Rheological, In Situ Printability and Cell Viability Analysis of Hydrogels for Muscle Tissue Regeneration

Modeling and fabrication of silk fibroin-gelatin-based constructs using extrusion-based three-dimensional bioprinting

Diego Trucco
Aarushi Sharma
Cristina Manferdini
Elena Gabusi
Mauro Petretta
Giovanna Desando
Leonardo Ricotti
Juhi Chakraborty
Sourabh Ghosh
Gina Lisignoli

January 2021

Robotic dispensing-based 3D bioprinting represents one of the most powerful technologies to develop ...

3D Printability of Alginate-Carboxymethyl Cellulose Hydrogel

Ahasan Habib

March 2018

Three-dimensional (3D) bio-printing is a revolutionary technology to reproduce a 3D functional livin...

Mechanical characterisation of alginate-gelatin hydrogel for 3D bioprinting applications

Han, Jefferson ShengChou

January 2014

In recent years, 3D bioprinting has caught the attention of the medical community for its potential ...

Rheological, In Situ Printability and Cell Viability Analysis of Hydrogels for Muscle Tissue Regeneration

Ramesh, Srikanthan
Gerdes, Sam
Lau, Sharon
Mostafavi, Azadeh
Kong, Zhenyu (James)
Johnson, Blake N.
Tamayol, Ali
Rao, Prahalada
Rivero, Iris V.

January 2018

Advancements in additive manufacturing have made it possible to fabricate biologically relevant arch...

Extrusion 3D (Bio)Printing of Alginate-Gelatin-Based Composite Scaffolds for Skeletal Muscle Tissue Engineering

Surendrasingh Y. Sonaye
Elif G. Ertugral
Chandrasekhar R. Kothapalli
Prabaha Sikder

November 2022

Volumetric muscle loss (VML), which involves the loss of a substantial portion of muscle tissue, is ...

Agarose-Based Hydrogels as Suitable Bioprinting Materials for Tissue Engineering

López-Marcial, GR
Zeng, AY
Osuna, C
Dennis, J
García, JM
O'Connell, GD

October 2018

Agarose-Based Hydrogels as Suitable Bioprinting Materials for Tissue Engineering

Gabriel R. López-Marcial (5747216)
Anne Y. Zeng (5747219)
Carlos Osuna (5747222)
Joseph Dennis (5747225)
Jeannette M. García (1358679)
Grace D. O’Connell (5747228)

September 2018

Hydrogels are useful materials as scaffolds for tissue engineering applications. Using hydrogels wit...

3D Printed Hydrogel Multiassay Platforms for Robust Generation of Engineered Contractile Tissues

Christensen, Rie Kjaer
Laier, Christoffer von Halling
Kızıltay, Aysel
Wilson, Sandra
Larsen, Niels Bent

February 2020

We present a method for reproducible manufacture of multiassay platforms with tunable mechanical pro...

Investigation of cell viability and morphology in 3D bio-printed alginate constructs with tunable stiffness

Shi, Pujiang
Laude, Augustinus
Yeong, Wai Yee

January 2017

In this article, mouse fibroblast cells (L929) were seeded on 2%, 5%, and 10% alginate hydrogels, an...

Printability and Cell Viability in Bioprinting Alginate Dialdehyde-Gelatin Scaffolds

Nikoo Soltan (6714887)
Liqun Ning (5829683)
Fatemeh Mohabatpour (6714890)
Petros Papagerakis (6714893)
Xiongbiao Chen (2862476)

May 2019

Three-dimensional (3D) bioprinting is a promising technique used to fabricate scaffolds from hydroge...

Preparation and Properties of 3D Printed Alginate–Chitosan Polyion Complex Hydrogels for Tissue Engineering

Qiongqiong Liu

June 2018

Three-dimensional (3D) printing holds great potential for preparing sophisticated scaffolds for tiss...

Bio-ink properties and printability for extrusion printing living cells

Chung, Johnson H. Y.
Naficy, Sina
Yue, Zhilian
Kapsa, Robert
Quigley, Anita
Moulton, Simon E.
Wallace, Gordon G.

January 2013

Additive biofabrication (3D bioprinting) makes it possible to create scaffolds with precise geometri...

Modeling and Fabrication of Silk Fibroin–Gelatin-Based Constructs Using Extrusion-Based Three-Dimensional Bioprinting

Diego Trucco
Aarushi Sharma
Cristina Manferdini
Elena Gabusi
Mauro Petretta
Giovanna Desando
Leonardo Ricotti
Juhi Chakraborty
Sourabh Ghosh
Gina Lisignoli

June 2021

Robotic dispensing-based 3D bioprinting represents one of the most powerful technologies to develop ...

3D printing of hydrogels for biofabrication

Woo, Priscilla Wei Hui

January 2016

3D biofabrication allowed the construction of bio materials, tissues, cells, drugs and others to tak...

Towards rapid manufacture of externally gelated tissue analogues

Kaklamani, Georgia
Cheneler, David
Bowen, James
Anthony, Carl J.
Grover, Liam M.
Adams, Michael J.

June 2013

Hydrogels have been widely used in biomedical applications such as scaffolds for tissue engineering,...

Modeling and fabrication of silk fibroin-gelatin-based constructs using extrusion-based three-dimensional bioprinting

Diego Trucco
Aarushi Sharma
Cristina Manferdini
Elena Gabusi
Mauro Petretta
Giovanna Desando
Leonardo Ricotti
Juhi Chakraborty
Sourabh Ghosh
Gina Lisignoli

January 2021

Robotic dispensing-based 3D bioprinting represents one of the most powerful technologies to develop ...

3D Printability of Alginate-Carboxymethyl Cellulose Hydrogel

Ahasan Habib

March 2018

Three-dimensional (3D) bio-printing is a revolutionary technology to reproduce a 3D functional livin...

Mechanical characterisation of alginate-gelatin hydrogel for 3D bioprinting applications

Han, Jefferson ShengChou

January 2014

In recent years, 3D bioprinting has caught the attention of the medical community for its potential ...

Rheological, In Situ Printability and Cell Viability Analysis of Hydrogels for Muscle Tissue Regeneration

Ramesh, Srikanthan
Gerdes, Sam
Lau, Sharon
Mostafavi, Azadeh
Kong, Zhenyu (James)
Johnson, Blake N.
Tamayol, Ali
Rao, Prahalada
Rivero, Iris V.

January 2018

Advancements in additive manufacturing have made it possible to fabricate biologically relevant arch...

Extrusion 3D (Bio)Printing of Alginate-Gelatin-Based Composite Scaffolds for Skeletal Muscle Tissue Engineering

Surendrasingh Y. Sonaye
Elif G. Ertugral
Chandrasekhar R. Kothapalli
Prabaha Sikder

November 2022

Volumetric muscle loss (VML), which involves the loss of a substantial portion of muscle tissue, is ...

Agarose-Based Hydrogels as Suitable Bioprinting Materials for Tissue Engineering

López-Marcial, GR
Zeng, AY
Osuna, C
Dennis, J
García, JM
O'Connell, GD

October 2018

Agarose-Based Hydrogels as Suitable Bioprinting Materials for Tissue Engineering

Gabriel R. López-Marcial (5747216)
Anne Y. Zeng (5747219)
Carlos Osuna (5747222)
Joseph Dennis (5747225)
Jeannette M. García (1358679)
Grace D. O’Connell (5747228)

September 2018

Hydrogels are useful materials as scaffolds for tissue engineering applications. Using hydrogels wit...

3D Printed Hydrogel Multiassay Platforms for Robust Generation of Engineered Contractile Tissues

Christensen, Rie Kjaer
Laier, Christoffer von Halling
Kızıltay, Aysel
Wilson, Sandra
Larsen, Niels Bent

February 2020

We present a method for reproducible manufacture of multiassay platforms with tunable mechanical pro...

Investigation of cell viability and morphology in 3D bio-printed alginate constructs with tunable stiffness

Shi, Pujiang
Laude, Augustinus
Yeong, Wai Yee

January 2017

In this article, mouse fibroblast cells (L929) were seeded on 2%, 5%, and 10% alginate hydrogels, an...

Printability and Cell Viability in Bioprinting Alginate Dialdehyde-Gelatin Scaffolds

Nikoo Soltan (6714887)
Liqun Ning (5829683)
Fatemeh Mohabatpour (6714890)
Petros Papagerakis (6714893)
Xiongbiao Chen (2862476)

May 2019

Three-dimensional (3D) bioprinting is a promising technique used to fabricate scaffolds from hydroge...

Preparation and Properties of 3D Printed Alginate–Chitosan Polyion Complex Hydrogels for Tissue Engineering

Qiongqiong Liu

June 2018

Three-dimensional (3D) printing holds great potential for preparing sophisticated scaffolds for tiss...

Bio-ink properties and printability for extrusion printing living cells

Chung, Johnson H. Y.
Naficy, Sina
Yue, Zhilian
Kapsa, Robert
Quigley, Anita
Moulton, Simon E.
Wallace, Gordon G.

January 2013

Additive biofabrication (3D bioprinting) makes it possible to create scaffolds with precise geometri...

Modeling and Fabrication of Silk Fibroin–Gelatin-Based Constructs Using Extrusion-Based Three-Dimensional Bioprinting

Diego Trucco
Aarushi Sharma
Cristina Manferdini
Elena Gabusi
Mauro Petretta
Giovanna Desando
Leonardo Ricotti
Juhi Chakraborty
Sourabh Ghosh
Gina Lisignoli

June 2021

Robotic dispensing-based 3D bioprinting represents one of the most powerful technologies to develop ...

3D printing of hydrogels for biofabrication

Woo, Priscilla Wei Hui

January 2016

3D biofabrication allowed the construction of bio materials, tissues, cells, drugs and others to tak...

Towards rapid manufacture of externally gelated tissue analogues

Kaklamani, Georgia
Cheneler, David
Bowen, James
Anthony, Carl J.
Grover, Liam M.
Adams, Michael J.

June 2013

Hydrogels have been widely used in biomedical applications such as scaffolds for tissue engineering,...

Modeling and fabrication of silk fibroin-gelatin-based constructs using extrusion-based three-dimensional bioprinting

Diego Trucco
Aarushi Sharma
Cristina Manferdini
Elena Gabusi
Mauro Petretta
Giovanna Desando
Leonardo Ricotti
Juhi Chakraborty
Sourabh Ghosh
Gina Lisignoli

January 2021

Robotic dispensing-based 3D bioprinting represents one of the most powerful technologies to develop ...

3D Printability of Alginate-Carboxymethyl Cellulose Hydrogel

Ahasan Habib

March 2018

Three-dimensional (3D) bio-printing is a revolutionary technology to reproduce a 3D functional livin...

Mechanical characterisation of alginate-gelatin hydrogel for 3D bioprinting applications

Han, Jefferson ShengChou

January 2014

In recent years, 3D bioprinting has caught the attention of the medical community for its potential ...

Rheological, In Situ Printability and Cell Viability Analysis of Hydrogels for Muscle Tissue Regeneration

Abstract

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Rheological, In Situ Printability and Cell Viability Analysis of Hydrogels for Muscle Tissue Regeneration

Abstract

Extracted data

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