Our in vitro study provides a baseline for defining healthy and disease - like states and highlights the power of moving beyond single and dual species applications to capture key players and their orchestrated metabolic activities within a complex
human oral microbiome model.
Human oral microbiome Bacterial microleakage at the abutment - implant interface, in vitro study.
Metabolic Fingerprints from
the Human Oral Microbiome Reveal a Vast Knowledge Gap of Secreted Small Peptidic Molecules.
A new era in palaeomicrobiology: prospects for ancient dental calculus as a long - term record of
the human oral microbiome — Christina Warinner — Philosophical Transactions of the Royal Society B — December 2014
The study has wide reaching implications for understanding the evolution of
the human oral microbiome and the origins of periodontal disease.
The researchers discovered that the ancient
human oral microbiome already contained the basic genetic machinery for antibiotic resistance more than eight centuries before the invention of the first therapeutic antibiotics in the 1940s.
Not exact matches
In a study to be presented Thursday, Jan. 26, in the
oral plenary session at 1:15 p.m. PST, at the Society for Maternal - Fetal Medicine's annual meeting, The Pregnancy Meeting ™, researchers with Baylor College of Medicine, Houston, Texas and University of California, San Diego, La Jolla, California, will present their findings on a study titled, Maternal Diet Structures the Breast Milk
Microbiome in Association with
Human Milk Oligosaccharides and Gut - Associated Bacteria.
Although common in
humans, domestic pets, and zoo animals, periodontal disease does not typically develop in wild animals, leading to speculation that it is an
oral microbiome disease resulting from modern
human lifestyles.
Warinner is pioneering the study of ancient
human microbiomes, and in 2014 she published the first detailed metagenomics and metaproteomic characterization of the ancient
oral microbiome in the journal Nature Genetics.
Warinner and colleague, Cecil M. Lewis, Jr., co-direct OU's Laboratories of Molecular Anthropology and
Microbiome Research and the research focused on reconstructing the ancestral human oral and gut microbiome, addressing questions concerning how the relationship between humans and microbes has changed through time and how our microbiomes influence health and disease in diverse populations, both today and in
Microbiome Research and the research focused on reconstructing the ancestral
human oral and gut
microbiome, addressing questions concerning how the relationship between humans and microbes has changed through time and how our microbiomes influence health and disease in diverse populations, both today and in
microbiome, addressing questions concerning how the relationship between
humans and microbes has changed through time and how our
microbiomes influence health and disease in diverse populations, both today and in the past.
The role of saliva in structuring
human oral bacterial communities, effects of permafrost thaw on methanogenic communities, and articles on the
microbiomes of termites, burying beetles, honey bees, and mosquitoes.
The
Human Microbiome Project is currently analyzing the genome of microbes from five places on the human body: nasal passages, oral cavities, skin, gastrointestinal tract and urogenital t
Human Microbiome Project is currently analyzing the genome of microbes from five places on the
human body: nasal passages, oral cavities, skin, gastrointestinal tract and urogenital t
human body: nasal passages,
oral cavities, skin, gastrointestinal tract and urogenital tract.
The delicate balance between the
human microbiome and the development of psychopathologies is particularly interesting given the ease with which the
microbiome can be altered by external factors, such as diet, 23 exposure to antimicrobials24, 25 or disrupted sleep patterns.26 For example, a link between antibiotic exposure and altered brain function is well evidenced by the psychiatric side - effects of antibiotics, which range from anxiety and panic to major depression, psychosis and delirium.1 A recent large population study reported that treatment with a single antibiotic course was associated with an increased risk for depression and anxiety, rising with multiple exposures.27 Bercik et al. 28 showed that
oral administration of non-absorbable antimicrobials transiently altered the composition of the gut microbiota in adult mice and increased exploratory behaviour and hippocampal expression of brain - derived neurotrophic factor (BDNF), while intraperitoneal administration had no effect on behaviour.