Submicron patterns-on-a-chip: Fabrication of a microfluidic device incorporating 3D printed surface ornaments

3D printing technology to control BMP-2 and VEGF delivery spatially and temporally to promote large-volume bone regeneration

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Shim, JH
Choi, SA
Jang, J
Kim, M
Lee, SH
Cho, DW

When large engineered tissue structures are used to achieve tissue regeneration, formation of vascul...

Biomaterials with structural hierarchy and controlled 3D nanotopography guide endogenous bone regeneration

Chen, Shixuan
Wang, Hongjun
Mainardi, Valerio Luca
Talò, Giuseppe
McCarthy, Alec
John, Johnson V.
Teusink, Matthew J.
Hong, Liu
Xie, Jingwei

July 2021

Biomaterials without exogenous cells or therapeutic agents often fail to achieve rapid endogenous bo...

Enhanced human bone marrow mesenchymal stem cell function on 3D printed nanobone scaffolds with microvascular network

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Zhang, Lijie

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Critical sized bone defects resulting from traumatic injury, cancer, degenerative diseases, or birth...

Submicron patterns-on-a-chip: Fabrication of a microfluidic device incorporating 3D printed surface ornaments

Nouri Goushki, M. (author)
Sharma, Abhishek (author)
Sasso, L. (author)
Zhang, Shuang (author)
van der Eerden, B.C.J. (author)
Staufer, U. (author)
Fratila-Apachitei, E.L. (author)
Zadpoor, A.A. (author)

January 2019

Manufacturing high throughput in vitro models resembling the tissue microenvironment is highly deman...

Submicron patterns-on-a-chip: Fabrication of a microfluidic device incorporating 3D printed surface ornaments

Nouri Goushki, M.
Sharma, Abhishek
Sasso, L.
Zhang, Shuang
van der Eerden, B.C.J.
Staufer, U.
Fratila-Apachitei, E.L.
Zadpoor, A.A.

January 2019

Manufacturing high throughput in vitro models resembling the tissue microenvironment is highly deman...

Developing a microfluidic device incorporating submicron topographies for studying bone regeneration

Sharma, Abhishek (author)

September 2018

A major challenge facing the study of bone regeneration today is the inability to mimic the tissue m...

Microfuidic devices and three dimensional-printing strategies for in vitro models of bone

Maia, F. Raquel
Reis, R. L.
Correlo, V. M.
Oliveira, Joaquim M.

Bone is a complex and highly dynamic tissue, which has been worldwide studied, from fundamental biol...

3D printed submicron patterns orchestrate the response of macrophages

Nouri Goushki, M. (author)
Isaakidou, A. (author)
Eijkel, B.I.M. (author)
Minneboo, M.B. (author)
Liu, Q. (author)
Boukany, P. (author)
Mirzaali Mazandarani, M. (author)
Fratila-Apachitei, E.L. (author)
Zadpoor, A.A. (author)

January 2021

The surface topography of engineered extracellular matrices is one of the most important physical cu...

Bone-on-a-Chip: A Microscale 3D Biomimetic Model to Study Bone Regeneration

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Zampouka, A.
Hesse, B.
Bohner, M.
Habibovic, P.
Barata, D.

July 2022

Organ-on-chip models, developed using microengineering and microfluidic technologies, aim to recreat...

Bone-on-a-Chip: A Microscale 3D Biomimetic Model to Study Bone Regeneration

Galvan-Chacon, V.P.
Zampouka, A.
Hesse, B.
Bohner, M.
Habibovic, P.
Barata, D.

July 2022

Organ-on-chip models, developed using microengineering and microfluidic technologies, aim to recreat...

Bone-on-a-Chip: A Microscale 3D Biomimetic Model to Study Bone Regeneration

Galvan-Chacon, V.P.
Zampouka, A.
Hesse, B.
Bohner, M.
Habibovic, P.
Barata, D.

July 2022

Organ-on-chip models, developed using microengineering and microfluidic technologies, aim to recreat...

Hierarchically Engineered Biomimetic 3-D Scaffolds for Guided Regeneration of Bone Tissue

Sankar, Sharanya
Rath, Subha Narayan

January 2019

Considering the complex hierarchical structure of bone, biomimicking the micro and nano level featur...

Towards 3D Printed Osteoimmunomodulatory Surface Patterns

Nouri Goushki, M. (author)

April 2022

Osteoimmunomodulation (OIM) is a mechanism through which orthopedic biomaterials may modulate the fu...

Nanoimprinting for high-throughput replication of geometrically precise pillars in fused silica to regulate cell behavior

Ganjian, M. (author)
Modaresifar, K. (author)
Rompolas, Dionysios (author)
Fratila-Apachitei, E.L. (author)
Zadpoor, A.A. (author)

January 2022

Developing high-throughput nanopatterning techniques that also allow for precise control over the di...

Continuous Fabrication and Assembly of Spatial Cell-Laden Fibers for a Tissue-Like Construct via a Photolithographic-Based Microfluidic Chip

Wei, Dan
Sun, Jing
Bolderson, Jason
Zhong, Meiling
Dalby, Matthew John
Cusack, Maggie
Yin, Huabing
Fan, Hongsong
Zhang, Xingdong

May 2017

Engineering three-dimensional (3D) scaffolds with in vivo like architecture and function has shown g...

3D printing technology to control BMP-2 and VEGF delivery spatially and temporally to promote large-volume bone regeneration

Park, JY
Shim, JH
Choi, SA
Jang, J
Kim, M
Lee, SH
Cho, DW

When large engineered tissue structures are used to achieve tissue regeneration, formation of vascul...

Biomaterials with structural hierarchy and controlled 3D nanotopography guide endogenous bone regeneration

Chen, Shixuan
Wang, Hongjun
Mainardi, Valerio Luca
Talò, Giuseppe
McCarthy, Alec
John, Johnson V.
Teusink, Matthew J.
Hong, Liu
Xie, Jingwei

July 2021

Biomaterials without exogenous cells or therapeutic agents often fail to achieve rapid endogenous bo...

Enhanced human bone marrow mesenchymal stem cell function on 3D printed nanobone scaffolds with microvascular network

Holmes, Ben
Zhang, Lijie

October 2014

Critical sized bone defects resulting from traumatic injury, cancer, degenerative diseases, or birth...

Submicron patterns-on-a-chip: Fabrication of a microfluidic device incorporating 3D printed surface ornaments

Nouri Goushki, M. (author)
Sharma, Abhishek (author)
Sasso, L. (author)
Zhang, Shuang (author)
van der Eerden, B.C.J. (author)
Staufer, U. (author)
Fratila-Apachitei, E.L. (author)
Zadpoor, A.A. (author)

January 2019

Manufacturing high throughput in vitro models resembling the tissue microenvironment is highly deman...

Submicron patterns-on-a-chip: Fabrication of a microfluidic device incorporating 3D printed surface ornaments

Nouri Goushki, M.
Sharma, Abhishek
Sasso, L.
Zhang, Shuang
van der Eerden, B.C.J.
Staufer, U.
Fratila-Apachitei, E.L.
Zadpoor, A.A.

January 2019

Manufacturing high throughput in vitro models resembling the tissue microenvironment is highly deman...

Developing a microfluidic device incorporating submicron topographies for studying bone regeneration

Sharma, Abhishek (author)

September 2018

A major challenge facing the study of bone regeneration today is the inability to mimic the tissue m...

Microfuidic devices and three dimensional-printing strategies for in vitro models of bone

Maia, F. Raquel
Reis, R. L.
Correlo, V. M.
Oliveira, Joaquim M.

Bone is a complex and highly dynamic tissue, which has been worldwide studied, from fundamental biol...

3D printed submicron patterns orchestrate the response of macrophages

Nouri Goushki, M. (author)
Isaakidou, A. (author)
Eijkel, B.I.M. (author)
Minneboo, M.B. (author)
Liu, Q. (author)
Boukany, P. (author)
Mirzaali Mazandarani, M. (author)
Fratila-Apachitei, E.L. (author)
Zadpoor, A.A. (author)

January 2021

The surface topography of engineered extracellular matrices is one of the most important physical cu...

Bone-on-a-Chip: A Microscale 3D Biomimetic Model to Study Bone Regeneration

Galvan-Chacon, V.P.
Zampouka, A.
Hesse, B.
Bohner, M.
Habibovic, P.
Barata, D.

July 2022

Organ-on-chip models, developed using microengineering and microfluidic technologies, aim to recreat...

Bone-on-a-Chip: A Microscale 3D Biomimetic Model to Study Bone Regeneration

Galvan-Chacon, V.P.
Zampouka, A.
Hesse, B.
Bohner, M.
Habibovic, P.
Barata, D.

July 2022

Organ-on-chip models, developed using microengineering and microfluidic technologies, aim to recreat...

Bone-on-a-Chip: A Microscale 3D Biomimetic Model to Study Bone Regeneration

Galvan-Chacon, V.P.
Zampouka, A.
Hesse, B.
Bohner, M.
Habibovic, P.
Barata, D.

July 2022

Organ-on-chip models, developed using microengineering and microfluidic technologies, aim to recreat...

Hierarchically Engineered Biomimetic 3-D Scaffolds for Guided Regeneration of Bone Tissue

Sankar, Sharanya
Rath, Subha Narayan

January 2019

Considering the complex hierarchical structure of bone, biomimicking the micro and nano level featur...

Towards 3D Printed Osteoimmunomodulatory Surface Patterns

Nouri Goushki, M. (author)

April 2022

Osteoimmunomodulation (OIM) is a mechanism through which orthopedic biomaterials may modulate the fu...

Nanoimprinting for high-throughput replication of geometrically precise pillars in fused silica to regulate cell behavior

Ganjian, M. (author)
Modaresifar, K. (author)
Rompolas, Dionysios (author)
Fratila-Apachitei, E.L. (author)
Zadpoor, A.A. (author)

January 2022

Developing high-throughput nanopatterning techniques that also allow for precise control over the di...

Continuous Fabrication and Assembly of Spatial Cell-Laden Fibers for a Tissue-Like Construct via a Photolithographic-Based Microfluidic Chip

Wei, Dan
Sun, Jing
Bolderson, Jason
Zhong, Meiling
Dalby, Matthew John
Cusack, Maggie
Yin, Huabing
Fan, Hongsong
Zhang, Xingdong

May 2017

Engineering three-dimensional (3D) scaffolds with in vivo like architecture and function has shown g...

3D printing technology to control BMP-2 and VEGF delivery spatially and temporally to promote large-volume bone regeneration

Park, JY
Shim, JH
Choi, SA
Jang, J
Kim, M
Lee, SH
Cho, DW

When large engineered tissue structures are used to achieve tissue regeneration, formation of vascul...

Biomaterials with structural hierarchy and controlled 3D nanotopography guide endogenous bone regeneration

Chen, Shixuan
Wang, Hongjun
Mainardi, Valerio Luca
Talò, Giuseppe
McCarthy, Alec
John, Johnson V.
Teusink, Matthew J.
Hong, Liu
Xie, Jingwei

July 2021

Biomaterials without exogenous cells or therapeutic agents often fail to achieve rapid endogenous bo...

Enhanced human bone marrow mesenchymal stem cell function on 3D printed nanobone scaffolds with microvascular network

Holmes, Ben
Zhang, Lijie

October 2014

Critical sized bone defects resulting from traumatic injury, cancer, degenerative diseases, or birth...

Submicron patterns-on-a-chip: Fabrication of a microfluidic device incorporating 3D printed surface ornaments

Abstract

Extracted data

Submicron patterns-on-a-chip: Fabrication of a microfluidic device incorporating 3D printed surface ornaments

Abstract

Extracted data

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