Your search keyword '"Christopher J, Fong"' showing total 3 results

1. Digital optical tomography system for dynamic breast imaging

Author

Rabah M. Al abdi, Andreas H. Hielscher, Hyun K. Kim, Dawn L. Hershman, Molly Lara Flexman, Michael A. Khalil, Elise Desperito, Randall L. Barbour, and Christopher J. Fong

Subjects

Adult, Diagnostic Imaging, medicine.medical_specialty, Computer science, Breast imaging, Dynamic imaging, Research Papers: Imaging, Biomedical Engineering, Image processing, Breast Neoplasms, Biomaterials, User-Computer Interface, Breast cancer, Imaging, Three-Dimensional, medicine, Medical imaging, Image Processing, Computer-Assisted, Humans, Tomography, Optical, Breast, Optical tomography, Optical Fibers, medicine.diagnostic_test, Carcinoma, Ductal, Breast, Hemodynamics, Signal Processing, Computer-Assisted, Equipment Design, Middle Aged, medicine.disease, Frame rate, Atomic and Molecular Physics, and Optics, Diffuse optical imaging, Electronic, Optical and Magnetic Materials, Respiratory Mechanics, Female, Radiology, Biomedical engineering

Abstract

Diffuse optical tomography has shown promising results as a tool for breast cancer screening and monitoring response to chemotherapy. Dynamic imaging of the transient response of the breast to an external stimulus, such as pressure or a respiratory maneuver, can provide additional information that can be used to detect tumors. We present a new digital continuous-wave optical tomography system designed to simultaneously image both breasts at fast frame rates and with a large number of sources and detectors. The system uses a master-slave digital signal processor-based detection architecture to achieve a dynamic range of 160 dB and a frame rate of 1.7 Hz with 32 sources, 64 detectors, and 4 wavelengths per breast. Included is a preliminary study of one healthy patient and two breast cancer patients showing the ability to identify an invasive carcinoma based on the hemodynamic response to a breath hold.

Published

2011

2. Dynamic optical imaging of vascular and metabolic reactivity in rheumatoid joints

Author

Andreas H. Hielscher, Daniel Thomas Ginat, Edward M. Dwyer, Joseph M. Lasker, and Christopher J. Fong

Subjects

Pathology, medicine.medical_specialty, Metabolic Clearance Rate, Dynamic imaging, Biomedical Engineering, Iterative reconstruction, Arthritis, Rheumatoid, Biomaterials, Hemoglobins, Optical imaging, Finger Joint, Image Interpretation, Computer-Assisted, Humans, Medicine, Optical tomography, Image restoration, Tomographic reconstruction, medicine.diagnostic_test, business.industry, medicine.disease, Atomic and Molecular Physics, and Optics, Electronic, Optical and Magnetic Materials, Rheumatoid arthritis, Tomography, business, Biomarkers, Blood Flow Velocity, Biomedical engineering

Abstract

Dynamic optical imaging is increasingly applied to clinically relevant areas such as brain and cancer imaging. In this approach, some external stimulus is applied and changes in relevant physiological parameters (e.g., oxy- or deoxyhemoglobin concentrations) are determined. The advantage of this approach is that the prestimulus state can be used as a reference or baseline against which the changes can be calibrated. Here we present the first application of this method to the problem of characterizing joint diseases, especially effects of rheumatoid arthritis (RA) in the proximal interphalangeal finger joints. Using a dual-wavelength tomographic imaging system together with previously implemented model-based iterative image reconstruction schemes, we have performed initial dynamic imaging case studies on a limited number of healthy volunteers and patients diagnosed with RA. Focusing on three cases studies, we illustrated our major finds. These studies support our hypothesis that differences in the vascular reactivity exist between affected and unaffected joints.

Published

2007

3. Dynamic optical imaging of vascular and metabolic reactivity in rheumatoid joints.

Author

Joseph M. Lasker, Christopher J. Fong, Daniel T. Ginat, Edward Dwyer, and Andreas H. Hielscher

Subjects

IMAGING systems, MEDICAL imaging systems, RHEUMATOID arthritis, TOMOGRAPHY

Abstract

Dynamic optical imaging is increasingly applied to clinically relevant areas such as brain and cancer imaging. In this approach, some external stimulus is applied and changes in relevant physiological parameters (e.g., oxy- or deoxyhemoglobin concentrations) are determined. The advantage of this approach is that the prestimulus state can be used as a reference or baseline against which the changes can be calibrated. Here we present the first application of this method to the problem of characterizing joint diseases, especially effects of rheumatoid arthritis (RA) in the proximal interphalangeal finger joints. Using a dual-wavelength tomographic imaging system together with previously implemented model-based iterative image reconstruction schemes, we have performed initial dynamic imaging case studies on a limited number of healthy volunteers and patients diagnosed with RA. Focusing on three cases studies, we illustrated our major finds. These studies support our hypothesis that differences in the vascular reactivity exist between affected and unaffected joints. [ABSTRACT FROM AUTHOR]

Published

2007