Study shows poor glycaemic control in the over 30s results in tooth loss
• In the largest study of its kind, 233,567 individuals’ insurance claims & check-up data was analysed to assess the relationship between glycaemic control and natural tooth retention by age group
• The collaborative research with Shiga University of Medical Science and Sunstar also proves that diabetes and smoking impact tooth retention
• This Japanese study strongly suggests that the importance of glycaemic control, especially for people with diabetes or prediabetes, and the role of good oral health care in tooth loss prevention
The largest ever research study into tooth loss and glycaemic control in a general population has found compelling evidence that people aged over 30 with higher HbA1c levels and elevated fasting blood glucose levels (FPG) retain fewer natural teeth.
People at risk are being advised to take steps to better manage their glycaemic levels and improve their oral care, including smoking cessation. The cross-sectional study of 233,567 individuals aged 20-70 years old was co-ordinated by Professor Hiroshi Maegawa and Associate Professor Katsutaro Morino of Shiga University of Medical Science, Japan, in collaboration with international oral healthcare company, Sunstar to explore the relationship between glycaemic control, tooth retention and age group.
It also found that participants with impaired fasting glucose were already more at risk of losing teeth between 40- and 69-years old than those with normal FPG; and that the risk of tooth loss is further increased due to a combination of high blood glucose levels and smoking.
Published in Diabetology International, the Glycaemic control and number of natural teeth: analysis of cross-sectional Japanese employment-based dental insurance claims and medical check-up data study*, emphasises the importance of glycaemic control and oral care to protect against tooth loss.
In particular, this means that anyone diagnosed with diabetes or prediabetes should aim to improve their glycaemic control and undergo a dental check-up, while anyone with high blood sugar levels should look to preventative oral care to protect against future tooth loss.
Based on medical examinations and information from health insurance claims between 2015-16, participants were assigned to five groups based on their HbA1c and three groups according to their FPG and then the number of natural teeth were compared.
From the original 706,150 participants, ultimately 233,567 people were analysed. The exclusion criteria included missing data around dental attendance or dental data, absence of HbA1c or smoking data, or because patients were less than 20 years old.
Patients were categorised according to two glycaemic control parameters: HbA1c < 5.5%, 5.5–6.4%, 6.5–7.4%,7.5–8.4%, or ≥ 8.5% ; and FPG < 110 mg, 110–125 mg/dl, or ≥ 126 mg/dl in each 10-year age group, while the FPG categories were set with reference to the WHO’s criteria for impaired fasting glucose.
No large studies had previously examined the relationship of poor glycaemic control and fewer natural teeth, or the age at which this relationship appears. These findings prove that glycaemic control is strongly associated with the number of natural teeth in a real-world setting.
A spokesperson observed: “Although cross-sectional design has limits in establishing a causal relationship, the data strongly supports the previous longitudinal and interventional study and suggests the importance of glycaemic control, stopping smoking, and appropriate oral care to protect anyone with impaired fasting glucose or diabetes against tooth loss from a young age.”
Key research results:
1. Remaining number of teeth for each glycaemic control level in each age group
A continuous relationship was shown in which the number of teeth decreased in the group with higher HbA1c and fasting blood glucose levels in each age group over 30s (Figs. 1 and 2). In the 40s and 60s, not only the diabetic type (fasting blood glucose level; 126 mg / dl or more) but also the prediabetic group (impaired fasting blood glucose type; 110-125 mg / dl) are compared with the normoglycemic group. It was shown that the number of teeth was small.
Fig. A. Number of remaining teeth with HbA1c level by age group
Fig. B. Number of remaining fasting blood glucose level and number of teeth by age group.
2. Risk of tooth loss in middle age due to a combination of hyperglycaemia and smoking conditions
In middle age (40-59 years old), non-smokers had more teeth than smokers and there is a high risk that the number of teeth will be less than 24. In addition, it was shown that the risk was even higher in the group where both conditions overlap (hyperglycaemia + smoking, prediabetic group + smoking, diabetic type + smoking).
Figure A. HbA1c level and risk of tooth loss due to smoking
Figure B. Fasting blood glucose levels and risk of tooth loss due to smoking.
The study also shows that stopping smoking is key to prevent tooth loss in both non-diabetic and diabetics.
3. Glycaemic control and retention rate by tooth site
In another study using the same database, the high HbA1c group, which corresponds to HbA1c ≥ 7.0%, showed lower retention rate in many tooth sites, especially in molars.
For more information about Sunstar, visit https://www.sunstar.com/
*Glycaemic control and number of natural teeth: analysis of cross-sectional Japanese employment-based dental insurance claims and medical check-up data; Kayo Harada, Katsutaro Morino, Miki Ishikawa, Itsuko Miyazawa, Takako Yasuda, Mayu Hayashi, Atsushi Ishikado, Hiroshi Maegawa: Diabetology International DOI: https://doi.org/10.1007/s13340-021-00533-2