. "Z(MSM0021630518)" . . "Florian, Zden\u011Bk" . . . . . . "Biomechanical Evaluation of the MACSTL Internal Fixator for Thoracic Spinal Stabilisation"@en . "26210" . . . . "RIV/00216305:26210/08:PU78790" . "Biomechanical Evaluation of the MACSTL Internal Fixator for Thoracic Spinal Stabilisation"@en . "ACTA VETERINARIA BRNO" . "358144" . . . . "Thoracic spine, unstable fractures, anterior approach, biomechanical study, swine, model"@en . "0001-7213" . "2"^^ . "4"^^ . "CZ - \u010Cesk\u00E1 republika" . "6"^^ . "Unstable fractures of the thoracic spine in humans represent a serious social and economic issue. They may lead to persistent consequences and chronic disease. The anatomical and biomechanical characteristics of the thoracic spine are different from all the other spinal parts due to its higher mobility. The vertebrae of the chest area are less mobile, conferring a higher degree of rigidity to the spine. To destabilize this relatively rigid system, a considerable force is necessary. The treatment of unstable spinal fractures is solely surgical. The decompression of the spinal canal with reposition and stabilisation of the fracture is indicated urgently. This intervention is performed mostly from the posterior approach in the first phase. However, the anterior spinal column is the structure responsible for the stability of the spine. Therefore, the recent advances in spine surgery focus on this area of expertise. For this reason, we carried out a bio-mechanical study aimed at assessing the effectiveness" . "Biomechanical Evaluation of the MACSTL Internal Fixator for Thoracic Spinal Stabilisation" . "1" . . "To\u0161ovsk\u00FD, Ji\u0159\u00ED" . "Biomechanical Evaluation of the MACSTL Internal Fixator for Thoracic Spinal Stabilisation" . "77" . "Vesel\u00FD, Radek" . "Wendsche, Peter" . "Unstable fractures of the thoracic spine in humans represent a serious social and economic issue. They may lead to persistent consequences and chronic disease. The anatomical and biomechanical characteristics of the thoracic spine are different from all the other spinal parts due to its higher mobility. The vertebrae of the chest area are less mobile, conferring a higher degree of rigidity to the spine. To destabilize this relatively rigid system, a considerable force is necessary. The treatment of unstable spinal fractures is solely surgical. The decompression of the spinal canal with reposition and stabilisation of the fracture is indicated urgently. This intervention is performed mostly from the posterior approach in the first phase. However, the anterior spinal column is the structure responsible for the stability of the spine. Therefore, the recent advances in spine surgery focus on this area of expertise. For this reason, we carried out a bio-mechanical study aimed at assessing the effectiveness"@en . "[3943C8478695]" . "RIV/00216305:26210/08:PU78790!RIV10-MSM-26210___" . . . . . .