Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 11

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

Van Liedekerke, P
Neitsch, J
Johann, T
Alessandri, K
Nassoy, P
Drasdo, Dirk

December 2016

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

VAN LIEDEKERKE, P
NEITSCH, J
JOHANN, T
ALESSANDRI, K
NASSOY, P
DRASDO, Dirk

October 2021

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 8

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Cartoon illustrating the compression experiment using deformable cells in a capsule to calibrate...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 10

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Time evolution of the radius of the thin capsule, shown for the experimental data and the simula...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 5

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(top) (A) Time evolution of the thick capsule radius (H = 30 μm), shown for the experimental data an...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 6

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Simulation snapshot at the beginning of a free growing CT26 spheroid (R = 100 μm), indicating qu...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines

Van Liedekerke, Paul
Neitsch, Johannes
Johann, Tim
Alessandri, Kévin
Nassoy, Pierre
Drasdo, Dirk

March 2019

International audienceModel simulations indicate that the response of growing cell populations on me...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 3

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Plot of Hill-type growth rate function as function of the volumetric strain ϵV = ϵV(p), for n = ...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

Model simulations indicate that the response of growing cell populations on mechanical stress follow...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines.

Paul Van Liedekerke
Johannes Neitsch
Tim Johann
Kevin Alessandri
Pierre Nassoy
Dirk Drasdo

March 2019

Model simulations indicate that the response of growing cell populations on mechanical stress follow...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 9

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Simulation snapshots of DCM cells within a scaled capsule model, for the cases of cells with a r...

Quantitative agent-based modeling reveals mechanical stress response of growing tumor spheroids is predictable over various growth conditions and cell lines

LIEDEKERKE, Paul
NEITSCH, Johannes
JOHANN, Tim
ALESSANDRI, Kévin
NASSOY, Pierre
DRASDO, Dirk

October 2021

Model simulations indicate that the response of growing cell populations on mechanical stress follow...

Quantitative agent-based modeling reveals mechanical stress response of growing tumor spheroids is predictable over various growth conditions and cell lines

Liedekerke, Paul,
Neitsch, Johannes
Johann, Tim
Alessandri, Kévin
Nassoy, Pierre
Drasdo, Dirk

January 2019

Model simulations indicate that the response of growing cell populations on mechanical stress follow...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

Van Liedekerke, P
Neitsch, J
Johann, T
Alessandri, K
Nassoy, P
Drasdo, Dirk

December 2016

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

Van Liedekerke, P
Neitsch, J
Johann, T
Alessandri, K
Nassoy, P
Drasdo, Dirk

December 2016

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

Van Liedekerke, P
Neitsch, J
Johann, T
Alessandri, K
Nassoy, P
Drasdo, Dirk

December 2016

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

VAN LIEDEKERKE, P
NEITSCH, J
JOHANN, T
ALESSANDRI, K
NASSOY, P
DRASDO, Dirk

October 2021

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 8

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Cartoon illustrating the compression experiment using deformable cells in a capsule to calibrate...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 10

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Time evolution of the radius of the thin capsule, shown for the experimental data and the simula...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 5

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(top) (A) Time evolution of the thick capsule radius (H = 30 μm), shown for the experimental data an...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 6

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Simulation snapshot at the beginning of a free growing CT26 spheroid (R = 100 μm), indicating qu...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines

Van Liedekerke, Paul
Neitsch, Johannes
Johann, Tim
Alessandri, Kévin
Nassoy, Pierre
Drasdo, Dirk

March 2019

International audienceModel simulations indicate that the response of growing cell populations on me...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 3

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Plot of Hill-type growth rate function as function of the volumetric strain ϵV = ϵV(p), for n = ...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

Model simulations indicate that the response of growing cell populations on mechanical stress follow...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines.

Paul Van Liedekerke
Johannes Neitsch
Tim Johann
Kevin Alessandri
Pierre Nassoy
Dirk Drasdo

March 2019

Model simulations indicate that the response of growing cell populations on mechanical stress follow...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 9

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Simulation snapshots of DCM cells within a scaled capsule model, for the cases of cells with a r...

Quantitative agent-based modeling reveals mechanical stress response of growing tumor spheroids is predictable over various growth conditions and cell lines

LIEDEKERKE, Paul
NEITSCH, Johannes
JOHANN, Tim
ALESSANDRI, Kévin
NASSOY, Pierre
DRASDO, Dirk

October 2021

Model simulations indicate that the response of growing cell populations on mechanical stress follow...

Quantitative agent-based modeling reveals mechanical stress response of growing tumor spheroids is predictable over various growth conditions and cell lines

Liedekerke, Paul,
Neitsch, Johannes
Johann, Tim
Alessandri, Kévin
Nassoy, Pierre
Drasdo, Dirk

January 2019

Model simulations indicate that the response of growing cell populations on mechanical stress follow...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

Van Liedekerke, P
Neitsch, J
Johann, T
Alessandri, K
Nassoy, P
Drasdo, Dirk

December 2016

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

Van Liedekerke, P
Neitsch, J
Johann, T
Alessandri, K
Nassoy, P
Drasdo, Dirk

December 2016

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

Van Liedekerke, P
Neitsch, J
Johann, T
Alessandri, K
Nassoy, P
Drasdo, Dirk

December 2016

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative modeling identifies robust predictable stress response of growing CT26 tumor spheroids under variable conditions

VAN LIEDEKERKE, P
NEITSCH, J
JOHANN, T
ALESSANDRI, K
NASSOY, P
DRASDO, Dirk

October 2021

Mechanical feedback has been identified as a key regulator of tissue growth, by which external signa...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 8

Paul Van Liedekerke (473296)
Johannes Neitsch (6439925)
Tim Johann (6439928)
Kevin Alessandri (6439931)
Pierre Nassoy (6439934)
Dirk Drasdo (527550)

March 2019

(A) Cartoon illustrating the compression experiment using deformable cells in a capsule to calibrate...

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 11

Abstract

Extracted data

Quantitative cell-based model predicts mechanical stress response of growing tumor spheroids over various growth conditions and cell lines - Fig 11

Abstract

Extracted data

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