Factores asociados a la enfermedad discal lumbar de origien laboral calificados por la junta de calificación de invalidez regional de Meta, entre 2001 y 2014

La enfermedad de disco lumbar de origen laboral se presenta como una patología frecuente a nivel mundial en la masa trabajadora de diferentes sectores económicos expuesta a factores de riesgo biomecánico, afectando negativamente a la persona como ser individual y social, y repercutiendo en las economías en diferentes niveles. Objetivo Establecer la prevalencia de los factores de riesgo biomecánico en los casos con diagnóstico de enfermedad de disco lumbar calificados como enfermedad de origen laboral por la Junta Regional de Calificación de Invalidez del Meta, en el período comprendido entre 2011 a 2014, explorando la asociación entre los factores sociodemográficos y laborales. Metodología: Estudio de corte transversal con información retrospectiva de historias clínicas de pacientes con enfermedad de disco lumbar calificados de origen laboral, entre el 2011 – 2014. Resultados: La prevalencia de los factores de riesgo biomecánico fue: flexión columna con 94.1%, caminando durante la mayor parte de la jornada laboral 51.7%, levantar y/o depositar manualmente objetos 53.4%, manipulación de carga mayor a 25 kg, 49.2% y vibración cuerpo entero más de 4 horas 16.9%. Estos factores fueron mayores en trabajadores de obras civiles y manipuladores de materiales con 20.3%, en actividades económicas de servicios con 33.1% y construcción 21.2%. Se encontró asociación estadísticamente significativa de la enfermedad de disco lumbar con el género y la exposición a vibración/impacto cuerpo entero. Conclusión: Los factores de riesgo biomecánico como la posición de la columna vertebral en flexión, el levantamiento y depósito de carga, la manipulación de peso mayor a 15 kgs, la postura de cuerpo caminando, la exposición a vibración a cuerpo entero, y el tiempo de exposición, son elementos fundamentales a tener en cuenta en el proceso de calificación de origen de la enfermedad discal lumbar.

Desenvolvimento de dispositivos para realização de testes in vitro em coluna vertebral

Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES)

Aspectos ergonômicos do levantamento manual de carga em mulheres: relação com equação de NIOSH

Pós-graduação em Engenharia Mecânica - FEG

Acupuntura no tratamento de discopatias intervertebrais em cães

The intervertebral disc disease is considered a major neurological disorder involving the spinal cord, being a disease commonly seen in dogs in clinical practice of small animals. The pathophysiology of most discopathies have not been fully elucidated, but it is known that the symptoms observed will depend on the severity of spinal cord compression and location of spinal injury, ranging from localized pain to complete paralysis. Through a detailed clinical examination and laboratory tests, we choose the most appropriate treatment for each patient, which can be conservative, through the use of anti-inflammatories, analgesics and acupuncture or surgical, through decompression techniques. Acupuncture, therapeutic method of ancient Chinese medicine, uses the stimulation of specific points on the body in order to balance the body's physiological. The action mechanism of acupuncture in discopathies has not been fully elucidated, but its analgesic effects, anti-inflammatory and restoration of sensory and motor function are known, showing results as good as surgical therapy

Mielografia e tomografia computadorizada de afecções compressivas da medula espinhal em cães

Pós-graduação em Cirurgia Veterinária - FCAV

Avaliação das técnicas cirúrgicas para tratamento da mielorradiculopatia espondilótica cervical

OBJETIVO: Avaliar a eficácia do tratamento cirúrgico da mielorradiculopatia espondilótica cervical na produção de melhora neurológica pós-operatória, aferida em pontos pela escala da JOA e taxa de recuperação e as complicações do tratamento. MÉTODOS: Análise dos prontuários e os exames de imagem de 200 indivíduos submetidos a tratamento cirúrgico da mielorradiculopatia cervical no HC-FMUSP, no período de janeiro de 1993 a janeiro de 2007. A avaliação clínica foi quantificada pela escala da JOA, com média de segmento de 06 anos e 08 meses. RESULTADOS: Evidenciou-se melhora neurológica pós-operatória nas vias anterior e posterior, exceto nas laminectomias sem fusão, onde houve piora neurológica tardia. A via anterior mostrou um significante maior índice de complicações, relacionados a déficit de fusão intervertebral, deslocamento de enxerto, síndrome de disco adjacente, disfonia, disfagia, o mau posicionamento de enxerto e placas, lesão de raiz nervosa e significativo maior índice de re-intervenção cirúrgica. Na via posterior maior ocorrência de instabilidade em cifose pós-operatória na laminectomia, não sendo observada na laminoplastia, esta última com índices semelhantes aos encontrados na via anterior. Não houve melhora da dor axial nas laminoplastias e houve piora nas laminectomias, enquanto que nas discectomias e corpectomias houve significativa melhora do sintoma. CONCLUSÃO: As vias anterior e posterior foram eficazes em produzir melhora neurológica, exceto as laminectomias sem fusão. A via anterior produziu mais complicações, mas trata melhor a dor.

Differential response of Human Bone Marrow Stromal Cells to either TGF-β1 or to rhGDF-5

Cell therapy along with growth factor injection is currently widely investigated to restore the intervertebral disc. However, there is increasing evidence that transplanted unconditioned bone marrow-derived stromal cells (BMSCs) cannot thrive in the intervertebral disc "niche". Moreover, uncertainty exists with respect to the cell phenotype that would be suitable to inject. The intervertebral disc cell phenotype only recently has been started to be characterised using transcriptomics profiling. Recent findings suggest that cytokeratin 19 (KRT-19) could be used as a potential candidate marker for the intervertebral disc, or more specifically the nucleus pulposus cell (NPC) phenotype. We present in vitro cell culture data using alginate bead culture of primary human BMSCs exposed to the standard chondrogenic stimulus, transforming growth factor beta-1 (TGF-β), the growth and differentiation factor 5 and/or bovine NPCs to induce a potential "discogenic" pathway. Chondrogenic induction via TGF-β pathway provoked down-regulation of KRT-19 gene expression in four out of five donors after 18 days of culture, whereas KRT-19 expression remained unchanged in the "discogenic" groups. In addition, the ratio of aggrecan/collagen II gene expression showed a remarkable difference (of at least 3 magnitudes) between the chondrogenic stimulus (low ratio) and the discogenic stimulus (high ratio). Therefore, KRT-19 and aggrecan/collagen II ratio may be potential markers to distinguish chondrogenic from "discogenic" differentiation.

Confocal imaging protocols for live/dead staining in three-dimensional carriers

In tissue engineering, a variety of methods are commonly used to evaluate survival of cells inside tissues or three-dimensional (3D) carriers. Among these methods confocal laser scanning microscopy opened accessibility of 3D tissue using live cell imaging into the tissue or 3D scaffolds. However, although this technique is ideally applied to 3D tissue or scaffolds with thickness up to several millimetres, this application is surprisingly rare and scans are often done on slices with thickness <20 μm. Here, we present novel protocols for the staining of 3D tissue (e.g. intervertebral disc tissue) and scaffolds, such as fibrin gels or alginate beads.

Hydrogels for nucleus replacement—Facing the biomechanical challenge

Hydrogels are considered promising for disc regeneration strategies. However, it is currently unknown whether the destruction of the natural interface between nucleus and surrounding structures caused by nucleotomy and an inadequate annulus closure diminishes the mechanical competence of the disc. This in vitro study aimed to clarify these mechanisms and to evaluate whether hydrogels are able to restore the biomechanical behaviour of the disc. Nucleus pressure in an ovine intervertebral disc was measured in vivo during day and night and adapted to an in vitro axial compressive diurnal (15min) and night (30min) load. Effects of different defects on disc height and nucleus pressure were subsequently measured in vitro using 30 ovine motion segments. Following cases were considered: intact; annulus incision repaired by suture and glue; annulus incision with removal and re-implantation of nucleus tissue; and two different hydrogels repaired by suture and glue. The intradiscal pressure in vivo was 0.75MPa during day and 0.5MPa during night corresponding to an in vitro axial compressive force of 130 and 58N, respectively. The compression test showed that neither the implantation of hydrogels nor the re-implantation of the natural nucleus, assumed as being the ideal implant, was able to restore the mechanical functionality of an intact disc. Results indicate the importance of the natural anchorage of the nucleus with its surrounding structures and the relevance of an appropriate annulus closure. Therefore, hydrogels that are able to mimic the mechanical behaviour of the native nucleus may fail in restoring the mechanical behaviour of the disc.

Stochastic amplitude-modulated stretching of Rabbit flexor digitorum profundus tendons reduces stiffness compared to Cyclic Loading but does not affect Tenocyte Metabolism

Background It has been demonstrated that frequency modulation of loading influences cellular response and metabolism in 3D tissues such as cartilage, bone and intervertebral disc. However, the mechano-sensitivity of cells in linear tissues such as tendons or ligaments might be more sensitive to changes in strain amplitude than frequency. Here, we hypothesized that tenocytes in situ are mechano-responsive to random amplitude modulation of strain. Methods We compared stochastic amplitude-modulated versus sinusoidal cyclic stretching. Rabbit tendon were kept in tissue-culture medium for twelve days and were loaded for 1h/day for six of the total twelve culture days. The tendons were randomly subjected to one of three different loading regimes: i) stochastic (2 – 7% random strain amplitudes), ii) cyclic_RMS (2–4.42% strain) and iii) cyclic_high (2 - 7% strain), all at 1 Hz and for 3,600 cycles, and one unloaded control. Results At the end of the culture period, the stiffness of the “stochastic” group was significantly lower than that of the cyclic_RMS and cyclic_high groups (both, p < 0.0001). Gene expression of eleven anabolic, catabolic and inflammatory genes revealed no significant differences between the loading groups. Conclusions We conclude that, despite an equivalent metabolic response, stochastically stretched tendons suffer most likely from increased mechanical microdamage, relative to cyclically loaded ones, which is relevant for tendon regeneration therapies in clinical practice.

Complications related to cement leakage in sacroplasty

Data concerning the safety of sacroplasty in terms of cement leakage is scarce. Frequency, distribution patterns and clinical consequences of cement leakage were assessed in 33 patients (28 female, mean age: 74 +/- 10 yrs; bilateral SIF: n = 30, 63 sacroplasties) treated with sacroplasty between 06/2003 and 11/2010 in a retrospective study using patients' records, operative notes and postoperative radiographs. Cement leakage was noted within the fracture gap (27%), into veins (6%), neuroforamina (3%) or in the intervertebral disc space L5/S1 (2%). In one patient, cement leakage into the fracture gap led to unilateral radiculopathy of the 5th lumbar nerve root. Leakage into the fracture gap is at high risk of affecting the 5th lumbar nerve root due to the special course of its ventral branch over the sacral promontory. The risks of cement leakage with neurological impairment should be explained to patients.

The evolutionary importance of cell ratio between notochordal and nucleus pulposus cells: an experimental 3-D co-culture study

Notochordal cells and nucleus pulposus cells are co-existing in the intervertebral disc at various ratios among different mammalians. This fact rises the question about the interactions and the evolutionary relevance of this phenomenon. It has been described that these relatively large notochordal cells are mainly dominant in early lifetime of all vertebrates and then differences occur with ageing. Human, cattle, sheep, and goat lose the cells with age, whereas rodents and lagomorphs maintain these throughout their lifetime.

Biomechanical analysis of torsion and shear forces in lumbar and lumbosacral spine segments of nonchondrodystrophic dogs

OBJECTIVE: To determine stiffness and load-displacement curves as a biomechanical response to applied torsion and shear forces in cadaveric canine lumbar and lumbosacral specimens. STUDY DESIGN: Biomechanical study. ANIMALS: Caudal lumbar and lumbosacral functional spine units (FSU) of nonchondrodystrophic large-breed dogs (n=31) with radiographically normal spines. METHODS: FSU from dogs without musculoskeletal disease were tested in torsion in a custom-built spine loading simulator with 6 degrees of freedom, which uses orthogonally mounted electric motors to apply pure axial rotation. For shear tests, specimens were mounted to a custom-made shear-testing device, driven by a servo hydraulic testing machine. Load-displacement curves were recorded for torsion and shear. RESULTS: Left and right torsion stiffness was not different within each FSU level; however, torsional stiffness of L7-S1 was significantly smaller compared with lumbar FSU (L4-5-L6-7). Ventral/dorsal stiffness was significantly different from lateral stiffness within an individual FSU level for L5-6, L6-7, and L7-S1 but not for L4-5. When the data from 4 tested shear directions from the same specimen were pooled, level L5-6 was significantly stiffer than L7-S1. CONCLUSIONS: Increased range of motion of the lumbosacral joint is reflected by an overall decreased shear and rotational stiffness at the lumbosacral FSU. CLINICAL RELEVANCE: Data from dogs with disc degeneration have to be collected, analyzed, and compared with results from our chondrodystrophic large-breed dogs with radiographically normal spines.