Finite element modeling of 3D human mesenchymal stem cell-seeded collagen matrices exposed to tensile strain

Characterising Load-Induced Changes in 3D Cultured Mesenchymal Stem Cells Through Collagen Isoform Composition and Arrangement

Janvier, Adam

Tissue engineering has been highlighted as a potential regenerative medicine therapy for the regener...

Effect of dynamic mechanical compression on actin cytoskeleton network of human mesenchymal stem cells (hMSCs) in three dimensional collagen constructs

Chan, BP
Ho, NFC

January 2010

Actin filament, one type of cytoskeletons, plays a central role in mediating cellular in responses t...

Visual mapping of computational shear stresses implies mechanical control of cell proliferation and differentiation in bone tissue engineering cultures

Vetsch, JR
Mueller, RM
Hofmann Boss, S Sandra

January 2015

The advantages of longitudinal monitoring techniques are getting more attention in various tissue en...

Finite element modeling of 3D human mesenchymal stem cell-seeded collagen matrices exposed to tensile strain

Pfeiler, T. Wayne
Sumanasinghe, Ruwan D.
Loboa, Elizabeth G.

January 2008

The use of human mesenchymal stem cells (hMSCs) in tissue engineering is attractive due to their abi...

Modeling of the Human Bone Environment: Mechanical Stimuli Guide Mesenchymal Stem Cell–Extracellular Matrix Interactions

Ana Rita Pereira
Andreas Lipphaus
Mert Ergin
Sahar Salehi
Dominic Gehweiler
Maximilian Rudert
Jan Hansmann
Marietta Herrmann

August 2021

In bone tissue engineering, the design of in vitro models able to recreate both the chemical composi...

Modeling of the Human Bone Environment: Mechanical Stimuli Guide Mesenchymal Stem Cell−Extracellular Matrix Interactions

Pereira, Ana Rita
Lipphaus, Andreas
Ergin, Mert
Salehi, Sahar
Gehweiler, Dominic
Rudert, Maximilian
Hansmann, Jan
Herrmann, Marietta

January 2021

In bone tissue engineering, the design of in vitro models able to recreate both the chemical composi...

Optimization of loading protocols for tissue engineering experiments

Ladner, Yann
Armiento, Angela R.
Kubosch, Eva J.
Snedeker, Jess Gerrit
Stoddart, Martin J.

January 2022

Tissue engineering (TE) combines cells and biomaterials to treat orthopedic pathologies. Maturation ...

Development of a micromanipulator-based loading device for mechanoregulation study of human mesenchymal stem cells in three-dimensional collagen constructs

AuYeung, KL
Sze, KY
Sham, MH
Chan, BP

January 2010

Mechanical signal is important for regulating cellular activities, including proliferation, metaboli...

Local and regional mechanical characterisation of a collagen-glycosaminoglycan scaffold using high-resolution finite element analysis.

Adam JF Stops (7927160)
N M. Harrison (7927172)
Matthew G. Haugh (7926653)
Fergal O'Brien (7895480)
P E. McHugh (7927169)

May 2010

Artificial tissue growth requires cells to proliferate and differentiate within the host scaffold. A...

The effects of tensile loading and extracellular environmental cues on fibroblastic differntiation and extracellular matrix production by mesenchymal stem cells

Doroski, Derek M.

March 2011

Ligament/tendon tissue engineering has the potential to provide therapies that overcome the limitati...

Effects Of Physical Stimuli On Extracellular Matrix Assembly By Chondrocytes And Mesenchymal Stem Cells: Experimental And Finite Element Analyses

Babalola, Omotunde

August 2010

Using cells, materials, physical and/or chemical factors, tissue engineering (TE) is being researche...

Effect of strain and stiffness on matrix remodelling genes

Karamichos, Dimitrios

January 2007

Cells embedded within tissues respond to mechanical, chemical and biological signals. However, the d...

Effect of mechanical loading on osteogenesis of human embryonic stem cell-derived mesenchymal progenitors within collagen microspheres

Maryam Shariatzadeh (3187407)
A. Baldit (7214429)
C.M. Perrault (7211978)
D. Lacroix (6852785)

January 2018

Mechanical forces and 3D topological environment can be used to control differentiation of mesenchym...

Application of different strain regimes in two-dimensional and three-dimensional adipose tissue-derived stem cell cultures induces osteogenesis:implications for bone tissue engineering

Diederichs, Solvig
Böhm, Stefanie
Peterbauer, Anja
Kasper, Cornelia
Scheper, Thomas
van Griensven, Martijn

September 2010

Mechanical strain has become an important tool in tissue engineering for progenitor cell differentia...

In silico bone tissue engineering - a multiscale and multiphysics approach

Zhao, Feihu

September 2016

Mechanical stimulation in terms of fluid flow and mechanical strain can enhance the osteogenesis. Bi...

Characterising Load-Induced Changes in 3D Cultured Mesenchymal Stem Cells Through Collagen Isoform Composition and Arrangement

Janvier, Adam

Tissue engineering has been highlighted as a potential regenerative medicine therapy for the regener...

Effect of dynamic mechanical compression on actin cytoskeleton network of human mesenchymal stem cells (hMSCs) in three dimensional collagen constructs

Chan, BP
Ho, NFC

January 2010

Actin filament, one type of cytoskeletons, plays a central role in mediating cellular in responses t...

Visual mapping of computational shear stresses implies mechanical control of cell proliferation and differentiation in bone tissue engineering cultures

Vetsch, JR
Mueller, RM
Hofmann Boss, S Sandra

January 2015

The advantages of longitudinal monitoring techniques are getting more attention in various tissue en...

Finite element modeling of 3D human mesenchymal stem cell-seeded collagen matrices exposed to tensile strain

Pfeiler, T. Wayne
Sumanasinghe, Ruwan D.
Loboa, Elizabeth G.

January 2008

The use of human mesenchymal stem cells (hMSCs) in tissue engineering is attractive due to their abi...

Modeling of the Human Bone Environment: Mechanical Stimuli Guide Mesenchymal Stem Cell–Extracellular Matrix Interactions

Ana Rita Pereira
Andreas Lipphaus
Mert Ergin
Sahar Salehi
Dominic Gehweiler
Maximilian Rudert
Jan Hansmann
Marietta Herrmann

August 2021

In bone tissue engineering, the design of in vitro models able to recreate both the chemical composi...

Modeling of the Human Bone Environment: Mechanical Stimuli Guide Mesenchymal Stem Cell−Extracellular Matrix Interactions

Pereira, Ana Rita
Lipphaus, Andreas
Ergin, Mert
Salehi, Sahar
Gehweiler, Dominic
Rudert, Maximilian
Hansmann, Jan
Herrmann, Marietta

January 2021

In bone tissue engineering, the design of in vitro models able to recreate both the chemical composi...

Optimization of loading protocols for tissue engineering experiments

Ladner, Yann
Armiento, Angela R.
Kubosch, Eva J.
Snedeker, Jess Gerrit
Stoddart, Martin J.

January 2022

Tissue engineering (TE) combines cells and biomaterials to treat orthopedic pathologies. Maturation ...

Development of a micromanipulator-based loading device for mechanoregulation study of human mesenchymal stem cells in three-dimensional collagen constructs

AuYeung, KL
Sze, KY
Sham, MH
Chan, BP

January 2010

Mechanical signal is important for regulating cellular activities, including proliferation, metaboli...

Local and regional mechanical characterisation of a collagen-glycosaminoglycan scaffold using high-resolution finite element analysis.

Adam JF Stops (7927160)
N M. Harrison (7927172)
Matthew G. Haugh (7926653)
Fergal O'Brien (7895480)
P E. McHugh (7927169)

May 2010

Artificial tissue growth requires cells to proliferate and differentiate within the host scaffold. A...

The effects of tensile loading and extracellular environmental cues on fibroblastic differntiation and extracellular matrix production by mesenchymal stem cells

Doroski, Derek M.

March 2011

Ligament/tendon tissue engineering has the potential to provide therapies that overcome the limitati...

Effects Of Physical Stimuli On Extracellular Matrix Assembly By Chondrocytes And Mesenchymal Stem Cells: Experimental And Finite Element Analyses

Babalola, Omotunde

August 2010

Using cells, materials, physical and/or chemical factors, tissue engineering (TE) is being researche...

Effect of strain and stiffness on matrix remodelling genes

Karamichos, Dimitrios

January 2007

Cells embedded within tissues respond to mechanical, chemical and biological signals. However, the d...

Effect of mechanical loading on osteogenesis of human embryonic stem cell-derived mesenchymal progenitors within collagen microspheres

Maryam Shariatzadeh (3187407)
A. Baldit (7214429)
C.M. Perrault (7211978)
D. Lacroix (6852785)

January 2018

Mechanical forces and 3D topological environment can be used to control differentiation of mesenchym...

Application of different strain regimes in two-dimensional and three-dimensional adipose tissue-derived stem cell cultures induces osteogenesis:implications for bone tissue engineering

Diederichs, Solvig
Böhm, Stefanie
Peterbauer, Anja
Kasper, Cornelia
Scheper, Thomas
van Griensven, Martijn

September 2010

Mechanical strain has become an important tool in tissue engineering for progenitor cell differentia...

In silico bone tissue engineering - a multiscale and multiphysics approach

Zhao, Feihu

September 2016

Mechanical stimulation in terms of fluid flow and mechanical strain can enhance the osteogenesis. Bi...

Characterising Load-Induced Changes in 3D Cultured Mesenchymal Stem Cells Through Collagen Isoform Composition and Arrangement

Janvier, Adam

Tissue engineering has been highlighted as a potential regenerative medicine therapy for the regener...

Effect of dynamic mechanical compression on actin cytoskeleton network of human mesenchymal stem cells (hMSCs) in three dimensional collagen constructs

Chan, BP
Ho, NFC

January 2010

Actin filament, one type of cytoskeletons, plays a central role in mediating cellular in responses t...

Visual mapping of computational shear stresses implies mechanical control of cell proliferation and differentiation in bone tissue engineering cultures

Vetsch, JR
Mueller, RM
Hofmann Boss, S Sandra

January 2015

The advantages of longitudinal monitoring techniques are getting more attention in various tissue en...

Finite element modeling of 3D human mesenchymal stem cell-seeded collagen matrices exposed to tensile strain

Abstract

Extracted data

Finite element modeling of 3D human mesenchymal stem cell-seeded collagen matrices exposed to tensile strain

Abstract

Extracted data

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