3D Cell Culture: is an artificially created environment in which biological cells are permitted to grow or interact with their surroundings in all three dimensions. Unlike 2D environments, a 3D cell culture allows cells in vitro to grow in all directions, similar to how they would in vivo.
DATE: October 16, 2018TIME: 7:00m PDT, 10:00am EDT 22q11 Deletion Syndrome (22q11DS) is a genomic disorder caused by a microdeletion of chromosome 22 that occurs...
Holotomography (HT) uses laser interferometry to measure 3-D refractive index (RI) distribution. HT serves as a powerful tool for imaging small transparent objects, such as biological cells a...
When looking to answer complex biological questions, using in vitro techniques, you want the model that best reflects the in vivo condition. For decades two-dimensional cell culture has...
With the advent of cost-effective culturing approaches, 3D cell culture models (3D-CCMs) have been rapidly adopted for drug discovery since they provide a more physiologically relevant micro-...
CRISPR has revolutionized how we do science in a similar way PCR changed the face of molecular biology. Learn how to take advantage of this phenomenal technology in the easiest way with Synth...
DATE: September 20 2018TIME: 11:00am EDT, 5:00pm CEST Cardiovascular disease due to atherosclerosis is the leading cause of disease and mortality worldwide. So-call...
DATE: September 20, 2018TIME: 10:00am CEST, 4:00pm CST Cardiovascular disease due to atherosclerosis is the leading cause of disease and mortality worldwide. So-called “...
DATE: September 11, 2018TIME: 07:00AM PDTWith increasing safety requirements, and time and financial pressure, the development of new drugs, and the execution of basic research p...
DATE: August 15, 2018TIME: 08:00AM PDT, 11:00AM EDTThe failure of current chemotherapeutic strategies in the fight against cancer can be largely attributed to the occurrence of drug res...
With the advent of cost effective culturing approaches, 3D cell culture models (3D-CCMs) have been rapidly adopted for drug discovery since they provide a more physiologically relevant micro-...
The next step towards more biomimetic in vitro models is the design of multi-organ devices, which allow for communication of different tissue types. Combining physiologically relevant organ m...
Growing living human cells in vitro for basic research, drug discovery and reparative/regenerative medicine is challenged by the difficulty in developing methods for reproducibly and cost eff...
DATE: April 17, 2018TIME: 8:00AM PST, 11:00AM ESTRecently, much research has focused on obtaining 3D brain organoids in an attempt to better recapitulate brain development and function...
DATE: March 28, 2018TIME: 10:00am PDT, 01:00pm EDTPrimary cells are derived from various tissues typically via dissection, enzymatic dissociation, and subsequent culture in media specif...
DATE: February 22, 2018TIME: 09:00am PST, 12:00pm EST, 06:00pm CEST(Europe)Colorectal cancer (CRC) develops during a multi-step process from small lesions of the intestinal epithelium....
One of the goals of the “3Rs principle” is to replace in vivo testing methodologies with in vitro procedures on human cells, followed by computational systems biology modelling to...
DATE: November 16, 2017TIME: 9:00AM PT, 12:00PM ETThe wide use of 2D monolayer cultures for cancer drug discovery reflects the technical ease of implementation for drug screening, and t...
DATE: August 30, 2017TIME: 10:00am PT, 1:00pm ETRecent studies show that cancer cells can resist treatment by changing into a different cell type. Many treatments for specific cancers,...
EVENT DETAILS:DATE: July 25, 2017TIME: 9:00am PT, Noon ETThermo Fisher Scientific is proud to present the SyncD3 webinar series. As a thought-leader in science...
The human inner ear contains ~75,000 sensory hair cells that detect sound or movement via mechanosensitive hair bundles and transmit signals to the brain via specialized sensory neurons. Inne...
Pluripotent stem cell (PSC) culture at commercial scale requires a shift from the current manual processing methods and costly materials to deliver affordable differentiated cell products in...
The emergence of technology for development of induced pluripotent stem cells (iPSCs) from somatic cells, such as skin and blood cells, has resulted in the ability of researchers to have limi...
DATE: October 16, 2018TIME: 7:00m PDT, 10:00am EDT 22q11 Deletion Syndrome (22q11DS) is a genomic disorder caused by a microdeletion of chromosome 22 that occurs...
Holotomography (HT) uses laser interferometry to measure 3-D refractive index (RI) distribution. HT serves as a powerful tool for imaging small transparent objects, such as biological cells a...
When looking to answer complex biological questions, using in vitro techniques, you want the model that best reflects the in vivo condition. For decades two-dimensional cell culture has...
With the advent of cost-effective culturing approaches, 3D cell culture models (3D-CCMs) have been rapidly adopted for drug discovery since they provide a more physiologically relevant micro-...
CRISPR has revolutionized how we do science in a similar way PCR changed the face of molecular biology. Learn how to take advantage of this phenomenal technology in the easiest way with Synth...
DATE: September 20 2018TIME: 11:00am EDT, 5:00pm CEST Cardiovascular disease due to atherosclerosis is the leading cause of disease and mortality worldwide. So-call...
DATE: September 20, 2018TIME: 10:00am CEST, 4:00pm CST Cardiovascular disease due to atherosclerosis is the leading cause of disease and mortality worldwide. So-called “...
DATE: September 11, 2018TIME: 07:00AM PDTWith increasing safety requirements, and time and financial pressure, the development of new drugs, and the execution of basic research p...
DATE: August 15, 2018TIME: 08:00AM PDT, 11:00AM EDTThe failure of current chemotherapeutic strategies in the fight against cancer can be largely attributed to the occurrence of drug res...
With the advent of cost effective culturing approaches, 3D cell culture models (3D-CCMs) have been rapidly adopted for drug discovery since they provide a more physiologically relevant micro-...
The next step towards more biomimetic in vitro models is the design of multi-organ devices, which allow for communication of different tissue types. Combining physiologically relevant organ m...
Growing living human cells in vitro for basic research, drug discovery and reparative/regenerative medicine is challenged by the difficulty in developing methods for reproducibly and cost eff...
DATE: April 17, 2018TIME: 8:00AM PST, 11:00AM ESTRecently, much research has focused on obtaining 3D brain organoids in an attempt to better recapitulate brain development and function...
DATE: March 28, 2018TIME: 10:00am PDT, 01:00pm EDTPrimary cells are derived from various tissues typically via dissection, enzymatic dissociation, and subsequent culture in media specif...
DATE: February 22, 2018TIME: 09:00am PST, 12:00pm EST, 06:00pm CEST(Europe)Colorectal cancer (CRC) develops during a multi-step process from small lesions of the intestinal epithelium....
One of the goals of the “3Rs principle” is to replace in vivo testing methodologies with in vitro procedures on human cells, followed by computational systems biology modelling to...
DATE: November 16, 2017TIME: 9:00AM PT, 12:00PM ETThe wide use of 2D monolayer cultures for cancer drug discovery reflects the technical ease of implementation for drug screening, and t...
DATE: August 30, 2017TIME: 10:00am PT, 1:00pm ETRecent studies show that cancer cells can resist treatment by changing into a different cell type. Many treatments for specific cancers,...
EVENT DETAILS:DATE: July 25, 2017TIME: 9:00am PT, Noon ETThermo Fisher Scientific is proud to present the SyncD3 webinar series. As a thought-leader in science...
The human inner ear contains ~75,000 sensory hair cells that detect sound or movement via mechanosensitive hair bundles and transmit signals to the brain via specialized sensory neurons. Inne...
Pluripotent stem cell (PSC) culture at commercial scale requires a shift from the current manual processing methods and costly materials to deliver affordable differentiated cell products in...
The emergence of technology for development of induced pluripotent stem cells (iPSCs) from somatic cells, such as skin and blood cells, has resulted in the ability of researchers to have limi...