1. Diabetes and Periodontitis – two way relationship
Kunal Rai, Parvinder S. Nijjar, Mitesh Patel
10th November 2014

2. Overview Bi-directional relationship
Diabetes (db) increases prevalence of periodontitis (pd) and severe periodontitis leads to poor glycemic control
Non surgical treatment of pd associated with a reduction in HbA1c by approx. 0.4%.
Dentists are encouraged to use screening tools to identify patients at high risk of diabetes

3. Introduction Pd and db are both highly prevalent conditions.
Epidemiological studies have clearly identified that diabetes is a major risk factor for periodontitis, increasing the risk approximately three-fold compared to non-diabetic individuals, particularly if glycaemic control is poor.

4. Periodontal Disease
Most common chronic inflammatory condition – in conjunction with gingivitis accounts for approx 90%.
Defined based on pocket depth
Severe : > 6mm
Initiated by the accumulation of the sub-gingival biofilm.
Major risk factors:
Tobacco smoking and diabetes

5. Periodontal Disease Signs and Symptoms Painless Tooth mobility
Bleeding of gums
(can be found on probing too)
Radiographic findings:
Alveolar bone resorption (horizontal and vertical), Loss of lamina dura)

6. Diabetes Metabolic disorder
Characterized by hyperglycemia (in laymen terms – high blood sugar levels)
Various types
Type 1 (previously known as juvenile db)
Type 2 (Non-insulin dependent)
Gestational db

7. Type 1 db Auto immune disorder
Failure in the production of insulin from beta cells of pancreatic cells.
Genetic mainly which can trigger off by environmental or viral infections.
Usually seen in young age.
Affects 5-10% of the world populaton.
The condition is typically managed by blood glucose monitoring and insulin therapy

8. Type 2 db Insulin resistance.
Reduced responsiveness of the cells in the body to insulin, leading to a reduced capacity to transfer glucose out of the circulation and into cells.
Lifestyle related
Obese, no physical activity and genetic factors

9. Gestational db
Occurs in pregnancy w/o previous history of hyperglycemia.
Reduced insulin secretion + resistance.
Usually improves after pregnancy but a small proportion may continue as type 2.

10. Blood glucose measurement
Level of glycemic control usually assessed by measuring glycated hb. (HbA1c).
The lifespan of a RBC is typically around three months, and the measurements give an indication of the level of glycemic control over that period.
Statistics:
Non-diabetic: around 5%, diabetic - < 7.0% (good control), >8% (poor glycemic).
The complications are closely linked to the level of glycemic control, and it has been shown that each 1% reduction in HbA1c has been associated with measurable reductions in risk of db complications, a 21% reduction in deaths related to db, a 14% reduction for MI, and a 37% reduction for microvascular complications of db.

11. Effect of db on pd
Type 1 and 2 both play a significant role – though research has been biased towards the latter.
Risk increases with poor glycemic control.
Increased risk of periodontitis in pts with db is estimated to be between 2-3 fold – that is, it increases the risk for periodontitis by 2-3 times.
Possibility to attend dental surgery with multiple recurrence of periodontal abscesses.

12. Oral conditions associated with db
Ca2+ channel blocker drugs such as nifedipine for hypertension, and this may result in gingival overgrowth in some cases.
Lichenoid mucosal reactions to metformin.
Xerostomia resulting in increased risk for decay
Candida infections
Chronic mouth ulcers.

13. Mechanism Not completely understood.
Suggested that it involve aspects of inflammation, immune functioning, neutrophil activity, and cytokine biology.
Both types of db are associated with elevated levels of systemic markers of inflammation.
Db increases inflammation, with higher levels of inflammatory mediators such as interleukin-1β (IL-1β) and TNF-α.
Accumulation of ROS, oxidative stress, and interactions between advanced glycation end products (AGEs) in the periodontal tissues and their receptor (RAGE, the receptor for advanced glycation end products) all contribute to increased inflammation in the periodontal tissues in people with db.

14. Implications for the dental professional
Pd and db are directly and independently associated chronic diseases of high prevalence in the population, and the global prevalence of type 2 db, in particular, is rising dramatically.

15. Implications for the dental professional
A patient with db may have many implications for the dental professional:
Patients with (mainly type 1) db may be at risk of hypoglycaemic episodes while attending the dental clinic.
People with db are at higher risk of oral disease, particularly periodontitis, and particularly if their db is poorly controlled.
Patients with undiagnosed db may present at the dental clinics and provide an opportunity for referral for opportunistic screening based on the presence of pd and other db risk factors.
Patients with db may experience some improvement in their glycaemic control following successful pd treatment.

16. Implications for the dental professional
Unfortunately, many patients with db and also many medical clinicians are unaware of the links between pd and db, and of the potential benefits of pd treatment.
Routine periodontal assessment should be performed in all patients.
Ask the patient about their level of glycaemic control: many will be able to tell you their most recent HbA1c measurements.

17. Treatments Patient education. OHI.
Non surgicial therapy (Root surface debridement)

18. Impact on dental practices
Major downside was the time required to perform the screening, which added around 20 minutes to the length of each dental appointment.
Not practical within current contractual arrangements for NHS dental practices, but it does highlight that dental healthcare teams could potentially play an important role in screening their dental patients for systemic conditions such as db.

19. Conclusions
Db increases the risk for periodontitis (particularly if poorly controlled) and evidence suggests that advanced periodontitis also compromises glycaemic control.
Periodontal treatment has been associated with improvements in glycaemic control (with HbA1c reductions of approximately 0.4%)
Periodontal assessment is as important in people with db as it is in people who do not have db, and people with db should be made aware of their increased risk for periodontal disease. The dental team has an important role to play in the management of people with db.
An emerging role for the dental team is envisaged in which, through the use of relatively simple screening tools, they may help to identify patients at high risk of diabetes.

20. Bibliography
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