Abstract: Provided are vertical flow detection devices and related methods. The devices may comprise a membrane having a first surface and a second surface with a plurality of porous structures extending between the first and second surfaces to form fluid conduits from a first fluid chamber formed by the first surface and a second fluid chamber formed by the second fluid surface. A capture agent is immobilized on and/or in the membrane. A rigid porous membrane support mechanically supports the membrane and to provide a relatively uniform flow across the membrane. Various gaskets or holder elements are positioned around an outer edge of the membrane to prevent fluid leakage around the membrane. A fluid pump is configured to force a fluid sample flow in a direction from the first fluid chamber to the second fluid chamber.

Abstract: A modular microfluidic device for simulating in vivo conditions of a biological system may include a first perfusion chamber having an inlet and an outlet, a second perfusion chamber having an inlet and an outlet, a well configured to hold one or more 3D structures of cultured biological cells. The well may be in fluid communication with the first and second perfusion chambers. A first porous membrane may be disposed between the first perfusion chamber and the well. A second porous membrane may be disposed between the second perfusion chamber and the well. The well may be configured to facilitate growth of cultured biological cells along all three dimensional axes, thereby providing or ensuring a more representative 3D structure of biological cells compared to conventional monolayer cultures.

Abstract: A method of simulating a biological response of a cellular system may include removing at least some DNA-containing material from a vascular plant tissue to produce a vascularized cellulose scaffold, seeding the vascularized cellulose scaffold with cultured biological cells, growing cultured biological cells on the vascularized cellulose scaffold to produce the vascularized biological system, subjecting the vascularized biological system to an external stimulus, and measuring a response of the vascularized biological system. In some embodiments, the removing step comprises submerging the plant tissue in a fluid comprising supercritical CO2, peracetic acid and ethanol.

Abstract: Provided are vertical flow detection devices and related methods. The devices may comprise a membrane having a first surface and a second surface with a plurality of porous structures extending between the first and second surfaces to form fluid conduits from a first fluid chamber formed by the first surface and a second fluid chamber formed by the second fluid surface. A capture agent is immobilized on and/or in the membrane. A rigid porous membrane support mechanically supports the membrane and to provide a relatively uniform flow across the membrane. Various gaskets or holder elements are positioned around an outer edge of the membrane to prevent fluid leakage around the membrane. A fluid pump is configured to force a fluid sample flow in a direction from the first fluid chamber to the second fluid chamber.

Abstract: The present invention relates to a method for the in vitro determination of the radiosensitivity of a subject. More particularly, the invention relates to a method comprising a step of inducing an exogenous stress on a biological sample from a subject, followed by the comparison of the presence or level of at least one compound chosen in a group of defined compounds, in said biological sample and in a reference sample. The present invention also relates to the use of said at least one compound as predictive biomarker of the radio-sensitivity of a subject. The invention also relates to a kit for the detection of the presence or level of at least one of said compounds, usable in a method according to the invention.

Abstract: The present invention relates to a method for the in vitro determination of the radiosensitivity of a subject. More particularly, the invention relates to a method comprising a step of inducing an exogenous stress on a biological sample from a subject, followed by the comparison of the presence or level of at least one compound chosen in a group of defined compounds, in said biological sample and in a reference sample. The present invention also relates to the use of said at least one compound as predictive biomarker of the radio-sensitivity of a subject. The invention also relates to a kit for the detection of the presence or level of at least one of said compounds, usable in a method according to the invention.