and complex composition;
lungs also present heterogeneous mechanical properties that impose dynamic stress on …
lungs also present heterogeneous mechanical properties that impose dynamic stress on …
3D-bioprinted cancer-on-a-chip: level-up organotypic in vitro models
Combinatorial conjugation of organ-on-a-chip platforms with additive manufacturing
technologies is rapidly emerging as a disruptive approach for upgrading cancer-on-a-chip …
technologies is rapidly emerging as a disruptive approach for upgrading cancer-on-a-chip …
Dynamic nanocomposite microgel assembly with microporosity, injectability, tissue‐adhesion, and sustained drug release promotes articular cartilage repair and …
Q Feng, D Li, Q Li, S Li, H Huang, H Li… - Advanced …, 2022 - Wiley Online Library
Owing to the lack of blood vessels, nerves, and lymph, articular cartilage defect is difficult to
self‐repair. Although several cartilage tissue engineering products have been authorized for …
self‐repair. Although several cartilage tissue engineering products have been authorized for …