Cancer Cell: is a cell that can divide relentlessly, forming solid tumors or flooding the blood with abnormal cells. Cell division is a normal process used by the body for growth and repair.
The development of automated DNA sequencers utilizing Sanger sequencing and capillary electrophoresis made it possible to develop the first draft sequences of the human genome. The cost of do...
In this presentation, Dr. Kothari will provide an overview of the Precision Medicine Initiative from NIH and how NGS technologies have helped the researchers to look deep inside the human tra...
Tumor mutational burden (TMB) is an emerging biomarker that correlates with response to immunotherapeutic agents, such as checkpoint inhibitors. Recent studies indicate that a high mutation l...
Recent advances in genomic technologies have revealed enormous complexities and uniqueness of human physiology. Although enormous efforts are being made to apply this knowledge to enhance the...
The NIH put Precision Medicine on the map as a revolutionary way to manage disease, delivering the right treatment, to the right patient, at the right time. But what does Precision Medicine r...
Most cancer therapies have highly variable activity from one patient to another, with only a fraction of patients’ cancers responding to a given treatment. In many types of cancer, comb...
It has been noted by many in the community that for Precision Medicine to become a transformative reality, the underlying DNA and RNA sequence data have to become more precise. In my talk, I...
Virtually all tumors are genetically heterogeneous, containing subclonal populations of cells that are defined by distinct mutations. Subclones can have unique phenotypes that influence disea...
Inherited disorders affect millions of people globally. These diseases significantly impact lives of patients and their families, and in addition, also results in substantial socio-economic i...
DATE: June 19, 2019TIME: 10:00am PDT, 1:00pm EDT As we develop new methods to create more biologically relevant models for research in understanding disease etiology and in...
DATE: June 5, 2019TIME: 8:00am PDT, 11:00am EDT, 5:00pm CEST Eukaryotic cell cultures respond to the most subtle influence. Apart from the risk of contamination, minimal chan...
Tissues in the body are wonderfully organized, with specific arrangements of cells, extracellular matrix, secreted molecules, and fluid flow that synergize that create emergent functions. How...
The attractiveness of 3D printing technology in the microfluidic field is growing, specifically stereolithographic (SLA) type 3D printers, owing to their low cost, versatility, fast and easy...
With growing standards of patient care, clinical testing laboratory across the world are forced to change the way they manage their laboratory operations. More focus is now given to automatio...
Computer vision (CV) has seen rapid growth in many industries, including the life sciences with high-content cell imaging and phenotypic assays. However, many biomolecular and cellular assay...
In this seminar, Dr Elvira will talk about the use of droplet microfluidic technologies for drug discovery. Initially, she will discuss the fundamental concepts of droplet microfluidic techno...
Oncologists have many options when tasked with treating a patient’s cancer. Unfortunately, many cancer drugs and therapies come with potentially debilitating side effects. As such, it i...
DATE: May 23, 2019TIME: 9:00am PDT, 12:00pm EDT Although mesenchymal stem/stromal cells (MSCs) chondrogenic differentiation has been thoroughly investigated...
DATE: May 21, 2019TIMEL 7:00am PT, 10:00am ET Human T cells are central effectors of immunity and cancer immunotherapy. CRISPR-based functional studies in T cells could prioriti...
DATE: May 16, 2019TIME: 7:00am PDT, 10:00am EDT, 4:00pm CEST The emergence of NGS is revolutionizing the microbiological sciences and transforming medicine. Deep sequencing has...
Screening to identify all known viruses and other pathogenic microorganisms including bacteria, fungus and parasites in human tumor tissues will provide a more comprehensive understanding of...
The last two decades have seen an explosion in the volume of oncology data generated using next-generation sequencing (NGS) and multi-omics techniques. As a result, there is a growing need fo...
One of the central tenants of biology is that our genetics—our genotype—influences the physical characteristics we manifest—our phenotype. But with more than 25,000 human ge...
Genetic drivers of cancer can be dysregulated through epigenetic modifications of DNA. Although the critical role of DNA 5-methylcytosine (5mC) in the regulation of transcription is recognize...
The development of automated DNA sequencers utilizing Sanger sequencing and capillary electrophoresis made it possible to develop the first draft sequences of the human genome. The cost of do...
In this presentation, Dr. Kothari will provide an overview of the Precision Medicine Initiative from NIH and how NGS technologies have helped the researchers to look deep inside the human tra...
Tumor mutational burden (TMB) is an emerging biomarker that correlates with response to immunotherapeutic agents, such as checkpoint inhibitors. Recent studies indicate that a high mutation l...
Recent advances in genomic technologies have revealed enormous complexities and uniqueness of human physiology. Although enormous efforts are being made to apply this knowledge to enhance the...
The NIH put Precision Medicine on the map as a revolutionary way to manage disease, delivering the right treatment, to the right patient, at the right time. But what does Precision Medicine r...
Most cancer therapies have highly variable activity from one patient to another, with only a fraction of patients’ cancers responding to a given treatment. In many types of cancer, comb...
It has been noted by many in the community that for Precision Medicine to become a transformative reality, the underlying DNA and RNA sequence data have to become more precise. In my talk, I...
Virtually all tumors are genetically heterogeneous, containing subclonal populations of cells that are defined by distinct mutations. Subclones can have unique phenotypes that influence disea...
Inherited disorders affect millions of people globally. These diseases significantly impact lives of patients and their families, and in addition, also results in substantial socio-economic i...
DATE: June 19, 2019TIME: 10:00am PDT, 1:00pm EDT As we develop new methods to create more biologically relevant models for research in understanding disease etiology and in...
DATE: June 5, 2019TIME: 8:00am PDT, 11:00am EDT, 5:00pm CEST Eukaryotic cell cultures respond to the most subtle influence. Apart from the risk of contamination, minimal chan...
Tissues in the body are wonderfully organized, with specific arrangements of cells, extracellular matrix, secreted molecules, and fluid flow that synergize that create emergent functions. How...
The attractiveness of 3D printing technology in the microfluidic field is growing, specifically stereolithographic (SLA) type 3D printers, owing to their low cost, versatility, fast and easy...
With growing standards of patient care, clinical testing laboratory across the world are forced to change the way they manage their laboratory operations. More focus is now given to automatio...
Computer vision (CV) has seen rapid growth in many industries, including the life sciences with high-content cell imaging and phenotypic assays. However, many biomolecular and cellular assay...
In this seminar, Dr Elvira will talk about the use of droplet microfluidic technologies for drug discovery. Initially, she will discuss the fundamental concepts of droplet microfluidic techno...
Oncologists have many options when tasked with treating a patient’s cancer. Unfortunately, many cancer drugs and therapies come with potentially debilitating side effects. As such, it i...
DATE: May 23, 2019TIME: 9:00am PDT, 12:00pm EDT Although mesenchymal stem/stromal cells (MSCs) chondrogenic differentiation has been thoroughly investigated...
DATE: May 21, 2019TIMEL 7:00am PT, 10:00am ET Human T cells are central effectors of immunity and cancer immunotherapy. CRISPR-based functional studies in T cells could prioriti...
DATE: May 16, 2019TIME: 7:00am PDT, 10:00am EDT, 4:00pm CEST The emergence of NGS is revolutionizing the microbiological sciences and transforming medicine. Deep sequencing has...
Screening to identify all known viruses and other pathogenic microorganisms including bacteria, fungus and parasites in human tumor tissues will provide a more comprehensive understanding of...
The last two decades have seen an explosion in the volume of oncology data generated using next-generation sequencing (NGS) and multi-omics techniques. As a result, there is a growing need fo...
One of the central tenants of biology is that our genetics—our genotype—influences the physical characteristics we manifest—our phenotype. But with more than 25,000 human ge...
Genetic drivers of cancer can be dysregulated through epigenetic modifications of DNA. Although the critical role of DNA 5-methylcytosine (5mC) in the regulation of transcription is recognize...
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