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Bone Active Periodontitis Treatments: Effects of Vitamin D and Calcium C. HILDEBOLT 1, N. GARCIA 2, D. DIXON 3, D.D. MILEY 2, R. COUTURE 1 C., W. SHANNON 1, MUELLER 1, E. LANGENWALTER 3, C. ANDERSON 1, and R. CIVITELLI 1, 1 Washington University, Saint Louis, MO, USA, 2 Saint Louis University, MO, USA, 3 Southern Illinois University, Alton, USA
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Background and Objective In periodontal disease, the inflammatory response to pathogenic periodontal microbes results in connective-tissue breakdown and alveolar bone resorption. Low dietary intakes of vitamin D and calcium hasten bone loss and osteoporosis. Vitamin D metabolites suppress the inflammatory response and stimulate production of natural antibiotics. Objective: To determine the extent to which measurements of periodontal disease vary between two groups of patients who do and do not take vitamin D and calcium oral supplementation.
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Subjects and Methods From June 2007 to February 2008 fifty-one (51) subjects receiving periodontal maintenance therapy were recruited from 2 dental clinics. Subjects were: Women ≥ 5 years postmenopausal and men ≥ 50 years old In good medical health, No condition nor medication that would affect periodontal or bone health Subjects had ≥ 2 interproximal sites with ≥ 3 mm clinical attachment loss Defined for study as moderate to severe chronic periodontal disease Armitage GC (1999) Development of a classification system for periodontal diseases and conditions. Ann Periodontol 4:1-6.)
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Methods For mandibular posterior teeth the following data were entered into computer memory at chairside: Probing Depth, Attachment loss, Probing measurements made repeated until agreement to within 1 mm Gingival Index (Loe, 1967), score 0-3, Bleeding on Probing (yes-no), Calculus Index (Greene, 1967), score 0-3, Plaque Index (Loe, 1967), score 0-3, Furcation Involvement (Glickman, 1953), (score I - IV).
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Methods: radiographic image acquisition Two new standard intraoral phosphor plates assigned to each subject Customized, occlusal registration device constructed for each subject Three types of measurements of alveolar bone: Two of alveolar crest height One of change in X-ray transmission.
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Alignment Device
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Cemento-enamel-junction-alveolar-crest (CEJAC) measurements High-pass-filtered image, features > 40 pixels removed. (High-pass image sometimes adds clarity to edge of bone.)
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Simulated crest change of 0.000 mm Images registered by minimizing trabecular noise
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Simulated crest change of -0.042 mm
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Simulated crest change of -0.084 mm
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Simulated crest change of -0.127 mm
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Regions of interest (ROIs) and reference ROIs used for transmission measurements The difference in transmission measurements is proportional to change in bone mass
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Methods Daily calcium and vitamin D intakes (from food and supplements) estimated by nutritional analysis. Each subject receives dental prophylaxis and oral-hygiene instruction at baseline and every three months Data collected at baseline and 6 months Repeated-measures, multivariate analysis of variance used to analyze baseline data
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Twenty-three (23) subjects in taker group ≥400 international units (IUs)/day of vitamin D and ≥1000mg/day of calcium One taker had a calcium intake of 897 mg/day Retained in study Twenty-eight (28) subjects were in the non-taker group Five non-takers had dietary intakes of calcium >1000 mg/day (1551, 1180, 1157, 1079, and 1066 mg/day) Retained in study, but 5 additional non-takers added One non-takers had vitamin D intake of 417/day Retained in study Average age: takers = 63.9 years; non-takers = 62.0 Six-month data available for 22 takers and 26 non-takers Results
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Takers Non-takers Mean values and 95% confidence intervals. Measurement Calcium intake Vitamin D intake Taker (n=23) 1769 (1606-1933) mg/day 1049 (781-1317) IU/day Non-taker (n=28) 642 (505-779) mg/day 156 (117-195) IU/day
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Results Pocket depth Attachment loss ∆ = 13% ∆ = 20% ∆ = 13% ∆ = 9% ∆ = 21% ∆ = 17% ∆ = 13 % Taker Non-taker
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Results Bleeding sites Gingival index ∆ = 28% ∆ = 27 % ∆ = 29% ∆ = 13% ∆ = 17% ∆ = 21% ∆ = 9% Taker Non-taker
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Results Calculus index Plaque index ∆ = 18% ∆ = 0% ∆ = 1 % ∆ = 13% ∆ = 85% ∆ = -22% ∆ = 73% ∆ = 30 % Taker Non-taker
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Results Month 0 CEJ-AC Radiographic Furcation index ∆ = -5% ∆ = 36% ∆ = -6 % ∆ = 37% ∆ = 16% Taker Non-taker
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Results Six-month alveolar crest change by subtraction radiography 0.01 mm gain both groups Six-month alveolar bone readiodensity change by subtraction radiography 1% decrease non-takers For baseline data, repeated-measures, multivariate analysis of variance indicated that differences (when considered collectively) were borderline statistically significant (p = 0.08)
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Discussion A limitation of our study is that serum levels of 25- hydroxyvitamin D (the best index of a subject’s vitamin D status) were not known for our subjects Serum 25 hydroxyvitamin D levels increase ∼ 0.70 nmol/l for each μg (40 IU) of vitamin D supplementation Difference between takers and non-takers = 905 IU/day Would raise 25-hydroxyvitamin D serum levels only by about 15 nmol/l (6 ng/ml) Population in our area = 58.9 nmol/L (23.6 ng/ml) Beneficial effects of vitamin D flatten at 100 to 110 nmol/L (40-44 ng/ml) 25-hydroxyvitamin D out Populations in sun-rich environments = 125-175 nmol/L (50- 70 ng/ml)
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Discussion Doses (in addition to normal intakes from sunshine, diet, and supplementation) in randomized control trials should be 2,000 to 10,000 IU/day Doses of 3,800 to 5,000 IU/day of vitamin D 3 required to ensure that vitamin D deficiency or insufficiency resolved in more than 80% of supplemented people In spite of our efforts, only 3 subjects had diet plus oral- supplementation intakes of vitamin D > 2000 IU/day (2237, 2324, and 2654 IU/day), with a mean vitamin D intake of 1049 IU/day
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Discussion Current recommendation for calcium intake is 1200 mg/day for ages over 50 Takers = 1769 mg/day--below the tolerable upper intake level (2500 mg/day) Non-takers = 642 mg/day--below the tolerable upper intake level (2500 mg/day) In the U.S., the median calcium intake For men 50 to 70 years of age = 708 mg/day For women 571 mg/day. Over the age of 70, the respective median intakes are 702 and 517 mg/day.
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Discussion We surveyed of 204 patients > 50 years of age in our periodontal recall programs, Only 15(7%) met the U.S. Food and Nutrition Board’s recommended intake levels for calcium and vitamin D through oral supplementation. The recommendation for vitamin are supposedly adequate for preventing ostomalacia in adults
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Conclusion These preliminary, observational data are consistent with the notion that vitamin D and calcium supplementation may be helpful in the management of periodontal disease patients.
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Acknowledgement Study supported by USPHS grants R21 DE016918 and UL1 RR024992
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