Mechanical Interferometry of Nanoscale Motion and Local Mechanical Properties of Living Zebrafish Embryos

A few nascent methods for measuring mechanical properties of the biological cell.

Thayer, Gayle Echo
de Boer, Maarten Pieter
Corvalan, Carlos (Purdue University, West Lafayette, IN)
Corwin, Alex David
Campanella, Osvaldo H. (Purdue University, West Lafayette, IN)
Nivens, David (Purdue University, West Lafayette, IN)
Werely, Steven (Purdue University, West Lafayette, IN)
Sumali, Anton Hartono
Koch, Steven John

January 2006

This report summarizes a survey of several new methods for obtaining mechanical and rheological prop...

Quantitative biomechanical analysis of Drosophila embryos through the stages of embryogenesis using a sensorized human/robot cooperative interface

Cozen, Scott J.
Zhang, Rui
Shen, Yantao
Xi, Ning
Yi, Jingang

January 2008

To better understand the biomechanical properties involved in Drosophila embryo research, this work ...

A method to quantify mechanobiologic forces during zebrafish cardiac development using 4-D light sheet imaging and computational modeling.

Vijay Vedula
Juhyun Lee
Hao Xu
C-C Jay Kuo
Tzung K Hsiai
Alison L Marsden

October 2017

Blood flow and mechanical forces in the ventricle are implicated in cardiac development and trabecul...

Mechanical Interferometry of Nanoscale Motion and Local Mechanical Properties of Living Zebrafish Embryos

Ramakrishnan, Siddharth
Reed, Jason
Schmit, Joanna
Gimzewski, James K.

July 2009

We present an interferometric imaging technique that permits local measurement of mechanical propert...

Pulsed laser activated impulse response encoder (PLAIRE): sensitive evaluation of surface cellular stiffness on zebrafish embryos

Yasukuni, Ryohei
Minamino, Daiki
Iino, Takanori
Araki, Takashi
Takao, Kohei
Yamada, Sohei
Bessho, Yasumasa
Matsui, Takaaki
Hosokawa, Yoichiroh

February 2021

Mechanical properties of cells and tissues closely link to their architectures and physiological fun...

AFM and microrheology in the zebrafish embryo yolk cell

Marsal, María
Jorba, Ignasi
Rebollo, Elena
Luque, Tomás
Navajas, Daniel
Martín-Blanco, Enrique

November 2017

Elucidating the factors that direct the spatio-temporal organization of evolving tissues is one of t...

AFM and Microrheology in the Zebrafish Embryo Yolk Cell

Marsal, Maria
Jorba, Ignasi
Rebollo, Elena
Luque González, Tomás
Navajas Navarro, Daniel
Martín Blanco, Enrique

Elucidating the factors that direct the spatio-temporal organization of evolving tissues is one of t...

In vivo quantification of spatially varying mechanical properties in developing tissues

Serwane, F.
Mongera , A.
Rowghanian , P.
Kealhofer , D.
Lucio , A.
Hockenbery , Z.
Campás , O.

February 2017

The mechanical properties of the cellular microenvironment and their spatiotemporal variations are t...

Characterisation of Local Mechanical Properties in Living Tissues

Cheng, Qian

September 2017

The process of a single cell evolving into a complex organism results from a series of coordinated m...

Modelling of zebrafish chorion mechanical property characterisation using an automatic microrobotic force sensing system

Vidyalakshmi Janardhanan

January 2009

59 p.Micromanipulation techniques have come into the foray of science and engineering recently and h...

Watching Embryonic Development in a New Light: Viscoelastic Imaging of Zebrafish Embryos

Hanson, Jessica Ann

September 2016

Biomechanics is a rapidly advancing field. Fundamental understanding of developing biological organi...

Zebrafish jaw cartilage Young’s Moduli [kPa] in free-to-move and immobilised larvae used in FE models based on nanoindentation measurements.

Josepha Godivier (17936158)
Elizabeth A. Lawrence (5621360)
Mengdi Wang (5526545)
Chrissy L. Hammond (11944938)
Niamh C. Nowlan (17936161)

February 2024

Zebrafish jaw cartilage Young’s Moduli [kPa] in free-to-move and immobilised larvae used in FE model...

Dynamics and Mechanics of Zebrafish Embryonic Tissues

Schoetz, E.

September 2007

Developmental biologists try to elucidate how it is possible for cells, all originating from the sam...

Force measurement and mechanical characterization of living Drosophila embryos for human medical study

Xi, N.
Shen, Y.
Wejinya, U. C.
Pomeroy, C. A.

January 2007

The objective of this paper is to investigate and characterize the force behaviour and mechanical pr...

Live confocal imaging of zebrafish notochord cells under mechanical stress in vivo

Lim, Ye-Wheen
Lo, Harriet P.
Hall, Thomas E.
Parton, Robert G.

January 2020

The zebrafish is a vertebrate model suited to the exploration of cell biology within a whole organis...

A few nascent methods for measuring mechanical properties of the biological cell.

Thayer, Gayle Echo
de Boer, Maarten Pieter
Corvalan, Carlos (Purdue University, West Lafayette, IN)
Corwin, Alex David
Campanella, Osvaldo H. (Purdue University, West Lafayette, IN)
Nivens, David (Purdue University, West Lafayette, IN)
Werely, Steven (Purdue University, West Lafayette, IN)
Sumali, Anton Hartono
Koch, Steven John

January 2006

This report summarizes a survey of several new methods for obtaining mechanical and rheological prop...

Quantitative biomechanical analysis of Drosophila embryos through the stages of embryogenesis using a sensorized human/robot cooperative interface

Cozen, Scott J.
Zhang, Rui
Shen, Yantao
Xi, Ning
Yi, Jingang

January 2008

To better understand the biomechanical properties involved in Drosophila embryo research, this work ...

A method to quantify mechanobiologic forces during zebrafish cardiac development using 4-D light sheet imaging and computational modeling.

Vijay Vedula
Juhyun Lee
Hao Xu
C-C Jay Kuo
Tzung K Hsiai
Alison L Marsden

October 2017

Blood flow and mechanical forces in the ventricle are implicated in cardiac development and trabecul...

Mechanical Interferometry of Nanoscale Motion and Local Mechanical Properties of Living Zebrafish Embryos

Ramakrishnan, Siddharth
Reed, Jason
Schmit, Joanna
Gimzewski, James K.

July 2009

We present an interferometric imaging technique that permits local measurement of mechanical propert...

Pulsed laser activated impulse response encoder (PLAIRE): sensitive evaluation of surface cellular stiffness on zebrafish embryos

Yasukuni, Ryohei
Minamino, Daiki
Iino, Takanori
Araki, Takashi
Takao, Kohei
Yamada, Sohei
Bessho, Yasumasa
Matsui, Takaaki
Hosokawa, Yoichiroh

February 2021

Mechanical properties of cells and tissues closely link to their architectures and physiological fun...

AFM and microrheology in the zebrafish embryo yolk cell

Marsal, María
Jorba, Ignasi
Rebollo, Elena
Luque, Tomás
Navajas, Daniel
Martín-Blanco, Enrique

November 2017

Elucidating the factors that direct the spatio-temporal organization of evolving tissues is one of t...

AFM and Microrheology in the Zebrafish Embryo Yolk Cell

Marsal, Maria
Jorba, Ignasi
Rebollo, Elena
Luque González, Tomás
Navajas Navarro, Daniel
Martín Blanco, Enrique

Elucidating the factors that direct the spatio-temporal organization of evolving tissues is one of t...

In vivo quantification of spatially varying mechanical properties in developing tissues

Serwane, F.
Mongera , A.
Rowghanian , P.
Kealhofer , D.
Lucio , A.
Hockenbery , Z.
Campás , O.

February 2017

The mechanical properties of the cellular microenvironment and their spatiotemporal variations are t...

Characterisation of Local Mechanical Properties in Living Tissues

Cheng, Qian

September 2017

The process of a single cell evolving into a complex organism results from a series of coordinated m...

Modelling of zebrafish chorion mechanical property characterisation using an automatic microrobotic force sensing system

Vidyalakshmi Janardhanan

January 2009

59 p.Micromanipulation techniques have come into the foray of science and engineering recently and h...

Watching Embryonic Development in a New Light: Viscoelastic Imaging of Zebrafish Embryos

Hanson, Jessica Ann

September 2016

Biomechanics is a rapidly advancing field. Fundamental understanding of developing biological organi...

Zebrafish jaw cartilage Young’s Moduli [kPa] in free-to-move and immobilised larvae used in FE models based on nanoindentation measurements.

Josepha Godivier (17936158)
Elizabeth A. Lawrence (5621360)
Mengdi Wang (5526545)
Chrissy L. Hammond (11944938)
Niamh C. Nowlan (17936161)

February 2024

Zebrafish jaw cartilage Young’s Moduli [kPa] in free-to-move and immobilised larvae used in FE model...

Dynamics and Mechanics of Zebrafish Embryonic Tissues

Schoetz, E.

September 2007

Developmental biologists try to elucidate how it is possible for cells, all originating from the sam...

Force measurement and mechanical characterization of living Drosophila embryos for human medical study

Xi, N.
Shen, Y.
Wejinya, U. C.
Pomeroy, C. A.

January 2007

The objective of this paper is to investigate and characterize the force behaviour and mechanical pr...

Live confocal imaging of zebrafish notochord cells under mechanical stress in vivo

Lim, Ye-Wheen
Lo, Harriet P.
Hall, Thomas E.
Parton, Robert G.

January 2020

The zebrafish is a vertebrate model suited to the exploration of cell biology within a whole organis...

A few nascent methods for measuring mechanical properties of the biological cell.

Thayer, Gayle Echo
de Boer, Maarten Pieter
Corvalan, Carlos (Purdue University, West Lafayette, IN)
Corwin, Alex David
Campanella, Osvaldo H. (Purdue University, West Lafayette, IN)
Nivens, David (Purdue University, West Lafayette, IN)
Werely, Steven (Purdue University, West Lafayette, IN)
Sumali, Anton Hartono
Koch, Steven John

January 2006

This report summarizes a survey of several new methods for obtaining mechanical and rheological prop...

Quantitative biomechanical analysis of Drosophila embryos through the stages of embryogenesis using a sensorized human/robot cooperative interface

Cozen, Scott J.
Zhang, Rui
Shen, Yantao
Xi, Ning
Yi, Jingang

January 2008

To better understand the biomechanical properties involved in Drosophila embryo research, this work ...

A method to quantify mechanobiologic forces during zebrafish cardiac development using 4-D light sheet imaging and computational modeling.

Vijay Vedula
Juhyun Lee
Hao Xu
C-C Jay Kuo
Tzung K Hsiai
Alison L Marsden

October 2017

Blood flow and mechanical forces in the ventricle are implicated in cardiac development and trabecul...

Mechanical Interferometry of Nanoscale Motion and Local Mechanical Properties of Living Zebrafish Embryos

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