We propose a novel registration method that uses a patient-specif

We propose a novel registration method that uses a patient-specific biomechanical model acquired using magnetic resonance elastography to deform the in vivo volume and match it to the surface of the ex vivo specimen. The forces that drive the deformations are derived

from a region-based energy, with the elastic potential used for regularization. The incorporation of elastography data into the registration framework allows inhomogeneous elasticity to be assigned to the in vivo volume. We show that such inhomogeneity improves the registration results by providing a physical regularization of the deformation map. The method is demonstrated and evaluated on six clinical cases.”
“Aicardi syndrome is a rare congenital disorder with a classic triad of infantile spasms, chorioretinal lacunae, and agenesis of the corpus callosum. We report the use of fluorescein angiography and spectral domain Selleckchem GSK1838705A optical coherence tomography to examine the posterior segment structures in an 8-month-old girl with Aicardi syndrome. Most of the observed features correlated with previously published histopathological findings, but inner nuclear

layer cysts have not been previously described. To our knowledge, this is the first study of the tomographic and angiographic chorioretinal features in vivo.”
“Inhomogeneous polyelectrolyte materials have been of both longstanding and recent interest; polymer blends exhibit technologically advantageous properties for adhesives and fuel cell membranes and serve as an ideal model MCC950 solubility dmso system to study more complicated behaviors in polyelectrolyte

materials. However, the physics governing the phase behavior of polyelectrolyte blends remains poorly understood. Traditional self-consistent field theory (SCFT) can include Coulombic interactions that arise in polyelectrolytes but can only reproduce Poisson-Boltzmann behavior or perturbations thereof due to the mean-field nature of the SCFT calculation. Recently, tools have been developed to couple SCFT with selleck compound liquid state (LS) integral equation theory, which can calculate ion correlations in a quantitative fashion. This permits the articulation of ion effects in very low dielectric epsilon(r) constant regimes that are relevant to polymer blends in nonaqueous conditions. We show that the inclusion of local ion correlations can give rise to marked enhancement of phase separation, contrary to theories invoking the Poisson-Boltzmann approximation, even to the extent of driving phase separation when two polymers are fully miscible (chi N = 0). We provide both a demonstration of this effect as well as a conceptual explanation.”
“We report on structural, electronic, and optical properties of boron-doped, hydrogenated nanocrystalline silicon (nc-Si:H) thin films deposited by plasma-enhanced chemical vapor deposition (PECVD) at a substrate temperature of 150 degrees C. Film properties were studied as a function of trimethylboron-to-silane ratio and film thickness.

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