Your search keyword '"Christopher J, Fong"' showing total 63 results

51. Reliability analysis of a passive cooling system using a response surface with an application to the flexible conversion ratio reactor

Author

Neil E. Todreas, Dustin R. Langewisch, Pavel Hejzlar, George E. Apostolakis, Michael J. Driscoll, and Christopher J. Fong

Subjects

Nuclear and High Energy Physics, Engineering, Propagation of uncertainty, business.industry, Passive cooling, Mechanical Engineering, Nuclear engineering, Blackout, Mechanical engineering, Heat sink, Nuclear Energy and Engineering, medicine, Water cooling, General Materials Science, Sensitivity (control systems), Transient (oscillation), medicine.symptom, Safety, Risk, Reliability and Quality, business, Waste Management and Disposal, Reliability (statistics)

Abstract

A risk-informed methodology is applied to the selection of an ultimate heat sink for a Passive Secondary Auxiliary Cooling System. The reliability of the chosen design during the bounding transient, a station blackout, is calculated. The methodology considers both active component failures and the potential for inadequate cooling due to adverse thermal–hydraulic conditions. A response surface is developed as a surrogate for the thermal–hydraulic code and used for uncertainty propagation. The uncertainty introduced by the use of the response surface itself is explored. Two sensitivity studies are performed. The first study measures the sensitivity of peak clad temperature to initial ambient conditions and system degradation. The second study explores the sensitivity of system reliability to code error.

Published

2009

52. Characterizing infantile hemangiomas with a near-infrared spectroscopic handheld wireless device

Author

Molly Lara Flexman, Christopher J. Fong, Maria C. Garzon, Andreas H. Hielscher, Gerald Behr, Nina K. Antonov, Jennifer W. Hoi, Hyun K. Kim, and Lauren Geller

Subjects

medicine.medical_specialty, business.industry, Near-infrared spectroscopy, Skin surface, medicine, Tissue oxygen, Radiology, Hypoxia (medical), medicine.symptom, business, Lead (electronics), Total hemoglobin, Hypoxic stress

Abstract

Infantile hemangiomas (IH) are common vascular growths that occur in 5-10% of neonates and have the potential to cause disfiguring and even life-threatening complications. Currently, no objective tool exist to monitor either progression or treatment of IH. To address this unmet clinical need, we have developed a handheld wireless device (HWD) that uses diffuse optical spectroscopy for the assessment of IH. The system employs 4 wavelengths (l=780nm, 805nm, 850nm, and 905nm) and 6 source-detector pairs with distances between 0.6 and 20 mm. Placed on the skin surface, backreflection data is obtained and a multispectral evolution algorithm is used to determine total hemoglobin concentration and tissue oxygen saturation. First results of an ongoing pilot study involving 13 patients (average enrollment age = 25 months) suggest that an increase in hypoxic stress over time can lead to the proliferation of IH. Involuting IH lesions showed an increase in tissue oxygen saturation as well as a decrease in total hemoglobin.

Published

2015

53. Non-contact continuous-wave diffuse optical tomographic system to capture vascular dynamics in the foot

Author

Jennifer W. Hoi, Christopher J. Fong, Hyun K. Kim, Michael A. Khalil, Gautam Shrikhande, Alessandro Marone, and Andreas H. Hielscher

Subjects

Tomographic reconstruction, Optical fiber, medicine.diagnostic_test, business.industry, Dynamic imaging, Blood flow, Imaging phantom, Diffuse optical imaging, Collimated light, law.invention, Optics, law, medicine, sense organs, Optical tomography, business, Biomedical engineering

Abstract

Dynamic optical tomographic imaging has shown promise in diagnosing and monitoring peripheral arterial disease (PAD), which affects 8 to 12 million in the United States. PAD is the narrowing of the arteries that supply blood to the lower extremities. Prolonged reduced blood flow to the foot leads to ulcers and gangrene, which makes placement of optical fibers for contact-based optical tomography systems difficult and cumbersome. Since many diabetic PAD patients have foot wounds, a non-contact interface is highly desirable. We present a novel non-contact dynamic continuous-wave optical tomographic imaging system that images the vasculature in the foot for evaluating PAD. The system images at up to 1Hz by delivering 2 wavelengths of light to the top of the foot at up to 20 source positions through collimated source fibers. Transmitted light is collected with an electron multiplying charge couple device (EMCCD) camera. We demonstrate that the system can resolve absorbers at various locations in a phantom study and show the system’s first clinical 3D images of total hemoglobin changes in the foot during venous occlusion at the thigh. Our initial results indicate that this system is effective in capturing the vascular dynamics within the foot and can be used to diagnose and monitor treatment of PAD in diabetic patients.

Published

2015

54. Optical Infantile Hemangiomas Assessment with a Handheld Wireless Near-Infrared Spectroscopic Device

Author

Christopher J. Fong, Jennifer W. Hoi, Molly Lara Flexman, Maria C. Garzon, Hyun K. Kim, Andreas H. Hielscher, Lauren Geller, and Nina K. Antonov

Subjects

business.industry, health care facilities, manpower, and services, education, Near-infrared spectroscopy, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, equipment and supplies, eye diseases, Optical imaging, Infantile hemangioma, Medicine, Wireless, business, human activities, Near infrared radiation, Biomedical engineering

Abstract

A handheld wireless device has been developed to assess the progression of infantile hemangioma lesions. Results from an on-going pilot study are presented.

Published

2014

55. A fast full-body fluorescence/bioluminescence imaging system for small animals

Author

Jong Hwan Lee, Andreas H. Hielscher, Jingfei Jia, Hyun K. Kim, and Christopher J. Fong

Subjects

Surface (mathematics), medicine.diagnostic_test, Computer science, business.industry, Magnetic resonance imaging, Conical surface, Fluorescence, Optical imaging, Optics, Reflection (physics), medicine, Bioluminescence imaging, Computer vision, Artificial intelligence, Optical tomography, Luminescence, business, Image restoration

Abstract

Whole body in vivo optical imaging of small animals has widened its applications and increased the capabilities for preclinical researches. However, most commercial and prototype optical imaging systems are camera-based systems using epi- or trans- illumination mode, with limited views of small animals. And for more accurate tomographic image reconstruction, additional data and information of a target animal is necessary. To overcome these issues, researchers have suggested several approaches such as maximizing the detection area or using the information of other highresolution modalities such as CT, MRI or Ultrasound, or using multi-spectral signals. As one of ways to maximizing the detection area of a target animal, we present a new fluorescence and bioluminescence imaging system for small animals, which can image entire surface of a target animal simultaneously. This system uses double mirror reflection scheme and it consists of input unit, imaging unit with two conical mirrors, the source illumination part and the surface scanner, and the detection unit with an intensified CCD camera system. Two conical mirrors are configured that a larger size mirror captures a target animal surface, and a smaller size mirror projects this captured image onto a CCD camera with one acquisition. With this scheme, we could capture entire surface of a target animal simultaneously and improve back reflection issue between a mirror and an animal surface of a single conical mirror scheme. Additionally, we could increase accessibility to an animal for multi-modality integration by providing unobstructed space around a target animal.

Published

2013

56. A handheld wireless device for diffuse optical spectroscopic assessment of infantile hemangiomas

Author

Maria C. Garzon, Jennifer W. Hoi, Molly Lara Flexman, Hyun K. Kim, Christopher J. Fong, Lauren Geller, and Andreas H. Hielscher

Subjects

Clinical study, Optics, Materials science, business.industry, Multispectral image, Infantile hemangioma, Deoxygenated Hemoglobin, business, Spectroscopy, Imaging phantom, Biomedical engineering

Abstract

Infantile hemangiomas (IH) are common vascular growths that occur in 5-10% of neonates and have the potential to cause disfiguring and even life-threatening complications. With no objective tool to monitor IH, a handheld wireless device (HWD) that uses diffuse optical spectroscopy has been developed for use in assessment of IH by measurements in absolute oxygenated and deoxygenated hemoglobin concentration as well as scattering in tissue. Reconstructions of these variables can be computed using a multispectral evolution algorithm. We validated the new system by experimental studies using phantom experiments and a clinical study is under way to assess the utility of DOI for IH.

Published

2013

57. 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

58. Optical tomographic imaging of the hemodynamic response to a breath hold in breast cancer patients

Author

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

Subjects

medicine.medical_specialty, Tomographic reconstruction, Digital mammography, medicine.diagnostic_test, Computer science, Breast imaging, Angiogenesis, Dynamic imaging, Cancer, medicine.disease, Breast cancer screening, Optical imaging, Breast cancer, medicine, Medical physics, Optical tomography, skin and connective tissue diseases, Biomedical engineering

Abstract

Continuous wave optical tomography is non-ionizing, uses endogenous contrast, and can be performed quickly and at low cost which makes it a suitable imaging modality for breast cancer screening. Using multiple wavelengths of light to illuminate the breast at various angles, three-dimensional images of the distribution of chromophores such as oxy- and deoxy-hemoglobin can help identify cancerous tissue. Dynamic optical imaging can provide additional insight into cancer characteristics such as angiogenesis and metabolism. Here we present the first clinical data acquired with our novel digital breast imaging system. This system is based upon a Digital Signal Processor (DSP) architecture that leverages the immediate digitization of acquired analog data to reduce noise and quickly process large amounts of data. Employing this new instrument we have investigated the dynamic changes due to a breath hold and its potential for use in breast cancer screening. Over the course of a breath hold, images have been collected simultaneously from both breasts at a rate of 1.7 frames per second with 32 sources and 64 detectors per breast and four wavelengths of light at 765, 805, 827, and 905nm. Initial results involving one healthy volunteer and one breast cancer patient support the potential use of dynamic imaging for breast cancer detection.

Published

2011

59. The design and characterization of a digital optical breast cancer imaging system

Author

James M. Masciotti, Molly Lara Flexman, Rabah M. Al abdi, Christopher J. Fong, Andreas H. Hielscher, Yang Li, Randall L. Barbour, and Andrés M. Bur

Subjects

medicine.medical_specialty, Optics and Photonics, Spectrophotometry, Infrared, Breast imaging, Dynamic imaging, Breast Neoplasms, Sensitivity and Specificity, law.invention, Breast cancer screening, Breast cancer, law, medicine, Humans, Tomography, Optical, Optical tomography, Computed tomography laser mammography, Ultrasonography, medicine.diagnostic_test, business.industry, Computers, Detector, Reproducibility of Results, Equipment Design, medicine.disease, Laser, Image Enhancement, Subtraction Technique, Radiology, business, Algorithms, Biomedical engineering

Abstract

Optical imaging has the potential to play a major role in breast cancer screening and diagnosis due to its ability to image cancer characteristics such as angiogenesis and hypoxia. A promising approach to evaluate and quantify these characteristics is to perform dynamic imaging studies in which one monitors the hemodynamic response to an external stimulus, such as a valsalva maneuver. It has been shown that the response to such stimuli shows MARKED differences between cancerous and healthy tissues. The fast imaging rates and large dynamic range of digital devices makes them ideal for this type of imaging studies. Here we present a digital optical tomography system designed specifically for dynamic breast imaging. The instrument uses laser diodes at 4 different near-infrared wavelengths with 32 sources and 128 silicon photodiode detectors.

Published

2009

60. Design of a Digital Optical Tomography System for Dynamic Breast Imaging

Author

Rabah M. Al abdi, Andrés M. Bur, Yang Li, Randall L. Barbour, Christopher J. Fong, Andreas H. Hielscher, and Molly Lara Flexman

Subjects

Tomographic reconstruction, medicine.diagnostic_test, business.industry, Breast imaging, Computer science, Detector, Filter (signal processing), Laser, law.invention, Optics, law, medicine, Medical imaging, Mammography, Imaging science, Optical tomography, business, Diode

Abstract

We present the design of an optical breast imaging system based on digital conversion, processing, and filtering techniques. The system consists of 128 silicon photodiode detectors, 64 excitation points, and 4 near-infrared laser diodes.

Published

2008

61. Imaging of hemodynamic effects in arthritic joints with dynamic optical tomography

Author

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

Subjects

medicine.medical_specialty, Tomographic reconstruction, medicine.diagnostic_test, business.industry, Dynamic imaging, Hemodynamics, medicine.disease, Diffuse optical imaging, medicine.anatomical_structure, Forearm, Rheumatoid arthritis, medicine, Radiology, Tomography, Optical tomography, business, Biomedical engineering

Abstract

Optical probing of hemodynamics is often employed in areas such as brain, muscular, and breast-cancer imaging. In these studies an external stimulus is applied and changes in relevant physiological parameters, e.g. oxy or deoxyhemoglobin concentrations, are determined. In this work we present the first application of this method for characterizing joint diseases, especially effects of rheumatoid arthritis (RA) in the proximal-interphalangeal (PIP) finger joints. Using a dual-wavelength tomographic imaging system together with previously implemented model-based iterative image reconstruction schemes, we have performed dynamic imaging case studies on a limited number of healthy volunteers and patients diagnosed with RA. Inflating a sphygmomanometer cuff placed around the forearm we elicited a controlled vascular response. We observed pronounced differences between the hemodynamic effect occurring in healthy volunteers and patients affected by RA.

Published

2007

62. 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

63. 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