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1.
Acta sci. vet. (Impr.) ; 42: Pub.1238-Dec. 12, 2014. tab
Article in Portuguese | VETINDEX | ID: biblio-1457216

ABSTRACT

Background: Circular external skeletal fixator Ilizarov is a fixation method widely used to stabilize fractures. The method is performed using several components but the ring stands out as the fundamental component of this device, and compression loads in the same plane of the ring are mainly due to the wires connected from one side to another of the implant. The axial load is reached on the rings with a proper tension distractor device connected to the wires and fixed with bolts, washers and nuts during surgical procedure. Additional loads to axial tension are employed during patient`s physical activities after surgery. The study aimed to compare the resistance to axial compression load and analyze the alloy composition of the Ilizarov rings with different diameter sizes and alloys. Materials, Methods & Results: We tested two diameters of rings acquired from three manufacturers for mechanical axial compression. Manufacture sample (N = 30 rings of each trademark) was divided into two groups (60 and 80 diameter mm). The tests to evaluate strength and deformation parameters were performed in a universal testing machine Kratos ® 3.000 MP KE model, equipped with a load cell of 3000 N with test speed of 10 mm per minute. We also evaluated the elemental alloy composition by the method of the TTPIXE (Thick Target Proton Induced X-Ray Emission) in external PIXE...


Subject(s)
Animals , Dogs , Biomechanical Phenomena , External Fixators/veterinary , Weight-Bearing , Ilizarov Technique/veterinary
2.
Acta sci. vet. (Online) ; 42: Pub. 1238, Dec. 12, 2014. tab
Article in Portuguese | VETINDEX | ID: vti-30947

ABSTRACT

Background: Circular external skeletal fixator Ilizarov is a fixation method widely used to stabilize fractures. The method is performed using several components but the ring stands out as the fundamental component of this device, and compression loads in the same plane of the ring are mainly due to the wires connected from one side to another of the implant. The axial load is reached on the rings with a proper tension distractor device connected to the wires and fixed with bolts, washers and nuts during surgical procedure. Additional loads to axial tension are employed during patient`s physical activities after surgery. The study aimed to compare the resistance to axial compression load and analyze the alloy composition of the Ilizarov rings with different diameter sizes and alloys. Materials, Methods & Results: We tested two diameters of rings acquired from three manufacturers for mechanical axial compression. Manufacture sample (N = 30 rings of each trademark) was divided into two groups (60 and 80 diameter mm). The tests to evaluate strength and deformation parameters were performed in a universal testing machine Kratos ® 3.000 MP KE model, equipped with a load cell of 3000 N with test speed of 10 mm per minute. We also evaluated the elemental alloy composition by the method of the TTPIXE (Thick Target Proton Induced X-Ray Emission) in external PIXE...(AU)


Subject(s)
Animals , Dogs , External Fixators/veterinary , Weight-Bearing , Biomechanical Phenomena , Ilizarov Technique/veterinary
3.
São Paulo; s.n; 14/12/2012. 86 p.
Thesis in Portuguese | VETINDEX | ID: biblio-1505197

ABSTRACT

Vários implantes cirúrgicos têm sido desenvolvidos para estabilizar fraturas em seres humanos e animais. O fixador esquelético externo circular de Ilizarov é método de fixação amplamente utilizado para tratamento de fraturas complexas, desvios angulares, bem como no alongamento ósseo. O anel destaca-se como componente fundamental desse dispositivo e as cargas de compressão no mesmo plano do anel são devidas principalmente a fios ligados de um lado ao outro do implante. O estudo teve como objetivo comparar a resistência à compressão axial de anéis de Ilizarov e analisar a composição da liga metálica desses anéis. Foram testados dois diâmetros de anéis de três fabricantes nacionais para os ensaios biomecânicos de compressão axial, divididos em dois grupos com quinze corpos de prova. Os testes foram realizados em máquina universal de ensaios Kratos® modelo KE 3.000MP, dotada de célula de carga de 3000N com velocidade de ensaio de 10 milímetros por minuto. Os parâmetros força e deformação foram enviados ao computador IBM®-PC através do sistema de aquisição analógica Lynx® modelo ADS-2000, que permitiu a gravação dos parâmetros para posterior análise. Também avaliou-se a composição elementar dos anéis através do método TTPIXE (partículas induzidas pela emissão de raios X em alvos espessos) em PIXE externo. Os espectros foram acumulados em buffer-multicanal conectado a um micro-computador pessoal tipo IBM-PC®. A redução de espectros de raios-X foi realizada por meio do programa AXIL. Concluiu-se que os anéis para fixador esquelético externo circular são compostos de liga metálica de alumínio e que existe diferença entre os fabricantes nacionais no ensaio mecânico de compressão axial, sendo que o fabricante A é mais rígido que os outros fabricantes para os dois diâmetros (60 e 80 milímetros) de anel e mais resistente que os outros fabricantes para o anel de 80 milímetros


Various surgical implants have been developed to stabilize fractures in humans and animals. Ilizarov/'s circular external skeletal fixator is a fixation method widely used for the treatment of complex fractures, angular deviation, as well as in bone lengthening. The ring stands out as a fundamental component of the device and compression loads in the same plane of the ring are due mainly to wires connected from one side to another of the implant. The study aimed to compare the resistance to axial compression on Ilizarovs rings and analyze the alloy composition of these rings. Two diameters were tested of three domestic ring manufacturers for biomechanical axial compression, divided into two groups with fifteen specimens each group. The tests were performed in a universal test machine Kratos® model 3.000MP KE, equipped with a 3000N load cell with a test speed of 10 mm per minute. The strength and deformation parameters were sent to the IBM®-PC computer through the Lynx® analog acquisition system model ADS-2000, which allowed the recording of the parameters for further analysis. Also, the rings alloy composition was evaluated using the TTPIXE method (thick-target particle induced X-ray emission) in external PIXE. The spectra were accumulated in a multi-channel buffer connected to an IBM®-PC type personal microcomputer. The reduction of X-ray spectra was performed using the AXIL program. In conclusion the rings was made from aluminum alloy, witch differs in composition among different fabricants, also the rings showed differences performance in mechanical testing of axial compression, and the manufacturer A is more rigid than the other manufacturers for the two diameters (60 and 80 mm) ring and tougher than the other manufacturers to the 80 mm ring


Subject(s)
Animals , Dogs , Dogs/injuries , External Fixators/classification , External Fixators/veterinary
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