Heart rhythm disorder traces to bacterium lurking in gums: Study

Tokyo [Japan], May 10 (ANI): New research shows that the gum disease bacterium P. gingivalis can slip into the bloodstream and infiltrate the heart. There, it quietly drives scar tissue buildup -- distorting the heart's architecture, disrupting electrical signals, and raising the risk of atrial fibrillation (AFib).
Clinicians have long noticed that people with periodontitis, a common form of gum disease, seem more prone to cardiovascular problems.
One recent meta-analysis has linked it to a 30% higher risk of developing AFib, a potentially serious heart rhythm disorder that can lead to stroke, heart failure, and other life-threatening complications.
Globally, AFib cases nearly doubled in under a decade, rising from 33.5 million in 2010 to roughly 60 million by 2019. Now, scientific curiosity is mounting in how gum disease might be contributing to that surge.

Researchers have discovered DNA from harmful oral bacteria in heart muscle, valves, and even fatty arterial plaques.
Among them, P. gingivalis has drawn particular scrutiny for its suspected role in a growing list of systemic diseases, including Alzheimer's, diabetes, and certain cancers.
It has previously been detected in the brain, liver, and placenta. But how it manages to take hold in the heart has been unclear.
This study, published in Circulation, provides the first clear evidence that P. gingivalis in the gums can worm its way into the left atrium in both animal models and humans, pointing to a potential microbial pathway linking periodontitis to AFib.
"The causal relationship between periodontitis and atrial fibrillation is still unknown, but the spread of periodontal bacteria through the bloodstream may connect these conditions," said study first author Shunsuke Miyauchi, assistant professor at HU's Graduate School of Biomedical and Health Sciences.
"Among various periodontal bacteria, P. gingivalis is highly pathogenic to periodontitis and some systemic diseases outside the oral cavity. In this study, we have addressed these two key questions: Does P. gingivalis translocate to the left atrium from the periodontitis lesion? And if so, does it induce the progression of atrial fibrosis and AFib?" added Miyauchi.
To simulate how P. gingivalis might escape the mouth and create problems elsewhere, researchers created a mouse model using the bacterium's aggressive W83 strain.
They divided 13-week-old male mice into two groups: one had the strain introduced into the tooth pulp, the other remained uninfected.
Each was further split into subgroups and observed for either 12 or 18 weeks to track the cardiovascular risks of prolonged exposure.
Intracardiac stimulation -- a diagnostic technique for arrhythmia -- revealed no difference in AFib risk between infected and uninfected mice at 12 weeks.
But by week 18, tests showed that mice exposed to the bacterium were six times more likely to develop abnormal heart rhythms, with a 30% AFib inducibility rate compared to just 5% in the control group.
To see if their model accurately replicated periodontitis, the researchers examined jaw lesions and found its telltale signs.
They detected tooth pulp decay and microabscesses caused by P. gingivalis. But the damage did not stop there. They also spotted the bacterium in the heart's left atrium, where infected tissue had turned stiff and fibrous.
Using loop-mediated isothermal amplification to detect specific genetic signatures, the team confirmed that the P. gingivalis strain they had introduced was present in the heart.
In contrast, the uninfected mice had healthy teeth and no trace of the bacterium in heart tissue samples.
Twelve weeks after infection, mice exposed to P. gingivalis already showed more heart scarring than their uninfected counterparts.
At 18 weeks, scarring in the infected mice had climbed to 21.9% compared to the likely ageing-related 16.3% in the control group, suggesting that P. gingivalis may not just trigger early heart damage, but also speed it up over time.
And this troubling connection was not only seen in mice. In a separate human study, researchers analysed left atrial tissue from 68 AFib patients who underwent heart surgery. P. gingivalis was found there, too, and in greater amounts in people with severe gum disease. (ANI)