Tuesday, December 20, 2022

Anti-inflammatory drugs commonly taken by children can cause alterations to dental enamel, study shows


The authors investigated the effects of celecoxib and indomethacin, non-steroidal anti-inflammatory drugs (NSAIDs) classified by the World Health Organization (WHO) as the first step on the analgesic ladder, alongside paracetamol.

Peer-Reviewed Publication

FUNDAÇÃO DE AMPARO À PESQUISA DO ESTADO DE SÃO PAULO

A study conducted at the University of São Paulo (USP) in Brazil and described in an article published in the journal Scientific Reports shows that anti-inflammatory drugs commonly taken by children may be associated with dental enamel defects (DEDs), currently seen in about 20% of children worldwide.

The authors, who are affiliated with the Ribeirão Preto Dental School (FORP-USP) and School of Pharmaceutical Sciences (FCFRP-USP), investigated the effects of celecoxib and indomethacin, non-steroidal anti-inflammatory drugs (NSAIDs) classified by the World Health Organization (WHO) as the first step on the analgesic ladder, alongside paracetamol.

In recent years, dentists at FORP-USP’s Dental Enamel Clinic, who research and deal with the problem on a daily basis, have observed a sharp rise in the number of children seeking treatment for pain, white or yellow tooth spots, and dental sensitivity and fragility. In some cases, simple chewing can fracture the children’s teeth. All these are classical symptoms of DEDs of the type known as enamel hypomineralization, whose causes are poorly understood.

As a result of this disorder, dental decay in the form of carious lesions appears sooner and more frequently in these patients, whose restorations are less adhesive and tend to fail more. Studies have shown they may have to replace restorations ten times more often over a lifetime than people with healthy teeth.

A coincidence aroused the researchers’ curiosity most of all: the patients’ ages. The first years of life, when DEDs form, are a period in which sickness is frequent, often with high fever. “These diseases are typically treated with NSAIDs, which inhibit the activity of cyclooxygenase [COX, a key inflammatory enzyme] and reduce production of prostaglandin [which also promotes inflammation],” said Francisco de Paula-Silva, a professor in FORP-USP’s Pediatric Department and last author of the article. “However, COX and prostaglandin are known to be physiological for dental enamel, and we therefore wondered whether these drugs interfered in the normal formation of this structure.”

The study was supported by FAPESP via three projects (10/17611-414/07125-6 and 21/09272-0). 

The researchers used rats to study the problem, as these animals have incisors that grow continuously, which facilitates analysis. The rats were treated with celecoxib and indomethacin for 28 days, after which practically no differences were visible to the naked eye in their teeth. However, when the researchers began extracting, they found that the teeth fractured more easily.

Analysis based on imaging and chemical composition suggested that dental mineralization had been affected. The teeth contained below-normal levels of calcium and phosphate, which are important to dental enamel formation, and mineral density was low. 

When the researchers looked for the reasons for this, they found alterations in proteins required for mineralization and cellular differentiation, showing that the drugs had indeed affected the composition of the dental enamel. 

Next steps

“Right now, the study at least offers us a clue to the identity of a new player that may be involved in the development of DEDs. Hitherto we’ve been totally in the dark,” said Paula-Silva. “We only achieved these important findings thanks to the efforts of FORP-USP’s Dental Enamel Clinic and collaboration with Lúcia Helena Faccioli, a professor at FCFRP-USP. She made a crucial contribution to our understanding of the role played by lipidic mediators related to inflammatory diseases that affect teeth.”

The group plan to conduct a clinical study with the aim of confirming the results of the research in the animal model. “We’re going to analyze the medical history of the children with DEDs and their use of these drugs, and we’ll set up a clinical study that will correlate the two datasets to see if the same thing happens to humans. If so, we can make recommendations on which drugs shouldn’t be used for which patients. We can also help work out an appropriate treatment protocol in future,” said Paula-Silva, comparing this situation with that of tetracycline, an antibiotic not recommended for children because it causes tooth discoloration.

Another important point to be addressed is indiscriminate use of over-the-counter drugs, a problem that appears to have worsened as pediatric care has become more common, although concrete information on this is not yet available. 


Thursday, December 8, 2022

Study identifies potential link between oral bacteria and brain abscesses


Peer-Reviewed Publication

UNIVERSITY OF PLYMOUTH

Bacteria known to cause oral infections may also be a contributory factor in patients developing potentially life-threatening abscesses on the brain, new research has shown.

The study, published in the Journal of Dentistry, investigated brain abscesses and their association with bacteria that occur in the oral cavity. While this type of abscess is relatively uncommon, it can result in significant mortality and morbidity.

Researchers examined the records of 87 patients admitted to hospital with brain abscesses, and used microbiological data obtained from abscess sampling and peripheral cultures.

This allowed them to investigate the presence of oral bacteria in patients’ brain abscesses where a cause of the abscess had either been found, as was the case in just 35 patients, or not found.

Their results showed that the 52 patients where no cause had been found were about three times as likely to have oral bacteria present in their samples.

Those patients also carried significantly higher counts of Streptococcus anginosus, a bacteria that can lead to pharyngitis, bacteremia, and infections in internal organs such as the brain, lung, and liver. This bacteria is often found in dental abscesses.

Writing in the study, researchers say the findings suggest that the oral cavity could be considered a source of infection in cases of brain abscess where no clear cause has been identified.

The research was led by the University of Plymouth and University Hospitals Plymouth NHS Trust.

Dr Holly Roy, an NIHR Clinical Lecturer in Neurosurgery based at the University of Plymouth and University Hospitals Plymouth NHS Trust, is the study’s lead author.

She said: “While many potential causes of brain abscesses are recognised, the origin of infection often remains clinically unidentified. However, it was still surprising to frequently find orally occurring bacteria in brain abscesses of unexplained origin. It highlights the importance of using more sensitive techniques to assess the oral cavity as a potential bacterial source in brain abscess patients. It also highlights the importance of improving dental care and oral hygiene more generally.”

The study forms part of ongoing research taking place within the University’s Oral Microbiome Research Group, led by Dr Raul Bescos and Dr Zoe Brookes, to explore the links between the oral microbiome and a range of cardiovascular and neurological conditions.

Other clinical trials are underway investigating the links between gum health and Alzheimer’s disease and identifying patients under high cardiovascular risk in primary care dental clinics, as an altered balance of oral bacteria (microbiome) during gum disease can lead to high blood pressure and strokes.

These clinical studies are being carried out in primary care dental facilities run by Peninsula Dental Social Enterprise, where the focus of the research is very much on improving clinical outcomes for patients.