Fast Stereolithography Printing of Large-Scale Biocompatible Hydrogel Models.: Social discussions and analytics

Fast Stereolithography Printing of Large-Scale Biocompatible Hydrogel Models.

Nanditha Anandakrishnan, Hang Ye, Zipeng Guo, Zhaowei Chen, Kyle I Mentkowski, Jennifer K Lang, Nika Rajabian, Stelios T Andreadis, Zhen Ma, Joseph A Spernyak, Jonathan F Lovell, Depeng Wang, Jun Xia, Chi Zhou, Ruogang Zhao

May 2021 Adv Healthc Mater

Synopsis of Social media discussions

The overall sentiment reflects strong enthusiasm and support for the research, with users emphasizing its importance for bioprinting applications, as seen in comments like 'Faster SLA (x10-50) to 3D Print Human Tissue and Organs' and 'Organ 3D printing is one step closer,' which indicate excitement about the technology's potential and its transformative impact on healthcare.

Agreement

Moderate agreement

Most discussions express strong support or enthusiasm for the publication, highlighting the potential of the technology, such as 'organ 3D printing is one step closer' and 'faster SLA (x10-50) to 3D print human tissue and organs.'

Interest

High level of interest

The posts demonstrate high curiosity and excitement about advancements in bioprinting, with phrases like '3D printed organs otw' and 'Fast Stereolithography Printing,' indicating keen interest.

Engagement

Moderate level of engagement

Participants reference methods, potential applications, and even share links to access the article, showing active engagement, but the tone is mostly enthusiastic rather than deeply analytical.

Impact

Moderate level of impact

Several comments recognize the significance of this progress in tissue engineering and bioprinting, implying that the publication could be influential in advancing medical research and regenerative medicine.

Social Mentions

YouTube

2 Videos

Twitter

12 Posts

Blogs

5 Articles

News

33 Articles

Metrics

Video Views

2,193

Total Likes

31

Extended Reach

161,168

Social Features

52

Timeline: Posts about article

Advancements in Speeding Up 3D-Printed Organs Using Hydrogel Technology

A University at Buffalo-led team utilizes stereolithography and hydrogels to accelerate 3D printing of tissues and organs, advancing biocompatible hydrogel models for medical applications.

Rajamanickam Antonimuthu

March 6, 2021

2,079 views

Fast Large-Scale Bioprinting with Continuous Stereolithography

The FLOAT method is a fast 3D bioprinting technique that creates large, cell-laden hydrogel models within minutes, reducing deformation and damage. It utilizes controlled photopolymerization and high-velocity flow for continuous structure growth, enabling high cell viability for tissue engineering.

ZIPENG GUO

September 14, 2022

114 views

radagast el pardo
@RadagastPard (Twitter)

RT @3d_bootcamp: Faster SLA (x10-50) to 3D Print Human Tissue and Organs
view full post

February 1, 2022

1
The 3D Printing Bootcamp
@3d_bootcamp (Twitter)

Faster SLA (x10-50) to 3D Print Human Tissue and Organs
view full post

February 1, 2022

3
1
LibKey
@libkey_io (Twitter)

@ichiipsy Access the paywalled article from your library: https://t.co/yJQNW4oe4Y Promote scholarly access to content by simply adding https://t.co/SXSePSX5De in front of any DOI
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March 11, 2021

1
いっちー@バーチャル精神科医
@ichiipsy (Twitter)

Nanditha Anandakrishnan et al, Fast Stereolithography Printing of Large‐Scale Biocompatible Hydrogel Models, Advanced Healthcare Materials (2021). https://t.co/B9hzdpqNcm
view full post

March 11, 2021

3
Cell Eleven
@bioce11 (Twitter)

Researchers at the University at Buffalo are using stereolithography additive manufacturing to make large‐scale biocompatible hydrogels. Organ 3D printing is one step closer. https://t.co/stdjK20aeu https://t.co/OSKk8K889q #BioTech #BioMed #TissueEngineering #Biofabrication
view full post

March 8, 2021

1
Jordan
@JIHVD (Twitter)

https://t.co/AklqaENZrV 3D printed organs otw
view full post

March 8, 2021
Juan Rubio Martín
@jrubiomart (Twitter)

Fast Stereolithography Printing of Large‐Scale Biocompatible Hydrogel Models https://t.co/YEg53h7maj
view full post

March 8, 2021

1
Siegfried Treitner
@TreitnerS (Twitter)

Fast #Stereolithography #Printing of Large‐Scale #Biocompatible #Hydrogel #Models https://t.co/2qB1Qgv65R
view full post

March 7, 2021
Dr Anthony Martin
@AMAinsight (Twitter)

Fast Stereolithography Printing of Large‐Scale Biocompatible Hydrogel Models - Anandakrishnan - - Advanced Healthcare Materials - Wiley Online Library https://t.co/RR43Bz7oP8
view full post

March 7, 2021
Agingdoc
@agingdoc1 (Twitter)

Fast Stereolithography Printing of Large‐Scale Biocompatible Hydrogel Models https://t.co/CBuQx5OwI9
view full post

March 7, 2021
Keerthi Rajamani
@KeerthiRajaman1 (Twitter)

RT @NandithaAK: Happy to share this work is now published in Advanced Healthcare Materials @AdvSciNews https://t.co/PQYRxS63mo
view full post

February 18, 2021

1
Nanditha Anandakrishnan
@NandithaAK (Twitter)

Happy to share this work is now published in Advanced Healthcare Materials @AdvSciNews https://t.co/PQYRxS63mo https://t.co/Wxys7c2V6j
view full post

February 18, 2021

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1

Abstract Synopsis

The FLOAT method is a fast 3D bioprinting technique that creates large, cell-laden hydrogel models within minutes, reducing issues like deformation and damage typically caused by slow printing.
By precisely controlling the photopolymerization process and establishing high-velocity flow of the prepolymer, the method allows continuous replenishment of material and nonstop growth of the hydrogel structure.
The inclusion of embedded vessel networks with endothelialization facilitates media perfusion and barrier functions, supporting high cell viability and metabolic activity crucial for tissue repair and transplantation applications.]

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