Magnetic nanocomposite hydrogels for tissue engineering: design concepts and remote actuation strategies to control cell fate
Most tissues of the human body are characterized by highly anisotropic physical properties
and biological organization. Hydrogels have been proposed as scaffolding materials to …
and biological organization. Hydrogels have been proposed as scaffolding materials to …
Injectable and magnetic responsive hydrogels with bioinspired ordered structures
S Araujo-Custodio, M Gomez-Florit… - ACS Biomaterials …, 2019 - ACS Publications
Injectable hydrogels are particularly interesting for applications in minimally invasive tissue
engineering and regenerative medicine strategies. However, the typical isotropic …
engineering and regenerative medicine strategies. However, the typical isotropic …
Magnetically anisotropic hydrogels for tissue engineering
L Hao, H Mao - Biomaterials Science, 2023 - pubs.rsc.org
Many soft tissues of the human body possess hierarchically anisotropic structures, exhibiting
orientation-specific mechanical properties and biological functionality. Hydrogels have been …
orientation-specific mechanical properties and biological functionality. Hydrogels have been …
Magnetic hydrogels and their potential biomedical applications
Hydrogels find widespread applications in biomedical engineering due to their hydrated
environment and tunable properties (eg, mechanical, chemical, biocompatible) similar to the …
environment and tunable properties (eg, mechanical, chemical, biocompatible) similar to the …
Magnetic-responsive hydrogels: From strategic design to biomedical applications
Z Li, Y Li, C Chen, Y Cheng - Journal of Controlled Release, 2021 - Elsevier
Smart hydrogels which can respond to external stimuli have been widely focused with
increasing interest. Thereinto, magnetic-responsive hydrogels that are prepared by …
increasing interest. Thereinto, magnetic-responsive hydrogels that are prepared by …
Imparting functionality to the hydrogel by magnetic-field-induced nano-assembly and macro-response
W Shi, J Huang, R Fang, M Liu - ACS applied materials & …, 2020 - ACS Publications
Hydrogels are composed of 3D hydrophilic networks with an abundance of water; they are
analogous to biological soft tissues. Their unique physico-chemical properties endow …
analogous to biological soft tissues. Their unique physico-chemical properties endow …
Recent advances on magnetic sensitive hydrogels in tissue engineering
Z Liu, J Liu, X Cui, X Wang, L Zhang, P Tang - Frontiers in chemistry, 2020 - frontiersin.org
Tissue engineering is a promising strategy for the repair and regeneration of damaged
tissues or organs. Biomaterials are one of the most important components in tissue …
tissues or organs. Biomaterials are one of the most important components in tissue …
A Magneto‐Responsive Hydrogel System for the Dynamic Mechano‐Modulation of Stem Cell Niche
The biophysical microenvironment of cells dynamically evolves during embryonic
development, leading to defined tissue specification. A versatile and highly adaptive …
development, leading to defined tissue specification. A versatile and highly adaptive …
Emerging Magnetic Fabrication Technologies Provide Controllable Hierarchically‐Structured Biomaterials and Stimulus Response for Biomedical Applications
JK Wychowaniec, DF Brougham - Advanced Science, 2022 - Wiley Online Library
Multifunctional nanocomposites which exhibit well‐defined physical properties and encode
spatiotemporally‐controlled responses are emerging as components for advanced …
spatiotemporally‐controlled responses are emerging as components for advanced …
Nanoengineered thermoresponsive magnetic hydrogels for biomedical applications
NA Jalili, M Muscarello… - … & translational medicine, 2016 - Wiley Online Library
Abstract “Smart” hydrogels are part of an emerging class of biomaterials that respond to
multiple external stimuli. A range of thermoresponsive magnetic hydrogels is currently being …
multiple external stimuli. A range of thermoresponsive magnetic hydrogels is currently being …