D
Daniel Pascual
Researcher at Spanish National Research Council
Publications - 23
Citations - 950
Daniel Pascual is an academic researcher from Spanish National Research Council. The author has contributed to research in topics: Lens (optics) & Presbyopia. The author has an hindex of 10, co-authored 21 publications receiving 764 citations. Previous affiliations of Daniel Pascual include University of Salamanca.
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Journal ArticleDOI
Tumor infiltrating immune cells in gliomas and meningiomas
Patrícia Domingues,María González-Tablas,Álvaro Otero,Daniel Pascual,David Miranda,Laura Ruiz,Pablo Sousa,Juana Ciudad,Jesús María Gonçalves,Maria do Carmo Lopes,Alberto Orfao,María Dolores Tabernero +11 more
TL;DR: Current knowledge about tumor-infiltrating immune cells in the two most common types of CNS tumors-gliomas and meningiomas are summarized, as well as the role that such immune cells may play in the tumor microenvironment in controlling and/or promoting tumor development, growth and control.
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Optical distortion correction in Optical Coherence Tomography for quantitative ocular anterior segment by three-dimensional imaging
Sergio Ortiz,Damian Siedlecki,Ireneusz Grulkowski,Laura Remón,Daniel Pascual,Maciej Wojtkowski,Susana Marcos +6 more
TL;DR: The application of 3-D optical distortion correction increased significantly both the accuracy of the radius of curvature estimates and particularly asphericity of the surfaces, with respect to conventional methods of OCT image analysis.
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Dynamic OCT measurement of corneal deformation by an air puff in normal and cross-linked corneas.
TL;DR: It is confirmed non-invasively that Riboflavin and UV-cross-linking induce changes in the corneal biomechanical properties, and those differences appear to be the result of changes in constituent properties of the cornea, and not a consequence ofChanges in Corneal thickness, geometry or IOP.
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Corneal viscoelastic properties from finite-element analysis of in vivo air-puff deformation.
TL;DR: A viscoelastic finite element model was built that predicts the experimental corneal deformation response to an air-puff for different conditions and shows the capability of dynamic imaging to reveal inherent biomechanical properties in vivo.
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Longitudinal chromatic aberration of the human eye in the visible and near infrared from wavefront sensing, double-pass and psychophysics.
TL;DR: Results indicate that the presence of natural aberrations is not the cause for the discrepancies across techniques, and LCA measured psychophysically was significantly higher than that from reflectometric techniques.