Yet it is the least
understood human organ, according to Alan Guttmacher, director of NIH's National Institute of Child Health and Human Development (NICHD).
«It's the least
understood human organ,» says Alan Guttmacher, director of the National Institute of Child Health and Human Development (NICHD) in Bethesda, Maryland.
Not exact matches
The brain is one of the least
understood organs in the
human body.
As it can take weeks to grow
human cells into intact differentiated and functional tissues within
Organ Chips, such as those that mimic the lung and intestine, and researchers seek to
understand how drugs, toxins or other perturbations alter tissue structure and function, the team at the Wyss Institute for Biologically Inspired Engineering led by Donald Ingber has been searching for ways to non-invasively monitor the health and maturity of cells cultured within these microfluidic devices over extended times.
«Our hope is that we can leverage our
understanding of how snakes accomplish
organ regeneration to one day help treat
human diseases.»
Why rely on mouse brains to help us
understand our most complex
organ when you can grow a model of a
human one?
Those capable
organs, just by coincidence, also help parrots utter greetings in words that even
humans can
understand.
Scientists have been investigating the molecular aspects that underline regeneration aiming to
understand why some animals have the ability to regrow entire tissue structures after amputation or injury whereas
humans can just regenerate few
organs, such as the liver or the skin.
The ability of scientists to convert
human skin cells into other cell types, such as neurons, has the potential to enhance
understanding of disease and lead to finding new ways to heal damaged tissues and
organs, a field called regenerative medicine.
This panel addresses questions including: how can
organ chips help us better
understand the fundamentals of
human biology and disease?
Designed to help adults and children
understand the complex function of the
human brain, the show explores both the
organ's mechanics and mystique with exhibits ranging from simple video games to information - laden tracts delving into the intricacies of common brain disorders.
This symposium will bring together researchers from different fields to enhance our
understanding of how organoids can be formed and maintained, how they can be used to study disease and how we might eventually use them to regenerate and replace
human organ tissue.
This is an important biomedical question because because
understanding the ways in which animals regenerate
organs could help biologists develop therapies to repair body parts in
humans.
How Things Grow, Including Cancer A protein discovered in fruit fly eyes has brought a Johns Hopkins team closer to
understanding how the
human heart and other
organs automatically determine when they are the correct size, a piece of information that may hold clues to controlling cancer.
By studying them, we are beginning to gain insight into
human disease — to
understand why
organs such as the heart can not repair themselves or why, as we age, the incidence of debilitating diseases such as cancer, heart disease and Alzheimer's increases so rapidly, and we are developing new therapies that will enhance our abilities to regenerate damaged tissues and prolong healthy lifespan.
Organoids give us a singular and brand new window into
human developmental biology, so
understanding human - specific features of
organ development and function may help us uncover new regenerative therapies to improve people's lives.
«GTEx will begin to provide researchers with a comprehensive view of genetic variation and a more precise
understanding of how it affects genes critical to the normal function of tissues and
organs,» said NIH Director Francis S. Collins, M.D., Ph.D. «This resource will add a new dimension to our
understanding of
human biology and the mechanisms that lead to disease.»
Like doctors who have been using VR to assist in surgeries and pinpoint ailments — by generating 3D models of real patient tumors from MRI scans, for example — science teachers are saying VR can help deepen
understanding of subjects such as biology and anatomy, which require students to grasp the inner workings of cells and
organs that are not visible to the
human eye.
Acupuncture's role in «balancing» the body as a whole and its effects on internal
organs is less
understood, but continues to be an area of active
human and veterinary research.
You will
understand the structure of the
human body, including the many systems and
organs that make up the body.