<p>Representative examples of cell aspiration data fitted using a) the SLS model and b) the BSLS model. Cells were aspirated at 0.35, 0.70 and 5.48 cmH<sub>2</sub>O/sec.</p
The mechanical response of a living cell is notoriously complicated. The complex, heterogeneous char...
<p>(A) Diagram of model. Summed contractions (wavy lines) average out to stepped or ramped stresses ...
Understanding the relationship between the mechanical properties of living cells and physiology is a...
<p>(<b>A</b>) Standard linear solid (SLS) model of the protrusion. The model includes a Maxwell arm ...
<p>Plots show median and quartile values for instantaneous modulus (a,b), equilibrium modulus (c,d) ...
The objective of this thesis is to use computational modeling to study the deformation of single cel...
In this study, the effects of tensile stress on single cells were examined at both the cellular and ...
The viscoelastic properties of single, attached C2C12 myoblasts were measured using a recently devel...
Computational tools were developed to estimate extracellular and subcellular forces in a single cell...
The viscoelastic properties of the living cells are for quantifying the biomechanical effects of dru...
Micropipette aspiration (MA) technique has been widely used to measure the viscoelastic properties o...
The measurement of cell stiffness is an important part of biological research with diverse applicati...
A single cell can be regarded as a complex network that contains thousands of overlapping signaling ...
A single cell can be regarded as a complex network that contains thousands of overlapping signaling ...
Organisms are composed by cells, and the cells can also reflect the physiology of creatures. The com...
The mechanical response of a living cell is notoriously complicated. The complex, heterogeneous char...
<p>(A) Diagram of model. Summed contractions (wavy lines) average out to stepped or ramped stresses ...
Understanding the relationship between the mechanical properties of living cells and physiology is a...
<p>(<b>A</b>) Standard linear solid (SLS) model of the protrusion. The model includes a Maxwell arm ...
<p>Plots show median and quartile values for instantaneous modulus (a,b), equilibrium modulus (c,d) ...
The objective of this thesis is to use computational modeling to study the deformation of single cel...
In this study, the effects of tensile stress on single cells were examined at both the cellular and ...
The viscoelastic properties of single, attached C2C12 myoblasts were measured using a recently devel...
Computational tools were developed to estimate extracellular and subcellular forces in a single cell...
The viscoelastic properties of the living cells are for quantifying the biomechanical effects of dru...
Micropipette aspiration (MA) technique has been widely used to measure the viscoelastic properties o...
The measurement of cell stiffness is an important part of biological research with diverse applicati...
A single cell can be regarded as a complex network that contains thousands of overlapping signaling ...
A single cell can be regarded as a complex network that contains thousands of overlapping signaling ...
Organisms are composed by cells, and the cells can also reflect the physiology of creatures. The com...
The mechanical response of a living cell is notoriously complicated. The complex, heterogeneous char...
<p>(A) Diagram of model. Summed contractions (wavy lines) average out to stepped or ramped stresses ...
Understanding the relationship between the mechanical properties of living cells and physiology is a...