This project consists on a Kinematic analysis of Drosophila embryo development, generally known as the fruit fly. This work is involved in professor Jose J. Muñoz works from Universitat Politècnica de Catalunya. An algorithm for computing displacements have been proved and calibrated. Thus, the errors have been measured due to an artificial displacement that has been imposed to the real images. Finally the optimal parameters have been deduced and applied to the algorithm with the real images resulting in an intuitive and quantitative visualization of embryo cells displacements. Lastly, with the computed displacements, forces exerted by cells could be computed
To better understand the biomechanical properties involved in Drosophila embryo research, this work ...
This protocol describes imaging and computational tools to collect and analyze live imaging data of ...
The objective of this paper is to investigate and characterize the force behaviour and mechanical pr...
This project consists on a Kinematic analysis of Drosophila embryo development, generally known as ...
The objective of my thesis was to develop software tools for the analysis of kinematic measurements ...
The aim of this document is to introduce the reader into the process, through microscopic threedimen...
The overarching purpose of my research is to understand the biomechanics of embryonic chicken develo...
The overarching purpose of my research is to understand the biomechanics of embryonic chicken develo...
This thesis approaches morphogenetic processes in the early embryogenesis of verte-brates through th...
This thesis approaches morphogenetic processes in the early embryogenesis of verte-brates through th...
This thesis approaches morphogenetic processes in the early embryogenesis of verte-brates through th...
International audienceThe initial stage of gastrulation, an early stage of embryogenesis, is called ...
The embryo of Caenorhabditis elegans is a model system in which development can be studied at single...
Abstract. It is well known, that organism of animal, consisting of many billions cells, is formed by...
The embryo of Caenorhabditis elegans is a model system in which development can be studied at single...
To better understand the biomechanical properties involved in Drosophila embryo research, this work ...
This protocol describes imaging and computational tools to collect and analyze live imaging data of ...
The objective of this paper is to investigate and characterize the force behaviour and mechanical pr...
This project consists on a Kinematic analysis of Drosophila embryo development, generally known as ...
The objective of my thesis was to develop software tools for the analysis of kinematic measurements ...
The aim of this document is to introduce the reader into the process, through microscopic threedimen...
The overarching purpose of my research is to understand the biomechanics of embryonic chicken develo...
The overarching purpose of my research is to understand the biomechanics of embryonic chicken develo...
This thesis approaches morphogenetic processes in the early embryogenesis of verte-brates through th...
This thesis approaches morphogenetic processes in the early embryogenesis of verte-brates through th...
This thesis approaches morphogenetic processes in the early embryogenesis of verte-brates through th...
International audienceThe initial stage of gastrulation, an early stage of embryogenesis, is called ...
The embryo of Caenorhabditis elegans is a model system in which development can be studied at single...
Abstract. It is well known, that organism of animal, consisting of many billions cells, is formed by...
The embryo of Caenorhabditis elegans is a model system in which development can be studied at single...
To better understand the biomechanical properties involved in Drosophila embryo research, this work ...
This protocol describes imaging and computational tools to collect and analyze live imaging data of ...
The objective of this paper is to investigate and characterize the force behaviour and mechanical pr...