PESQUISA VETERINÁRIA BRASILEIRA

Abstract in English:

ABSTRACT.- Paretsis N.F., Arana-Chavez V.E., Correa L., Peplis A.M.G., Martins V.C.A., Cortopassi S.R.G. & Zoppa A.L.V. 2017. [Histological and histomorphometric evaluation of bone regeneration with biomaterial in the tibia of sheep.] Avaliação histológica e histomorfométrica da regeneração óssea a partir da utilização de biomateriais em tíbias de ovinos. Pesquisa Veterinária Brasileira 37(12):1537-1544. Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Orlando Marquês de Paiva 87, Butantã, São Paulo, SP 0558-270, Brazil. E-mail: nicoleparetsis@gmail.com Bone defects are commonly found in veterinary medicine through different disease such as trauma, especially in large animals. Frequently it is necessary to assist this tissue repair for better regeneration. Biomaterials in general are designed to this function. In order to understand the bone cells in the presence of bone substitutes, tests in vivo are essential for these studies. The quantity and quality of new tissue formation can be assessed by observation of tissue morphofunctional unit. Currently, in orthopedic studies sheep are considerated animals of choice for experimental development. Bone defects were performed experimentally in sheep and were implanted chitosan, hydroxyapatite and collagen biomaterials. After 60 days, biopsy was performed at the site of tissue repair and the new tissue formation was described, evaluated and compared by organic matrix bone histomorphometry and electronic transmission microscopy. After hystomorfometry analysis there was no difference between control group and biomaterial group, but when compare with pre-existent tissue, the values are smaller. In descriptive analysis was observed intimate contact with biomaterial and new tissue formation suggesting biocompatibility. It observed the pattern of tissue repair in control group and biomaterial group did not differ in the architecture tissue. However, in the biomaterial group was identified presence of the biomaterial in the specimen. All these data suggest that the biomaterial did not impair bone regeneration, had good biocompatibility and potential to assistant in orthopedic routine of large animals.

• Histomorphometry histology bone regeneration tibia hydroxyapatite histomorfometria histologia regeneração óssea tíbia hidroxiapatita

Abstract in Portuguese:

RESUMO.- Paretsis N.F., Arana-Chavez V.E., Correa L., Peplis A.M.G., Martins V.C.A., Cortopassi S.R.G. & Zoppa A.L.V. 2017. [Histological and histomorphometric evaluation of bone regeneration with biomaterial in the tibia of sheep.] Avaliação histológica e histomorfométrica da regeneração óssea a partir da utilização de biomateriais em tíbias de ovinos. Pesquisa Veterinária Brasileira 37(12):1537-1544. Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Orlando Marquês de Paiva 87, Butantã, São Paulo, SP 0558-270, Brazil. E-mail: nicoleparetsis@gmail.com Falhas ósseas são comumente encontradas na medicina veterinária em diferentes enfermidades, principalmente por traumas em grandes animais. Frequentemente faz-se necessário auxiliar este reparo tecidual para melhor correção desta falha. Os biomateriais foram desenvolvidos para cumprir esta função. A fim de avaliar o comportamento celular perante estes substitutos ósseos, a realização de testes in vivo é fundamental. A partir da observação da unidade morfofuncional do tecido é possível avaliar a quantidade e a qualidade do tecido neoformado. Atualmente, em estudos ortopédicos, os ovinos são considerados animais de escolha como modelo experimental. Falhas ósseas foram realizadas experimentalmente em ovinos, onde foram implantados biomateriais à base de quitosana, hidroxiapatita e colágeno. Após 60 dias foi realizada biopsia no local do reparo tecidual e por meio da histomorfometria da matriz orgânica, da análise descritiva da microscopia de luz e da microscopia eletrônica de transmissão, o tecido neoformado foi avaliado e comparado. Na histomorfometria, não houve diferença significativa quanto à quantidade de tecido neorformado do grupo controle e do grupo com biomaterial, porém quando comparado ao osso pré-existente, retirado no momento da confecção da falha, a área de matriz óssea foi menor. Na descrição da microscopia de luz e em maiores detalhes na análise ultra estrutural, observou-se o biomaterial em contato íntimo com o tecido neoformado, sugerindo boa biocompatibilidade. Foi possível observar o padrão da reparação tecidual, onde o membro controle e o membro com biomaterial não diferiram quanto à arquitetura tecidual, porém nas amostras com o implante do biomaterial foi identificada a presença do mesmo. Todas estas informações sugerem que o biomaterial não prejudicou a regeneração óssea, apresentou boa biocompatibilidade e denota potencial para auxiliar na rotina ortopédica de grandes animais.

Abstract in English:

ABSTRACT.- Ferro D.G. & Gioso M.A. 2009. [Clinical study of effectiveness of an Anorganic Bone Matrix and Cell-Binding Peptide (ABM/P-15), PepGen-P15®: Application in advanced periodontal lesions of dogs.] Estudo clínico da aplicação de matriz inorgânica de osso associado a peptídeo sintético de adesão celular (MIO/P-15), PepGen P-15®, em lesões periodontais avançadas de cães. Pesquisa Veterinária Brasileira 29(2):109-116. Laboratório de Odontologia Comparada, Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques de Paiva 87, São Paulo, SP 05508-900, Brazil. E-mail: deferro@usp.br The development of biologic modalities designed to enhance bone regeneration and wound healing of specific periodontal sites continues to be a challenge and has been accomplished through the cell binding activity of Type-I collagen. These have been provided by a synthetic cell biding peptide (P-15), associated to a anorganic bone matrix (ABM) to form ABM/P-15. The aim of this study was to evaluate the attachment loss and periodontal pocket response in teeth after 3 and 6 months with ABM/P-15 graft application. Twenty one dogs from the Veterinary Hospital, University of São Paulo, were anesthetized in order to accomplish periodontal treatment and 132 teeth faces with attachment loss were treated. From these, 36.4% (48 faces) received cell binding peptide and 63.6% (84 faces) compounded the control group that received conventional treatment (muco-gingival flap and root planning). The procedure was documented by intra-oral radiography and all periodontal probings were photographed. After 3 and 6 months, the animals were re-anesthetized in order to accomplish new photography, radiography and periodontal probing exams. The 48 attachment loss faces that received graft material exhibited 40% of regeneration rate after 6 months. The control faces did not change their attachment level. The palatal face presented the better regeneration rates (40%) and the canines and molars teeth showed the better responses (57.14% and 65%, respectively). There was no post-surgical infection related to absence of oral home care. It can be concluded that ABM/P-15 helps a more rapidly periodontal structure re-attachment and regeneration, including alveolar bone. Its application was easy and practical, and the post-surgical complications incidence was low. Nevertheless, more work is necessary to evaluate the amount and the quality of formed bone and periodontal ligament.

• Veterinary dentistry periodontal disease animal graft animal bone implant bone regeneration type I Collagen P-15 cell-binding peptide dog

Abstract in Portuguese:

ABSTRACT.- Ferro D.G. & Gioso M.A. 2009. [Clinical study of effectiveness of an Anorganic Bone Matrix and Cell-Binding Peptide (ABM/P-15), PepGen-P15®: Application in advanced periodontal lesions of dogs.] Estudo clínico da aplicação de matriz inorgânica de osso associado a peptídeo sintético de adesão celular (MIO/P-15), PepGen P-15®, em lesões periodontais avançadas de cães. Pesquisa Veterinária Brasileira 29(2):109-116. Laboratório de Odontologia Comparada, Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques de Paiva 87, São Paulo, SP 05508-900, Brazil. E-mail: deferro@usp.br The development of biologic modalities designed to enhance bone regeneration and wound healing of specific periodontal sites continues to be a challenge and has been accomplished through the cell binding activity of Type-I collagen. These have been provided by a synthetic cell biding peptide (P-15), associated to a anorganic bone matrix (ABM) to form ABM/P-15. The aim of this study was to evaluate the attachment loss and periodontal pocket response in teeth after 3 and 6 months with ABM/P-15 graft application. Twenty one dogs from the Veterinary Hospital, University of São Paulo, were anesthetized in order to accomplish periodontal treatment and 132 teeth faces with attachment loss were treated. From these, 36.4% (48 faces) received cell binding peptide and 63.6% (84 faces) compounded the control group that received conventional treatment (muco-gingival flap and root planning). The procedure was documented by intra-oral radiography and all periodontal probings were photographed. After 3 and 6 months, the animals were re-anesthetized in order to accomplish new photography, radiography and periodontal probing exams. The 48 attachment loss faces that received graft material exhibited 40% of regeneration rate after 6 months. The control faces did not change their attachment level. The palatal face presented the better regeneration rates (40%) and the canines and molars teeth showed the better responses (57.14% and 65%, respectively). There was no post-surgical infection related to absence of oral home care. It can be concluded that ABM/P-15 helps a more rapidly periodontal structure re-attachment and regeneration, including alveolar bone. Its application was easy and practical, and the post-surgical complications incidence was low. Nevertheless, more work is necessary to evaluate the amount and the quality of formed bone and periodontal ligament.