Antimicrobial chemotherapy is the clinical application of antimicrobial agents to treat infectious disease.There are five types of antimicrobial chemotherapy: antibacterial chemotherapy, antifungal chemotherapy, anthelminthic chemotherapy, antiprotozoal chemotherapy, and antiviral chemotherapy. Antimicrobial agents may be either bactericidal, killing the target bacterium or fungus, or bacteriostatic, inhibiting its growth. Bactericidal agents are more effective, but bacteriostatic agents can be extremely beneficial since they permit the normal defenses of the host to destroy the microorganisms.
Liquid Biopsies are gaining acceptance in the Oncology community as a surrogate or complement to the gold standard of tissue biopsy. A liquid biopsy provides biomarker information that...
Best practices for developing precision medicine diagnostics can include completing a retrospective analysis. Obtaining enough samples to have a statistically significant study typicall...
Biobanks are a powerful resource in the advancement of precision medicine, and integrating large scale genomics data across Biobank cohorts offer opportunities to further enhance and expedite...
Challenges in achieving comparability, reproducibility and accuracy in biological assays has driven a demand for improved confidence in measurements that support development of regenerative m...
In this talk, I will use examples from my research using big data analytics to define ideals of precision medicine and digital health across a variety of diseases. Specifically, I will i...
Much has been made in the popular press about importance of our "genes" in everything from our weight, intelligence, and our risk of disease. While there is a scientific basis...
Identification of the many complex genetic aberrations associated with cancers, and deciphering their role in disease progression and response to treatment is one of the major challenges face...
Gastrointestinal (GI) disorders are now widely recognized as a clinical symptom of autism spectrum disorder (ASD), and research into the microbiome-gut-brain axis is beginning to reveal the i...
Launched in early 2015, the Precision Medicine Initiative (PMI) takes advantage of the progress made in genomic testing – progress largely driven by rapid advances in DNA sequencing tec...
Recent advances in DNA sequencing have now made it possible to characterize genomes, transcriptomes and even methylomes which is transforming both basic research and clinical practice. Whole...
The starting point for an interaction between a patient and a clinician is almost always a set of clinical facts (aka a phenotype). Phenotype-first medicine is the standard way in which the p...
The greatest health epidemic of our time is cancer. Deaths from cancer worldwide outnumber the combined deaths from HIV/AIDS, tuberculosis and malaria by a wide margin. There are at least 100...
A century and a half after we first probed heritability, we risk forgetting one of Mendel's own basic findings, in rushing to broaden clinical genomics to lifelong care for all. Embracing...
Precision medicine requires understanding the mechanistic basis of complex disorders, and to precisely manipulate these mechanisms to better human health. This is partly enabled by the recent...
While next-generation sequencing has proven to be a very useful tool in basic research, two major hurdles remain for its broad adoption in the clinical research setting: lack of seamless work...
The advent of the microarray technology in 2000 has paved the way for advanced translational research methods that use molecular markers such as microRNA, proteins, metabolites and copy numbe...
Cell death is involved in diseases such as cancer and neurodegeneration, and also has a natural role in the development of multicellular organisms. Although apoptosis has been well defined, a...
Every day, vast amounts of healthcare data are collected from clinical trials as well as real world medical visits on patient treatment regimens and subsequent clinical outcomes. This big dat...
On January 20, 2015, President Obama announced the Precision Medicine Initiative® (PMI) (link is external) in his State of the Union address. Through advances in research, technology and...
One of the primary goals of precision medicine is the aggregation and interpretation of deep, longitudinal patient-specific data in the context of the digital universe of information, using a...
A number of recently publications have heralded the advent of Precision Medicine in Oncology, where next generation sequencing technology, other ’omics technologies, serial biopsies, so...
Understanding disease at a deeper level so that it can be targeted more precisely is the essence of precision medicine. Rapid technological advance, particularly in genomics and sensor-based...
In December 2012 the UK Prime Minister announced the 100,000 genomes project to introduce whole genome sequencing for treatment into the UK National Health Service (NHS) o...
Precision medicine promises a more effective approach to disease treatment and management. It is based on analyzing mutations of disease samples to unlock mechanisms of disease development an...
Liquid Biopsies are gaining acceptance in the Oncology community as a surrogate or complement to the gold standard of tissue biopsy. A liquid biopsy provides biomarker information that...
Best practices for developing precision medicine diagnostics can include completing a retrospective analysis. Obtaining enough samples to have a statistically significant study typicall...
Biobanks are a powerful resource in the advancement of precision medicine, and integrating large scale genomics data across Biobank cohorts offer opportunities to further enhance and expedite...
Challenges in achieving comparability, reproducibility and accuracy in biological assays has driven a demand for improved confidence in measurements that support development of regenerative m...
In this talk, I will use examples from my research using big data analytics to define ideals of precision medicine and digital health across a variety of diseases. Specifically, I will i...
Much has been made in the popular press about importance of our "genes" in everything from our weight, intelligence, and our risk of disease. While there is a scientific basis...
Identification of the many complex genetic aberrations associated with cancers, and deciphering their role in disease progression and response to treatment is one of the major challenges face...
Gastrointestinal (GI) disorders are now widely recognized as a clinical symptom of autism spectrum disorder (ASD), and research into the microbiome-gut-brain axis is beginning to reveal the i...
Launched in early 2015, the Precision Medicine Initiative (PMI) takes advantage of the progress made in genomic testing – progress largely driven by rapid advances in DNA sequencing tec...
Recent advances in DNA sequencing have now made it possible to characterize genomes, transcriptomes and even methylomes which is transforming both basic research and clinical practice. Whole...
The starting point for an interaction between a patient and a clinician is almost always a set of clinical facts (aka a phenotype). Phenotype-first medicine is the standard way in which the p...
The greatest health epidemic of our time is cancer. Deaths from cancer worldwide outnumber the combined deaths from HIV/AIDS, tuberculosis and malaria by a wide margin. There are at least 100...
A century and a half after we first probed heritability, we risk forgetting one of Mendel's own basic findings, in rushing to broaden clinical genomics to lifelong care for all. Embracing...
Precision medicine requires understanding the mechanistic basis of complex disorders, and to precisely manipulate these mechanisms to better human health. This is partly enabled by the recent...
While next-generation sequencing has proven to be a very useful tool in basic research, two major hurdles remain for its broad adoption in the clinical research setting: lack of seamless work...
The advent of the microarray technology in 2000 has paved the way for advanced translational research methods that use molecular markers such as microRNA, proteins, metabolites and copy numbe...
Cell death is involved in diseases such as cancer and neurodegeneration, and also has a natural role in the development of multicellular organisms. Although apoptosis has been well defined, a...
Every day, vast amounts of healthcare data are collected from clinical trials as well as real world medical visits on patient treatment regimens and subsequent clinical outcomes. This big dat...
On January 20, 2015, President Obama announced the Precision Medicine Initiative® (PMI) (link is external) in his State of the Union address. Through advances in research, technology and...
One of the primary goals of precision medicine is the aggregation and interpretation of deep, longitudinal patient-specific data in the context of the digital universe of information, using a...
A number of recently publications have heralded the advent of Precision Medicine in Oncology, where next generation sequencing technology, other ’omics technologies, serial biopsies, so...
Understanding disease at a deeper level so that it can be targeted more precisely is the essence of precision medicine. Rapid technological advance, particularly in genomics and sensor-based...
In December 2012 the UK Prime Minister announced the 100,000 genomes project to introduce whole genome sequencing for treatment into the UK National Health Service (NHS) o...
Precision medicine promises a more effective approach to disease treatment and management. It is based on analyzing mutations of disease samples to unlock mechanisms of disease development an...
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