Tissue engineering is the use of a combination of cells, engineering and materials methods, and suitable biochemical and physicochemical factors to improve or replace biological tissues. Tissue engineering involves the use of a tissue scaffold for the formation of new viable tissue for a medical purpose.
The Resource Identification Initiative supports NIH's new guidelines for Rigor and Transparency as these apply in biomedical publications. Authors are instructed to authenticate key biolo...
How are your RNA yields? Some sample types present special challenges in RNA purification and analysis. In this webinar, we will discuss and provide tips for the following topics: &b...
Stem cells can self-renew and differentiate into multiple different cell types. Engineering of stem cells has enabled new methods to study development and organogenesis in humans as well as d...
Contractile non-muscle cells, including smooth muscle and myoepithelial cells, provide the mechanical forces required for tissue homeostasis in numerous organ systems. For example, smooth mus...
I will present my lab’s effort on studying and manipulating RNA processing, with particular emphasis on using CRISPR/Cas systems for targeting RNA in living cells in diseases such as my...
The Mexican axolotl (Ambystoma mexicanum) is an aquatic salamander that possesses some of the most astonishing regenerative abilities found in nature. Able to fully regenerate amputated...
Although the cell is commonly referred to as “the most basic unit of life”, it is actually so complex that despite over 350 years of research we are still far from fully understan...
The manipulation of the genome to study disease, evaluate drug targets and to stratify patient populations is now a widely accepted concept in the field. At Horizon Discovery, genome engineer...
Actin cytoskeleton drives cell migration in muscle and non-muscle cells and plays a major role in such diverse processes as tissue morphogenesis, muscle contraction, and cancer metastases. In...
Einstein researcher Robert Singer, Ph.D., discusses a breakthrough in microscopy that is allowing scientists to track messenger RNA in living cells in real time. The study, published in the S...
A fundamental question in neuronal development is how growth cone cytoskeletal dynamics are coordinated to promote accurate axonal navigation. To address this question, we focus on microtubul...
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,...
Human pluripotent stem cells (hPSCs) and their derivatives are increasingly being used in industry to gain a competitive edge in drug discovery and a new wave of biotechnology start-up compan...
Cardiomyocytes (CMs) derived from human induced pluripotent stem cells (iPSCs) as well as engineered heart muscles offer great potential for regenerative applications by CM transplantation, f...
Diseases like cancer have complex tissue morphology requiring microscopic examination. Typically this involves 2D examination through a microscope by a pathologist, a slow and manual pr...
The Instrumentation Group at the BC Cancer Agency’s Genome Sciences Centre (GSC) is unusual in having an engineering group and extensive prototyping facilities embedded in a biomedical...
Drug development is a costly and time consuming process, poor translation of data from pre-clinical studies to the clinic is a major contributor as late-stage drug failure is very expensive....
EVENT DETAILS:DATE: May 16, 2017TIME: 9:00am PT, Noon ETThermo Fisher Scientific is proud to present the SyncD3 webinar series. As a thought-leader in science our first commit...
Healthcare is becoming more proactive and data-rich than anything before possible – and will increasingly focus on maintaining and enhancing wellness more than just reacting to disease....
Cell growth and regulation involve vast networks of interacting DNAs, RNAs, proteins, lipids and sugars. Through a fundamental strategy of life, these interactions push multiple cellular proc...
In this era of precision molecular medicine, knowledge changes rapidly and is highly dispersed. Physicians and patients are faced with conflicting expert opinions and a shortage of acti...
Despite vast investment for decades in cancer research and development, cancer is still among the leading causes of death worldwide and its toll is expected to rise by about 70% over the next...
Clinical whole genome sequencing (cWGS) is rapidly gaining acceptance as cost is decreasing and success rates in identifying disease-causing variants are increasing. While the application of...
Although there have been enormous advances in gene sequencing, the results give massive amounts of data that only point to disease risk. Major health factors, including diet, lifestyle, envir...
The Resource Identification Initiative supports NIH's new guidelines for Rigor and Transparency as these apply in biomedical publications. Authors are instructed to authenticate key biolo...
How are your RNA yields? Some sample types present special challenges in RNA purification and analysis. In this webinar, we will discuss and provide tips for the following topics: &b...
Stem cells can self-renew and differentiate into multiple different cell types. Engineering of stem cells has enabled new methods to study development and organogenesis in humans as well as d...
Contractile non-muscle cells, including smooth muscle and myoepithelial cells, provide the mechanical forces required for tissue homeostasis in numerous organ systems. For example, smooth mus...
I will present my lab’s effort on studying and manipulating RNA processing, with particular emphasis on using CRISPR/Cas systems for targeting RNA in living cells in diseases such as my...
The Mexican axolotl (Ambystoma mexicanum) is an aquatic salamander that possesses some of the most astonishing regenerative abilities found in nature. Able to fully regenerate amputated...
Although the cell is commonly referred to as “the most basic unit of life”, it is actually so complex that despite over 350 years of research we are still far from fully understan...
The manipulation of the genome to study disease, evaluate drug targets and to stratify patient populations is now a widely accepted concept in the field. At Horizon Discovery, genome engineer...
Actin cytoskeleton drives cell migration in muscle and non-muscle cells and plays a major role in such diverse processes as tissue morphogenesis, muscle contraction, and cancer metastases. In...
Einstein researcher Robert Singer, Ph.D., discusses a breakthrough in microscopy that is allowing scientists to track messenger RNA in living cells in real time. The study, published in the S...
A fundamental question in neuronal development is how growth cone cytoskeletal dynamics are coordinated to promote accurate axonal navigation. To address this question, we focus on microtubul...
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,...
Human pluripotent stem cells (hPSCs) and their derivatives are increasingly being used in industry to gain a competitive edge in drug discovery and a new wave of biotechnology start-up compan...
Cardiomyocytes (CMs) derived from human induced pluripotent stem cells (iPSCs) as well as engineered heart muscles offer great potential for regenerative applications by CM transplantation, f...
Diseases like cancer have complex tissue morphology requiring microscopic examination. Typically this involves 2D examination through a microscope by a pathologist, a slow and manual pr...
The Instrumentation Group at the BC Cancer Agency’s Genome Sciences Centre (GSC) is unusual in having an engineering group and extensive prototyping facilities embedded in a biomedical...
Drug development is a costly and time consuming process, poor translation of data from pre-clinical studies to the clinic is a major contributor as late-stage drug failure is very expensive....
EVENT DETAILS:DATE: May 16, 2017TIME: 9:00am PT, Noon ETThermo Fisher Scientific is proud to present the SyncD3 webinar series. As a thought-leader in science our first commit...
Healthcare is becoming more proactive and data-rich than anything before possible – and will increasingly focus on maintaining and enhancing wellness more than just reacting to disease....
Cell growth and regulation involve vast networks of interacting DNAs, RNAs, proteins, lipids and sugars. Through a fundamental strategy of life, these interactions push multiple cellular proc...
In this era of precision molecular medicine, knowledge changes rapidly and is highly dispersed. Physicians and patients are faced with conflicting expert opinions and a shortage of acti...
Despite vast investment for decades in cancer research and development, cancer is still among the leading causes of death worldwide and its toll is expected to rise by about 70% over the next...
Clinical whole genome sequencing (cWGS) is rapidly gaining acceptance as cost is decreasing and success rates in identifying disease-causing variants are increasing. While the application of...
Although there have been enormous advances in gene sequencing, the results give massive amounts of data that only point to disease risk. Major health factors, including diet, lifestyle, envir...
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