2 resultados para BIBLIOGRAFIA

em Universidad Politécnica de Madrid


Relevância:

10.00% 10.00%

Publicador:

Resumo:

En el presente estudio se elabora un estado del arte del hormigon autosellante tomando como base fundamentalmente la publicacion de Van Tittleboom y De Belie referenciada en la bibliografia, ampliandolo con otras fuentes bibliograficas consultadas. En el se explica el concepto de solidez del autosellado, las diferentes posibilidades de autosellado disponibles, se analizan las ventajas e inconvenientes de los diferentes tipos de agentes de autosellado y tecnicas de encapsulado. Tambien se tratan los mecanismos a aplicar para activar el proceso, y se tienen en cuenta las propiedades recuperadas a causa del autosellado y las tecnicas empleadas para cuantificarlo.

Relevância:

10.00% 10.00%

Publicador:

Resumo:

The structural connectivity of the brain is considered to encode species-wise and subject-wise patterns that will unlock large areas of understanding of the human brain. Currently, diffusion MRI of the living brain enables to map the microstructure of tissue, allowing to track the pathways of fiber bundles connecting the cortical regions across the brain. These bundles are summarized in a network representation called connectome that is analyzed using graph theory. The extraction of the connectome from diffusion MRI requires a large processing flow including image enhancement, reconstruction, segmentation, registration, diffusion tracking, etc. Although a concerted effort has been devoted to the definition of standard pipelines for the connectome extraction, it is still crucial to define quality assessment protocols of these workflows. The definition of quality control protocols is hindered by the complexity of the pipelines under test and the absolute lack of gold-standards for diffusion MRI data. Here we characterize the impact on structural connectivity workflows of the geometrical deformation typically shown by diffusion MRI data due to the inhomogeneity of magnetic susceptibility across the imaged object. We propose an evaluation framework to compare the existing methodologies to correct for these artifacts including whole-brain realistic phantoms. Additionally, we design and implement an image segmentation and registration method to avoid performing the correction task and to enable processing in the native space of diffusion data. We release PySDCev, an evaluation framework for the quality control of connectivity pipelines, specialized in the study of susceptibility-derived distortions. In this context, we propose Diffantom, a whole-brain phantom that provides a solution to the lack of gold-standard data. The three correction methodologies under comparison performed reasonably, and it is difficult to determine which method is more advisable. We demonstrate that susceptibility-derived correction is necessary to increase the sensitivity of connectivity pipelines, at the cost of specificity. Finally, with the registration and segmentation tool called regseg we demonstrate how the problem of susceptibility-derived distortion can be overcome allowing data to be used in their original coordinates. This is crucial to increase the sensitivity of the whole pipeline without any loss in specificity.