We report a reliable full-angle tomographic phase microscopy (FA-TPM) method for flowing quasi-spherical cells along microfluidic channels. This method lies in a completely passive optical system, i.e. mechanical scanning or multi-direction probing of the sample is avoided. It exploits the engineered rolling of cells while they are flowing along a microfluidic channel. Here we demonstrate significant progress with respect to the state of the art of in-flow TPM by showing a general extension to cells having almost spherical shapes while they are flowing in suspension. In fact, the adopted strategy allows the accurate retrieval of rotation angles through a theoretical model of the cells' rotation in a dynamic microfluidic flow by matching it ...
The detection of CTCs in a blood sample is a challenging task due to their rarity and variety. We de...
We investigated subclasses of living peripheral blood cells in a microfluidic-based system, with the...
Tomographic phase microscopy measures the 3-D refractive index distribution of cells and tissues by...
We report a reliable full-angle tomographic phase microscopy (FA-TPM) method for flowing quasi-spher...
Holographic tomography allows the 3D mapping of the refractive index of biological samples thanks to...
Traditional tomographic reconstruction methods are based on the knowledge of illumination directions...
High-throughput single-cell analysis is a challenging task. Label-free tomographic phase microscopy ...
Holographic Tomography (HT) is an emerging label-free technique for microscopic bioimaging applicati...
We combine confocal imaging, microfluidics, and image analysis to record 3D-images of cells in flow....
The possibility to investigate cells in microfluidic flow by using a full 3D morphometry analysis is...
A major challenge in the field of optical imaging of live cells is achieving rapid, 3D, and noninvas...
The accurate identification of the three-dimensional quantitative shape of a cell nucleus is now pos...
Tomographic phase microscopy (TPM) is an emerging optical microscopic technique for bioimaging. TPM ...
For the monitoring of biological samples, physical parameters such as size, shape and refractive ind...
Optical diffraction tomography (ODT) is a tomographic technique that can be used to measure the thre...
The detection of CTCs in a blood sample is a challenging task due to their rarity and variety. We de...
We investigated subclasses of living peripheral blood cells in a microfluidic-based system, with the...
Tomographic phase microscopy measures the 3-D refractive index distribution of cells and tissues by...
We report a reliable full-angle tomographic phase microscopy (FA-TPM) method for flowing quasi-spher...
Holographic tomography allows the 3D mapping of the refractive index of biological samples thanks to...
Traditional tomographic reconstruction methods are based on the knowledge of illumination directions...
High-throughput single-cell analysis is a challenging task. Label-free tomographic phase microscopy ...
Holographic Tomography (HT) is an emerging label-free technique for microscopic bioimaging applicati...
We combine confocal imaging, microfluidics, and image analysis to record 3D-images of cells in flow....
The possibility to investigate cells in microfluidic flow by using a full 3D morphometry analysis is...
A major challenge in the field of optical imaging of live cells is achieving rapid, 3D, and noninvas...
The accurate identification of the three-dimensional quantitative shape of a cell nucleus is now pos...
Tomographic phase microscopy (TPM) is an emerging optical microscopic technique for bioimaging. TPM ...
For the monitoring of biological samples, physical parameters such as size, shape and refractive ind...
Optical diffraction tomography (ODT) is a tomographic technique that can be used to measure the thre...
The detection of CTCs in a blood sample is a challenging task due to their rarity and variety. We de...
We investigated subclasses of living peripheral blood cells in a microfluidic-based system, with the...
Tomographic phase microscopy measures the 3-D refractive index distribution of cells and tissues by...