Near-Infrared Confocal Raman Spectroscopy for Real-Time Diagnosis of Cervical Precancer

Ph.DDOCTOR OF PHILOSOPH

Ultra-high-speed imaging of bubbles interacting with cells and tissue

Ultrasound contrast microbubbles are exploited in molecular imaging, where bubbles are directed to target cells and where their high-scattering cross section to ultrasound allows for the detection of pathologies at a molecular level. In therapeutic applications vibrating bubbles close to cells may alter the permeability of cell membranes, and these systems are therefore highly interesting for drug and gene delivery applications using ultrasound. In a more extreme regime bubbles are driven through shock waves to sonoporate or kill cells through intense stresses or jets following inertial bubble collapse. Here, we elucidate some of the underlying mechanisms using the 25-Mfps camera Brandaris128, resolving the bubble dynamics and its interactions with cells. We quantify acoustic microstreaming around oscillating bubbles close to rigid walls and evaluate the shear stresses on nonadherent cells. In a study on the fluid dynamical interaction of cavitation bubbles with adherent cells, we find that the nonspherical collapse of bubbles is responsible for cell detachment. We also visualized the dynamics of vibrating microbubbles in contact with endothelial cells followed by fluorescent imaging of the transport of propidium iodide, used as a membrane integrity probe, into these cells showing a direct correlation between cell deformation and cell membrane permeability

Medical Image Registration: Statistical Models of Performance in Relation to the Statistical Characteristics of the Image Data

For image-guided interventions, the imaging task often pertains to registering preoperative and intraoperative images within a common coordinate system. While the accuracy of the registration is directly tied to the accuracy of targeting in the intervention (and presumably the success of the medical outcome), there is relatively little quantitative understanding of the fundamental factors that govern image registration accuracy. A statistical framework is presented that relates models of image noise and spatial resolution to the task of registration, giving theoretical limits on registration accuracy and providing guidance for the selection of image acquisition and post-processing parameters. The framework is further shown to model the confounding influence of soft-tissue deformation in rigid image registration — accurately predicting the reduction in registration accuracy and revealing similarity metrics that are robust against such effects. Furthermore, the framework is shown to provide conceptual guidance in the development of a novel CT-to-radiograph registration method that accounts for deformation. The work also examines a learning-based method for deformable registration to investigate how the statistical characteristics of the training data affect the ability of the model to generalize to test data with differing statistical characteristics. The analysis provides insight on the benefits of statistically diverse training data in generalizability of a neural network and is further applied to the development of a learning-based MR-to-CT synthesis method. Overall, the work yields a quantitative approach to theoretically and experimentally relate the accuracy of image registration to the statistical characteristics of the image data, providing a rigorous guide to the development of new registration methods

Proceedings of the 2018 Canadian Society for Mechanical Engineering (CSME) International Congress

Published proceedings of the 2018 Canadian Society for Mechanical Engineering (CSME) International Congress, hosted by York University, 27-30 May 2018

Evaluation of the region-specific risks of accidental radioactive releases from the European Spallation Source

The European Spallation Source (ESS) is a neutron research facility under construction in southern Sweden. The facility will produce a wide range ofradionuclides that could be released into the environment. Some radionuclides are of particular concern such as the rare earth gadolinium-148. In this article, the local environment was investigated in terms of food production and rare earth element concentration in soil. The collected data will later be used to model thetransfer of radioactive contaminations from the ESS

Abstracts of manuscripts submitted in 1993 for publication

This volume contains the abstracts of manuscripts submitted for publication during calendar year 1993 by the staff and students of the Woods Hole Oceanographic Institution. We identify the journal of those manuscripts which are in press or have been published. The volume is intended to be informative, but not a bibliography. The abstracts are listed by title in the Table of Contents and ar grouped into one of our five departents, Marine Policy Center, Coastal Research Center, or the student category. An author index is presented in the back to facilitate locating specific papers