Tuesday, February 23, 2021

Periodontal disease increases risk of major cardiovascular events


FORSYTH INSTITUTE

Research News

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IMAGE: DR. THOMAS VAN DYKE, SENIOR MEMBER OF STAFF AT FORSYTH, AND HIS COLLABORATORS SHOWED THAT INFLAMMATION ASSOCIATED WITH ACTIVE GUM DISEASE WAS PREDICTIVE OF ARTERIAL INFLAMMATION, WHICH CAN CAUSE HEART... view more 

CREDIT: PHOTO BY MATTHEW MODOONO FOR FORSYTH INSTITUTE.

People with periodontitis are at higher risk of experiencing major cardiovascular events, according to new research from Forsyth Institute and Harvard University scientists and colleagues.

In a longitudinal study published recently in the Journal of Periodontology, Dr. Thomas Van Dyke, Senior Member of Staff at Forsyth, Dr. Ahmed Tawakol of Massachusetts General Hospital, and their collaborators showed that inflammation associated with active gum disease was predictive of arterial inflammation, which can cause heart attacks, strokes, and other dangerous manifestations of cardiovascular disease.

For the study, researchers performed positron emission tomography and computer tomography (PET and CT) scans on 304 individuals to view and quantify inflammation in the arteries and gums of each patient. In follow-up studies approximately four years later, 13 of those individuals developed major adverse cardiovascular events. Presence of periodontal inflammation was shown to be predictive of cardiovascular events, even after researchers controlled for all other risk factors, such as smoking, high blood pressure, obesity, and diabetes.

Importantly, researchers found that bone loss from prior periodontal disease was not associated with cardiovascular events. Patients that did not have actively inflamed gums had a lower risk of cardiovascular disease--even if those individuals had a prior history of periodontal disease as evidenced by periodontal bone loss in their CT scans.

"This is very definitely related to people who have currently active inflammatory disease," said Van Dyke, who is also Vice President of Clinical and Translational Research at Forsyth.

Researchers hypothesize that local periodontal inflammation activates and mobilizes cells signaling through bone marrow, which triggers the inflammation of arteries, leading to adverse cardiac events.

While the study sample size is relatively small, Van Dyke said the observation is significant and should be studied in a much larger population. And for people with active gum disease, seeking treatment could potentially prevent a dangerous a cardiac event.

"If you're in the age zone for cardiovascular disease or have known cardiovascular disease, ignoring your periodontal disease can actually be dangerous and may increase your risk for a heart attack," Van Dyke said.

A fifth of adults in Sweden report dental anxiety


UNIVERSITY OF GOTHENBURG

Research News

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IMAGE: LISA SVENSSON, PHD, SAHLGRENSKA ACADEMY, UNIVERSITY OF GOTHENBURG. view more 

CREDIT: PHOTO: UNIVERSITY OF GOTHENBURG.

In Sweden, approximately one in five adults suffers from dental anxiety or phobia. The number has decreased over time, but still an important part of the population have major problems, according to a recent doctoral thesis from the University of Gothenburg.

The thesis includes a nationwide interview study involving 3,500 adult individuals, randomly selected from the general population of Sweden. Nineteen percent of the participants reported some degree of dental anxiety, fear or phobia.

The results showed that 4.7% of the respondents described their dental anxiety as severe, 4.5% as moderate and 9.8% as low. The remaining 80.9% reported no dental anxiety. The proportion with no dental anxiety was more than twice as high as in a similar study from the 1960s, when 38.5% of respondents reported no dental anxiety.

"There's been a marked change: people aren't as anxious of dentistry anymore," says Lisa Svensson, who has a doctorate in Odontological Science, department of Behavioral and Community Dentistry , Institute of Odontology, at Sahlgrenska Academy, University of Gothenburg, and is a dentist in Sweden's Public Dental Service, Region Västra Götaland.

Svensson stresses that preventive dentistry for children and adolescents has been a crucial factor. It has created good habits, improved dental health, and thus reduced the need for extensive dental procedures early in life. Better communication and a more equal relationship between dentist and patient are as well important factors to this improvement.

On the other hand, dental phobia is so common that it is a public health problem, Svensson emphasizes. Her doctoral studies focused particularly on individuals with severe dental anxiety. Of these, 85% said their daily life was affected by mouth or tooth problems, and 78% reported dental pain and graded their pain at a high intensity.

"The most highly anxious people often have negative experience of dental care, with a lot of pain involved. But the feeling of vulnerability can also be due to previous experience of trauma as assault involving the face and mouth, or sexual abuse," Svensson says.

"There's a high degree of comorbidity in this group," she states. "People with severe dental anxiety are often prone to anxiety, depression, other specific phobias or some other mental disorder."

Dentists and other dental staff meet and treat patients with severe dental anxiety every day. Even people with severe phobia of dental care attend dental care regularly, despite their fear.

"Among the highly dentally anxious study participants, pain and not being in control were the most common causes of dental anxiety. For a dentist, these factors are relatively easy to control, and if we do, we're engaging in both preventive dentistry and treatment of severe dental anxiety," Svensson says.

Monday, February 8, 2021

What happens in the mouth ... doesn't stay in the mouth

 


Evidence ties problems with oral health to many diseases

OHIO STATE UNIVERSITY

Research News

COLUMBUS, Ohio - We know that what happens in the mouth doesn't stay in the mouth - but the oral cavity's connection to the rest of the body goes way beyond chewing, swallowing and digestion.

The healthy human oral microbiome consists of not just clean teeth and firm gums, but also energy-efficient bacteria living in an environment rich in blood vessels that enables the organisms' constant communication with immune-system cells and proteins.

A growing body of evidence has shown that this system that seems so separate from the rest of our bodies is actually highly influential on, and influenced by, our overall health, said Purnima Kumar, professor of periodontology at The Ohio State University, speaking at a science conference this week.

For example, type 2 diabetes has long been known to increase the risk for gum disease. Recent studies showing how diabetes affects the bacteria in the mouth help explain how periodontitis treatment that changes oral bacteria also reduces the severity of the diabetes itself.

Connections have also been found between oral microbes and rheumatoid arthritis, cognitive abilities, pregnancy outcomes and heart disease, supporting the notion that an unhealthy mouth can go hand-in-hand with an unhealthy body.

"What happens in your body impacts your mouth, and that in turn impacts your body. It's truly a cycle of life," Kumar said.

When the American Association for the Advancement of Science (AAAS) themed this year's annual meeting around dynamic ecosystems, Kumar saw an opportunity to put the mouth on the map, so to speak, as a vibrant microbial community that can tell us a lot about ourselves.

"What is more dynamic than the gateway to your body - the mouth? It's so ignored when you think about it, and it's the most forward-facing part of your body that interfaces with the environment, and it's connected to this entire tubing system," she said. "And yet we study everything but the mouth."

Kumar organized a session at the AAAS meeting today (Feb. 8, 2021) that she titled "Killer Smile: The Link Between the Oral Microbiome and Systemic Diseases."

The oral microbiome refers to the collection of bacteria - some helpful to humans and some not - that live inside our mouths.

Kumar has led and collaborated on recent research further explaining the link between oral health and type 2 diabetes, which was first described in the 1990s. She was the lead author of a 2020 study that compared the oral microbiomes of people with and without type 2 diabetes and how they responded to nonsurgical treatment of chronic periodontitis.

The team found that periodontitis allows bacteria - rather than the human host - to take the reins in determining the mix of microbes and inflammatory molecules in the mouth. Treating the gum disease led to eventual restoration of a normal host-microbiome relationship, but it happened more slowly in people with diabetes.

"Our studies have led up to the conclusion that people with diabetes have a different microbiome from people who are not diabetic," Kumar said. "We know that changing the bacteria in your mouth and restoring them back to what your body knows as healthy and friendly bacteria actually improves your glycemic control."

Though there remains a lot to learn, the basics of these relationship between the oral microbiome and systemic disease have become clear.

Oral bacteria use oxygen to breathe and break down simple molecules of carbohydrates and proteins to stay alive. Something as simple as not brushing your teeth for a few days can set off a cascade of changes, choking off the oxygen supply and causing microbes to shift to a fermentative state.

"That creates a septic tank, which produces byproducts and toxins that stimulate the immune system," Kumar said. An acute inflammatory response follows, producing signaling proteins that bacteria see as food.

"Then this community - it's an ecosystem - shifts. Organisms that can break down protein start growing more, and organisms that can breathe in an oxygen-starved environment grow. The bacterial profile and, more importantly, the function of the immune system changes," she said.

The inflammation opens pores between cells that line the mouth and blood vessels get leaky, allowing what have become unhealthy bacteria to enter circulation throughout the body.

"The body is producing inflammation in response to these bacteria, and those inflammatory products are also moving to the bloodstream, so now you're getting hammered twice. Your body is trying to protect you and turning against itself," Kumar said. "And these pathogens are having a field day, crossing boundaries they were never supposed to cross."

The exact mechanisms of the links between the oral microbiome and specific diseases are complex and still being investigated, but the secret to a healthy mouth is no secret at all: Prevention of oral disease is as simple as brushing and flossing, and visiting the dentist twice a year for a professional cleaning, Kumar said.

The Office of the U.S. Surgeon General announced in 2018 that it had commissioned an update to its 2000 report on oral health, which was the first to be published on the topic.

Kumar said the national emphasis on oral health as an integral element of overall well-being bolsters her argument that the mouth should be an "equal opportunity player" in determinants of health.

"Putting the mouth back into the body - that's my goal here," she said.

Monday, February 1, 2021

Your toothbrush reflects you, not your toilet


Microbes on your toothbrush match microbes inside your mouth

NORTHWESTERN UNIVERSITY

Research News

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IMAGE: A RESEARCHER REMOVES BRISTLES FROM A TOOTHBRUSH FOR THE STUDY. view more 

CREDIT: NORTHWESTERN UNIVERSITY/BIG TEN NETWORK

Good news: The bacteria living on your toothbrush reflect your mouth - not your toilet.

After studying microbial communities living on bristles from used toothbrushes, Northwestern University researchers found those communities matched microbes commonly found inside the mouth and on skin. This was true no matter where the toothbrushes had been stored, including shielded behind a closed medicine cabinet door or out in the open on the edge of a sink.

The study's senior author, Erica Hartmann, was inspired to conduct the research after hearing concerns that flushing a toilet might generate a cloud of aerosol particles. She and her team affectionately called their study "Operation Pottymouth."

"I'm not saying that you can't get toilet aerosols on your toothbrush when you flush the toilet," Hartmann said. "But, based on what we saw in our study, the overwhelming majority of microbes on your toothbrush probably came from your mouth."

The study will be published Feb. 1 in the journal Microbiome.

Hartmann is an assistant professor of environmental engineering at Northwestern's McCormick School of Engineering. Ryan Blaustein, a former postdoctoral fellow in Hartmann's lab, was the paper's first author. Blaustein is now a postdoctoral fellow at the National Institutes of Health (NIH).

Collecting samples

To obtain toothbrushes for the study, Hartmann's team launched the Toothbrush Microbiome Project, which asked people to mail in their used toothbrushes along with corresponding metadata. Hartmann's team then extracted DNA from the bristles to examine the microbial communities found there. They compared these communities to those outlined by the Human Microbiome Project, an NIH initiative that identified and catalogued microbial flora from different areas of the human body.

"Many people contributed samples to the Human Microbiome Project, so we have a general idea of what the human microbiome looks like," Blaustein said. "We found that the microbes on toothbrushes have a lot in common with the mouth and skin and very little in common with the human gut."

"Your mouth and your gut are not separate islands," Hartmann added. "There are some microbes that we find both in the human gut and mouth, and those microbes are found on toothbrushes. But, again, those are probably coming from your mouth."

Clean mouth, clean toothbrush

During the research, Hartmann's team examined how many different types of microbes lived on the toothbrushes. They found people with better oral hygiene, who regularly flossed and used mouthwash, had toothbrushes with less diverse microbial communities.

"If you practice good oral hygiene, then your toothbrush also will be relatively clean," Hartmann said. "But it's a small difference. It's not like people who regularly floss, brush and use mouthwash have no microbes and those who don't have tons. There's just a bit less diversity on toothbrushes from people who do all those things."

The researchers also found that microbes from toothbrushes of people with better oral hygiene had slightly more antimicrobial-resistance genes. Hartmann said microbes with these genes did not match the human body and were likely from air or dust in the bathroom.

Hartmann stresses that there's no need to be alarmed by microbes living on your toothbrush. Unless your dentist recommends otherwise, people should not reach for antimicrobial toothpastes and toothbrushes.

"By using antimicrobials, you aren't just getting rid of microbes," Hartmann said. "You are pushing the surviving microbes toward antimicrobial resistance. In general, for most people, regular toothpaste is sufficient."

Bleeding gums may be a sign you need more vitamin C in your diet

 

Current advice from the America Dental Association tells you that if your gums bleed, make sure you are brushing and flossing twice a day because it could be a sign of gingivitis, an early stage of periodontal disease. And that might be true. So if you are concerned, see your dentist. However, a new University of Washington study suggests you should also check your intake of vitamin C.

"When you see your gums bleed, the first thing you should think about is not, I should brush more. You should try to figure out why your gums are bleeding. And vitamin C deficiency is one possible reason," said the study's lead author Philippe Hujoel, a practicing dentist and professor of oral health sciences in the UW School of Dentistry.

Hujoel's study, published Feb. 1 in Nutrition Reviews, analyzed published studies of 15 clinical trials in six countries, involving 1,140 predominantly healthy participants, and data from 8,210 U.S. residents surveyed in the Centers for Disease Control and Prevention's Health and Nutrition Examination Survey. The results showed that bleeding of the gums on gentle probing, or gingival bleeding tendency, and also bleeding in the eye, or retinal hemorrhaging, were associated with low vitamin C levels in the bloodstream. And, the researchers found that increasing daily intake of vitamin C in those people with low vitamin C plasma levels helped to reverse these bleeding issues.

Of potential relevance, says Hujoel, who is also an adjunct professor of epidemiology in the UW School of Public Health, both a gum bleeding tendency and retinal bleeding could be a sign of general trouble in one's microvascular system, of a microvascular bleeding tendency in the brain, heart and kidneys.

The study does not imply that successful reversing of an increased gingival bleeding tendency with vitamin C will prevent strokes or other serious health outcomes, Hujoel stresses. However, the results do suggest that vitamin C recommendations designed primarily to protect against scurvy -- a deadly disease caused by extremely low vitamin C levels -- are too low, and that such a low vitamin C intake can lead to a bleeding tendency, which should not be treated with dental floss.

Consequently, Hujoel does recommend people attempt to keep an eye on their vitamin C intake through incorporation of non-processed foods such as kale, peppers or kiwis into your diet, and if you can't find palatable foods rich in vitamin C to consider a supplement of about 100 to 200 milligrams a day.

If someone is on a specialized diet, such as a paleo diet, it's important that they take a look at their vitamin C intake, Hujoel said. "Vitamin C-rich fruits such as kiwis or oranges are rich in sugar and thus typically eliminated from a low-carb diet."

This avoidance may lead to a vitamin C intake that is too low and is associated with an increased bleeding tendency. People who exclusively eat lean meats and avoid offal, the vitamin-rich organ meats, may be at a particularly high risk for a low vitamin C intake.

The association between gum bleeding and vitamin C levels was recognized more than 30 years ago. In fact, two studies co-authored by former dean of the UW School of Dentistry Paul Robertson (published in 1986 and 1991) identified gum bleeding as a biological marker for vitamin C levels.

However, this connection somehow got lost in dental conversations around bleeding gums.

"There was a time in the past when gingival bleeding was more generally considered to be a potential marker for a lack of vitamin C. But over time, that's been drowned out or marginalized by this overattention to treating the symptom of bleeding with brushing or flossing, rather than treating the cause," Hujoel said.

Hujoel's literature review also determined that "retinal hemorrhaging and cerebral strokes are associated with increased gingival bleeding tendency, and that (vitamin C) supplementation reverses the retinal bleeding associated with low (vitamin C) plasma levels."

So, missing the possible connection between gum bleeding and low levels of vitamin C has the potential to have serious health consequences.

The study authors write: "A default prescription of oral hygiene and other periodontal interventions to 'treat' microvascular pathologies, even if partially effective in reversing gingival bleeding as suggested in this meta-analysis, is risky because it does not address any potential morbidity and mortality associated with the systemic microvascular-related pathologies."