Genetic predisposition to
advanced biological ageing increases risk for childhood - onset recurrent major depressive disorder in a large UK sample.
Not exact matches
Using
advances in genomic sequencing, the human microbiome, proteomics, informatics, computing, and cell therapy technologies, HLI is building the world's most comprehensive database of human genotypes and phenotypes as a basis for a variety of commercialization opportunities to help solve
aging related disease and human
biological decline.
One researcher put the basic
biological assumption of a single common ancestor to the test — and found that
advanced genetic analysis and sophisticated statistics back up Darwin's
age - old proposition
Such a tool could turbocharge
biological research,
advance computer chip manufacture, revolutionize education, and usher in an
age of near - magical nanotechnology.
Several in vitro (outside normal
biological context) studies have raised concerns over ribose supplementation's potential to generate
advanced glycation end products (
AGEs), compounds in the blood that can cause cognitive impairment and exacerbate numerous degenerative diseases.
The majority of evidence fell into three categories:
biological indicators or biomarkers, such as leukocyte telomere length (LTL), earlier occurrence or higher prevalence of medical conditions associated with
advanced age and premature mortality.
Using
advances in genomic sequencing, the human microbiome, proteomics, informatics, computing, and cell therapy technologies, HLI is building the world's most comprehensive database of human genotypes and phenotypes as a basis for a variety of commercialization opportunities to help solve
aging related disease and human
biological decline.
Advances in the understanding of the
biological bases of
aging enable better assessment of acute effects of salutary interventions on biomarkers of
aging.
The recent
advances in the science of
aging will be the topic of an MDI Science Café presentation by MDI Biological Laboratory scientist Aric Rogers, Ph.D., entitled «Slowing Aging to Prevent Age - Related Disease and Decline.&r
aging will be the topic of an MDI Science Café presentation by MDI
Biological Laboratory scientist Aric Rogers, Ph.D., entitled «Slowing
Aging to Prevent Age - Related Disease and Decline.&r
Aging to Prevent
Age - Related Disease and Decline.»
The course, which is a follow - up to the inaugural course held in 2015, will bring together students and leaders in the field from around the world to learn about the determinants of regenerative capacity, the causes of
biological aging and strategies for applying what is learned to improve human health and
advance regenerative medicine.
Recognizing that priorities for both laboratory - based investigation and community - based action are determined by the meeting participants, a preliminary menu of potential topics includes the following: 1)
Advancing the frontiers of scientific research: • construct a developmental framework to study the differential effects of
biological embedding of significant adversity related to
age, beginning in the prenatal period and extending into adulthood.