Microflow cytometry represents a promising tool for the investigation of diagnostic and prognostic cellular cancer markers, particularly if integrated within a device that allows primary cells to be freshly isolated from the solid tumour biopsies that more accurately reflect patient‐specific in vivo tissue microenvironments at the time of staining. However, current tissue processing techniques involve several sequential stages with concomitant cell losses, and as such are inappropriate for use with small biopsies. Accordingly, we present a simple method for combined antibody‐labelling and dissociation of heterogeneous cells from a tumour mass, which reduces the number of processing steps. Perfusion of ex vivo tissue at 4°C with antibodies a...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Cancer is one of the most prominent diseases in the world known for its leading cause in death. Can...
Microfluidics are providing new opportunities for diagnostics. Innovative technologies developed in ...
Microflow cytometry represents a promising tool for the investigation of diagnostic and prognostic c...
Microfluidics, an enabling and emerging technology in cancer metastasis research, has yet to be appl...
An integrated microfluidic device has been developed to disaggregate ex vivo tumour biopsies, libera...
Flow cytometry is one of the core technologies for single cell analysis and sorting based on fluores...
Flow cytometry is one of the core technologies for a single cell analysis and sorting based on fluor...
The incidence of cancer is increasing worldwide and metastatic disease, through the spread of circul...
AbstractFlow cytometry is one of the core technologies for a single cell analysis and sorting based ...
Isolation and enumeration of circulating tumour cells (CTCs) from human blood has a huge significanc...
The advancement of sample preparation techniques is essential for the field of cell-based therapeuti...
This thesis describes the development of integrated microfluidic technology for single cell proteomi...
Tissues are highly complex ecosystems, composed of heterogenous cell populations that vary in gene e...
Tracking and understanding cell-to-cell variability is fundamental for systems biology, cytomics and...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Cancer is one of the most prominent diseases in the world known for its leading cause in death. Can...
Microfluidics are providing new opportunities for diagnostics. Innovative technologies developed in ...
Microflow cytometry represents a promising tool for the investigation of diagnostic and prognostic c...
Microfluidics, an enabling and emerging technology in cancer metastasis research, has yet to be appl...
An integrated microfluidic device has been developed to disaggregate ex vivo tumour biopsies, libera...
Flow cytometry is one of the core technologies for single cell analysis and sorting based on fluores...
Flow cytometry is one of the core technologies for a single cell analysis and sorting based on fluor...
The incidence of cancer is increasing worldwide and metastatic disease, through the spread of circul...
AbstractFlow cytometry is one of the core technologies for a single cell analysis and sorting based ...
Isolation and enumeration of circulating tumour cells (CTCs) from human blood has a huge significanc...
The advancement of sample preparation techniques is essential for the field of cell-based therapeuti...
This thesis describes the development of integrated microfluidic technology for single cell proteomi...
Tissues are highly complex ecosystems, composed of heterogenous cell populations that vary in gene e...
Tracking and understanding cell-to-cell variability is fundamental for systems biology, cytomics and...
The emergence of microfluidic techniques provide an unprecedented opportunity for peering into molec...
Cancer is one of the most prominent diseases in the world known for its leading cause in death. Can...
Microfluidics are providing new opportunities for diagnostics. Innovative technologies developed in ...