MOHAMMAD IZADIFAR THESIS

A generalized diffusion mathematical model taking into account three major particle geometries was developed and coupled with genetic algorithm for determination of effective diffusivity and partition coefficient through an inverse simulation approach. To this end, the patches were created from alginate strands using the three-dimensional 3D printing technique and then surgically implanted on rat hearts for the assessment based on phase contrast tomography. The third objective is to develop novel mathematical models to represent the controlled-release of bioactive agents from nanoparticles. Quartersquares, now set to, different weights for grid lines, rectangles or triangles. The imaging of samples was performed at various sample-to-detector distances, CT-scan time, and areas of the region of interest ROI to examine their effects on imaging quality. To address these issues, the present research aims to develop nanoparticles to modulate the temporal control of GF release in cardiac patches, and to develop synchrotron X-ray phase contrast tomography for visualization and quantitative assessment of 3D-printed cardiac patch implanted in a rat MI model, with four specific objectives presented below.

Collections Electronic Theses and Dissertations. Metadata Show full item record. Abstract Myocardial infarction MI is the most common cause of heart failure. Taken together, this research represents a significant advance in cardiac tissue engineering by developing novel nano-guided approaches for vascularization in myocardium regeneration as well as non-invasive and quantitative monitoring techniques for longitudinal studies on the cardiac patch implanted in animal model and eventually in human patients. The first research objective is to optimize nanoparticle-fabrication process in terms of particle size, polydispersity, loading capacity, zeta potential and morphology. Colored pencils a unique sheet of graph paper were used to create this quilt design.

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The fourth objective of this research is to develop a synchrotron-based phase contrast non-invasive imaging technique for visualization and quantitative assessment of cardiac patch implanted in a rat MI model.

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The third objective is to develop novel mathematical models to represent the controlled-release of bioactive agents from nanoparticles.

mohammad izadifar thesis

JavaScript is disabled for your browser. Kittys pattern mkhammad this gorgeous cover for the Quilters Planner will be available at m very soon. Journal of Synchrotron Radiation 21 4 Pick from 5 different dot styles 2 dot patterns. Optically erasable samarium-doped fluorophosphate glasses for high-dose measurements in microbeam radiation therapy. One aim of cardiac tissue engineering is to develop implantable constructs e.

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Abstract Omhammad infarction MI is the most common cause of heart failure. JavaScript is disabled for your browser. Pseudomonas aeruginosa triggers CFTR-mediated airway surface liquid secretion in swine trachea.

mohammad izadifar thesis

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mohammad izadifar thesis

Metadata Show full item record. Applying the optimum conditions obtained from batch experiments, the potential of RF heating for providing a uniform ,ohammad in the packed bed was evaluated. To this end, vascularization in these constructs is of great importance and theais key issue involved is the spatiotemporal control of growth-factor GF -release profiles.

International Journal of Paleopathology 6, Tissue Engineering – Part C: To this end, the patches were created from alginate strands using the three-dimensional 3D printing technique and then surgically implanted on rat hearts for the assessment based on phase contrast tomography.

To address these issues, the present research aims to develop nanoparticles to modulate the temporal control of GF release in cardiac patches, and to develop synchrotron X-ray phase contrast tomography for visualization and quantitative assessment of 3D-printed cardiac patch implanted in a rat MI model, with four specific objectives presented below.

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Journal of Medical Imaging and Radiation Sciences 45 3 Print graph paper for quilt dont like the lines on your graph paper to interfere with your drawing, then the Minimalist Graph Paper below is for you! Phase-retrieved images depict visible and quantifiable structural details of the patch at low radiation dose, which, however, are not seen from the images by means of dual absorption-phase and a 3T clinical magnetic resonance imaging.

Radio Frequency Enhanced Extraction of an Anti-Cancer Compound from Porous Media

Author Izadifar, Tbesis One aim of cardiac tissue engineering is to develop implantable constructs e. Mobammad fourth objective of this research is to develop a synchrotron-based phase contrast non-invasive imaging technique for visualization and quantitative assessment tthesis cardiac patch implanted in a rat MI model.

Development of a bent Laue beam-expanding double-crystal monochromator izadifaf biomedical X-ray imaging. Taken together, this research represents a significant advance in cardiac tissue engineering by developing novel nano-guided approaches for vascularization in myocardium regeneration as well as non-invasive and quantitative monitoring techniques for longitudinal studies on the cardiac patch implanted in animal model and eventually in human patients.

Phase-retrieved images depict visible and quantifiable structural details of the patch at low radiation dose, which, however, are not seen from the images by means of dual absorption-phase and a 3T clinical magnetic resonance imaging. To achieve this objective, a comprehensive experimental study was performed to examine various process parameters used in the fabrication of poly lactide-co-glycolide PLGA nanoparticles, along with the development of a novel computational approach for the nanoparticle-fabrication optimization.

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