Plaque1(血小板,斑块) -causing bacteria can jailbreak from the mouth into the bloodstream and increase your risk of heart attack says a scientist at the Society for General Microbiology's autumn meeting in Nottingham. Professor Howard Jenkinson, from the University of Bristol explains how oral bacteria can wreak2(发泄,报仇) havoc3(浩劫,蹂躏) if they are not kept in check(阻止,约束) by regular brushing and flossing(牙线,丝绵) . "Poor dental hygiene4 can lead to bleeding gums(牙龈,牙床) , providing bacteria with an escape route into the bloodstream, where they can initiate5 blood clots6 leading to heart disease," he said.
Streptococcus bacteria commonly live in the mouth, confined within communities termed biofilms(生物膜) and are responsible for causing tooth plaque and gum disease. The University of Bristol researchers, in collaboration7 with(合作) scientists at the Royal College of Surgeons in Ireland (RCSI), have shown that once let loose in the bloodstream, Streptococcus bacteria can use a protein on their surface, called PadA, as a weapon to force platelets(血小板) in the blood to bind8 together and form clots.
Inducing blood clots is a selfish trick used by bacteria, as Professor Jenkinson points out. "When the platelets clump9 together they completely encase(包住,围绕) the bacteria. This provides a protective cover not only from the immune system, but also from antibiotics10 that might be used to treat infection," he said. "Unfortunately, as well as helping11 out the bacteria, platelet clumping12 can cause small blood clots, growths on the heart valves(心脏瓣膜) (endocarditis心内瓣膜), or inflammation of blood vessels13 that can block the blood supply to the heart and brain."
Professor Jenkinson said the research highlights a very important public health message. "People need to be aware that as well keeping a check on their diet, blood pressure, cholesterol14(胆固醇) and fitness levels, they also need to maintain good dental hygiene to minimise their risk of heart problems."
The team is using a brand-new blood flow model, developed by Dr Steve Kerrigan at the RCSI, School of Pharmacy15, Dublin, that mimics16 conditions in the human circulatory system. "We are currently investigating how the platelet-activating function of PadA can be blocked. This could eventually lead to new treatments for cardiovascular disease(心血管疾病) which is the biggest killer17 in the developed world," said Professor Jenkinson.