Ink-structing the future of vascular tissue engineering: a review of the physiological bioink design

Synofzik, Judith; Heene, Sebastian; Jonczyk, Rebecca; Blume, Cornelia

doi:10.1007/s42242-024-00270-w

Bio-des. Manuf.

2024

DOI: 10.1007/s42242-024-00270-w

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Ink-structing the future of vascular tissue engineering: a review of the physiological bioink design

Judith Synofzik,

Sebastian Heene,

Rebecca Jonczyk

et al.

Abstract: Three-dimensional (3D) printing and bioprinting have come into view for a plannable and standardizable generation of implantable tissue-engineered constructs that can substitute native tissues and organs. These tissue-engineered structures are intended to integrate with the patient’s body. Vascular tissue engineering (TE) is relevant in TE because it supports the sustained oxygenization and nutrition of all tissue-engineered constructs. Bioinks have a specific role, representing the necessary medium for printa… Show more

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Cited by 6 publications

References 198 publications

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Nano‐Micro Granular Ink with Modulatable Structure and Function Modules for Wound Dressing Preparation via 3D Printing

Wang,

Niu,

Fang

et al. 2024

Adv Materials Technologies

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For porous dressing production through 3D printing, it is challenging to adjust the printability of ink while balancing its bioactivity. The present study introduces an example of a modular construction method for heterogeneous granular ink. Gelatin microspheres (gelatin‐MSs) are assembled by poly (gallic acid)‐coated zinc‐containing nano‐hydroxyapatite (ZnHA‐NP/p(GA)), and further cooperate with Ag+ to form a kind of granular inks. The three modules including gelatin‐MS, ZnHA‐NP/p(GA), and Ag have their own functions: The viscoelastic gelatin‐MS module is the essential component that realizes ink extrusion. The ZnHA‐NP/p(GA) module not only forms reversible interactions with gelatin‐MS that realize the assembly but also takes the responsibility of reactive oxygen species‐scavenging and anti‐inflammatory. The Ag module not only interacts with ZnHA‐NP/p(GA) module to promote the stability but also exhibits strong antibacterial property. The gelatin‐MS size, p(GA)‐coating duration, ZnHA‐NP/p(GA) content, and Ag content are optimized to yield a nano‐micro granular ink for bioactive porous dressing preparation that is used to significantly promote the healing of refractory wounds. Therefore, this method allows particles with different structures and bio‐functions that serve as modules to assemble into inks, realizing the balance of printability and biological functions for dressing manufacturing.

show abstract

Nano‐Micro Granular Ink with Modulatable Structure and Function Modules for Wound Dressing Preparation via 3D Printing

Wang,

Niu,

Fang

et al. 2024

Adv Materials Technologies

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show abstract

Bioengineered human arterial equivalent and its applications from vascular graft to in vitro disease modeling

Luo,

Pang,

et al. 2024

iScience

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High-resolution projection-based 3D bioprinting

He,

Qiao,

Wang

et al. 2024

Nat Rev Bioeng

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Ink-structing the future of vascular tissue engineering: a review of the physiological bioink design

Cited by 6 publications

References 198 publications

Nano‐Micro Granular Ink with Modulatable Structure and Function Modules for Wound Dressing Preparation via 3D Printing

Nano‐Micro Granular Ink with Modulatable Structure and Function Modules for Wound Dressing Preparation via 3D Printing

Bioengineered human arterial equivalent and its applications from vascular graft to in vitro disease modeling

High-resolution projection-based 3D bioprinting

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