ResumoA ruptura do ligamento cruzado cranial (RLCCr) figura entre as principais enfermidades ortopédicas na espécie canina, sendo responsável por instabilidade da articulação do joelho, o que resulta em claudicação e desenvolvimento de doença articular degenerativa (DAD). O objetivo deste trabalho foi avaliar os resultados da técnica de "TightRope" modificada (TRM) na estabilização do joelho de cães com ruptura do ligamento cruzado cranial (RLCCr). O procedimento cirúrgico foi realizado em seis animais, os quais foram avaliados por 120 dias de pós-operatório. A modificação da técnica para estabilização extracapsular da RLCCr, consiste na utilização de fio de fluorcarbono, e fio de aço inoxidável de 1 mm como forma de fixação óssea. A "TRM" promoveu a estabilidade do joelho dos pacientes com ruptura do ligamento cruzado cranial no pós-operatório imediato e durante o acompanhamento clínico pós-cirúrgico demonstrou, aos 30 dias, progressiva melhora da marcha e suporte de peso à deambulação, estando todos os animais recuperados clinicamente aos 120 dias de pós-operatório.Palavras-chave: joelho, cão, instabilidade, fluorcarbono. AbstractRupture of the cranial cruciate ligament is one of the leading orthopedic diseases in dogs. Thus aimed to evaluate the technique of "Tightrope" modified (TRM) in the knees of dogs with the purpose of providing less invasive and cost-effective surgery. The surgical procedure was performed in six animals, and these were evaluated up to 120 days postoperatively. The modification of the technique for stabilization of extra capsular CCL consists in using fluorocarbon and the stainless steel wire of 1 mm in order bone fixation. The "TRM" promoted the stability of the knee of patients diagnosed with cranial cruciate ligament rupture in the immediate postoperative period. Clinical follow-up after surgery showed after 30 days postoperatively, improved gait and progressive weight support for ambulation, being all animals recovered clinically at 120 days postoperatively.Keywords: knee, dog, instability; fluorocarbon. IntroduçãoA ruptura do LCCr é a enfermidade ortopédica do joelho mais importante da espécie canina, e a mais encontrada (Hayashi et al., 2003), sendo considerada a terceira maior causa de problemas ortopédicos desta espécie (Souza et al., 2011).Os ligamentos do joelho são responsáveis pela sustentação da articulação e especificamente, os ligamentos cruzados cranial e caudal possuem importância na estabilização do movimento craniocaudal da articulação, além da limitação da rotação interna da tíbia em relação ao fêmur por parte do LCCr (Durana, 2009).(Hulse (1995) e Canapp (2007), descrevem que o ligamento cruzado cranial é composto de duas porções: as faixas craniomedial e craniolateral. A primeira apresenta-se tensa tanto a flexão quanto na extensão, e a segunda unicamente na extensão, tornando-se relaxada durante a flexão. Este fato faz com que a faixa cranio-medial seja responsável pelo controle primário contra o movimento de gaveta cranial, impedindo a hiperextensão do joelho.A ...
Background: Spinal neoplasms are classified into extradural, intradural/extramedullary or intramedullary. Intradural/extramedullary tumors include meningiomas and nerve sheath tumors, which arise from meninges or peripheral nerves around the spinal cord. Clinical signs are related to dysfunction of the involved nerve and include pain, nerve root signature and atrophy. Osteochondromas are benign tumors located within the bone, on its surface or in extra-osseous regions, when they are classified as soft tissue osteochondoma. The aim of this study is to describe a case of an osteochondroma in a nervous root of the cauda equina in a dog, whose surgical resection allowed the resolution of the clinical signs.Case: A 12-year-old, male, Labrador Retriever dog, was presented with a 40-day history of progressive, painful, pelvic limb paresis, with no improvement when treated with analgesics and acupuncture. Neurological abnormalities included paraparesis, sometimes worse in the left pelvic limb, that was carried flexed at the level of the stifle, hindlimb atrophy, decreased interdigital reflexes and pain in the lumbar spinal region, mainly over L6 vertebra. Results of blood count and serum biochemical analysis were unremarkable. Computed tomography (CT) of the lumbosacral area was performed and the evaluation of images in transverse and reconstructed dorsal and sagittal planes allowed the visualization of a hyperattenuating and calcified round structure with 8 mm x 6 mm, in the left side of vertebral canal, at the level of caudal epiphysis of L6. Lumbosacral (L7-S1) CT abnormalities, as subchondral sclerosis, mild disc margin bulging, spondylosis deformans and foraminal proliferation were also observed but were considered clinically insignificant. Then, a dorsal L6 laminectomy was performed and after opening of the vertebral canal it was observed the presence of an ovoid mass, in the left side of the medullary cone, measuring approximately 0.9 cm in length, originating from a sacral nerve root. This structure was excised and submitted to histopathological evaluation. The dog improved after surgery without any complications, and neurological functions were gradually recovered. The histopathology of the mass was confirmed as an osteochondroma.Discussion: The history and neurologic examination findings as well the improvement after surgery were compatible with the lesion visualized by TC in L6, rather than the degenerative changes in L7-S1. Regarding the position of the mass, the main differential would be nerve sheath tumor, one of the most common types of primary neoplasia of the peripheral nervous system, however in a CT study in dogs with brachial plexus and nerve roots neoplasms, calcification of the tumor was not observed. Most of benign cartilaginous tumors of soft tissue are chondromas/osteochondromas, and this lesion should not be confused with multiple osteochondroma or multiple cartilaginous exostoses, which have been reported as multifocal, proliferative lesions involving the surface of ribs, vertebrae and pelvis of young dogs. If this lesion is unique, it is called osteochondroma. There are two reports of chondromas into the first lumbar vertebrae of dogs, with adherence to the floor of the vertebral canal and one report of an osteochondroma originated from the left pedicle of T11 in a cat. Radiculopathy and myelopathy caused by osteochondromas inside the spine are rare in humans and description of this tumor arising from nerve roots were not found in the veterinary literature. Probably the origin of the mass was metaplasia of the meninges surrounding the nervous root. In conclusion, neurological examination, CT and surgical exploration allowed the diagnosis and removal of a soft tissue osteochondroma, a rare benign tumor, with good patient recovery.
Several surgical procedures aim to decompress and/or stabilize the lumbosacral (LS) joint of dogs; however, the lumbar interbody fusion technique, by using a cage combined with a bone graft, is the most indicated and used in human medicine. No specific implant is available for application to the canine lumbosacral joint. Thus, this study measured lumbosacral discs in large dogs, determined whether a human cage model could fit the dogs’ L7-S1 intervertebral space, and developed a LS cage prototype for dogs. Ten cadaveric lumbosacral spines from adult dog weighing 20-35kg were used. The dogs had died for reasons unrelated to this study. The vertebral body dimensions and the L7-S1 intervertebral space occupied by the intervertebral disc were measured by lateral and ventrodorsal radiographs and by computed tomography in the dorsal, sagittal, and transverse views. Measurements were also taken of the anatomical specimens in the sagittal and transverse planes. After measuring the intervertebral discs, the following mean measures were obtained for L7-S1 discs: height 12.23mm, dorsal thickness 3.3mm, central thickness 4mm, ventral thickness 5.5mm, and width 24.74mm. The human lumbar cage models from brands LDR, Baumer Orthopedics, Stryker, Synthes, and Vertebral Technologies, Inc. and cervical stabilization cages from the brands B-Braun and Stryker were evaluated and were found to be unsuitable for large dogs. Cervical human cages had measurements similar to those found in this study; however, due to their quadrangular shape, the possibility of being introduced surgically through the surgical accesses available for the articulation between L7-S1 in dogs without injuring the cauda equina or the L7 root is small. A cage model was then developed using 3D modelling software. It was designed for insertion via dorsal laminectomy in the lateral portions of the intervertebral space. To avoid cauda equina lesion, the implant model was developed to be placed laterally to the midline. The cage surface is serrated to prevent using the locking screw to fix it, thus avoiding further injury to nerve structures. The serrated surfaces are also designed to avoid cage migration and promote stability. The prototype allows graft placement in the surrounding intervertebral space, which is fundamental for fusion through integration between the cage and the endplates as well as for bone growth between and around the cage. It was also considered studies on humans showing that the lateral regions of the endplates support a more considerable load. Biomechanical and in vivo studies on the developed model are necessary to evaluate the actual degree of distraction, mobility and the long-term rate of fusion between L7 and S1 and its possible impact on the adjacent motor units, combined or not with dorsal fixation techniques.
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