DATE: June 24, 2020 TIME: 9:00am PT, 12:00pm ET Some of the key factors in viral pathogenesis are the molecular mechanisms enabling viral entry into cells. Inhibitors of viral entry are ofte...
DATE: June 24, 2020 TIME: 8:00am PT The identification of LGR5 + intestinal stem cells helped us to understand various aspects of adult stem cells and led to the establishment of primary 3D...
While the introduction of atmospheric pressure ion sources, such as electrospray ionization, revolutionized the field of mass spectrometry it also introduced new instrumental compilations no...
Understanding the complex interplay between a pathogen and the host response is important to developing effective vaccines and therapeutics. The nCounter® Analysis System and GeoMx®...
Almost unidimensional in their primordial existence as single cells, multicellular organisms quickly develop into complex 3D architectures and machineries composed of multiple cells and tiss...
Although much is known about the molecular maternal-fetal interactions during implantation, the 3D architecture of the uterine environment in which the early embryo develops is not well unde...
The mammary gland is a unique organ that develops predominantly after birth and undergoes dramatic remodelling in reproductive phases. Macrophages have been implicated in mammary gland funct...
Confocal microscopes (and related instruments such as Two-Photon) are often used for the most rigorous quantitative fluorescence microscopy measurements. Most confocal users are aware of the...
Multi-colour electron microscopy (MCEM) combines ultrastructural electron data with elemental information, transforming traditionally grey scale electron micrographs into colourful images th...
While many technologies focus on either exploring the spatial context of a handful of targets, or expression patterns of hundreds or thousands of targets in bulk samples or dissociated singl...
Experimental models that promise to replace animal tests that are currently required for drugs and chemicals are rapidly proliferating. This includes a number of novel solutions offered by b...
DATE: April 15, 2020 TIME: 9:00am PT, 12:00pm ET We report a molecular assay, Methyl-HiC, that can simultaneously capture the chromosome conformation and DNA methylome in a cell. Methyl-HiC...
DATE: March 24, 2020 TIME: 11:00am PT, 2:00pm ET While in vitro cell culture has long been used to study neurological diseases, researchers have come to the realization that 2-D systems do n...
DATE: March 18, 2020 TIME: 6:30am PT, 9:30am ET Presentation: Chemical Imaging for Biomedicine: the Next Frontier of Light Microscopy Dr. Wei Min, Columbia University www.columbia.edu/cu/che...
Brain function is remarkably reliable despite the imprecise performance of neurons, and the continuous perturbations caused by aging, disease or injury. How does the brain succeed in produci...
DATE: February 26, 2020 TIME: 9:00am PST 3D cell culture and analysis and the study of organoids and spheroids are becoming more prevalent as a research method in publications as traditional...
With an increasing push to improve safety, efficacy, and efficiency throughout the drug development pipeline, researchers are evermore looking to improve the predictive capacity of their in...
“The poor translatability of early-stage preclinical models is a major setback in oncology drug development. Immortalized cell lines, that are extensively used in drug screens, undergo...
The OrganoPlate is a microtiterplate based Organ-on-a-Chip platform for high throughput drug safety and efficacy screening. It contains up to 96 cell culture chambers that allow co-culture o...
The aim of the lecture is to give an insight into the use of 3D liver micro tissues (3D liMTs) in drug discovery and translational safety. In translational toxicology, 3D LiMTs have a high i...
Microphysiological systems (MPS), also known as organ-on-chips, are small scale in vitro cell cultures which mimic facets of tissue or organ level function. MPS frequently utilise primary hu...
DATE: June 24, 2020 TIME: 9:00am PT, 12:00pm ET Some of the key factors in viral pathogenesis are the molecular mechanisms enabling viral entry into cells. Inhibitors of viral entry are ofte...
DATE: June 24, 2020 TIME: 8:00am PT The identification of LGR5 + intestinal stem cells helped us to understand various aspects of adult stem cells and led to the establishment of primary 3D...
While the introduction of atmospheric pressure ion sources, such as electrospray ionization, revolutionized the field of mass spectrometry it also introduced new instrumental compilations no...
Understanding the complex interplay between a pathogen and the host response is important to developing effective vaccines and therapeutics. The nCounter® Analysis System and GeoMx®...
Almost unidimensional in their primordial existence as single cells, multicellular organisms quickly develop into complex 3D architectures and machineries composed of multiple cells and tiss...
Although much is known about the molecular maternal-fetal interactions during implantation, the 3D architecture of the uterine environment in which the early embryo develops is not well unde...
The mammary gland is a unique organ that develops predominantly after birth and undergoes dramatic remodelling in reproductive phases. Macrophages have been implicated in mammary gland funct...
Confocal microscopes (and related instruments such as Two-Photon) are often used for the most rigorous quantitative fluorescence microscopy measurements. Most confocal users are aware of the...
Multi-colour electron microscopy (MCEM) combines ultrastructural electron data with elemental information, transforming traditionally grey scale electron micrographs into colourful images th...
While many technologies focus on either exploring the spatial context of a handful of targets, or expression patterns of hundreds or thousands of targets in bulk samples or dissociated singl...
Experimental models that promise to replace animal tests that are currently required for drugs and chemicals are rapidly proliferating. This includes a number of novel solutions offered by b...
DATE: April 15, 2020 TIME: 9:00am PT, 12:00pm ET We report a molecular assay, Methyl-HiC, that can simultaneously capture the chromosome conformation and DNA methylome in a cell. Methyl-HiC...
DATE: March 24, 2020 TIME: 11:00am PT, 2:00pm ET While in vitro cell culture has long been used to study neurological diseases, researchers have come to the realization that 2-D systems do n...
DATE: March 18, 2020 TIME: 6:30am PT, 9:30am ET Presentation: Chemical Imaging for Biomedicine: the Next Frontier of Light Microscopy Dr. Wei Min, Columbia University www.columbia.edu/cu/che...
Brain function is remarkably reliable despite the imprecise performance of neurons, and the continuous perturbations caused by aging, disease or injury. How does the brain succeed in produci...
DATE: February 26, 2020 TIME: 9:00am PST 3D cell culture and analysis and the study of organoids and spheroids are becoming more prevalent as a research method in publications as traditional...
With an increasing push to improve safety, efficacy, and efficiency throughout the drug development pipeline, researchers are evermore looking to improve the predictive capacity of their in...
“The poor translatability of early-stage preclinical models is a major setback in oncology drug development. Immortalized cell lines, that are extensively used in drug screens, undergo...
The OrganoPlate is a microtiterplate based Organ-on-a-Chip platform for high throughput drug safety and efficacy screening. It contains up to 96 cell culture chambers that allow co-culture o...
The aim of the lecture is to give an insight into the use of 3D liver micro tissues (3D liMTs) in drug discovery and translational safety. In translational toxicology, 3D LiMTs have a high i...
Microphysiological systems (MPS), also known as organ-on-chips, are small scale in vitro cell cultures which mimic facets of tissue or organ level function. MPS frequently utilise primary hu...
Follow
