Your search keyword '"Ann Webster"' showing total 4 results

1. The x-ray light valve: A potentially low-cost, digital radiographic imaging system-a liquid crystal cell design for chest radiography

Author

Christie Ann Webster, Timothy C. Szeto, Ivaylo Koprinarov, and John A. Rowlands

Subjects

Light valve, Optics, Materials science, business.industry, Image quality, Radiography, Detector, Digital imaging, Medical imaging, General Medicine, Image sensor, business, Digital radiography

Abstract

Digital x-ray radiographic systems are desirable as they offer high quality images which can be processed, transferred, and stored without secondary steps. However, current clinical systems are extraordinarily expensive in comparison to film-based systems. Thus, there is a need for an economical digital imaging system for general radiology. The x-ray light valve (XLV) is a novel digital x-ray detector concept with the potential for high image quality and low cost. The XLV is comprised of a photoconductive detector layer and liquid crystal (LC) cell physically coupled in a sandwich structure. Upon exposure to x rays, charge is collected at the surface of the photoconductor, causing a change in the reflective properties of the LC cell. The visible image so formed can subsequently be digitized with an optical scanner. By choosing the properties of the LC cell in combination with the appropriate photoconductor thickness and bias potentials, the XLV can be optimized for various diagnostic imaging tasks. Specifically for chest radiography, we identified three potentially practical reflective cell designs by selecting from those commonly used in LC display technology. The relationship between reflectance and x-ray exposure (i.e., the characteristic curve) was determined for all three cells using a theoretical model. The results indicate that the reflective electrically controlled birefringence (r-ECB) cell is the preferred choice for chest radiography, provided that the characteristic curve can be shifted towards lower exposures. The feasibility of the shift of the characteristic curve is shown experimentally. The experimental results thus demonstrate that an XLV based on the r-ECB cell design exhibits a characteristic curve suitable for chest radiography.

Published

2008

2. The x-ray light valve: A potentially low-cost, digital radiographic imaging system-concept and implementation considerations

Author

Christie Ann Webster, Ivaylo Koprinarov, Stephen Germann, and John A. Rowlands

Subjects

Image formation, Birefringence, Liquid-crystal display, business.industry, Computer science, Radiography, Detector, X-ray detector, X-ray, Digital imaging, X-ray optics, General Medicine, law.invention, Optics, Light valve, Liquid crystal, law, Medical imaging, Optoelectronics, Image sensor, business, Image resolution, Digital radiography

Abstract

New x-ray radiographic systems based on large-area flat-panel technology have revolutionized our capability to produce digital x-ray images. However, these imagers are extraordinarily expensive compared to the systems they are replacing. Hence, there is a need for a low-cost digital imaging system for general applications in radiology. A novel potentially low-cost radiographic imaging system based on established technologies is proposed-the X-Ray Light Valve (XLV). This is a potentially high-quality digital x-ray detector made of a photoconducting layer and a liquid-crystal cell, physically coupled in a sandwich structure. Upon exposure to x rays, charge is collected on the surface of the photoconductor. This causes a change in the optical properties of the liquid-crystal cell and a visible image is generated. Subsequently, it is digitized by a scanned optical imager. The image formation is based on controlled modulation of light from an external source. The operation and practical implementation of the XLV system are described. The potential performance of the complete system and issues related to sensitivity, spatial resolution, noise, and speed are discussed. The feasibility of clinical use of an XLV device based on amorphous selenium (a-Se) as the photoconductor and a reflective electrically controlled birefringence cell is analyzed. The results of our analysis indicate that the XLV can potentially be adapted to a wide variety of radiographic tasks.

Published

2008

3. The x-ray light valve: A low-cost digital radiographic imaging system

Author

Robert MacDougall, Christie Ann Webster, Ivaylo Koprinarov, and John A. Rowlands

Subjects

medicine.medical_specialty, Radiographic imaging, business.industry, Computer science, Radiography, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, X-ray detector, X-ray optics, General Medicine, Light valve, medicine, Medical imaging, Medical physics, Sensitivity (control systems), business, Image resolution, Computer hardware

Abstract

In recent years new digital x-ray radiographic and fluoroscopic systems based on large-area flat-panel technology have revolutionized our capability of producing x-ray images. However, such imagers are extraordinarily expensive and their rapid image acquisition capability is not required for many applications such as radiography. Here we report a novel approach to achieve a high-quality digital radiographic system at a cost which is only a small fraction of competitive digital technologies. The results demonstrate that our proposed x-ray light valve system has excellent spatial resolution and adequate sensitivity compared to existing technologies.

Published

2007

4. Mind/Body Medicine: Self-Care Skills for Persons with Cancer

Author

Ann Webster

Subjects

Medical education, medicine.medical_specialty, Oncology, Self-care skills, business.industry, medicine, Alternative medicine, Cancer, Mind-Body Medicine, medicine.disease, Psychiatry, business, General Nursing

Published

1999