Purpose To develop a segmental tibial bone defect model for tissue engineering studies in veterinary orthopedics using single locking compression plate (LCP) fixation and cast immobilization. Methods A 3-cm bone defect was created in the right tibia of 18 adult Suffolk sheep. A 10-hole, 4.5-mm LCP was applied to the dorsomedial aspect of the bone. Four locking screws were inserted into the proximal and three into the distal bone fragment. Operated limbs were immobilized with casts. Animals were submitted to stall rest, but were allowed to bear weight on the operated limb. During the recovery period, animals were checked daily for physiological parameters, behavior and lameness. Follow-up radiographs were taken monthly. Results Surgical procedures and postoperative recovery were uneventful. Animals adapted quickly to casts and were able to bear weight on the operated limb with no signs of discomfort or distress. No clinical or radiographic complications were detected over a 90-day follow-up period. Conclusions Surgical creation of tibial segmental bone defects followed by fixation with single LCP and cast immobilization was deemed a feasible and appropriate model for veterinary orthopedic research in tissue engineering.
RESUMO: 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.
Long bone fractures are common in small ruminants, and has been described some methods of osteosynthesis. The external fixator is considered a good option because it is non-invasive method and does not cause significant damage to adjacent tissue and vascularization. A goat, female, three months old, it was referred to the Veterinary Hospital with functional impotence of the thoracic left limb. It was diagnosed incomplete and transverse fracture of the third portion of the ulna, associated a lateroproximal luxation between radio and ulna. After a conservative treatment, the animal was forwarded to surgery procedure. The fracture was reduced manually and osteosynthesis was performed with external fixator type I using seven transcortical pins in lateral direction, that were fixed with methacrylate molded in plastic tube. Fifteen days after surgery was observed flexural deformity of the affected limb. This was fixed with placement splint for 15 days. After radiographic control and bone regeneration, the external fixator was removed after 45 days from surgery. The animal was discharge 51 days after removal the implant with a good weight bearing
O compósito à base de hidroxiapatita, quitosana e nanotubo de carbono foi desenvolvido com o intuito de auxiliar na consolidação óssea. Estudos anteriores sugerem que a combinação de substitutos ósseos e células-tronco mesenquimais (CTM) podem auxiliar a potencializar e promover a regeneração óssea. No presente estudo, o biomaterial foi desenvolvido e a viabilidade e a citotoxicidade de células Vero (ATCC CCL-81) e CTM obtidas de medula óssea provenientes de ovinos utilizando ensaios metil-tiazol-tetrazólio, MTT e iodeto de propídeo (PI) foram avaliadas em diferentes concentrações de extrato desse compósito. O compósito demonstrou ausência de citotoxicidade com comportamento semelhante ao grupo controle. Amostras com 50% e 10% de concentração de extrato do compósito mostraram resultados maiores comparados ao grupo controle (ensaio MTT). Esses resultados também sugerem que a presença do biomaterial pode ser utilizada em associação a CTM. Assim, esse estudo conclui que o compósito apresentado de hidroxiapatita, quitosana e nanotubo de cabono não foi considerado citotóxico e pode ser utilizado em teste in vivo.
Being able to study anatomical structures of wildlife species for science and clinical practice is of great importance. We aimed to describe the normal gross osteology of the common adult capybara Hydrochoerus hydrochaeris (Linnaeus, 1766), using macerated bone specimens and high-resolution digital radiography. The complete axial and appendicular skeleton was further compared with previously reported anatomical findings. For this purpose, we used three adult capybara cadavers (two females and one male), with a mean bodyweight of ±50 kg. Some H. hydrochaeris-specific morphological characteristics, especially in the skull region, show evidence of adaptation to aquatic life, such as an elongated head shape, with eyes, ears, and nose, located dorsally, to stay above water. Additionally, the entire bone structure demonstrates the size and weight support of the largest rodent and its adaptation with respect to foraging and locomotion behaviors. As a semi-aquatic herbivore, classified as cursorial (having limbs adapted for running), the authors believe it should be reclassified as cursorial-swimming/diving. Moreover, we argue to consider a differentiation between H. hydrochaeris silvestris to H. hydrochaeris synanthrope, due to substantial weight variation, in some cases > 100%. This inevitably has an impact on the development of bone structure, thus influencing habitual adaptation, and consequently, its clinical implications and animal handling. Radiography exams helped in the identification of bone structures, which otherwise were not observed in anatomical specimens, such as ossa sesamoidea, including the ossicle lunulae. Likewise, the radiographs were particularly helpful in overall better comprehension of the intubation and catheterization procedures. We believe this work can contribute as a reference to anatomical studies for students and professionals acting in clinic, surgery, and research.
A ultrassonografia é técnica de imagem segura e não invasiva que fornece imagens dinâmicas. O Power Doppler é modalidade ultrassonográfica que permite a visualização de vasos sanguíneos sem depender de intensidade e direção de fluxo. Admitiu-se no Hospital Veterinário da FMVZ-USP um ovino fêmea, de raça Ile de France, com um ano de idade e apresentando fratura completa de tíbia em bisel. O animal foi submetido à anestesia inalatória para a realização de osteossíntese com placa bloqueada de 3,5 mm. Durante o período pós-operatório foram realizadas imagens de ultrassonografia Power Doppler para a avaliação da neovascularização ao longo do processo de regeneração óssea. Entre o 14º e o 21º dia do período pós-operatório, identificou-se a presença de vasos sanguíneos neoformados, que apresentaram sinais de regressão nas avaliações subsequentes (realizadas no 28º e no 35º dia pós-operatório). A ultrassonografia Power Doppler mostrou-se eficiente na detecção precoce de vasos sanguíneos neoformados na região da fratura no período pós-operatório, sendo um exame não invasivo, que não gerou estresse para o animal e que pode estar relacionado ao sucesso no reparo ósseo da tíbia do animal submetido à osteossíntese.
This report describes the combination of two surgical fracture repair techniques and the postoperative management of a mandibular diastemal fracture in a two-year-old mare. The mare was referred to a veterinary hospital with a laceration over the body of the right mandible. Radiographic assessment revealed two mesial fracture lines involving the second premolar tooth and a ventrally displaced bone fragment. The mare was treated under general anesthesia and the fracture was corrected using open reduction and plate fixation. A 3.5 mm narrow 15-hole locking compression plate with seven locking screws were used in a bridge form. Cerclage wire was also used to anchor the incisor teeth to the second and third premolar teeth. The cerclage wire and incisor teeth were covered with polymethylmethacrylate to prevent implant failure and avoid injury to the oral mucosa. Implants were removed 55 days after surgery and the mare was discharged from hospital five days later. The mare returned for cerclage wire removal after 90 days and was allowed to resume exercise thereafter. The combination of two surgical techniques, proper implant choice and appropriate postoperative management, including use of pelleted feed, contributed to successful bone healing and return to function.
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