«Completing computationally intensive projects is critical in achieving new breakthroughs in
the understanding of human disease and translating that knowledge into improved medical care,» said Glenn Wightwick, director of IBM Research and Development — Australia.
Applying advanced computational and technological systems to
the understanding of human disease.
We offer innovative technology, software, and services to enhance
your understanding of human disease and nature.
«Our decision to procure these knockout mouse lines and data and make them available to the research community will yield tremendous benefits, both in the short and long terms,» said NIH Director Elias A. Zerhouni, M.D. «This trans - NIH initiative will place important mouse models into the hands of researchers, speeding advances in
the understanding of human disease and the development of new therapies.
The Clinical Research Forum Board of Directors selected winners based on the degree of innovation and novelty involved in the advancement of science; contribution to
the understanding of human disease and / or physiology; and potential impact upon the diagnosis, prevention and / or treatment of disease.
medical and scientific educations place them at an ideal intellectual vantage point to facilitate the transfer of clinical observation and insight to laboratory research and discovery, and to help return to the clinic a better
understanding of human disease: the bedside to bench to bedside cycle that moves both medicine and science forward.
Further studies of processes in which GTPBP3 is involved will help towards
the understanding of human diseases that are linked to mitochondrial DNA expression and to develop new therapies.
We hope to apply our findings to
the understanding of human diseases and craniofacial evolution.
5 - To contribute to the international effort in the functional annotation of the genome and
the understanding of human diseases.
It presents information drawn from morphologic and clinical laboratory studies with direct relevance to
the understanding of human diseases.
It presents information drawn from morphologic and clinical laboratory studies with direct relevance to
the understanding of human diseases.
It presents information drawn from morphologic and clinical laboratory studies with direct relevance to
the understanding of human diseases.
It presents information drawn from morphologic and clinical laboratory studies with direct relevance to
the understanding of human diseases.
It presents information drawn from morphologic and clinical laboratory studies with direct relevance to
the understanding of human diseases.
Not exact matches
What it does: The role
of this bacteria, which is most well - known for causing syphilis and Lyme
disease, is still not well -
understood in
humans.
This approach begins by using tools like advanced
human genetics to unravel the complexities
of disease and
understand the fundamentals
of human biology.
I would, therefore, support morally responsible research that promises to advance our
understanding of human biology and
disease, even if such research made the path to
human cloning easier.
We must take a clear view
of the medical realities
of disease and the spiritual realities
of sin, but it makes a difference in the pastor's
understanding of all
human ills that he sees every person as created for a life
of love to God and his neighbor.
Our subconscious
understanding of the laws
of physics and the natural laws He has set forth to allow our existence to come about can not be observed, and to say that He is flawed because we see
disease is viewing things from a very limited point
of view, that being a living
human being with an aversion to
disease and loss
of health.
Someday
humans will
understand that death is a
disease and scientists will find a cure giving all
of us extended lives.
«These new insights into the complexities
of epigenetic regulation are contributing to our basic
understanding of this process in
human health and
disease and gives us new vision for how to go about targeting errors in DNA methylation with innovative drug therapies.»
Therefore, it is essential that we learn how specific types
of chemical modifications normally regulate RNA function in our cells, in order to
understand how dysregulation
of this process contributes to
human disease, says Cristian Bellodi.
If we are looking for the real engine for infection — the driver
of the
disease factory, if you like — we have to
understand what
human - to -
human transmission is, and how it turns an animal
disease into a
human one.
With our
human gut - on - a-chip, we can not only culture the normal gut microbiome for extended times, but we can also analyze contributions
of pathogens, immune cells, and vascular and lymphatic endothelium, as well as model specific
diseases to
understand complex pathophysiological responses
of the intestinal tract.»
«It has profound implications for our
understanding of human development and physiology, and gives us a remarkable wealth
of resources to examine how disturbances
of this system might result in
diseases such as cancer.»
Although researchers do not yet know the biological significance
of these discoveries, they say that fully cataloguing the genome may help them
understand how genetic variations affect the risk
of contracting
diseases such as cancer as well as how
humans grow from a single - celled embryo into an adult.
Buttke is interested in using public interest in personal health as a way to increase support for public green space, and enhancing public
understanding of how
human actions can drive infectious
disease spread through a variety
of avenues including school programs, websites, and smart phone apps.
One
of the primary goals
of genetics over the past decade has been to
understand human health and
disease in terms
of differences in DNA from person to person.
Understanding how they work may reveal the keys to extending
human life span while banishing
diseases of old age
«Once we can build that sort
of database for the
human organism, it helps us much better
understand disease, how to diagnose
disease, how better to treat
disease,» says Richard Wilson, the director
of the Genome Sequencing Center at Washington University in St. Louis.
To make the predictions as precise as possible takes
understanding the ecology not just
of the place being studied, but also
of the
disease and the
human population.
«The next step in
understanding sleep apnea in the future will be to dissect different subtypes
of sleep apnea, likely defined by distinct pathophysiological mechanisms which may underlie different outcomes and predisposition to comorbidities,» Cavadas says, «As
human life expectancy increases, delaying the onset
of age - related
diseases becomes critical to our society.»
New, sophisticated gene sequencing techniques are leading to an increasing
understanding of the causes
of genetic
disease, and can help parents with affected children make informed reproductive choices, the annual conference
of the European Society
of Human Genetics will hear.
Ausiello likens the ventures to the
Human Genome Project — but instead
of understanding the vast library
of our genes, CATCH and Google are building a library
of the behaviours and environments that can prevent or cause
disease.
«
Understanding the evolution of malaria parasites in bats and other animals, and how they fit into the tree of life, is key to understanding this important human di
Understanding the evolution
of malaria parasites in bats and other animals, and how they fit into the tree
of life, is key to
understanding this important human di
understanding this important
human disease.»
«By
understanding how seabirds can cope with high metabolic demands with no effect on longevity, we may learn how old
humans can reduce their chance
of being impacted by metabolic
diseases.»
«In many cases we're still learning how these bacteria influence our risk
of disease, but
understanding the
human genetics component is a necessary step in unraveling the mystery,» Knights said.
Researches are now able to
understand for the first time the evolution
of these parasites, causing
disease in
humans and animals.
The physician - scientist may study the same properties
of the same molecule but for a different reason: because he or she believes that those studies will provide information on the fundamental pathology
of a
disease or insight into
human biology that will provide a better
understanding of healthy versus
diseased states.
«Our hope is that we can leverage our
understanding of how snakes accomplish organ regeneration to one day help treat
human diseases.»
«Further work in our lab will be aimed at
understanding the detailed mechanism
of how these proteins regulate editing, in turn providing an inroad to developing therapeutics that modulate editing for the treatment
of human diseases.»
The
human cell - based
disease model is expected to lead to a better
understanding of these disorders and other illnesses, Hsiao said.
This will allow to
understand more about genes we currently know very little about, and open up new avenues for research into the genetics
of human disease.
«We hope that the results from this study will enable investigators to test the relevance
of the maresin pathway in
human disease,» said Charles N. Serhan, Ph.D., a researcher involved in the work from the Brigham & Women's Hospital and Harvard Medical School in Boston, Mass. «Moreover, we hope to better
understand resolution biology and its potential pharmacology so that we can enhance our ability to control unwanted inflammation and improve the quality
of life.»
«This research project is a prime example
of how mouse models can help us to better
understand cancer
diseases in
human beings,» says Sabine Harlander.
«Thus, it is clear that further studies must investigate an increasingly complex matrix
of cell types and conditions to fully
understand the role
of human genetic variation in
disease.»
«
Understanding this previously ignored part
of the
human genome, its role in
human development, and how it may be taken over by
disease, opens a new frontier in science with important implications for medical advances,» said Philipp Kapranov, Ph.D., lead researcher at the St. Laurent Institute.
The findings, published in the journal Nature, explain why the
human genome is so difficult to decipher — and contribute to the further
understanding of how genetic differences affect the risk
of developing
diseases on an individual level.
«We are analyzing massively large sets
of human genomic data to ultimately improve our
understanding of genetic basis
of diseases.»
«If we can improve our ability to read and
understand the
human genome, we will also be able to make better use
of the rapidly accumulating genomic information on a large number
of diseases for medical benefits.»