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An experimental approach to Automatic Exposure Control testing.McLeod, Robert William January 2009 (has links)
A New Zealand Qualified Health Physicist (QHP) is required, under the Radiation Protection Act of 1965 and the Radiation Protection Regulations 1982, to perform auditing compliance tests on x-ray equipment at regular intervals to ensure that this equipment conforms to the Code of Safe Practice with the use of x-rays. The protocol for these tests must be approved by the National Radiation Laboratory (NRL). One of these test protocols sets out the requirements for the functionality testing of the x-ray machine Automatic Exposure Control (AEC). The current NRL protocol for AEC testing is based on the radiographic film environment (NRL C5 1994). This protocol was tested to determine its applicability to the digital computed radiography (CR) imaging systems which are replacing screen-film systems. To begin this process a comparison of the different exposure indexes for each image medium was required. This proved to be achievable using a system of exposure dose comparison. The AEC test process for both image modalities follows identical requirements but differ slightly in the test methods used to achieve these. The most significant finding throughout this stage was not the differences between protocols but was the requirement to achieve consistent exposure index values over the clinical kVp range for each image medium. This requirement, applicable to any x-ray image medium, became the focus of this thesis. The thesis has explored through experimentation, the effect of optimisation of AEC kVp compensation for the variable kVp response of an image medium, on image consistency. At Christchurch Hospital where this investigation took place the work has shown that the performance of AEC devices can be optimised to improve image consistency, indicated by a more consistent exposure index over the clinical kVp range. The optimisation process also achieves a more consistent dose response to the image plate. A dose variation of 8.3% from the average was achieved compared to 26% in the unoptimised version. No clinically significant changes to image quality were apparent in test images. Under these conditions it was found that AEC functionality could be assessed solely by the measurement of AEC dose to the image plate (IP). Use of this test method provides quantifiable time management benefits for the Medical Physicist and for the radiology departments in which they work. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1369625 / Thesis (M.Sc.(Med.Physics)) - University of Adelaide, School of Chemistry and Physics, 2009
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Digital X-ray analysis for monitoring fracture healingDawson, Sarah P. January 2009 (has links)
X-ray based evaluation of different stages of fracture healing is a well established clinical standard. However, several studies have shown plain radiography alone to be an unreliable method to assess healing. The advent of digital X-ray systems provides the potential to perform quantitative analysis on X-ray images without disrupting normal clinical practice. Two aspects were explored in this study. The first was the measurement of mechanical fracture stiffness under four point bending and axial loading. The second was the inclusion of an Aluminium step wedge to provide Aluminium-equivalent thickness calibration information. Mechanical sti ness studies involved the development of equipment to perform four point bending on intra-medullary (IM) nailed tibial fractures, equipment to perform axial loading on conservatively treated humeral fractures, and fracture models to ex- amine the developed systems. Computational procedures to automatically measure the angle and offset occurring at the fracture site by comparing loaded and unloaded X-ray images were developed utilising cross-correlation. The apparatus and procedures were tested using the fracture models both in X-ray and using the Zwick materials testing machine. The four point bending system was applied clinically to a series of IM nailed tibial fracture patients and the axial loading system to two conservatively treated humeral fracture patients. Mechanical stiffness results showed that the apparatus worked well in the clinical radiography environment and was unobtrusive to normal practice. The developed X-ray analysis procedure provided reliable measurements. However, in the case of IM nailed tibial fractures, both angular and displacement movements were too small to be accurately assessed or to provide reliable stiffness measurements. This indicated that this patient group was possibly unsuitable for mechanical stiffness measurements or that higher loads needed to be applied to the fracture site. The case studies of conservatively treated humeral fractures showed potential in detecting movement between loaded and unloaded X-rays and using this to provide sti ness information. Further investigation is required to show that this technique has the potential to aid fracture healing monitoring. Investigation into Aluminium step wedge calibration began with the design of different step wedges and X-ray phantoms. Initial image analysis involved studying the automatic processing applied by a digital Computed Radiography (CR) Fuji sys- tem and modelling of the inhomogeneities in X-ray images as well as investigation into the effect of and correction for scatter, overlying soft tissue and bone thickness. Computational procedures were developed to semi-automatically detect the steps of the step wedge, form an exponential Aluminium step thickness to grey level calibration graph, measure soft tissue and bone thickness, and correct for the heel effect and scatter contributions. Tests were carried out on pre-clinical models and results compared to ash weight and peripheral quantitative computed tomography (pQCT). A clinical study of radial fractures was used to investigate the effectiveness of the step wedge calibration system in monitoring fracture healing changes. Results using the step wedge indicated that the calibration technique was e ective in detecting and correcting for aspects in uencing Aluminium-equivalent thickness measures. With careful processing, useful information was obtained from digital X- rays that included the Aluminium step wedge and these correlated well with existing density measures. The use of the wedge in patient images showed that small increases in Aluminium-equivalent thickness of the fracture site could be detected. This was most useful for intra-patient comparisons throughout the course of healing rather than providing quantitative measurements which were comparable to other density measures. In conclusion, this thesis shows the potential for accurate analysis of digital X- rays to aid the monitoring of healing changes in fracture patients, particularly with application of axial loading and the use of step wedge calibration.
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Kerma no ar com base no índice de exposição para radiografia digital / Air kerma based on the exposure index for digital radiographyLeite, Marina Silveira 26 November 2012 (has links)
Os receptores de imagem radiográfica digitais estão gradualmente substituindo os sistemas tela-filme em radiodiagnóstico. Atualmente a radiografia computadori- zada (CR - Computed Radiography) é a modalidade digital mais comum em muitos serviços de radiodiagnostico. E baseada na utilização de fósforos foto estimuláveis, que também são conhecidos como fósforo de armazenamento. Quando sistemas tela-filme são utilizados como receptores de imagem, uma dose de radiação inadvertidamente alta no paciente irá resultar em um filme escuro, que fornece feedback imediato para o técnico em radiologia quanto aos fatores de técnica utilizados e a dose relativa. No entanto, quando receptores de imagem digitais são usados, uma dose alta no paciente pode produzir imagens excelentes o que resulta em uma tendência de se utilizar doses mais elevadas do que o necessário. A adequada justificação e otimização dos procedimentos exige o conhecimento dos valores típicos de dose em pacientes em um determinado serviço de radiodiagnóstico. O termo índice de exposição refere-se à dose absorvida na placa fósforo. Após a leitura da imagem com um sistema de laser o histograma dos sinais é computado e o índice de exposição é determinado com base nos valores dos pixels (picture elements) usando uma relação logarítmica. Os fabricantes dos sistemas de CR oferecem os índices de exposição como um salvaguarda contra doses altas, mas a base para os valores recomendados não é clara. Além disso, os índices de exposição não estão diretamente relacionados com a dose no paciente. O objetivo deste trabalho foi estabelecer um método indireto para calcular os valores de dose de entrada em pacientes submetidos a exames diagnósticos em sistemas de raios X com CR com base no índice de exposição. / The receptors of digital radiography image are gradually substituting the screen-film systems in radiodiagnostic. Currently, computed radiography is the most common method in many radiography services. It is based in the application of photostimulable phosphorus, that are also known as phosphorus storage. When screen-film systems are utilized as image receptors, an inadvertently high dose of radiation in the patient will result in a dark film screen, that inputs immediate feedback to the radiology technician as to the technical factors utilized and the relative dose. However, when digital image receptors are used, a high dose in the patient can produce excelent images which re-sult in a tendency of using higher doses than necessary. The adequate extenuation and optimization of the procedures demand the knowledge of the characteristic dose values in patients in a determined radiodiagnostic service. The term exposure index refers to the absorbed dose in the phosphorus plate. Following the image reading with a laser system the histogram of signs is computed and the exposure index is determi-ned in the basis of picture elements using a logarithmic relationship. The manufacturer of the systems of pixels offer the exposure indexes as a safeguard against high doses, but the basis for the recommended values are not clear. Moreover, the exposure indexes are not directly related to the dose in patients. The aim of this work was to establish an indirect method to estimate the values of entrance doses in patients who have undergone diagnostic exams in X ray systems with computed radiography based on exposure indexes. The values of entrance doses obtained were compared with the values also obtained indirectly based in the measurements of the X ray tubes output.
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Metod för dosoptimering av digitalt detektorsystem i klinisk drift / Method for dose optimization of computed radiography in clinical useOlsson, Magnus January 2004 (has links)
<p>The county of Dalarna is at present carrying through a process of digitalization where traditional x-ray film is being replaced with digital detectors. Earlier used methods for dose optimization turned out not being sufficient. This report presents a method to harmonize dose levels between x- ray sites equipped with Fujifilm imaging plate systems. An exposure index, S, related to the dose level of the examination is computed to every x-ray image. S turned out to be inversely proportional to the detector dose used at the examination. Detector dose is also the one simulated factor that doubtlessly affects S the most.There are however a lot of parameters, e.g difference between patients, that are not easily simulated even though they still have considerable affect. The method for harmonizing dose levels between x-ray sites are based on statistics of collected S-values for a kind of examination. The average of the collected S-values levels variations and is a more solid measure of the dose level for the examination. By means of this method the dose level of frontal images of the lungs at a site have been reduced by 30 per cent without endanger the diagnostic security.</p>
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Undersökning av exponeringsindex för bildplattesystem inför optimeringsarbete / Examination of Exposure Indexes for Image Plate Systems before OptimizationLömäng, Magnus January 2004 (has links)
<p>The county hospital of Dalarna has for the last couple of years carried through a process of digitalization. The result is that within the county it exists image plate systems from two different manufacturers. In an attempt to create a tool for dose optimization and dose surveillance the county of Dalarna would like to investigate if the exposure index from Agfa and Fuji is suitable as a dose indicator. An investigation of the exposure index, S, from Fuji has already been done. This thesis has been continuing the investigation by evaluating the stability of the exposure index, lgM, from Agfa. Simultaneously an observation if there is a simple relation between the exposure indicators from Agfa and Fuji has been performed. The result showed that the average of lgM, for a set of images from the same type of examination, is appropriate as a dose indicator to the image plate for that specific examination type and X-ray equipment. The usefulness is linked to the same tube voltage and Speed Class for a specific examination, and is to a certain degree restricted by the collimating. There is a relation between the exposure index from Agfa and Fuji, and there is in a simple way possible to transform S-values to lgM-values for comparison. The relation turned out to be examination specific.</p>
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Metod för dosoptimering av digitalt detektorsystem i klinisk drift / Method for dose optimization of computed radiography in clinical useOlsson, Magnus January 2004 (has links)
The county of Dalarna is at present carrying through a process of digitalization where traditional x-ray film is being replaced with digital detectors. Earlier used methods for dose optimization turned out not being sufficient. This report presents a method to harmonize dose levels between x- ray sites equipped with Fujifilm imaging plate systems. An exposure index, S, related to the dose level of the examination is computed to every x-ray image. S turned out to be inversely proportional to the detector dose used at the examination. Detector dose is also the one simulated factor that doubtlessly affects S the most.There are however a lot of parameters, e.g difference between patients, that are not easily simulated even though they still have considerable affect. The method for harmonizing dose levels between x-ray sites are based on statistics of collected S-values for a kind of examination. The average of the collected S-values levels variations and is a more solid measure of the dose level for the examination. By means of this method the dose level of frontal images of the lungs at a site have been reduced by 30 per cent without endanger the diagnostic security.
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Undersökning av exponeringsindex för bildplattesystem inför optimeringsarbete / Examination of Exposure Indexes for Image Plate Systems before OptimizationLömäng, Magnus January 2004 (has links)
The county hospital of Dalarna has for the last couple of years carried through a process of digitalization. The result is that within the county it exists image plate systems from two different manufacturers. In an attempt to create a tool for dose optimization and dose surveillance the county of Dalarna would like to investigate if the exposure index from Agfa and Fuji is suitable as a dose indicator. An investigation of the exposure index, S, from Fuji has already been done. This thesis has been continuing the investigation by evaluating the stability of the exposure index, lgM, from Agfa. Simultaneously an observation if there is a simple relation between the exposure indicators from Agfa and Fuji has been performed. The result showed that the average of lgM, for a set of images from the same type of examination, is appropriate as a dose indicator to the image plate for that specific examination type and X-ray equipment. The usefulness is linked to the same tube voltage and Speed Class for a specific examination, and is to a certain degree restricted by the collimating. There is a relation between the exposure index from Agfa and Fuji, and there is in a simple way possible to transform S-values to lgM-values for comparison. The relation turned out to be examination specific.
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Kerma no ar com base no índice de exposição para radiografia digital / Air kerma based on the exposure index for digital radiographyMarina Silveira Leite 26 November 2012 (has links)
Os receptores de imagem radiográfica digitais estão gradualmente substituindo os sistemas tela-filme em radiodiagnóstico. Atualmente a radiografia computadori- zada (CR - Computed Radiography) é a modalidade digital mais comum em muitos serviços de radiodiagnostico. E baseada na utilização de fósforos foto estimuláveis, que também são conhecidos como fósforo de armazenamento. Quando sistemas tela-filme são utilizados como receptores de imagem, uma dose de radiação inadvertidamente alta no paciente irá resultar em um filme escuro, que fornece feedback imediato para o técnico em radiologia quanto aos fatores de técnica utilizados e a dose relativa. No entanto, quando receptores de imagem digitais são usados, uma dose alta no paciente pode produzir imagens excelentes o que resulta em uma tendência de se utilizar doses mais elevadas do que o necessário. A adequada justificação e otimização dos procedimentos exige o conhecimento dos valores típicos de dose em pacientes em um determinado serviço de radiodiagnóstico. O termo índice de exposição refere-se à dose absorvida na placa fósforo. Após a leitura da imagem com um sistema de laser o histograma dos sinais é computado e o índice de exposição é determinado com base nos valores dos pixels (picture elements) usando uma relação logarítmica. Os fabricantes dos sistemas de CR oferecem os índices de exposição como um salvaguarda contra doses altas, mas a base para os valores recomendados não é clara. Além disso, os índices de exposição não estão diretamente relacionados com a dose no paciente. O objetivo deste trabalho foi estabelecer um método indireto para calcular os valores de dose de entrada em pacientes submetidos a exames diagnósticos em sistemas de raios X com CR com base no índice de exposição. / The receptors of digital radiography image are gradually substituting the screen-film systems in radiodiagnostic. Currently, computed radiography is the most common method in many radiography services. It is based in the application of photostimulable phosphorus, that are also known as phosphorus storage. When screen-film systems are utilized as image receptors, an inadvertently high dose of radiation in the patient will result in a dark film screen, that inputs immediate feedback to the radiology technician as to the technical factors utilized and the relative dose. However, when digital image receptors are used, a high dose in the patient can produce excelent images which re-sult in a tendency of using higher doses than necessary. The adequate extenuation and optimization of the procedures demand the knowledge of the characteristic dose values in patients in a determined radiodiagnostic service. The term exposure index refers to the absorbed dose in the phosphorus plate. Following the image reading with a laser system the histogram of signs is computed and the exposure index is determi-ned in the basis of picture elements using a logarithmic relationship. The manufacturer of the systems of pixels offer the exposure indexes as a safeguard against high doses, but the basis for the recommended values are not clear. Moreover, the exposure indexes are not directly related to the dose in patients. The aim of this work was to establish an indirect method to estimate the values of entrance doses in patients who have undergone diagnostic exams in X ray systems with computed radiography based on exposure indexes. The values of entrance doses obtained were compared with the values also obtained indirectly based in the measurements of the X ray tubes output.
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Denoising of Carpal Bones for Computerised Assessment of Bone AgeO'Keeffe, Darin January 2010 (has links)
Bone age assessment is a method of assigning a level of biological maturity to a child. It is usually performed either by comparing an x-ray of a child's left hand and wrist with an atlas of known bones, or by analysing specific features of bones such as ratios of width to height, or the degree of overlap with other bones. Both methods of assessment are labour intensive and prone to both inter- and intra-observer variability. This is motivation for developing a computerised method of bone age assessment.
The majority of research and development on computerised bone age assessment has focussed on analysing the bones of the hand. The wrist bones, especially the carpal bones, have received far less attention and have only been analysed in young children in which there is clear separation of the bones. An argument is presented that the evidence for excluding the carpal bones from computerised bone age assessment is weak and that research is required to identify the role of carpal bones in the computerised assessment of bone age for children over eight years of age.
Computerised analysis of the carpal bones in older children is a difficult computer vision problem plagued by radiographic noise, poor image contrast, and especially poor definition of bone contours. Traditional image processing methods such as region growing fail and even the very successful Canny linear edge detector can only find the simplest of bone edges in these images. The field of partial differential equation-based image processing provides some possible solutions to this problem, such as the use of active contour models to impose constraints upon the contour continuity. However, many of these methods require regularisation to achieve unique and stable solutions. An important part of this regularisation is image denoising.
Image denoising was approached through development of a noise model for the Kodak computed radiography system, estimation of noise parameters using a robust estimator of noise per pixel intensity bin, and incorporation of the noise model into a denoising method based on oriented Laplacians. The results for this approach only showed a marginal improvement when using the signal-dependent noise model, although this likely reflects how the noise characteristics were incorporated into the anisotropic diffusion method, rather than the principle of this approach. Even without the signal-dependent noise term the oriented Laplacians denoising of the hand-wrist radiographs was very effective at removing noise and preserving edges.
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FUNDAMENTAL AND CLINICAL EVALUATION OF CHEST COMPUTED TOMOGRAPHY IMAGING IN DETECTABILITY OF PULMONARY NODULEISHIGAKI, TAKEO, HIROSE, MITSUHIKO, NAKAMURA, KIYOKO, IKEDA, MITSURU, ITO, KENGO, MILLA, NICOLAS 26 December 1994 (has links)
No description available.
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