Radiological Evaluation of Endodontic Treatment of Chronic Apical Periodontitis using Biphasic Calcium Phosphate Biomaterial
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West Kazakhstan Marat Ospanov State Medical University, Aktobe, Maresyev Str., 68, KAZAKHSTAN
Riga Stradina University, Riga, Dzirciema Iela 20, LATVIA
Riga Technical University, Riga, Paula Valdena Street 3/7, LATVIA
Online publication date: 2018-09-16
Publication date: 2018-09-16
Eurasian J Anal Chem 2018;13(5):em54
The article is dedicated to the study of the efficacy of the periapical therapy of chronic periodontitis with the use of synthetic calcium-phosphate biomaterial. 30 patients aged from 22 to 56 years participated in a clinical study. Radiological evaluation was performed by radiovisiography and radiodensitometry. Follow-up examination was carried out at 3, 6 and 12 months. Densitometry indicators at the destruction site showed an increase in radiodensity from 74.2 ± 9.9 units (58.2%) to 111.9 ± 10.6 units (87.8%) after 12 months. Anterior group of teeth demonstrated statistically significant high rate of lesion compaction compared to posterior teeth.
Torabinejad M and Walton RE. Periradicular lesions. Endodontics. 1994;4:183.
Iordanishvili AK, Slugina AG, Lapina NV, Serikov AA. The causes of tooth loss in adults of different age groups. Kuban scientific medical bulletin. 2015;4(153).
Sorokin AP. Diagnostics and complex treatment of chronic destructive forms of infectious periodontitis: dis. Ufa: AP Sorokin. 2014.
Tairov VV, Melekhov SV. Efficiency of the combined therapy of destructive forms of the periodontitis. Endodontia today. 2011;2:33-39.
Khudyakova ES. Optimization of the treatment of chronic forms of periodontitis with the use of osteoplastic materials. Samara: Author’s abstract. dis .... cand. honey. Sciences. 2009.
Gusiyska A, Dyulgerova E. Remodeling of periapical lesions scaffolding by biphase calcium phosphate ceramics-a pilot study. Journal of IMAB-Annual Proceeding (Scientific Papers) book. 2009;2:113-118.
Grybauskas S, Locs J, Salma I, Salms G, Berzina-Cimdina L. Volumetric analysis of implanted biphasic calcium phosphate/collagen composite by three-dimensional cone beam computed tomography head model superimposition. Journal of Cranio-Maxillofacial Surgery. 2015;43(1):167-174.
Petronis S, Petronis J, Zalite V, Locs J, Skagers A, Pilmane M. New biphasic calcium phosphate in orthopedic surgery: first clinical results. In International Symposium on Biomedical Engineering and Medical Physics. Riga, Latvia. Springer, Berlin, Heidelberg. 2013:174-177.
Salms G, Skagers A, Zigurs G, Locs J, Berzina-Cimdina L, Feldmane L. Clinical, radiographic and pathohistological outcomes of hydroxyapatite (hap) ceramics and dental implants in atrophic posterior maxilla. Acta Chirurgica Latviensis. 2009;9(1):62-66.
Hong, Y. C., Wang, J. T., Hong, C. Y., Brown, W. E., & Chow, L. C. The periapical tissue reactions to a calcium phosphate cement in the teeth of monkeys. Journal of biomedical materials research, 1991;25(4):485-498.
Kogina EN, Gerasimov LP, Kabirova MF and Saptarova LM. Application of the method of optical densitometry in the diagnosis of chronic apical periodontitis. Health and education in the 21st century. 201;618(11).
Wang L, Zhang B, Bao C, Habibovic P, Hu J, Zhang X. Ectopic osteoid and bone formation by three calcium-phosphate ceramics in rats, rabbits and dogs. PloS one. 2014;9(9):e107044.
Gizatullin RM. The use of nano-gel of hydroxyapatite calcium and porous nickelide titanium for the treatment of destructive forms of chronic periodontitis. Kazan Medical Journal. 2009;90(3).