Add to ORKGProposed the model of cell rheological parameters determination based on nanoindentation. It is assumed that shapes of cell and indenter are known, which allows to get stats for creep kernel of normal cell and to diagnose systematic disease based on stats aberration. The method is based on solution of the direct indentation problem (indentation of curvilinear biological finite-size object with a rigid stamp of an arbitrary shape). Complicated spatial creep problem is reduced to two contact problems, which are solved based on generalization of the Winkler model and using the hereditary creep theory
Viscoelastic mechanical properties of biological cells are commonly measured using atomic force micr...
International audienceQuantifying cell mechanical properties is of interest to better understand bot...
An analytical electromechanical model of a spherical cell exposed to an alternating electric field w...
Proposed the model of cell rheological parameters determination based on nanoindentation. It is assu...
Nanoindentation technology has proven to be an effective method to investigate the viscoelastic prop...
Using finite element modeling, the mechanical properties of biological cells are investigated based ...
The viscoelastic properties of the living cells are for quantifying the biomechanical effects of dru...
Nanoindentation technology has proven an effective method to investigate the viscoelastic properties...
The measurement of cell stiffness is an important part of biological research with diverse applicati...
The measurement of cell stiffness is an important part of biological research with diverse applicati...
The measurement of cell stiffness is an important part of biological research with diverse applicati...
Viscoelastic mechanical properties of biological cells are commonly measured using atomic force micr...
International audienceQuantifying cell mechanical properties is of interest to better understand bot...
The mechanical response of single cells and tissues exhibits a broad distribution of time scales tha...
Viscoelastic mechanical properties of biological cells are commonly measured using atomic force micr...
Viscoelastic mechanical properties of biological cells are commonly measured using atomic force micr...
International audienceQuantifying cell mechanical properties is of interest to better understand bot...
An analytical electromechanical model of a spherical cell exposed to an alternating electric field w...
Proposed the model of cell rheological parameters determination based on nanoindentation. It is assu...
Nanoindentation technology has proven to be an effective method to investigate the viscoelastic prop...
Using finite element modeling, the mechanical properties of biological cells are investigated based ...
The viscoelastic properties of the living cells are for quantifying the biomechanical effects of dru...
Nanoindentation technology has proven an effective method to investigate the viscoelastic properties...
The measurement of cell stiffness is an important part of biological research with diverse applicati...
The measurement of cell stiffness is an important part of biological research with diverse applicati...
The measurement of cell stiffness is an important part of biological research with diverse applicati...
Viscoelastic mechanical properties of biological cells are commonly measured using atomic force micr...
International audienceQuantifying cell mechanical properties is of interest to better understand bot...
The mechanical response of single cells and tissues exhibits a broad distribution of time scales tha...
Viscoelastic mechanical properties of biological cells are commonly measured using atomic force micr...
Viscoelastic mechanical properties of biological cells are commonly measured using atomic force micr...
International audienceQuantifying cell mechanical properties is of interest to better understand bot...
An analytical electromechanical model of a spherical cell exposed to an alternating electric field w...