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2018 | 74 | 12 |

Tytuł artykułu

Use of microporous hydroxyapatite material in regenerative treatment of periodontal tissues in dogs: a clinical study

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
One of the biomaterials used in veterinary dentistry is hydroxyapatite (HAp). It aids the biological process of bone reconstruction and provides the basis on which damaged tissues can be rebuilt. It is also exceptionally osteoconductive and bioactive towards bone and other tissues. The aim of the present study was to verify the usefulness of hydroxyapatite microporus ceramics for the treatment of periodontal diseases and post-extraction defects. The study was performed on 40 dogs. Dogs were qualified for the in vivo test: 2 study groups and 2 control groups (K1, K2) were created. Group G1 comprised 10 dogs diagnosed with periodontitis with 4-8 mm gingival pockets and mobility of mandibular/maxillary incisors. In order to avoid extraction, hydroxyapatite implantation into the bone pockets was performed. Group G2 comprised 10 dogs that required the extraction of maxillary canines, following which biomaterial was introduced into the post-extraction cavities. Control groups were performed without using of microporous hydroxyapatite. In group G1, animals displayed significant shallowing of gingival pockets. The mean depth of pockets was significantly reduced in those dogs and considerably better reconstruction of periodontal tissues was observed when compared to the control group K1. In group G2, significantly faster healing of bone cavities was stated when compared to the respective control group K2. The study confirmed the validity of using microporous hydroxyapatite granules and shaped blocks in reconstructive periodontal treatment as well as prevention of oronasal fistulas after canines extraction and facilitation of the post-extraction healing process.

Wydawca

-

Rocznik

Tom

74

Numer

12

Opis fizyczny

p.759-764,fig.,ref.

Twórcy

autor
  • Department of Veterinary Surgery, Faculty of Veterinary Medicine, University of Life Sciences in Lublin, Gleboka 30 Street, Lublin, Poland
  • Faculty of Materials Science and Ceramics, AGH University of Science and Technology, Mickiewicza 30 Street, Krakow, Poland
  • Department of Veterinary Surgery, Faculty of Veterinary Medicine, University of Life Sciences in Lublin, Gleboka 30 Street, Lublin, Poland
autor
  • Department of Veterinary Surgery, Faculty of Veterinary Medicine, University of Life Sciences in Lublin, Gleboka 30 Street, Lublin, Poland
autor
  • Department of Veterinary Surgery, Faculty of Veterinary Medicine, University of Life Sciences in Lublin, Gleboka 30 Street, Lublin, Poland
autor
  • Department of Veterinary Surgery, Faculty of Veterinary Medicine, University of Life Sciences in Lublin, Gleboka 30 Street, Lublin, Poland

Bibliografia

  • Al Hertani W., Waddell J. P., Anderson G. I.: The effect of partial vs. full hydroxyapatite coating on periprosthetic bone quality around the canine madreporic femoral stem. J. Biomed. Mat. Res. 2000, 53, 518-524.
  • Bansal S., Chauhan V., Sharma S., Maheshwari M., Juyal A., Raghuvanshi S.: Evaluation of hydroxyapatite and beta-tricalcium phosphate mixed with bone marrow aspirate as a bone graft substitute for posterolateral spinal fusion. Indian J. Orthop. 2009, 43, 234-239.
  • Belcarz A., Ginalska G., Zima A., Polkowska I., Ślósarczyk A., Szyszkowska A.: New HAp-organic composite as a promising filler of bone defects. Engin. Biomat. 2009, 12, 11-15.
  • Cardaropoli G., Araújo M., Lindhe J.: Dynamics of bone tissue formation in tooth extraction sites. An experimental study in dogs. J. Clin. Periodontol. 2003, 30, 809-818.
  • De Santis E., Botticelli D., Pantani F., Pereira F. P., Beolchini M., Lang N. P.: Bone regeneration at implants placed into extraction sockets of maxillary incisors in dogs. Clin. Oral. Implants. Res. 2011, 22, 430-437.
  • Doi K., Kubo T., Takeshita R., Kajihara S., Kato S., Kawazoe Y., Shiba T., Akagawa Y.: Inorganic polyphosphate adsorbed onto hydroxyapatite for guided bone regeneration: an animal study. Dent. Mater. J. 2014, 33, 179-186.
  • Doi K., Oue H., Morita K., Kajihara S., Kubo T., Koretake K., Perrotti V., Iezzi G., Piattelli A., Akagawa Y.: Development of implant/interconnected porous hydroxyapatite complex as new concept graft material. Plos One 2012, 7, 1-10.
  • Dominiak M., Łysiak K.: Evaluation of effectiveness of selected guide bone regeneration method with usage biomaterial in the treatment of the defects of alveolar process after teeth extractions – Preliminary study. Dent. Med. Probl. 2006, 43, 368-378.
  • Hong J. Y., Lee J. S., Pang E. K., Jung U. W., Choi S. H., Kim C. K.: Impact of different synthetic bone fillers on healing of extraction sockets: an experimental study in dogs. Clin. Oral Implants. Res. 2014, 25, 30-37.
  • Jelonek A., Skórska-Stania A., Myciński P., Zarzecka J.: Hydroxyapatite microspheres coated with poly (D, L- lactide) as bone filler and antibiotic delivery system. Engin. Biomat. 2013, 16, 19-29.
  • Jung U. W., Hwang J. W., Choi D. Y., Hu K. S., Kwon M. K., Choi S. H., Kim H. J.: Surface characteristics of a novel hydroxyapatite-coated dental implant. J. Periodontal Implant Sci. 2012, 42, 59-63.
  • Jung U. W., Kim S., Lee I. K., Kim M. S., Lee J. S., Kim H. J.: Secondary stability of microthickness hydroxyapatite-coated dental implants installed without primary stability in dogs. Clin. Oral Implants Res. 2013, 25, 1169-1174.
  • Lee J. S., Park W. Y., Cha J. K., Jung U. W., Kim C. S., Lee Y. K., Choi S. H.: Periodontal tissue reaction to customized nano-hydroxyapatite block scaffold in one-wall intrabony defect: a histologic study in dogs. J. Periodontal Implant Sci. 2012, 42, 50-58.
  • Lee M. J., Sohn S. K., Kim K. T., Kim C. H., Ahn H. B., Rho M. S., Jeong M. H., Sun S. K.: Effect of hydroxyapatite on bone integration in a rabbit tibial defect model. Clin. Orthop. Surg. 2010, 2, 90-97.
  • Li S. H., De Groot K., Layrolle P.: Bioceramic scaffold with controlled porous structure for bone tissue engineering. Key. Eng. Mater. 2002, 218-220, 25-30.
  • Pieri F. A., Falci Daibert A. P., Bourguignon E., Scatamburlo Mortira M. A.: A Bird’s-Eye View of Veterinary Medicine Source. Chapter: Periodontal disease in dogs. Ed. Carlos C. Perez-Marin. In Tech, Rijeka 2012, p. 119-140.
  • Polkowska I., Sobczyńska-Rak A., Szyszkowska A., Koper J., Ślósarczyk A.: Use of hydroxyapatite in the treatment of bone cavities after the removal of inflammatory lesions within the jaws – case reports. Veter. Med. 2012, 68, 436-440.
  • Shue L., Yufeng Z., Mony U.: Biomaterials for periodontal regeneration: a review of ceramics and polymers. Biomatter. 2012, 2, 271-277.
  • Sobczak A., Kowalski Z., Wzorek Z.: Preparation of hydroxyapatite from animal bones. Acta Bioeng. Biomech. 2009, 11, 23-28.
  • Song K. G., Ma D. H., Hou J. W., Wang H., Yan J. L., Yu Z. G., Liang Z. Z.: Effect of morselized bones on binding of the canine hydroxyapatite-coated femoral stem. Chin. Med. J. 2010, 123, 1163-1169.
  • Szyszkowska A., Koper J., Piskorz T., Szczerba J., Puławska M.: Materials supporting bone regeneration in oral surgery – literature review. Implantoprosthetics 2010, 38, 9-12.
  • Szyszkowska A., Krawczyk P.: Materials used to regeneration bones cavities in stomatology. A review article. Implantoprosthetics 2008, 4, 21-24.
  • Vahabi S., Amirizadeh N., Shokrgozar M. A., Mofeed R., Mashhadi A., Aghaloo M., Sharifi D., Jabbareh L. A.: comparison between the efficacy of Bio-Oss, hydroxyapatite tricalcium phosphate and combination of mesenchymal stem cells in inducing bone regeneration. Chang Gung Med. J. 2012, 35, 28-37.
  • Wierucka-Młynarczyk B., Hüpsch-Marzec H., Kubicka-Musiał M.: Advantages and limitations of using graft materials in periodontal treatment with particular regard to silated hydroxyethylcellulose. Dent. Med. Probl. 2010, 47, 365-372.
  • Yang C., Lee J. S., Jung U. W., Seo Y. K., Park J. K., Choi S. H.: Periodontal regeneration with nano-hyroxyapatite-coated silk scaffolds in dogs. J. Periodontal. Implant Sci. 2013, 43, 315-322.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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