Search results for "Bone Trabeculae"

showing 3 items of 3 documents

Trabecular trajectory in the articular processes of the human fourth cervical vertebra

2001

The articular processes (AP) of the neural arch have been implicated in weight transmission through the cervical spine. To analyse the mechanism of weight transmission in the AP, we studied the direction of forces within it, in particular, the pattern of trabecular trajectories. Twenty-two AP from C4 vertebrae were studied in anatomical sections, and corresponding photoelastic models from selected sections were constructed and analysed. Anatomical and photoelastic findings show the subarticular spongiosa of the superior articular process (SAP) to be orthogonally arranged with vertical and oblique trabeculae in the direction of compressive forces and additional trabeculae always oriented per…

AdultHistologyArticular processesAnterior wallModels BiologicalWeight-BearingmedicineHumansMolecular BiologyProcess (anatomy)Ecology Evolution Behavior and SystematicsAgedOblique caseCell BiologyAnatomyMiddle AgedCervical spineFourth cervical vertebraElasticitymedicine.anatomical_structureCervical VertebraeTrajectoryBone TrabeculaeAnatomyGeologyResearch ArticleDevelopmental BiologyJournal of Anatomy
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Histopathological and immunohistochemical aspects of bone tissue in aseptic necrosis of the femoral head

2021

Femoral head osteonecrosis, also known as avascular necrosis, is a disease with a multifactorial etiology, characterized by a profound change of bone architecture, which leads to the diminishing of bone resistance and femoral head collapse. The main causes that lead to femoral head necrosis are represented by the decrease of local blood perfusion and increase of intraosseous pressure, because of an excessive development of adipose tissue in the areolas of the trabecular bone tissue in the femoral head. The histopathological and immunohistochemical (IHC) study performed by us showed that most of bone trabeculae were damaged by necrotic-involutive processes, their sizes being reduced, both re…

EmbryologyPathologymedicine.medical_specialtymicrocirculationAdipose tissueAvascular necrosisBone tissueOsteocytesPathology and Forensic MedicineFemoral headFemur Head NecrosisBone cellmedicineHumansavascular necrosisEndosteumOriginal PaperAseptic necrosisbusiness.industryosteonecrosismicrofracturesFemur Headfemoral headCell BiologyGeneral Medicinemedicine.diseasemedicine.anatomical_structureAdipose TissueCancellous BoneBone TrabeculaebusinessDevelopmental BiologyRomanian Journal of Morphology and Embryology
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Three-dimensional distribution of trabecular bone density and cortical thickness in the distal humerus

2008

One major barrier to osteosynthesis in distal humeral fractures is poor bone quality. This study was an attempt to measure the bone quality in the distal humerus.We measured the distribution of total bone mineral density (BMD), trabecular BMD (tBMD), and cortical thickness (CTh) in the distal humerus using peripheral quantitive computed tomography. Four slices in the infracondylar, supracondylar, and distal disphyseal regions of 25 human cadaver humeri were investigated.Total BMD decreased continuously from the distal diaphysis to the trochlea. Within the infracondylar region, the capitellum was the region of lowest tBMD and CTh (P.001). Measurements in anterior regions were higher than in …

AdultMaleHumeral FracturesSensitivity and SpecificityAbsorptiometry PhotonImaging Three-DimensionalSex FactorsBone DensityCadaverElbow JointImage Interpretation Computer-AssistedCadaverConfidence IntervalsmedicineHumansOrthopedics and Sports MedicineHumerusQuantitative computed tomographyAgedProbabilityAged 80 and overBone mineralOsteosynthesismedicine.diagnostic_testbusiness.industryAge FactorsReproducibility of ResultsImplant failureGeneral MedicineAnatomyHumerusMiddle AgedDiaphysismedicine.anatomical_structureBone TrabeculaeFemaleSurgeryDiaphysesTomography X-Ray ComputedElbow InjuriesbusinessEpiphysesJournal of Shoulder and Elbow Surgery
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