Your search keyword '"X-Ray Intensifying Screens"' showing total 72 results

1. Optimal beam quality for chest flat panel detector system: realistic phantom study

Author

Michiko Kobayashi, Takatoshi Aoki, Koichiro Sugimoto, Yukunori Korogi, Chie Kuwahara, Jun Kawabata, Nobuhiro Oda, and Masami Fujii

Subjects

medicine.medical_specialty, Image quality, Radiography, Radiation Dosage, Statistics, Nonparametric, Imaging phantom, Flat panel detector, law.invention, Thoracic Diseases, law, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Diaphragm (optics), Simulation, Phantoms, Imaging, business.industry, General Medicine, Radiographic Image Enhancement, Filter (video), Radiography, Thoracic, Radiology, Laser beam quality, Lung Diseases, Interstitial, business, Filtration, Beam (structure), Biomedical engineering

Abstract

To investigate optimal beam quality for chest flat panel detector (FPD) system by semi-quantitatively assessment using a realistic lung phantom. Chest FPD radiographs were obtained on a realistic lung phantom with simulated lung opacities using various X-ray tube voltage levels (90–140 kV) with/without copper filter. Entrance skin dose was set to maintain identical for all images (0.1 mGy). Three chest radiologists unaware of the exposure settings independently evaluated the image quality of each simulated opacity and normal structure using a 5-point scale (+ 2: clearly superior to the standard; + 1: slightly superior to the standard; 0: equal to the standard; − 1: slightly inferior to the standard; − 2: clearly inferior to the standard). The traditional FPD image obtained at a tube voltage of 120 kV was used as the standard. The scores of image quality were statistically compared using the Wilcoxon rank test with Bonferroni correction. FPD images using 90-kV shot with copper filter were superior to the traditional 120-kV shot without filter with respect to the visibility of vertebra, pulmonary vessels, and nodules overlapping diaphragm and heart (p

Published

2019

2. Clinical utility of ultra-low-dose pre-test exposure to avoid unnecessary patient exposure due to positioning errors: a simulation study

Author

Junji Shiraishi and Hideo Nose

Subjects

Adult, Male, Adolescent, Knee Joint, Ultra low dose, Radiography, Physical Therapy, Sports Therapy and Rehabilitation, Radiation Dosage, Dose level, Patient Positioning, Flat panel detector, 030218 nuclear medicine & medical imaging, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Humans, Medicine, Computer Simulation, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Diagnostic Errors, Child, Technology, Radiologic, Aged, Aged, 80 and over, Radiation, business.industry, General Medicine, Patient exposure, Middle Aged, Radiographic Image Enhancement, 030220 oncology & carcinogenesis, Radiological weapon, Female, Dose reduction, business, Dose rate, Nuclear medicine

Abstract

The use of digital radiographic systems has decreased the frequency of image retakes due to over/underexposure in general radiography. However, image retakes owing to patient positioning errors are likely to increase because of the convenience of a real-time image check on a console table. The purpose of the present study is to propose a novel radiographic examination procedure with an ultra-low-dose pre-test exposure that may be utilized to check patient positioning prior to taking an actual image, thereby reducing unnecessary patient exposure owing to image retakes. In this study, examination data from 714 knee joint radiographs, both submitted and retaken images, were included. Twelve radiological technologists (RTs) took all images. The actual total exposure dose for each patient was compared with simulated total doses utilized in the proposed procedure. The simulation assumed that each examination was completed following pre-test exposure. Therefore, this method did not involve retaking images although at least one pre-test exposure had been applied to all patients. Pre-test exposures at four dose levels corresponding to 25, 10, 5, and 2% of the actual exposure dose were evaluated to determine whether each dose level could be used to check patient positioning. The results indicated that when the pre-test exposure dose rate was 10% or lower, the total exposure dose reduction equaled or exceeded 8% for all patients. The use of the proposed procedure reduced the total exposure dose for all patients when compared to the exposure dose calculated from records.

Published

2017

3. Comparison of image quality and radiation dose between an image-intensifier system and a newer-generation flat-panel detector system — technical phantom measurements and evaluation of clinical imaging in children

Author

Theo Diehm, K. Wolfgang Neff, Stefan O. Schoenberg, Meike Weis, and C Hagelstein

Subjects

Male, medicine.medical_specialty, Image quality, Radiation Dosage, Sensitivity and Specificity, Imaging phantom, Flat panel detector, 030218 nuclear medicine & medical imaging, law.invention, 03 medical and health sciences, 0302 clinical medicine, law, Humans, Medicine, Fluoroscopy, Dosimetry, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Child, medicine.diagnostic_test, Phantoms, Imaging, business.industry, Reproducibility of Results, Image intensifier, Signal Processing, Computer-Assisted, Equipment Design, Radiation Exposure, Equipment Failure Analysis, Radiographic Image Enhancement, Dose area product, 030220 oncology & carcinogenesis, Pediatrics, Perinatology and Child Health, Female, Radiology, business, Nuclear medicine

Abstract

Many image-intensifier fluoroscopy systems have been replaced by flat-panel detectors in recent years. To compare the level of contrast, image resolution and radiation dose between an image-intensifier and a newer-generation flat-panel detector system in a pediatric radiology unit. We compared two systems — a conventional image intensifier and a newer-generation flat-panel system. We measured image quality and radiation dose using a technical phantom. Additionally, we retrospectively compared age-matched fluoroscopic pediatric voiding cystourethrography (n = 15) and upper gastrointestinal investigations (n = 25). In phantom studies image contrast was equal while image resolution was higher and mean radiation dose lower using the flat-panel system (P

Published

2015

4. Latest-generation catheterization systems enable invasive submillisievert coronary angiography

Author

K. Weitmann, Thorsten Reffelmann, Marcus Dörr, Astrid Hummel, Stephan B. Felix, Wolfgang Hoffmann, Mathias C. Busch, A. Riad, Eberhard Kuon, and Klaus Empen

Subjects

Male, Coronary angiography, medicine.medical_specialty, Technology Assessment, Biomedical, Coronary Artery Disease, Invasive cardiology, Coronary Angiography, Radiation Dosage, Sensitivity and Specificity, Cardiac Catheters, Radiation Protection, Internal medicine, medicine, Humans, X-Ray Intensifying Screens, Aged, Observer Variation, business.industry, Reproducibility of Results, Equipment Design, Middle Aged, Radiation Exposure, Equipment Failure Analysis, Radiation exposure, Radiation risk, Dose area product, Cardiology, Female, Radiology, Cardiology and Cardiovascular Medicine, business, Observer variation

Abstract

The radiation risk of patients undergoing invasive cardiology remains considerable and includes skin injuries and cancer. To date, submillisievert coronary angiography has not been considered feasible.In 2011, we compared results from 100 consecutive patients undergoing elective coronary angiography using the latest-generation flat-panel angiography system (FPS) with results from examinations by the same operator using 106 historic controls with a conventional image-intensifier system (IIS) that was new in 2002.The median patient exposure parameters were measured as follows: dose-area product (DAP) associated with radiographic cine acquisitions (DAP(R)) and fluoroscopy (DAP(F)) scenes, radiographic frames and runs, and cumulative exposure times for radiography and fluoroscopy. On the FPS as compared to the traditional IIS, radiographic detector entrance dose levels were reduced from 164 to 80 nGy/frame and pulse rates were lowered from 12.5/s to 7.5/s during radiography and from 25/s to 4/s during fluoroscopy. The cardiologist's performance patterns remained comparable over the years: fluoroscopy time was constant and radiography time even slightly increased. Overall patient DAP decreased from 7.0 to 2.4 Gy × cm(2); DAP(R), from 4.2 to 1.7 Gy × cm(2); and DAP(F), from 2.8 to 0.6 Gy × cm(2). Time-adjusted DAP(R)/s decreased from 436 to 130 mGy × cm(2) and DAP(F)/s, from 21.6 to 4.4 mGy × cm(2). Cumulative patient skin dose with the FPS amounted to 67 mGy, and the median (interquartile range) of effective dose was 0.5 (0.3 … 0.7) mSv.Consistent application of radiation-reducing techniques with the latest-generation flat-panel systems enables submillisievert coronary angiography in invasive cardiology.

Published

2013

5. Clinically useful dilution factors for iodine and gadolinium contrast material: an animal model of pediatric digital subtraction angiography using state-of-the-art flat-panel detectors

Author

Jasmine E. Hales, John M. Racadio, Soumya Kashinkunti, Rami Nachabe, Neil D. Johnson, Manish N. Patel, Mary Beth Privitera, Todd Abruzzo, Kamlesh Kukreja, and Judy M. Racadio

Subjects

medicine.medical_specialty, Image quality, Contrast Media, Gadolinium, Sensitivity and Specificity, Flat panel detector, Iodinated contrast, Animals, Humans, Medicine, Fluoroscopy, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Dose-Response Relationship, Drug, medicine.diagnostic_test, Receiver operating characteristic, business.industry, Angiography, Digital Subtraction, Reproducibility of Results, Equipment Design, Digital subtraction angiography, medicine.disease, Equipment Failure Analysis, Nephrogenic systemic fibrosis, Models, Animal, Pediatrics, Perinatology and Child Health, Angiography, Rabbits, Radiology, business, Nuclear medicine, Iodine

Abstract

Iodinated and gadolinium contrast agents pose some risk for certain pediatric patients, including allergic-like reactions, contrast-induced nephropathy (CIN) and nephrogenic systemic fibrosis (NSF). Digital flat-panel detectors enhance image quality during angiography and might allow use of more dilute contrast material to decrease risk of complications that might be dose-dependent, such as CIN and NSF. To assess the maximum dilution factors for iodine- and gadolinium-based contrast agents suitable for vascular imaging with fluoroscopy and digital subtraction angiography (DSA) on digital flat-panel detectors in an animal model. We performed selective catheterization of the abdominal aorta, renal artery and common carotid artery on a rabbit. In each vessel we performed fluoroscopy and DSA during contrast material injection using iodinated and gadolinium contrast material at 100%, 80%, 50%, 33% and 20% dilutions. An image quality score (0 to 3) was assigned by each of eight evaluators. Intracorrelation coefficient, paired t-test, one-way repeated analysis of variance, Spearman correlation and receiver operating characteristic curve analysis were applied to the data. Overall the image quality scores correlated linearly with dilution levels. For iodinated contrast material, the optimum cut-off level for DSA when a score of at least 2 is acceptable is above 33%; it is above 50% when a score of 3 is necessary. For gadolinium contrast material, the optimum cut-off for DSA images is above 50% when a score of at least 2 is acceptable and above 80% when a score of 3 is necessary. Knowledge of the relationship between image quality and contrast material dilution might allow a decrease in overall contrast load while maintaining appropriate image quality when using digital flat-panel detectors.

Published

2013

6. Optimisation of radiological protocols for chest imaging using computed radiography and flat-panel X-ray detectors

Author

M. Casadio Baleni, Libero Barozzi, E. Di Nicola, Massimo Valentino, L. F. Calzolaio, S. Domenichelli, N. Oberhofer, M. Benati, Gaetano Compagnone, and E. Fabbri

Subjects

Image quality, Radiography, X-ray detector, Image processing, Radiation Dosage, Clinical Protocols, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Computed radiography, Digital radiography, medicine.diagnostic_test, Phantoms, Imaging, business.industry, Projectional radiography, Reproducibility of Results, Equipment Design, General Medicine, Radiographic Image Enhancement, Radiographic Image Interpretation, Computer-Assisted, Radiography, Thoracic, Tomography, Tomography, X-Ray Computed, Nuclear medicine, business, Software

Abstract

Digital radiography technology has replaced conventional screen-film systems in many hospitals. Despite the different characteristics of new detector materials, frequently, the same radiological protocols previously optimised for screen film are still used with digital equipment without any critical review. This study addressed optimisation of exposure settings for chest examinations with digital systems, considering both image quality and patient dose. Images acquired with direct digital radiography equipment and a computed radiography system were analysed with specially developed commercial software with a four-alternative forced-choice method: the most promising protocols were then scored by two senior radiologists. Digital technology offers a wide dynamic range and the ability to postprocess images, allowing use of lower tube potentials in chest examinations. The computed radiography system showed both better image quality and lower dose at lower energies (85 kVp and 95 kVp) than those currently used (125 kVp). Direct digital radiography equipment confirmed both its superior image quality and lower dose requirements compared with the storage phosphor plate system. Generally, lowering tube potentials in chest examinations seems to allow better image quality/effective dose ratio when using digital equipment.

Published

2012

7. An on-board surgical tracking and video augmentation system for C-arm image guidance

Author

Russell H. Taylor, Gerhard Kleinszig, Jeffrey H. Siewerdsen, S. Reaungamornrat, Sajendra Nithiananthan, Sebastian Schafer, A. J. Khanna, Yoshito Otake, Ali Uneri, Daniel J. Mirota, and Joseph Webster Stayman

Subjects

Computer science, education, Biomedical Engineering, Graphics processing unit, Health Informatics, Tracking (particle physics), Article, Imaging, Three-Dimensional, medicine, Humans, Fluoroscopy, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Computer vision, Pixel, medicine.diagnostic_test, business.industry, Perspective (graphical), Equipment Design, General Medicine, Cone-Beam Computed Tomography, Computer Graphics and Computer-Aided Design, Operating table, Computer Science Applications, Radiographic Image Enhancement, Surgery, Computer-Assisted, Radiographic Image Interpretation, Computer-Assisted, Surgery, Computer Vision and Pattern Recognition, Artificial intelligence, business, Stereo camera, Reference frame

Abstract

PURPOSE: Conventional tracker configurations for surgical navigation carry a variety of limitations, including limited geometric accuracy, line-of-sight obstruction, and mismatch of the view angle with the surgeon’s-eye view. This paper presents the development and characterization of a novel tracker configuration (referred to as “Tracker-on-C”) intended to address such limitations by incorporating the tracker directly on the gantry of a mobile C-arm for fluoroscopy and cone-beam CT (CBCT). METHODS: A video-based tracker (MicronTracker, Claron Technology Inc., Toronto, ON, Canada) was mounted on the gantry of a prototype mobile isocentric C-arm next to the flat-panel detector. To maintain registration within a dynamically moving reference frame (due to rotation of the C-arm), a reference marker consisting of 6 faces (referred to as a “hex-face marker”) was developed to give visibility across the full range of C-arm rotation. Three primary functionalities were investigated: surgical tracking, generation of digitally reconstructed radiographs (DRRs) from the perspective of a tracked tool or the current C-arm angle, and augmentation of the tracker video scene with image, DRR, and planning data. Target registration error (TRE) was measured in comparison with the same tracker implemented in a conventional in-room configuration. Graphics processing unit (GPU)-accelerated DRRs were generated in real time as an assistant to C-arm positioning (i.e., positioning the C-arm such that target anatomy is in the field-of-view (FOV)), radiographic search (i.e., a virtual X-ray projection preview of target anatomy without X-ray exposure), and localization (i.e., visualizing the location of the surgical target or planning data). Video augmentation included superimposing tracker data, the X-ray FOV, DRRs, planning data, preoperative images, and/or intraoperative CBCT onto the video scene. Geometric accuracy was quantitatively evaluated in each case, and qualitative assessment of clinical feasibility was analyzed by an experienced and fellowship-trained orthopedic spine surgeon within a clinically realistic surgical setup of the Tracker-on-C. RESULTS: The Tracker-on-C configuration demonstrated improved TRE (0.87 ± 0.25)mm in comparison with a con ventional in-room tracker setup (1.92 ± 0.71)mm (p < 0.0001) attributed primarily to improved depth resolution of the stereoscopic camera placed closer to the surgical field. The hex-face reference marker maintained registration across the 180° C-arm orbit (TRE = 0.70 ± 0.32 mm). DRRs generated from the perspective of the C-arm X-ray detector demonstrated sub-mm accuracy (0.37 ± 0.20 mm) in correspondence with the real X-ray image. Planning data and DRRs overlaid on the video scene exhibited accuracy of (0.59 ± 0.38) pixels and (0.66 ± 0.36) pixels, respectively. Preclinical assessment suggested potential utility of the Tracker-on-C in a spectrum of interventions, including improved line of sight, an assistant to C-arm positioning, and faster target localization, while reducing X-ray exposure time. CONCLUSIONS: The proposed tracker configuration demonstrated sub-mm TRE from the dynamic reference frame of a rotational C-arm through the use of the multi-face reference marker. Real-time DRRs and video augmentation from a natural perspective over the operating table assisted C-arm setup, simplified radiographic search and localization, and reduced fluoroscopy time. Incorporation of the proposed tracker configuration with C-arm CBCT guidance has the potential to simplify intraoperative registration, improve geometric accuracy, enhance visualization, and reduce radiation exposure.

Published

2012

8. Flat panel CT following stapes prosthesis insertion: an experimental and clinical study

Author

Carsten Christof Boedeker, Karim Zaoui, Marcus Neudert, Christian Offergeld, Jan Kromeier, Thomas Zahnert, and Roland Laszig

Subjects

Adult, Male, medicine.medical_specialty, Hearing loss, medicine.medical_treatment, Pilot Projects, Stapes Surgery, Prosthesis, Prosthesis Implantation, otorhinolaryngologic diseases, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Inner ear, Hearing Loss, Aged, Neuroradiology, Stapes, Postoperative Care, medicine.diagnostic_test, business.industry, Ultrasound, Interventional radiology, General Medicine, Middle Aged, Otosclerosis, Treatment Outcome, medicine.anatomical_structure, Bone Substitutes, Middle ear, Female, sense organs, Radiology, medicine.symptom, Tomography, X-Ray Computed, business

Abstract

Anatomical information of the middle and inner ear is becoming increasingly important in post-operative evaluation especially after stapesplasty with unsuccessful improvement of the air-bone gap (ABG). So far computed tomography (CT) has been the first choice for detection of reasons for recurrent hearing loss. CT has the disadvantage of metal-induced artefacts after insertion of middle ear implants and of a relatively high irradiation dose.Flat panel CT (fpCT) was performed in three temporal bone specimen after experimental insertion of different stapes prostheses, aiming to validate the accuracy of fpCT of the middle and inner ear. Additionally, 28 consecutive patients, supplied with different stapes prostheses underwent post-operative fpCT to compare the pre- and post-operative hearing results with the determined prosthesis position in the middle and inner ear.In all cases, fpCT showed a statistically significant correlation between hearing improvement and prosthesis position. This technique provided detailed post-operative information of the implant position in patients and temporal bone specimen.The new imaging technique of fpCT allows the immediate and almost artefact-free evaluation of surgical results following stapesplasty. Further benefits are a lower irradiation dose and higher isovolumetric resolution compared with standard CT.Flat panel computed tomography (fpCT) helps otosurgeons design precise stapes protheses. fpCT allows a prediction of the postoperative hearing outcome in patients. fpCT is an adequate imaging technique for immediate postoperative quality control. Postoperative management of patients with prosthesis-related complications is more appropriate.

Published

2011

9. Detection accuracy of proximal caries by phosphor plate and cone-beam computerized tomography images scanned with different resolutions

Author

Gang Li, Xiao-Yan Wang, Zu-yan Zhang, Jun-ge Cheng, Xu-chen Ma, and Zhi-ling Zhang

Subjects

medicine.medical_specialty, Computer science, Radiography, Image processing, Dental Caries, Tooth Cervix, Digital image, stomatognathic system, Image Processing, Computer-Assisted, High spatial resolution, medicine, Humans, X-Ray Intensifying Screens, Dental Enamel, Tooth Demineralization, General Dentistry, Reference standards, Image resolution, Dental Pulp, Observer Variation, Tooth Crown, Receiver operating characteristic, business.industry, Radiography, Dental, Digital, Cone-Beam Computed Tomography, Reference Standards, respiratory system, equipment and supplies, Radiographic Image Enhancement, ROC Curve, Area Under Curve, Dentin, Tooth Discoloration, Radiology, Tomography, business, Software, Biomedical engineering

Abstract

This study was carried out to assess whether the spatial resolution has an impact on the detection accuracy of proximal caries in flat panel CBCT (cone beam computerized tomography) images and if the detection accuracy can be improved by flat panel CBCT images scanned with high spatial resolution when compared to digital intraoral images. The CBCT test images of 45 non-restored human permanent teeth were respectively scanned with the ProMax 3D and the DCT Pro scanners at different resolutions. Digital images were obtained with a phosphor plate imaging system Digora Optime. Eight observers evaluated all the test images for carious lesion within the 90 proximal surfaces. With the histological examination serving as the reference standard, observer performances were evaluated by receiver operating characteristic (ROC) curves. The areas under the ROC curves were analyzed with two-way analysis of variance. No significant differences were found among the CBCT images and between CBCT and digital images when only proximal enamel caries was detected (p = 0.989). With respect to the detection of proximal dentinal caries, significant difference was found between CBCT and digital images (p < 0.001) but not among CBCT images. The spatial resolution did not have an impact on the detection accuracy of proximal caries in flat panel CBCT images. The flat panel CBCT images scanned with high spatial resolution did not improve the detection accuracy of proximal enamel caries compared to digital intraoral images. CBCT images scanned with high spatial resolutions could not be used for proximal caries detection.

Published

2011

10. Intravenous flat-detector CT angiography in acute ischemic stroke management

Author

Silvia Pistocchi, Drazenko Babic, Michel Piotin, Raphaël Blanc, Sonia Alamowitch, Michael Obadia, and Bruno Bartolini

Subjects

Male, medicine.medical_specialty, Ischemia, Contrast Media, Magnetic resonance angiography, Brain Ischemia, Imaging, Three-Dimensional, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Myocardial infarction, Stroke, Aged, Neuroradiology, medicine.diagnostic_test, business.industry, medicine.disease, Thrombosis, Cerebral Angiography, Iopamidol, Treatment Outcome, Angiography, Radiographic Image Interpretation, Computer-Assisted, Female, Neurology (clinical), Neurosurgery, Radiology, Tomography, X-Ray Computed, Cardiology and Cardiovascular Medicine, business, Magnetic Resonance Angiography

Abstract

In the settings of stroke, a non-invasive high-resolution imaging modality to visualize the arterial intracranial circulation in the interventional lab is a helpful mean to plan the endovascular recanalization procedure. We report our initial experience with intravenously enhanced flat-detector CT (IV FDCT) technology in the detection of obstructed intracranial arteries.Fourteen consecutive patients elected for endovascular stroke therapy underwent IV FDCT. The scans were intravenously enhanced and acquired in accordance with the previously calculated bolus arrival time. Images were processed on a commercially available workstation for reconstructions and 3D manipulation. Occlusion level and clot length, the quality of collateral vessels, and the patency of anterior and posterior communicating arteries were assessed.IV FDCT was performed successfully in all the cases and allowed for clot location and length visualization, assessment of communicating arteries patency, and evaluation of vessel collateral grade. Information obtained from this technique was considered useful for patients treated by endovascular approach. Retrospective review of the images by two independent readers was considered accurate and reproducible.IV FDCT technology provided accurate delineation of obstructed vessel segments in acute ischemic stroke disease. It gave a significant help in the interventional strategy. This new technology available in the operating room might provide a valuable tool in emerging endovascular stroke therapy.

Published

2011

11. Copper filtration in pediatric digital X-ray imaging: its impact on image quality and dose

Author

Francis R. Verdun, Philippe Brosi, Peter Vock, Rainer Walter Wolf, and Anja Stuessi

Subjects

Quality Control, Materials science, Image quality, Radiography, chemistry.chemical_element, Physical Therapy, Sports Therapy and Rehabilitation, Radiation Dosage, Effective dose (radiation), Imaging phantom, Radiation Protection, Humans, Polymethyl Methacrylate, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Computed radiography, Child, Digital radiography, Autoanalysis, Radiation, Phantoms, Imaging, business.industry, X-ray, General Medicine, Copper, Radiographic Image Enhancement, chemistry, Child, Preschool, Radiography, Thoracic, Nuclear medicine, business, Filtration, Software

Abstract

The effect of copper (Cu) filtration on image quality and dose in different digital X-ray systems was investigated. Two computed radiography systems and one digital radiography detector were used. Three different polymethylmethacrylate blocks simulated the pediatric body. The effect of Cu filters of 0.1, 0.2, and 0.3 mm thickness on the entrance surface dose (ESD) and the corresponding effective doses (EDs) were measured at tube voltages of 60, 66, and 73 kV. Image quality was evaluated in a contrast-detail phantom with an automated analyzer software. Cu filters of 0.1, 0.2, and 0.3 mm thickness decreased the ESD by 25-32%, 32-39%, and 40-44%, respectively, the ranges depending on the respective tube voltages. There was no consistent decline in image quality due to increasing Cu filtration. The estimated ED of anterior-posterior (AP) chest projections was reduced by up to 23%. No relevant reduction in the ED was noted in AP radiographs of the abdomen and pelvis or in posterior-anterior radiographs of the chest. Cu filtration reduces the ESD, but generally does not reduce the effective dose. Cu filters can help protect radiosensitive superficial organs, such as the mammary glands in AP chest projections.

Published

2011

12. Development of quality control system for flat-panel detectors

Author

Takahiko Kajihara, Shoichi Suzuki, Hiroshi Fujita, Kazuo Kinoshita, Atsushi Teramoto, and Masatoshi Tsuzaka

Subjects

Quality Control, Technology Assessment, Biomedical, Offset (computer science), Transistors, Electronic, Image quality, Computer science, Physical Therapy, Sports Therapy and Rehabilitation, Radiation Dosage, Flat panel detector, Radiation Protection, Software, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Radiation, Pixel, business.industry, Detector, General Medicine, Reliability engineering, Radiographic Image Enhancement, Semiconductors, Quality control system, Scintillation Counting, business, Degradation (telecommunications)

Abstract

The characteristics of flat-panel detectors (FPD) are degraded by exposure to radiation. Degradation in a FPD progresses locally and has a nonlinear relationship to the radiation dose. In order to manage FPD systems properly, one must perform quality control (QC) such as evaluation of image degradation. However, no evaluation method for degradation has been established. In this paper, we first review the structure and degradation mechanism of FPDs, and then we propose a daily QC system for FPDs. To evaluate the degradation of FPDs, we investigated the number of defective pixels and lines, as well as the offset level of the pixel output. Furthermore, we developed daily QC software for FPD that can evaluate the image quality and is operationally simple. In the experiments, an indirect-conversion type FPD was evaluated by our proposed system. The offset level of FPD increased exponentially with X-ray exposure; no trends were seen for the number of defective pixels and defective lines. The required time for the evaluation of an FPD was about 1 min, and no special skills were needed for the analysis. These results indicate that our system may be useful for daily QC of FPDs.

Published

2011

13. Super-resolution variable-dose imaging in digital radiography: quality and dose reduction with a fluoroscopic flat-panel detector

Author

Alfonso Buffa and Leonard Berliner

Subjects

Quality Control, Knee Joint, Hand Joints, Computer science, Biomedical Engineering, Health Informatics, Image processing, Radiation Dosage, Sensitivity and Specificity, Flat panel detector, Cohort Studies, Quality (physics), Radiation Monitoring, Image Processing, Computer-Assisted, medicine, Humans, Fluoroscopy, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Retrospective Studies, Digital radiography, medicine.diagnostic_test, Phantoms, Imaging, business.industry, General Medicine, Frame rate, Computer Graphics and Computer-Aided Design, Superresolution, Computer Science Applications, Radiographic Image Enhancement, Surgery, Computer Vision and Pattern Recognition, Nuclear medicine, business, Biomedical engineering

Abstract

Super-resolution (SR) image processing produces a high-resolution image from a series of low-resolution images. The aim of this study was to evaluate SR-images based on fluoroscopic flat-detector (FD) acquisition at different frame rates.Fluoroscopic FD-sequences with 20 frames were obtained with varying pulse frequencies of (1) a line pair resolution phantom; (2) a low-contrast resolution phantom, and (3) a human knee specimen. Super-resolution digital radiographs (SR-Radiographs) were generated from each sequence. Variable-dose images were simulated by constructing SR-Radiographs using 6 and 12 frames from the corresponding fluoroscopic sequence. "Single Shot" and Computed Radiography (CR) images were obtained for comparison based on dynamic range and sharpness of bone detail structures. Patient-derived SR-Radiographic images were constructed to demonstrate clinical examples.The spatial resolution of SR-radiographs obtained at 12.5 frames per second (fps) and 6 fps were comparable with CR and "Single Shot" images, providing ~3.5 line pairs per mm (l p/mm). Similarly, low-contrast resolution of SR-radiographs obtained at 12.5, 6, and 30 fps were equivalent to CR and "Single Shot" images. The human knee specimen SR-radiograph obtained using 12 FD images at 12.5 fps was superior to a CR image in overall image quality, with a dose reduction of 75%. Variable-dose SR-radiographic simulations suggest a dose saving potential of 90-95% when using 6 FD images at 12.5 fps or 6 fps, respectively.The phantom testing images and simulation results demonstrate that diagnostic quality SR-radiographic images of skeletal extremities can be synthesized using a flat-panel detector system designed primarily for angiography. SR-images obtained with substantially reduced radiation dose are feasible, and this technology may improve digital radiography for pediatric, neonatal radiography, or mammography applications. Further testing is needed to validate super-resolution techniques in other body regions and for different flat-detector systems.

Published

2011

14. Pre-treatment verification of intensity modulated radiation therapy plans using a commercial electronic portal dosimetry system

Author

Kathleen J. Roxby and Jeffrey C. Crosbie

Subjects

Pre treatment, medicine.medical_specialty, Biomedical Engineering, Biophysics, General Physics and Astronomy, Sensitivity and Specificity, Gantry angle, Portal imaging, Humans, Dosimetry, Medicine, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Medical physics, Head and neck, business.industry, Radiotherapy Planning, Computer-Assisted, Reproducibility of Results, Radiotherapy Dosage, Equipment Design, Intensity-modulated radiation therapy, Distance to agreement, Equipment Failure Analysis, Head and Neck Neoplasms, Radiotherapy, Conformal, business, Nuclear medicine, Quality assurance

Abstract

We commissioned a commercially available portal dosimetry system for quality assurance of intensity modulated radiation therapy (IMRT) treatment plans. The system included gamma analysis software to compare the measured and predicted fluence maps from individual IMRT fields. The portal dosimetry system was tested using six head and neck IMRT patient plans, and we demonstrated that the accuracy of the alignment of measured and predicted images improved by retracting and repositioning the electronic portal imaging device (EPID) at each new gantry angle. The mean gamma score (fraction of pixels passing the gamma criteria) for the six test plans (after initial testing and using the EPID retracting and repositioning method) was 0.987 (2SD = 0.018), using gamma criteria of a dose difference of 2% of the maximum field dose and 2 mm distance to agreement. The mean gamma score was 0.989 (2SD = 0.017) for 24 head and neck IMRT patient plans carried out with portal dosimetry. Using gamma criteria of 2% maximum field dose and 2 mm distance to agreement, a gamma score tolerance of 0.980 is a useful way of highlighting only those fields requiring further analysis. Portal dosimetry is a quick way of assessing individual field fluence distributions and can be integrated into an IMRT quality assurance programme.

Published

2010

15. Current status and issues of screening digital mammography in Japan

Author

Takayuki Yamada

Subjects

medicine.medical_specialty, Digital mammography, media_common.quotation_subject, Breast Neoplasms, Breast cancer screening, Breast cancer, Japan, Reading (process), medicine, Humans, Mammography, X-Ray Intensifying Screens, Pharmacology (medical), Radiology, Nuclear Medicine and imaging, Medical physics, media_common, medicine.diagnostic_test, business.industry, General Medicine, Guideline, medicine.disease, Radiographic Image Enhancement, Radiation exposure, Oncology, Female, business, Quality assurance

Abstract

Digital systems have replaced screen-film systems, and have already been used for a screening program. The diagnostic performance of digital systems has been compared with that of screen-film systems, as the golden standard of breast cancer screening. Several studies have demonstrated they are superior to screen-film mammography; others have shown performance is comparable. The validity of digital screening mammography has been demonstrated. Regarding the method of interpretation of digital screening mammograms, the performance of hard-copy and soft-copy reading has been reported to be comparable, although the environment of soft-copy reading was premature. Soft-copy reading seems more promising in the future as a result of the development of both hardware and software. However, many aspects of quality assurance of soft-copy reading (e.g. standard specifications of viewing workstation, contrast visibility and resolution, ambient light) which remain undetermined should be clarified in the Japanese guideline. In Japan the average glandular dose in screening digital mammography is higher than that in screen-film mammography. Most (93.2%) are under 2 mGy for each radiation exposure. The risk of breast cancer by radiation exposure is regarded as higher than before in the 2007 recommendations of the ICRP. Management of radiation exposure is a continuing challenge.

Published

2010

16. The use of high-resolution digital imaging technology for small diameter K-file length determination in endodontics

Author

Asti Sutanto, Marius Bud, Bart Vandenberghe, and Reinhilde Jacobs

Subjects

medicine.medical_specialty, Materials science, Radiography, Image processing, File size, Cadaver, Image Processing, Computer-Assisted, medicine, Humans, Single-Blind Method, X-Ray Intensifying Screens, Image sensor, General Dentistry, Observer Variation, business.industry, Reproducibility of Results, Equipment Design, Radiography, Dental, Digital, Filter (signal processing), Endodontics, Molar, Radiographic Image Enhancement, CMOS, Calibration, Millimeter, Dental Pulp Cavity, business, Filtration, Root Canal Preparation, Biomedical engineering

Abstract

To assess the reliability of high resolution intra-oral photostimulable storage phosphor (PSP) and complementary metal-oxide semiconductor (CMOS) imaging systems for working length (WL) assessment of small K-files in narrow and curved root canals. Eleven narrow and curved canals from extracted molars were used as pre-test for sample-size calculation. Nineteen canals from four cadavers were used for endodontic length assessment in the final study. Small K-files (ISO size 6, 8, and 10) were introduced into the canals at prepared length. Digital intra-oral radiographs were obtained using high-resolution Vistascan® PSP plates and Sigma M CMOS active pixel sensor with a DC X-ray tube at 70 kV, 7 mA, and 0.16 s. Both image series were assessed with and without use of a dedicated endodontic filter. Three observers measured WLs for comparison to the gold standards of a digital millimeter ruler. Multiple regression analysis of the dependent measurements revealed no significant influence of imaging sensor (PSP or CMOS, p = 0.34) and image processing (p = 0.97). For ISO file size, however, there was a significant difference (p = 0.08) at a level of 10%. Observers mostly underestimated lengths using PSP but overestimated them on CMOS. Almost all radiographic measurements (96–98%) were within 2-mm deviation, while 71% to 82% deviated within 1 mm. Dedicated filtering and sensor type did not influence the outcome of WL determination of small file sizes when using high-resolution imaging sensors. WL determination with ISO file 6 did show a significant difference compared to ISO 8 and 10 but mostly for deviations

Published

2009

17. Ultra-low-dose computed tomography system with a flat panel detector: assessment of radiation dose reduction and spatial and low contrast resolution

Author

Masashi Takahashi, Noriaki Tezuka, Yasutaka Nakano, Kiyoshi Murata, Hideji Otani, Keiji Hashimoto, Mitsuru Ikeda, Yuki Kirino, Norihisa Nitta, Yoko Murakami, and Yukihiro Nagatani

Subjects

Male, Cone beam computed tomography, Physics::Instrumentation and Detectors, Posture, Physics::Medical Physics, Image processing, Radiation Dosage, Sensitivity and Specificity, Flat panel detector, Reduction (complexity), Optics, Image Processing, Computer-Assisted, Humans, Medicine, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Lung, Aged, Image-guided radiation therapy, Observer Variation, Radiation, Phantoms, Imaging, business.industry, Radiation dose, Resolution (electron density), Equipment Design, Cone-Beam Computed Tomography, Middle Aged, Radiographic Image Enhancement, Oncology, Data Display, Radiographic Image Interpretation, Computer-Assisted, Female, Tomography, Tomography, X-Ray Computed, Nuclear medicine, business, Algorithms

Abstract

The aim of this study was to introduce a prototype cone-beam computed tomography system equipped with a flat panel detector (FPD-CT system) and measure its radiation dose and spatial and lowcontrast resolution.A patient was rotated in a sitting position, and cone beam data were acquired with the flat panel detector from a fixed X-ray tube. Absorbed dose, spatial and low-contrast resolution, and variation in the CT attenuation value were assessed quantitatively in the acrylic phantom. The visibility of normal blood vessels in clinical images of seven patients was analyzed qualitatively by five board-certified radiologists. These quantitative and qualitative data were compared between the FPD-CT system and multidetector row CT (MDCT).Minimal low-contrast sensitivity and a moderate spatial resolution were demonstrated in images of central lung fields acquired by FPD-CT. The absorbed dose in the FPD-CT system decreased to approximately 2.5% of the dose in the MDCT system.Considering crossover structures in normal blood vessels and bronchi in the central areas of lung fields, this result implies that fairly acceptable spatial resolution can be realized with FPD-CT for detection and frequent follow-up of pulmonary abnormalities in the central lung fields.

Published

2008

18. The characteristics of Fuji IP Cassette Type PII and application for radiation oncology quality assurance tests and portal imaging

Author

H. S. Soh, Kwan Hoong Ng, and Ngie Min Ung

Subjects

medicine.medical_specialty, Quality Assurance, Health Care, Computer science, Biomedical Engineering, Biophysics, General Physics and Astronomy, Sensitivity and Specificity, Imaging phantom, Portal imaging, Radiation oncology, medicine, Medical imaging, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Medical physics, Computed radiography, Radiometry, Image resolution, Simulation, business.industry, Australia, Digital imaging, Reproducibility of Results, Radiotherapy Dosage, Equipment Design, Equipment Failure Analysis, Radiographic Image Enhancement, Radiation Oncology, Radiotherapy, Conformal, business, Quality assurance

Abstract

The advancement of digital imaging has prompted more medical institutions to go filmless. The computed radiography (CR) system is becoming an important tool not only in diagnostic imaging, but also in radiation oncology. A new CR system that was specially designed for the use in radiation oncology, Fuji IP cassette type PII has been introduced to the market in the middle of year 2006. This project aimed to study some basic physical characteristics of this new type of cassette and explore its application for performing quality assurance (QA) tests and portal imaging in radiotherapy. All the images were read by FCR 5000 Plus reader. The image was found to reach its saturation value of 1023 (due to the image was stored in 10 bits data) by depending on the sensitivity value being adjusted. The uniformity test gave the result of 0.12%. The cassette was used to perform the QA tests which were previously performed using film. All the results met the specification as stated in AAPM Task Group 40. The comparison for the portal images of PortalVisionTM contrastdetail phantom showed that the spatial resolution of the images obtained by CR system (Fujifilm Co., Ltd., Tokyo, Japan) were better than the EPID (Varian Medical Systems, Inc., Palo Alto, USA) and film system (Eastman Kodak Co., New York, USA). The IP cassette type PII was found to be suitable as an alternative QA test tool and portal imaging in radiotherapy.

Published

2008

19. Detection of non-cavitated approximal caries lesions in digital images from seven solid-state receptors with particular focus on task-specific enhancement filters. An ex vivo study in human teeth

Author

Ann Wenzel, Morten Frydenberg, Francisco Haiter-Neto, and Andréa dos Anjos Pontual

Subjects

Observer Variation, Focus (geometry), business.industry, Radiography, Solid-state, Dentistry, Image processing, Radiography, Dental, Digital, Gold standard (test), Dental Caries, Sensitivity and Specificity, Digital image, Humans, Medicine, X-Ray Intensifying Screens, Nuclear medicine, business, Observer variation, General Dentistry, Filtration, Digital radiography

Abstract

The aim of this study was to compare detection of non-cavitated approximal caries lesions in images from seven solid-state intraoral digital receptors, with particular focus on two task-specific enhancement filters. One hundred and sixty approximal non-cavitated surfaces were radiographed under standardized conditions using the following seven intraoral solid-state digital receptors: two CMOS systems, Schick CDR-APS, and Kodak RVGui; and five CCD systems: Visualix, VistaRay, Dixi2, Sidexis, and Dr. Suni Plus. The Kodak RVGui digital images were captured with two task-specific, predefined enhancement filters (“dento-enamel” and “periodontal”). Eight observers examined the digital images for the presence or absence of approximal carious lesions. The teeth were subsequently sectioned for histological analysis, which served as the “gold standard” for the radiographic examination and allowed for a calculation of sensitivity, specificity, and overall accuracy. Both RVG modalities obtained the highest sensitivity values, which were significantly higher than with Visualix, Sidexis, and VistaRay images (all P ≤ 0.03). The RVG “periodontal” images also had a higher accuracy than Dixi2, Dr. Suni Plus, and CDR-APS (P ≤ 0.05). The RVG modalities also showed the largest observer variation, and their high sensitivities were mainly due to one observer. The sensitivity for VistaRay images was the lowest of all modalities and significantly lower than almost all the other digital systems (P ≤ 0.02; except for Visualix). Besides, Visualix images had lower sensitivity than CDR-APS, Dixi2, and Dr. Suni Plus images (P ≤ 0.003). On the other hand, the two RVGui image types showed the lowest mean specificity values. For overall accuracy, the differences among the modalities were non-significant (P > 0.05).

Published

2008

20. Digitalization and Networking of Analog Simulators and Portal Images

Author

Árpád Mayer, Csilla Pesznyák, and Pál Zaránd

Subjects

Laser scanning, computer.software_genre, law.invention, Computer Communication Networks, User-Computer Interface, DICOM, Portal imaging, law, Computer graphics (images), Medicine, Computer Simulation, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, business.industry, Radiotherapy Planning, Computer-Assisted, Image intensifier, Simulation software, Radiographic Image Enhancement, Clinical Practice, Oncology, Radioisotope Teletherapy, Tomography, X-Ray Computed, business, computer, Analog-Digital Conversion, Software

Abstract

Background: Many departments have analog simulators and irradiation facilities (especially cobalt units) without electronic portal imaging. Import of the images into the R&V (Record & Verify) system is required. Material and Methods: Simulator images are grabbed while portal films scanned by using a laser scanner and both converted into DICOM RT (Digital Imaging and Communications in Medicine Radiotherapy) images. Results: Image intensifier output of a simulator and portal films are converted to DICOM RT images and used in clinical practice. The simulator software was developed in cooperation at the authors’ hospital. Conclusion: The digitalization of analog simulators is a valuable updating in clinical use replacing screen-film technique. Film scanning and digitalization permit the electronic archiving of films. Conversion into DICOM RT images is a precondition of importing to the R&V system.

Published

2007

21. Bildgebende Verfahren in der Rheumatologie: Bildgebung bei degenerativen Erkrankungen der Wirbelsäule

Author

J. Steinhagen, Wolfgang Rüther, J. P. Petersen, C. R. Habermann, and R. Kothe

Subjects

Gynecology, medicine.medical_specialty, business.industry, Cost-Benefit Analysis, Image Enhancement, Magnetic Resonance Imaging, Sensitivity and Specificity, Spine, Diagnosis, Differential, Radiographic Image Enhancement, Spinal Osteophytosis, Rheumatology, Germany, Image Processing, Computer-Assisted, medicine, Humans, Osteoarthritis, Spine, Spondylitis, Ankylosing, X-Ray Intensifying Screens, Spondylolisthesis, Intervertebral Disc, Tomography, X-Ray Computed, business

Abstract

Degenerative Veranderungen der Wirbelsaule gehoren zu den haufigsten Ursachen fur Beschwerden im Bereich des Bewegungsapparates. Fur die Diagnostik und Differenzialdiagnostik hat das konventionelle Rontgenbild unverandert seinen festen Platz. Zu den wesentlichen Vorteilen zahlen der geringe Zeitaufwand und die geringen Kosten. Eine Hohenminderung des Intervertebralraums und Sklerosierungen der Grund- und Deckplatten gehoren zu den ersten radiologischen Veranderungen und konnen im weiteren Verlauf von Spondylophytenbildungen, Arthrosen der Intervertebralgelenke und einem degenerativem Wirbelgleiten begleitet werden. Fruhveranderungen der Bewegungssegmente sind jedoch mit dem Rontgenbild nicht zu erfassen. Zudem fehlt die raumliche Abbildungsmoglichkeit. Durch die Computertomographie (CT) und Magnetresonanztomographie (MRT) sind die diagnostischen Moglichkeiten wesentlich verbessert worden. Mit der MRT konnen die Wirbelsaule und die beteiligten Weichteile dreidimensional dargestellt werden. Eine differenzialdiagnostische Abgrenzung zu inflammatorischen, traumatischen oder neoplastischen Prozessen ist moglich. Unverandert problematisch ist die mangelnde Korrelation zwischen den bildgebenden Befunden mit der klinischen Symptomatik. Rontgenbild und MRT konnen somit nur bei entsprechender Kenntnis uber die Symptome und moglichen Krankheitsbilder sinnvoll interpretiert werden.

Published

2006

22. Sliding thin slab, minimum intensity projection imaging for objective analysis of emphysema

Author

Shinichi Ohdama, Hitoshi Shibuya, and Shiro Satoh

Subjects

Male, medicine.medical_specialty, Functional Residual Capacity, genetic structures, Vital Capacity, Thin slab, Aorta, Thoracic, Objective analysis, Image processing, Computed tomography, Severity of Illness Index, Radiographic image interpretation, Optics, X ray computed, Forced Expiratory Volume, Image Processing, Computer-Assisted, Humans, Medicine, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Lung, Aged, Analysis of Variance, Carbon Monoxide, Radiation, medicine.diagnostic_test, business.industry, Minimum intensity projection, Middle Aged, eye diseases, Trachea, Pulmonary Emphysema, Oncology, Radiographic Image Interpretation, Computer-Assisted, Regression Analysis, Female, sense organs, Radiology, Tomography, Tomography, X-Ray Computed, business

Abstract

The aim of this study was to determine whether sliding thin slab, minimum intensity projection (STS-MinIP) imaging is more advantageous than thin-section computed tomography (CT) for detecting and assessing emphysema.Objective quantification of emphysema by STS-MinIP and thin-section CT was defined as the percentage of area lower than the threshold in the lung section at the level of the aortic arch, tracheal carina, and 5 cm below the carina. Quantitative analysis in 100 subjects was performed and compared with pulmonary function test results.The ratio of the low attenuation area in the lung measured by STS-MinIP was significantly higher than that found by thin-section CT (P0.01). The difference between STS-MinIP and thin-section CT was statistically evident even for mild emphysema and increased depending on whether the low attenuation in the lung increased. Moreover, STS-MinIP showed a stronger regression relation with pulmonary function results than did thin-section CT (P0.01).STS-MinIP can be recommended as a new morphometric method for detecting and assessing the severity of emphysema.

Published

2006

23. Volumetry of human molars with flat panel-based volume CT in vitro

Author

Gabert Heidrich, Christian Dullin, Eva Krieger, Eckhardt Grabbe, Hans-Albert Merten, Thomas Attin, and Christian Hannig

Subjects

Molar, Root canal, Radiography, Pilot Projects, computer.software_genre, Flat panel, Statistics, Nonparametric, Absorptiometry, Photon, Imaging, Three-Dimensional, stomatognathic system, Voxel, Image Processing, Computer-Assisted, medicine, Humans, Odontometry, X-Ray Intensifying Screens, Region growing segmentation, Dental Enamel, General Dentistry, Enamel paint, business.industry, Anatomy, stomatognathic diseases, medicine.anatomical_structure, visual_art, Dentin, visual_art.visual_art_medium, Molar, Third, Dental Pulp Cavity, Tomography, X-Ray Computed, Nuclear medicine, business, computer, Algorithms, Software, Volume (compression)

Abstract

The flat panel-based volume computed tomography (fpVCT) is a new CT device applicable for experimental, three-dimensional evaluation of teeth at a resolution of about 150 microm in the high contrast region. The aim of this study was to investigate whether fpVCT was suitable for quantification of the volumes of dental hard tissues and the root canal system to establish a new method for morphological studies. Fifty-two extracted third molars (maxillary: 31, mandibular: 21) were examined with a prototype of an fpVCT using a volumetry algorithm at different levels according to the radiographic density of enamel and dentine. Volumetry of the root canal system was performed after "region growing segmentation": starting from a voxel in the centre of the root canal, this algorithm searches voxels of same density in the surrounding. The volumetry of the root canal system was stopped by the investigator at the apical constriction. Results showed that dentine, enamel and root canal system could be well distinguished in three-dimensional images. Volumetry yielded the following data (cm(3), mean+/-SD): dentine 0.438+/-0.111, enamel 0.227+/-0.051, root canal system 0.052+/-0.017 and total volume 0.753+/-0.159. In conclusion, the fpVCT is appropriate for non-destructive volumetry of large numbers of teeth in experimental laboratory studies.

Published

2006

24. Digital Repeat Analysis; Setup and Operation

Author

Jerzey Mirecki, James E Nol, and Godfrey Isouard

Subjects

Quality Control, medicine.medical_specialty, Computer science, media_common.quotation_subject, Radiation Dosage, Article, Task (project management), Software, Picture archiving and communication system, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Medical physics, Quality (business), Computed radiography, Simulation, media_common, Radiological and Ultrasound Technology, business.industry, X-Ray Film, Digital imaging, Marketing strategy, Computer Science Applications, Radiographic Image Enhancement, Radiography, Radiology Information Systems, business, Quality assurance

Abstract

Since the emergence of digital imaging, there have been questions about the necessity of continuing reject analysis programs in imaging departments to evaluate performance and quality. As a marketing strategy, most suppliers of digital technology focus on the supremacy of the technology and its ability to reduce the number of repeats, resulting in less radiation doses given to patients and increased productivity in the department. On the other hand, quality assurance radiographers and radiologists believe that repeats are mainly related to positioning skills, and repeat analysis is the main tool to plan training needs to up-skill radiographers. A comparative study between conventional and digital imaging was undertaken to compare outcomes and evaluate the need for reject analysis. However, digital technology still being at its early development stages, setting a credible reject analysis program became the major task of the study. It took the department, with the help of the suppliers of the computed radiography reader and the picture archiving and communication system, over 2 years of software enhancement to build a reliable digital repeat analysis system. The results were supportive of both philosophies; the number of repeats as a result of exposure factors was reduced dramatically; however, the percentage of repeats as a result of positioning skills was slightly on the increase for the simple reason that some rejects in the conventional system qualifying for both exposure and positioning errors were classified as exposure error. The ability of digitally adjusting dark or light images reclassified some of those images as positioning errors.

Published

2006

25. Comparative evaluation of an II based and a flat panel based cardiovascular fluoroscopy system within a clinical environment

Author

I. D. McLean and R. K. Grewal

Subjects

Image quality, media_common.quotation_subject, Biomedical Engineering, Biophysics, General Physics and Astronomy, Radiation Dosage, Sensitivity and Specificity, Biplane, Flat panel detector, law.invention, law, medicine, Fluoroscopy, Contrast (vision), X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Cardiac imaging, media_common, Mathematics, medicine.diagnostic_test, Phantoms, Imaging, Reproducibility of Results, Image intensifier, Heart, Equipment Failure Analysis, Radiographic Image Enhancement, Dose area product, Radiographic Image Interpretation, Computer-Assisted, Biomedical engineering

Abstract

The image quality and dose parameters from a 2004 Siemens Axiom Artis dBC cardiac biplane with flat panel detector were evaluated and compared to similar parameters evaluated for a 1977 Toshiba DPF 2000A biplane cardiac unit with a conventional image intensifier. Image quality assessment was performed with the Westmead test object; using solid water as a patient equivalent absorber. The patient dose comparison of the two systems is based on dose area product meter readings for 1512 patient cases recorded over 6 months following installation of the Siemens flat panel digital unit. The image quality results indicate that: (a) high contrast resolution was better with the digital flat panel unit, (b) low contrast resolution is similar between systems, and (c) the threshold contrast of the flat panel system is the same or inferior to that of the image intensifier system. Input dose to the surface of the flat panel detector showed a strong dependence on field size, similar to the behaviour of image intensifier system. For the most common clinical procedure--Left Heart Study via Judkins--the average total dose area product reading was 64.0 Gy-cm2 against 67.7 Gy-cm2 for the digital and conventional units respectively (p = 0.27) indicating no significant difference in dose performance between the two x-ray machines.

Published

2005

26. Computer-assisted screw insertion into the first sacral vertebra using a three-dimensional image intensifier: results of a controlled experimental investigation

Author

Daniel Briem, Udo Schumacher, J. Windolf, W. Linhart, D. M. Cullinane, Gerhard Adam, P.G. Begemann, Johannes M. Rueger, and Wolfgang Lehmann

Subjects

Sacrum, medicine.medical_specialty, medicine.medical_treatment, Bone Screws, law.invention, Imaging, Three-Dimensional, Sacral Vertebra, law, Cadaver, medicine, Humans, Fluoroscopy, X-Ray Intensifying Screens, Orthopedics and Sports Medicine, Computer-assisted surgery, medicine.diagnostic_test, business.industry, Navigation system, Image intensifier, Surgery, Computer-Assisted, Original Article, Surgery, Radiology, Tomography, Tomography, X-Ray Computed, Nuclear medicine, business

Abstract

Currently there are few data available regarding the application and efficacy of computer-assisted procedures in the sacral spine. In order to optimize and standardize this procedure, a controlled experimental investigation has been performed. The aim of the study is to systematically assess the efficacy of a novel three-dimensional image intensifier used for navigated transiliac screw insertion into the first sacral vertebra. Screws were inserted iliosacrally into the first sacral vertebra of preserved human cadaver specimens. The instrument navigated procedure was performed with the "Siremobil Iso-C(3D) " (Siemens Medical Solutions) and the "Navigation System" by Stryker. The accuracy and quality of the imaging procedure as well as the fluoroscopic exposure times were measured. These results were compared to three control groups (CT-based navigation, C-arm navigation, and fluoroscopic guidance). In each group a total amount of 20 screws was implanted. Screw position was postoperatively assessed by Iso-C(3D) or CT-scan. The navigated procedure using the Iso-C(3D) provided good feasibility characteristics without requiring a specific matching process. It revealed the shortest procedure time of all navigated procedures and significantly decreased fluoroscopic time compared to C-arm navigation and fluoroscopic guidance. Furthermore, Iso-C(3D) navigation showed no screw malposition and was in this regard superior to C-arm navigated and fluoroscopic guided procedures. The quality of imaging was sufficient for accurate placement, but did not share the high-resolution level of CT-based navigation. These findings indicate that application of the Iso-C(3D) for navigated transiliac screw insertion into S1 can be recommended as a feasible and safe technique, enabling the surgeon to reduce procedure and fluoroscopic time. Further progress in improving the quality of the Iso-C(3D) image should be attempted.

Published

2005

27. Flat detectors and their clinical applications

Author

Martin Spahn

Subjects

Silicon, medicine.medical_specialty, Image quality, Radiography, Cesium, Gadolinium, Image processing, Radiation Dosage, Radiography, Interventional, Absorption, law.invention, law, Digital image processing, Image Processing, Computer-Assisted, Humans, Medicine, Fluoroscopy, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Thallium, Technology, Radiologic, medicine.diagnostic_test, business.industry, Detector, Angiography, Image intensifier, Equipment Design, General Medicine, Iodides, Radiographic Image Enhancement, Radiology, business, Forecasting, Mammography

Abstract

Diagnostic and interventional flat detector X-ray systems are penetrating the market in all application segments. First introduced in radiography and mammography, they have conquered cardiac and general angiography and are getting increasing attention in fluoroscopy. Two flat detector technologies prevail. The dominating method is based on an indirect X-ray conversion process, using cesium iodide scintillators. It offers considerable advantages in radiography, angiography and fluoroscopy. The other method employs a direct converter such as selenium which is particularly suitable for mammography. Both flat detector technologies are based on amorphous silicon active pixel matrices. Flat detectors facilitate the clinical workflow in radiographic rooms, foster improved image quality and provide the potential to reduce dose. This added value is based on their large dynamic range, their high sensitivity to X-rays and the instant availability of the image. Advanced image processing is instrumental in these improvements and expand the range of conventional diagnostic methods. In angiography and fluoroscopy the transition from image intensifiers to flat detectors is facilitated by ample advantages they offer, such as distortion-free images, excellent coarse contrast, large dynamic range and high X-ray sensitivity. These characteristics and their compatibility with strong magnetic fields are the basis for improved diagnostic methods and innovative interventional applications.

Published

2005

28. Assessment of the problem: pediatric doses in screen-film and digital radiography

Author

Walter Huda

Subjects

Phantoms, Imaging, business.industry, Equivalent dose, Radiography, Reference Standards, Radiation Dosage, Radiation Tolerance, Effective dose (radiation), Radiographic Image Enhancement, Dose area product, Pediatrics, Perinatology and Child Health, Image noise, Humans, Medicine, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Body region, Laser beam quality, Child, Radiation Injuries, business, Nuclear medicine, Skin, Biomedical engineering, Digital radiography

Abstract

In diagnostic radiology, radiation exposure measures the amount of radiation at a given location in an x-ray beam, dose measures the energy deposited in a specified absorber, and equivalent dose quantifies the biological harm expected from this deposited energy. The effective dose attempts to account for the energy deposited in all irradiated organs as well as their relative radiosensitivity, and is the best available descriptor of the stochastic patient risk. Effective doses can be estimated from measures of the radiation beam incident on the patient as either entrance skin dose or dose-area product in conjunction with appropriate conversion coefficients. These effective dose-conversion coefficients are influenced by the patient size, exposed body region, x-ray beam quality, and x-ray beam area. We present values of skin dose, dose-area product, and effective dose for common examinations in pediatric patients whose size ranges from the newborn to adolescents. In screen-film radiography, the system speed defines the amount of radiation required to generate a satisfactory radiographic film density. Changing the screen thickness normally modifies the speed of screen-film systems, which affects the system resolution but not the level of image noise (mottle). By contrast, digital systems have a fixed resolution but can operate satisfactorily over a wide range of receptor dose, with the amount of noise in the resultant image being inversely related to the amount of radiation used. To ensure that patient doses are kept as low as reasonably achievable (ALARA), it is essential that digital receptor doses be monitored to ensure they stay constant. It is also important that protocols in digital radiography are specific for the imaging task to be performed, and use no more radiation than needed to achieve a satisfactory diagnosis.

Published

2004

29. Dose reduction in skeletal and chest radiography using a large-area flat-panel detector based on amorphous silicon and thallium-doped cesium iodide: technical background, basic image quality parameters, and review of the literature

Author

Michael Strotzer, Okka W. Hamer, Markus Völk, and Stefan Feuerbach

Subjects

Silicon, medicine.medical_specialty, Image quality, Radiography, Cesium, chemistry.chemical_element, Radiation Dosage, Flat panel detector, Ionizing radiation, Detective quantum efficiency, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Thallium, Technology, Radiologic, Digital radiography, business.industry, Detector, Extremities, General Medicine, Iodides, Radiographic Image Enhancement, chemistry, Radiography, Thoracic, Radiology, business, Nuclear medicine

Abstract

The two most frequently performed diagnostic X-ray examinations are those of the extremities and of the chest. Thus, dose reduction in the field of conventional skeletal and chest radiography is an important issue and there is a need to reduce man-made ionizing radiation. The large-area flat-panel detector based on amorphous silicon and thallium-doped cesium iodide provides a significant reduction of radiation dose in skeletal and chest radiography compared with traditional imaging systems. This article describes the technical background and basic image quality parameters of this 43 x 43-cm digital system, and summarizes the available literature (years 2000-2003) concerning dose reduction in experimental and clinical studies. Due to its high detective quantum efficiency and dynamic range compared with traditional screen-film systems, a dose reduction of up to 50% is possible without loss of image quality.

Published

2004

30. Performance of a flat-panel detector in the detection of artificial erosive changes: comparison with conventional screen-film and storage-phosphor radiography

Author

Thomas M. Bernhardt, Walter Heindel, Horst Lenzen, Dag Wormanns, Andreas Henschel, Stefan Diederich, and Karl Ludwig

Subjects

medicine.medical_specialty, Radiography, Bone and Bones, Flat panel detector, Metacarpophalangeal Joint, Finger Joint, medicine, Animals, Humans, Mammography, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Neuroradiology, Digital radiography, Receiver operating characteristic, medicine.diagnostic_test, Phantoms, Imaging, business.industry, Arthritis, Ultrasound, Detector, Phosphorus, General Medicine, Hand, Radiographic Image Enhancement, Macaca fascicularis, ROC Curve, Radiology, business, Nuclear medicine

Abstract

The purpose of this study was to compare a large-area, direct-readout, flat-panel detector system with a conventional screen-film system, a storage-phosphor system, and a mammography screen-film system with regard to the detection of artificial bone erosions simulating rheumatoid disease, and to assess its diagnostic performance with decreasing exposure dose. Six hundred forty regions were defined in 160 metacarpophalangeal and proximal interphalangeal joint specimens from 20 monkey paws (4 regions per joint). Artificial bone erosions were created in 320 of these 640 regions. Specimens were enclosed in containers filled with water to obtain absorption and scatter radiation conditions similar to those of a human hand. Imaging was performed using a flat-panel system, a speed class 200 screen-film system, a mammography screen-film system, and a storage-phosphor system under exactly matched conditions. Different exposure doses equivalent to speed classes of S=100, 200, 400, 800, 1600, and 3200 were used. In all images the presence or absence of a lesion was assessed by three radiologists using a five-level confidence scale. Receiver operating characteristic (ROC) analysis was performed for a total of 21,120 observations (1920 for each imaging modality and exposure level) and diagnostic performance estimated by the area under the ROC curve (A(z)). The significance of differences in diagnostic performance was tested with analysis of variance. The ROC analysis showed A(z) values of 0.809 (S=200), 0.768 (S=400), 0.737 (S=800), 0.710 (S=1600), and 0.685 (S=3200) for the flat-panel system, 0.770 for the speed class 200 screen-film system, 0.781 (S=200), 0.739 (S=400), 0.724 (S=800), 0.680 (S=1600) for the storage-phosphor system, and 0.798 for the mammography screen-film system. Analysis of variance showed significant differences between different combinations of imaging modalities and exposure doses ( p0.05). The diagnostic performance of the flat-panel detector system is superior to that of a screen-film system and a storage-phosphor system for the detection of erosive lesions at clinical exposure settings (S=200). Using the flat-panel system the exposure dose can be reduced by 50% to obtain a diagnostic performance comparable to a speed class 200 screen-film system.

Published

2002

31. Productivity and Cost Assessment of Computed Radiography, Digital Radiography, and Screen-Film for Outpatient Chest Examinations

Author

Katherine P. Andriole

Subjects

Patient throughput, medicine.medical_specialty, Radiography, Efficiency, Organizational, Ambulatory Care Facilities, Article, Cost assessment, Picture archiving and communication system, Humans, Medicine, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, In patient, Computed radiography, Productivity, Digital radiography, Radiological and Ultrasound Technology, business.industry, Computer Science Applications, Radiographic Image Enhancement, Radiology Information Systems, Costs and Cost Analysis, Radiography, Thoracic, Radiology, Tomography, X-Ray Computed, business

Abstract

An objective assessment and comparison of computed radiography (CR) versus digital radiography (DR) and screen-film for performing upright chest examinations on outpatients is presented in terms of workflow, productivity, speed of service, and potential cost justification. Perceived ease of use and workflow of each device is collected via a technologist opinion survey. Productivity is measured as the rate of patient throughput from normalized timing studies. The overall speed of service is calculated from the time of examination ordering as stamped in the radiology information system (RIS), to the time of image availability on the picture archiving and communication system (PACS), to the time of interpretation rendered (from the RIS). A cost comparison is discussed in terms of potential productivity gains and device expenditures. Comparative results of a screen-film (analog) dedicated chest unit versus a CR reader and a DR dedicated chest unit show a higher patient throughput for the digital systems. A mean of 8.2 patients were moved through the analog chest room per hour, versus 9.2 patients per hour using the CR system and 10.7 patients per hour with the DR system. This represents a 12% increase in patient throughput for CR over screen-film; a 30% increase in patient throughput for DR over screen-film, which is statistically significant; and a 16% increase in patient throughput for DR over CR, which is not statistically significant. Measured time to image availability for interpretation is much faster for both CR and DR versus screen-film, with the mean minutes to image availability calculated as 29.2 +/- 14.3 min for screen-film, 6.7 +/- 1.5 min for CR, and 5.7 +/- 2.5 min for DR. This represents an improved time to image availability of 77% for CR over screen-film, 80% for DR over screen-film, and 15% for DR over CR. These results are statistically significant (P.0001) for both CR over screen-film and DR over screen-film but not statistically significant for DR over CR. A comparison of the digital technology costs illustrates that the high cost of DR may not be justifiable unless a facility has a steady high patient volume to run the device at or near 100% productivity. Both CR and DR can improve workflow and productivity over analog screen-film in a PACS for delivery of projection radiography services in an outpatient environment. Cost justification for DR over CR appears to be tied predominantly to high patient volume and continuous rather than sporadic use patterns.

Published

2002

32. Interobserver agreement and performance score comparison in quality control using a breast phantom: screen-film mammography vs computed radiography

Author

Mitsuru Ikeda, Hiroko Satake, Takeo Ishigaki, Satoko Ishigaki, Akiko Sawaki, and Kazuhiro Shimamoto

Subjects

Quality Control, medicine.medical_specialty, Imaging phantom, Cohen's kappa, Quality (physics), medicine, Humans, Mammography, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Computed radiography, Neuroradiology, Observer Variation, medicine.diagnostic_test, Phantoms, Imaging, business.industry, Ultrasound, General Medicine, Female, Radiology, Microcalcification, medicine.symptom, Tomography, X-Ray Computed, business, Nuclear medicine

Abstract

Our objective was to evaluate interobserver agreement and to compare the performance score in quality control of screen-film mammography and computed radiography (CR) using a breast phantom. Eleven radiologists interpreted a breast phantom image (CIRS model X) by four viewing methods: (a) original screen-film; (b) soft-copy reading of the digitized film image; (c) hard-copy reading of CR using an imaging plate; and (d) soft-copy reading of CR. For the soft-copy reading, a 17-in. CRT monitor (1024x1536x8 bits) was used. The phantom image was evaluated using a scoring system outlined in the instruction manual, and observers judged each object using a three-point rating scale: (a) clearly seen; (b) barely seen; and (c) not seen. For statistical analysis, the kappa statistic was employed. For "mass" depiction, interobserver agreement using CR was significantly lower than when using screen-film ( p0.05). There was no significant difference in the kappa value for detecting "microcalcification"; however, the performance score of "microcalcification" on CR hard-copy was significantly lower than on the other three viewing methods ( p0.05). Viewing methods (film or CR, soft-copy or hard-copy) could affect how the phantom image is judged. Paying special attention to viewing conditions is recommended for quality control of CR mammograms.

Published

2002

33. Chest imaging with flat-panel detector at low and standard doses: comparison with storage phosphor technology in normal patients

Author

Christian Glaser, Harald M. Bonel, C. Kulinna, M. F. Reiser, M. Schätzl, Axel Stäbler, B. Geiger, Kathrin Herrmann, and Nicolaus Holzknecht

Subjects

Male, medicine.medical_specialty, Image quality, Radiography, Cesium, Flat panel detector, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Neuroradiology, Chest imaging, business.industry, Ultrasound, Phosphorus, General Medicine, Iodides, Middle Aged, Radiographic Image Enhancement, Storage phosphor, Female, Radiography, Thoracic, Dose reduction, Radiology, Nuclear medicine, business

Abstract

The purpose of this study was to evaluate the performance of standard-dose and low-dose cesium iodide (CsI)-doted amorphous silicon (a-Si) flat-panel detector technology (FDT) as compared with storage-phosphor technology (SPT) in the depiction of relevant anatomical structures in chest radiography. In 75 patients referred for thoracic CT, digital chest radiographs were randomly obtained with either SPT at a standard dose (speed class S400, n=25), standard-dose FDT (S400, n=25) or FDT at a low dose (S800, n=25). Five radiologists evaluated the visibility of eight pulmonary and mediastinal anatomical structures using a five-point rating scale. To determine statistically significant differences between the three groups, the Mann-Whitney U-test was employed. No statistically significant differences were found in the depiction of eight criteria between SPT and standard-dose or low-dose FDT chest radiographs. The performance of FDT S400 was equal to SPT for most criteria and better for retrocardiac structures and soft tissue. FDT S800 was inferior to both SPT and FDT S400. Standard-dose FDT is equivalent to SPT in the depiction of relevant anatomical structures of the chest. Our results also indicate that a dose reduction of 50% with FDT may result in small but not significant decrease of image quality.

Published

2001

34. Image quality vs radiation dose for a flat-panel amorphous silicon detector: a phantom study

Author

Jan Persliden, Karl-Wilhelm Beckman, Torbjörn Andersson, and Håkan Geijer

Subjects

Amorphous silicon, Silicon, medicine.medical_specialty, Image quality, chemistry.chemical_element, Radiation, Imaging phantom, chemistry.chemical_compound, Optics, medicine, Humans, Scattering, Radiation, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Radiometry, Phantoms, Imaging, business.industry, Radiation dose, Detector, Urography, General Medicine, equipment and supplies, Radiographic Image Enhancement, chemistry, Radiology, business, Nuclear medicine

Abstract

The aim of this study was to investigate the image quality for a flat-panel amorphous silicon detector at various radiation dose settings and to compare the results with storage phosphor plates and a screen-film system. A CDRAD 2.0 contrast-detail phantom was imaged with a flat-panel detector (Philips Medical Systems, Eindhoven, The Netherlands) at three different dose levels with settings for intravenous urography. The same phantom was imaged with storage phosphor plates at a simulated system speed of 200 and a screen-film system with a system speed of 160. Entrance surface doses were recorded for all images. At each setting, three images were read by four independent observers. The flat-panel detector had equal image quality at less than half the radiation dose compared with storage phosphor plates. The difference was even larger when compared with film with the flat-panel detector having equal image quality at approximately one-fifth the dose. The flat-panel detector has a very favourable combination of image quality vs radiation dose compared with storage phosphor plates and screen film.

Published

2001

35. Digital radiography with a large-scale electronic flat-panel detector vs screen-film radiography: observer preference in clinical skeletal diagnostics

Author

J. Freyschmidt, S. Hamers, and Ulrich Neitzel

Subjects

Male, medicine.medical_specialty, Bone Neoplasms, Sensitivity and Specificity, Bone and Bones, Flat panel detector, Digital image, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Aged, Digital radiography, Aged, 80 and over, Observer Variation, business.industry, Visibility (geometry), Detector, Ultrasound, Equipment Design, General Medicine, Middle Aged, Radiographic Image Enhancement, medicine.anatomical_structure, Female, Cortical bone, Radiology, Bone Diseases, Nuclear medicine, business, Cancellous bone

Abstract

The imaging performance of a recently developed digital flat-panel detector system was compared with conventional screen-film imaging in an observer preference study. In total, 34 image pairs of various regions of the skeleton were obtained in 24 patients; 30 image pairs were included in the study. The conventional images were acquired with 250- and 400-speed screen-film combinations, using the standard technique of our department. Within hours, the digital images were obtained using identical exposure parameters. The digital system employed a large-area (43x43 cm) flat-panel detector based on amorphous silicon (Trixell Pixium 4600), integrated in a Bucky table. Six radiologists independently evaluated the image pairs with respect to image latitude, soft tissue rendition, rendition of the periosteal and enosteal border of cortical bone, rendition of cancellous bone and the visibility of potentially present pathological changes, using a subjective five-point scale. The digital images were rated significantly (p=0.001) better than the screen-film images with respect to soft tissue rendition and image latitude. Also the rendition of the cancellous bone and the periosteal and enosteal border of the cortical bone was rated significantly (p=0.05) better for the flat-panel detector. The visibility of pathological lesions was equivalent; only large-area sclerotic lesions (n=2) were seen superiorly on screen-film images. The new digital flat-panel detector based on amorphous silicon appears to be at least equivalent to conventional screen-film combinations for skeletal examinations, and in most respects even superior.

Published

2001

36. Can we see enough? A comparative study of film-screen vs digital radiographs in small lesions in rheumatoid arthritis

Author

M. A. van Leeuwen, E. J. van der Jagt, S. Hofman, and B. M. Kraft

Subjects

Observer Variation, medicine.medical_specialty, Foot, business.industry, Radiography, Ultrasound, Arthritis, General Medicine, Hand, medicine.disease, Arthritis, Rheumatoid, Radiographic Image Enhancement, Rheumatoid arthritis, Humans, Medicine, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, In patient, Radiology, Computed radiography, business, Digital radiography, Neuroradiology

Abstract

The aim of this study was to evaluate the performance of digital radiography in the detection of early very small erosions and joint space narrowing in the hands and feet in rheumatoid arthritis. Fifty-three sets of film-screen and digital radiographs of the same hands and feet with very small and sometimes questionable lesions (possible erosions and cysts) were scored independently two times by four investigators. The percentage of lesions found in exactly the same position for each investigator was calculated. Intra-observer agreement between first and second reading in film-screen radiography was 64-76 % (mean 67 %), and in digital radiographs 60-71 % (mean 64 %). Agreement between film-screen and digital radiographs ranged from 54 to 64 % (mean 58 %) in the first reading and from 56 to 66 % (mean 62 %) in the second reading. Overall agreement between both techniques between first and second reading ranged between 62 and 73 % (mean 65 %). Digital radiography of the hands and feet can be used in patients suspected of rheumatoid arthritis and in follow-up of those patients, because small and early erosions can be seen equally well with the digital technique as compared with the conventional film-screen technique.

Published

2000

37. Comparative reject analysis in conventional film-screen and digital storage phosphor radiography

Author

M Walcher, M Pohl, Werner Jaschke, R. Peer, and Siegfried Peer

Subjects

Quality Control, medicine.medical_specialty, Radiology Department, Hospital, business.industry, Radiography, General Medicine, Rejection rate, Radiographic Image Enhancement, Conventional radiography, Radiology Information Systems, Digital radiology, Digital storage, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Computer vision, Radiology, Artificial intelligence, Radiology information systems, business, Digital radiography

Abstract

The aim of this study was comparative analysis of rejected radiographs in conventional and digital radiology under the aspects number of rejected images and reasons for rejection. During 2 months waste films of conventional radiography were collected; in digital radiography each image-delete command at the postprocessing workstation was documented. Rejected images were analysed and assigned to four categories. The overall reject rate was 27.6% in the conventional and 2.3% in the digital department. Whereas in the conventional department the main reason for rejection was "exposure" and "others" (i.e. problems related to film handling), the main reason in the digital environment was "positioning". The high exposure tolerance of digital systems markedly reduces the amount of faulty images. This is not only economically rewarding, but may also reduce unnecessary X-ray exposure of patients due to image retake.

Published

1999

38. Temporomandibular joint pantomography using charge-coupled device, photostimulable phosphor, and film receptors: A comparison

Author

Taeko T. Farman and Allan G. Farman

Subjects

Time Factors, Materials science, Laser scanning, Phosphor, Optics, Radiography, Panoramic, Image Processing, Computer-Assisted, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Session I: Digital Imaging and Image Processing, Image resolution, Temporomandibular Joint, Radiological and Ultrasound Technology, Phantoms, Imaging, business.industry, X-Ray Film, Resolution (electron density), Computer Science Applications, Radiographic Image Enhancement, Data Display, Charge-coupled device, business, Darkroom, Nuclear medicine

Abstract

Our objective was to compare the accuracy and practicality in use of three available imaging receptors for temporomandibular joint (TMJ) imaging; namely, two computer-assisted and one traditional analog x-ray film system. A standardized tissue-equivalent encased human skull specimen was imaged using lateral and posteroanterior (PA) pantomographic projections with the Orthopantomograph OP 100 (Instrumentarium Imaging, Tuusula, Finland) and three different receptor modalities: (1) Ektavision film with Ektavision screens (Eastman Kodak, Rochester, NY); (2) DenOptix photostimulable phosphor screens (Dentsply/Gendex, Chicago, IL); and (3) the charge-coupled device (CCD) receptor, DigiPan (TREX/Trophy Radiology, Marne-la-Vallée, France). The effective focal trough was found for each receptor using lead resolution grids placed at fractional millimeter distances along empirically determined beam projection angulations. The time to acquire and process images was also established. We found that the CCD system permitted real-time display, whereas the use of traditional film took 2 minutes to load the cassette in a darkroom and perform the exposure, and then a further 2 minutes to unload and process. The storage phosphor took 3 minutes to unload the cassette and process the image and a further 20 seconds to clear the plate following laser scanning. Film produced the greatest maximum resolution followed by the storage phosphor and the CCD. In conclusion, CCD-based TMJ pantomography provided an instant image. The photostimulable phosphor system used was the least satisfactory in terms of the time expended to obtain an image, but provided better spatial resolution than the CCD. Ektavision film/screens provided the best spatial resolution in this investigation.

Published

1999

39. Impact of electronic imaging on clinician behavior in the urgent care setting

Author

Trice W. Okryznski, Bernard F. King, Christopher W. T. Mattern, and Bradley J. Erickson

Subjects

Adult, Male, medicine.medical_specialty, Outpatient Clinics, Hospital, Time Factors, Minnesota, Radiography, MEDLINE, Therapeutics, Session VIII: Evaluating the Reengineering Effort, Cohort Studies, Hospitals, Group Practice, Acute care, Outcome Assessment, Health Care, Health care, Humans, Medicine, Outpatient clinic, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Medical physics, Computed radiography, Referral and Consultation, Radiological and Ultrasound Technology, business.industry, Middle Aged, Computer Science Applications, Radiology Information Systems, Case-Control Studies, Cohort, Data Display, Female, Patient Care, Radiology, Tomography, X-Ray Computed, business, Follow-Up Studies, Cohort study

Abstract

Although it is intuitively valuable that more expedient delivery of radiographic images and reports to clinicians would improve patient care, it is important to document these outcomes to validate further advances in these areas. We evaluated the care of 215 patients seen at a walk-in clinic to determine what benefit digital imaging is to the patient. Cohorts consisted of all patients for whom specified radiology examinations were ordered during a 7-day period. The first cohort was recruited when analog films were used. The second cohort received examinations performed with computed radiography (CR) acquisition and computer display, which had been in use for 2 years. Patients were categorized as to the type of study they received, as well as whether a staff radiologist was immediately available to read the study. Clinical behavior was characterized by outcome measures of time to final diagnosis, time to final treatment, and need for follow-up. Our analysis demonstrated a reduction in time to final diagnosis that was better appreciated during the times when a staff radiologist was not immediately available. It also suggested that greater time reductions were seen for patients who received extremity examinations than those who received chest, sinus, or rib films. These data suggest that digital imaging is a useful tool to improve clinical outcome of patients seen in the acute care setting.

Published

1999

40. Storage phosphor and film-screen mammography: performance with different mammographic techniques

Author

Anne Thilander-Klang, Susanne Kheddache, N G Bjurstam, Lars Gunnar Månsson, L. Björneld, P H Ackerholm, and B. Lanhede

Subjects

medicine.medical_specialty, Image quality, Pilot Projects, Breast Diseases, Optics, Humans, Medicine, Mammography, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Technology, Radiologic, Observer Variation, medicine.diagnostic_test, Phantoms, Imaging, business.industry, General Medicine, Anode, Breast phantom, Radiographic Image Enhancement, Filter (video), Absorbed dose, Storage phosphor, Female, Dose reduction, Radiology, business, Nuclear medicine

Abstract

The aim of this study was to compare the image quality of storage phosphor plates with that in screen-film radiograms in mammography. Two anode/filter combinations were also compared – Mo/Mo and W/Rh. S Storage phosphor plates, generation IIIN (Fuji, Tokyo, Japan) and a conventional screen-film system (Kodak, Rochester, N. Y.) were evaluated using two mammographic units. One unit had a 0.6-mm focal spot, an anode/filter combination of Mo/Mo and no grid (AMo); the other had a 0.3-mm focal spot, a grid, and two possible combinations of anode/filter Mo/Mo (BMo) and W/Rh (BW). Simulated tumours and microcalcifications were randomly positioned in an anthropomorphic breast phantom (RMI model 165, no. 210–009, Radiation Measurements Inc., Middleton, Wisconsin). The image quality was evaluated using a modified version of receiver operating characteristics analysis. Five observers evaluated 300 films and 300 hard copy images each. Radiation doses were also determined. The image quality of the conventional screen-film images was significantly better than that for the storage phosphor plate mammograms. The BMo system rated best, for the detection of both tumours and microcalcifications, although it was not significantly different from the BW system. Systems BMo and BW rated significantly better than the AMo system for both image receptors studied. The mean absorbed dose was twice as high for the BMo system as for the AMo and BW systems for both conventional and digital technique. The mammograms produced with the screen-film combination gave a significantly better detectability than the storage phosphor plates used in this study. Substantial dose reduction could be achieved using an anode/filter combination of W/Rh instead of Mo/Mo with no significant loss of information in the images.

Published

1999

41. A method for determining the information capacity of x-ray imaging scintillator detectors by means of luminescence and modulation transfer function measurements

Author

D. Cavouras, G.S. Panayiotakis, E. Kanellopoulos, Constantinos Nomicos, and Ioannis Kandarakis

Subjects

Electronic Data Processing, Materials science, business.industry, Energy conversion efficiency, Biomedical Engineering, Phosphor, Scintillator, engineering.material, Computer Science Applications, Optics, Coating, Optical transfer function, Luminescent Measurements, Scintillation counter, engineering, Humans, X-Ray Intensifying Screens, business, Luminescence, Effective atomic number

Abstract

A method to determine the information capacity of x-ray phosphor screens used in the detectors of medical imaging systems is described. Information capacity was determined via x-ray luminescence efficiency (XLE), modulation transfer function (MTF) and emission spectrum measurements. The method was applied to laboratory prepared screens from commonly employed phosphor materials. The screen coating weight varied from 50 mg cm-2 to 140 mg cm-2. Results indicated that information capacity decreased with screen coating thickness but also depended on intrinsic phosphor properties (density, effective atomic number, intrinsic conversion efficiency, light wavelength). The Gd2O2S:Tb phosphor, exhibiting high density and effective atomic number, was found to be superior to La2O2S:Tb and Y2O2S:Tb.

Published

1999

42. Digital roentgenographic systems based on photostimulated screens and their comparison with roentgenographic screen-film sets

Author

N E Stankevich and F G Gorelik

Subjects

Medical Laboratory Technology, Optics, Materials science, business.industry, Biomedical Engineering, Medicine (miscellaneous), business, X-Ray Intensifying Screens

Abstract

Parameters of images obtained using roentgenographic systems based on stimulated luminophores (computer roentgenography) were experimentally compared. It was shown that roentgenography based on the use of stimulated luminophores had several advantages over conventional film roentgenography.

Published

2006

43. Detection of radiographic findings in lung fibrosis using storage phosphor plates

Author

N. Konietzko, V. John, P. Gocke, R. Wiebringhaus, B. Buddenbrock, R.-D. Müller, H. Hirche, D. Herting, and R. Langer

Subjects

Male, medicine.medical_specialty, business.industry, Image quality, Pulmonary Fibrosis, Radiography, Ultrasound, Interstitial lung disease, General Medicine, Edge enhancement, medicine.disease, Radiographic Image Enhancement, Kernel (image processing), Pulmonary fibrosis, medicine, Kernel adaptive filter, Humans, Female, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Radiology, business, Nuclear medicine, Lung

Abstract

The aim of this work was to examine the influence of the filter kernel size on the detectability of differing radiological findings in interstitial lung disease. In 97 patients with confirmed pulmonary fibrosis chest radiographs were obtained with a film-screen system of speed class 200 and with correspondingly exposed storage phosphorous plates. The size of the filter kernel used for the image postprocessing varied between sigma 5 and sigma 70. The detectability of interstitial lung changes was evaluated independently by eight readers on the basis of a defined rating system. The results were analysed using multifactorial analysis of variance with Scheffe test at a significance level of p = 0.05. Small kernel sizes (S 5, S 10) combined with high edge enhancement were only of benefit in the imaging of septal lines, but reduced the detectability of nodular and reticular structures. Good detail detectability of both micronodules and septal lines was obtained with a medium kernel size of sigma 40. Storage phosphor radiography utilizing the appropriate choice of postprocessing parameters provides equivalent image quality for evaluating interstitial lung changes compared with a modern film-screen technique.

Published

1997

44. Stimulable phosphor plates in chest radiology

Author

Ulf Tylen

Subjects

medicine.medical_specialty, Quality Assurance, Health Care, Image quality, business.industry, Point-of-Care Systems, Radiography, Contrast resolution, Phosphorus, Phosphor, Image processing, General Medicine, Radiation Dosage, Grey scale, Radiographic Image Enhancement, Humans, Radiographic Image Interpretation, Computer-Assisted, Medicine, Radiography, Thoracic, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Radiology, business, Chest radiology, Digital radiography

Abstract

The stimulable phosphor plate technique has revolutionised radiology with portable equipment. The image quality permits diagnosis under difficult control conditions (ICUs). In order to achieve a signal-to-noise ratio, and therefore a contrast resolution similar to the commonly used film/screen systems, a higher radiation dose is needed. However, overall, with this technique a radiation dose reduction may be achieved as a result of the elimination of the need for retakes. The available stimulable phosphor plate systems, with adequate image processing are reliable, and at least as good as conventional film/screen systems for diagnosis in chest radiography. There are, however, other aspects that make the stimulable phosphor plate technique particularly appealing. Firstly, its reproducibility, which particularly in chest radiography allows images to be obtained with the same grey scale and darkness. Secondly, as this technique permits digital archiving and visualisation of images on screen, images can be rapidly distributed over a network making them available when and where they are needed.

Published

1997

45. Age-specific sensitivities of mammographic screening for breast cancer

Author

Huub Straatman, André L. M. Verbeek, Petronella G. M. Peer, Jan H. C. L. Hendriks, and Roland Holland

Subjects

Oncology, Respiratory Physiology (Non MeSH), Mammary gland, Urologic and Male Genital Diseases (Non MeSH), Phantoms, Imaging, Radiologic, Environment and Public Health (Non MeSH), Biomedische Magnetische Resonantie, Musculoskeletal Diseases, Musculoskeletal System, Portfolio Choice, Aged, 80 and over, Phantoms, Imaging, Age specific, Biomedical Magnetic Resonance, Otorhinolaryngologic Diseases, Cardiovascular Diseases, Health Occupations, Mammography, General Financial Markets, medicine.medical_specialty, Tomography Scanners, X-Ray Computed, Consumption, Design of Experiments, Endocrine Diseases, Digestive System Diseases, Urogenital System, Therapeutics, Sensitivity and Specificity, Breast cancer, Age groups, Humans, X-Ray Intensifying Screens, Aged, Body Regions (Non MeSH), Tomography Scanners, Consumption, Saving, Production, Employment, and Investment, Saving, Genitourinary system, Production, Special Topics [Econometric and Statistical Methods], Tissue Types (Non MeSH), General Economics, medicine.disease, Financial Institutions and Services, Circulatory, Digestive System, Single Equation Models [Econometric Methods], Technology, Cancer Research, Breast cancer mortality reduction by screening of women under the age of 50, Physiology, Data Collection and Data Estimation Methodology, Computer Programs, Respiratory System, Respiratory Tract Diseases, Teaching of Economics, and Investment, General (Non MeSH), Cardiovascular System, Nervous System, Physiology, General (Non MeSH), Neoplasms, Diagnosis, Epidemiology, Mass Screening, Neonatal Diseases and Abnormalities (Non MeSH), Brain Mapping, medicine.diagnostic_test, OVERIG ONDERZOEK MIES, Age Factors, Stomatognathic Diseases, General Aggregative Models, Hypothesis Testing, Middle Aged, Biological Sciences, X-Ray Computed, medicine.anatomical_structure, Virus Diseases, Nutrition (Non MeSH), Female Genital Diseases and Pregnancy Complications (Non MeSH), Mathematical Methods and Programming, Models with Panel Data, Female, Nutritional and Metabolic Diseases (Non MeSH), Adult, Employment, Biochemical Phenomena, Semiparametric and Nonparametric Methods, Fluids and Secretions (Non MeSH), Breast Neoplasms, Biochemical Phenomena, Metabolism, Nutrition (Non MeSH), Circulatory, Respiratory Physiology (Non MeSH), Econometric Methods: Single Equation Models, Symptoms and General Pathology (Non MeSH), Endocrine System (Non MeSH), Internal medicine, Econometric and Statistical Methods: Special Topics, medicine, Animals, In patient, General, Technology, Radiologic, Neural, Borstkankersterftereductie door screening van vrouwen jonger dan 50 jaar, Eye Physiology (Non MeSH), business.industry, Musculoskeletal, Neural, Eye Physiology (Non MeSH), Surgery, Relation of Economics to Other Disciplines, Metabolism, Musculoskeletal, Econometric Modeling, Other, Nervous System Diseases, business, Estimation, Game Theory and Bargaining Theory, Corporate Finance and Governance

Abstract

The sensitivity of the mammographic screening test in the biennial screening program of Nijmegen is assessed by analyzing the occurrence of interval cancers, i.e. cancers surfacing clinically in the interval between a negative screening examination and the subsequent scheduled examination. The difference between the observed number of interval cancers and the expected number of clinically manifest cancers in the absence of screening for the interval period reflects the number of cancers detected by screening. The expected number should be limited by the number of those cancers that were not detectable at the time of the screening examination because their size was under the threshold of mammographic detectability (5 mm). In contrast to other sensitivity studies we took these 'fast growing' cancers into consideration, the numbers of which are estimated in each of the six-month periods of the two-year interval using age-specific tumor volume growth rates for three age groups:50, 50-69, andor = 70 years. In patients under age 50, the sensitivity was 64% for cancers which would become clinically manifest within one year after screening. This sensitivity was lower than those obtained from the 50-69 andor = 70 age groups, being 85% and 80%, respectively. For cancers that would become clinically manifest 12-18 months after screening, sensitivity decreases to 22% in the under age 50 group, and to 56% and 65% in the two above age 50 groups, respectively. We conclude that even when adjusted for growth rate, the mammographic screening test has a poor performance in the under age 50 group.

Published

1996

46. Vascular malformations: a review of 10 years' management in a university hospital

Author

C.G. van Oostrom, F.G.M. Buskens, Carla Boetes, Paul N.M.A. Rieu, J. Zwerver, Paul H.M. Spauwen, R.P.H. Veth, R.J.J. Koopman, Public Health Research (PHR), and SMART Movements (SMART)

Subjects

Respiratory Physiology (Non MeSH), Urologic and Male Genital Diseases (Non MeSH), trunk, Phantoms, Imaging, Radiologic, Environment and Public Health (Non MeSH), Pediatric surgery, Medicine, Musculoskeletal Diseases, GeneralLiterature_REFERENCE(e.g.,dictionaries,encyclopedias,glossaries), Musculoskeletal System, Portfolio Choice, Phantoms, Imaging, General Medicine, Otorhinolaryngologic Diseases, classification, priority journal, Cardiovascular Diseases, Health Occupations, Presentation (obstetrics), General Financial Markets, medicine.medical_specialty, Tomography Scanners, X-Ray Computed, Consumption, Design of Experiments, Endocrine Diseases, Digestive System Diseases, Urogenital System, Therapeutics, X-Ray Intensifying Screens, human, Body Regions (Non MeSH), Tomography Scanners, Consumption, Saving, Production, Employment, and Investment, Saving, General surgery, Production, Special Topics [Econometric and Statistical Methods], Pediatric Surgeon, sex ratio, Tissue Types (Non MeSH), General Economics, medicine.disease, major clinical study, neck, Trunk, Financial Institutions and Services, Surgery, Circulatory, Digestive System, Single Equation Models [Econometric Methods], Technology, Physiology, Data Collection and Data Estimation Methodology, Computer Programs, Respiratory System, Respiratory Tract Diseases, Teaching of Economics, and Investment, General (Non MeSH), preschool child, Cardiovascular System, Nervous System, Physiology, General (Non MeSH), Angioma, Neoplasms, Diagnosis, Medical diagnosis, Neonatal Diseases and Abnormalities (Non MeSH), Brain Mapping, article, Stomatognathic Diseases, General Aggregative Models, Hypothesis Testing, Biological Sciences, X-Ray Computed, female, Virus Diseases, Nutrition (Non MeSH), Female Genital Diseases and Pregnancy Complications (Non MeSH), Mathematical Methods and Programming, Models with Panel Data, nomenclature, Nutritional and Metabolic Diseases (Non MeSH), Employment, Biochemical Phenomena, Semiparametric and Nonparametric Methods, Fluids and Secretions (Non MeSH), Biochemical Phenomena, Metabolism, Nutrition (Non MeSH), congenital blood vessel malformation, Circulatory, Respiratory Physiology (Non MeSH), Econometric Methods: Single Equation Models, Symptoms and General Pathology (Non MeSH), Endocrine System (Non MeSH), male, arm, Econometric and Statistical Methods: Special Topics, Animals, General, Technology, Radiologic, Neural, Eye Physiology (Non MeSH), business.industry, Vascular disease, patient care, head, infant, Musculoskeletal, Neural, Eye Physiology (Non MeSH), Relation of Economics to Other Disciplines, Metabolism, El Niño, Musculoskeletal, Pediatrics, Perinatology and Child Health, Econometric Modeling, Nervous System Diseases, business, Estimation, Game Theory and Bargaining Theory, Corporate Finance and Governance

Abstract

In order to gain insight into the management of patients with vascular malformations (VM) in the University Hospital Nijmegen in the past 10 years, 151 cases managed by different specialists were reviewed. To avoid the usual confusion in terminology, all recorded diagnoses were reclassified according to the biological classification of Mulliken. The sex distribution was equal; 79% of the malformations were diagnosed at birth or in the 1st year of life. The median time between presentation and consultation was 3 years. Sixty-two lymphatic, 26 venous, 24 capillary, 1 arterial, and 38 combined malformations (8 arteriovenous, 30 others) were found. The head and neck region was most frequently involved, followed by the lower and upper limbs and trunk. The pediatric surgeon was the most frequently consulted specialist. Confusing, mutually incompatible terminology and a wide variety of different diagnostic techniques and treatments had been used by the different specialists. To improve the management of patients with vascular malformations, the use of a uniform classification, an increase in basic investigations, and the development and evaluation of protocols for diagnosis and treatment by multidisciplinary teams are necessary.

Published

1996

47. Computed radiography in neonatal and pediatric intensive care units: A comparison of 2.5 K � 2 K soft-copy images vs digital hard-copy film

Author

P. Cahill, Bruce M. Greenwald, C. S. Giess, Peter A. M. Auld, Paula W. Brill, S. M. Durfee, Patricia Winchester, and Martin Lesser

Subjects

Radiography, Abdominal, medicine.medical_specialty, Radiography, Intensive Care Units, Pediatric, Cohen's kappa, Thoracic Diseases, Intensive Care Units, Neonatal, Intensive care, Humans, Medicine, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Prospective Studies, Hard copy, Computed radiography, Child, Neuroradiology, Observer Variation, business.industry, Infant, Newborn, Surgery, Radiographic Image Enhancement, Radiology Information Systems, Computer Terminals, Sample size determination, Pediatrics, Perinatology and Child Health, Radiology, business, Kappa

Abstract

Objective. The goal of the study was to determine whether soft-copy images on high-resolution monitors (2.5 K × 2 K) are suitable for primary interpretation of images from pediatric and neonatal intensive care units. The hypotheses were that hard and soft images yield similar diagnostic information, and that both residents and faculty radiologists can use monitors effectively. Previous reports have produced conflicting results; the need for larger sample sizes has been emphasized.Materials and methods. One thousand one hundred and four images produced by computed radiography using the Kodak Ectascan Imagelink system were prospectively analyzed by two pediatric radiologists, one reading hard copy and the other soft copy of the same images. Bias was controlled by equal distribution of modalities between observers and by daily alternation of modality. Hard- and soft-copy observations of presence or absence of nine specific tubes and nine specific diagnostic findings were compared. Interobserver differences between pediatric radiologists and radiology residents were studied on additional images. The kappa statistic was used to evaluate the level of agreement for all observations.Results. There was excellent agreement between hard and soft copy interpretation for each tube and diagnostic finding (kappa values 0.93–1.0) and excellent interobserver agreement between two pediatric radiologists (kappa values 0.84–1.0). The level of agreement between radiology residents and pediatric radiologist was excellent for the most objective findings. All results were statistically significant (p < 0.001).Conclusion. High resolution soft-copy images are suitable for primary interpretation in patients in pediatric and neonatal intensive care units.

Published

1996

48. Gastrointestinal examinations with a 2,048-×2,048-pixel image intensifier television digital radiography system

Author

Tadatoshi Tsuchigami, Yuji Baba, Y. Higashida, and Mutsumasa Takahashi

Subjects

Radiological and Ultrasound Technology, business.industry, Image intensifier, Intensifier, Computer Science Applications, law.invention, Radiographic Image Enhancement, Digital image, Radiology Information Systems, Evaluation Studies as Topic, law, Data Display, Humans, Medicine, Television, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Pixel image, Computer vision, Artificial intelligence, business, Digestive System, Clinical evaluation, Unsharp masking, Digital radiography

Abstract

The clinical usefulness of a 2,048- x 2,048-pixel matrix image intensifier television digital radiography system was evaluated. Screen-film and digital images (with and without postprocessing) of the upper and lower gastrointestinal (GI) tract were used for clinical evaluation. For the upper GI tract, digital images processed with unsharp mask techniques were comparable in quality to screen-film images before and after upgrading the system. For the lower GI tract, screen-film images were better than digital images, except for those processed with a 2,048- x 2,048-line monitor was comparable to a screen-film system.

Published

1995

49. Interpretation of subtle interstitial chest abnormalities: Conventional radiography versus high-resolution storage-phosphor radiography—A preliminary study

Author

Nobuaki Kohno, Shoji Kido, Takeshi Johkoh, N Takeuchi, Takahiro Kozuka, Jun Arisawa, and Junpei Ikezoe

Subjects

medicine.medical_specialty, Radiography, High resolution, Diagnosis, Differential, medicine, Humans, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Computed radiography, Image resolution, Radiological and Ultrasound Technology, Pixel, business.industry, Significant difference, Reproducibility of Results, Computer Science Applications, Radiographic Image Enhancement, Conventional radiography, ROC Curve, Storage phosphor, Data Display, Radiographic Image Interpretation, Computer-Assisted, Radiography, Thoracic, Radiology, Lung Diseases, Interstitial, business, Nuclear medicine

Abstract

To evaluate the reliability of digital chest radiography in diagnosing subtle interstitial lung abnormalities, we performed several clinical studies including a comparison of conventional screen-film radiography and storage-phosphor radiography (2 K x 2 K pixels, 10 bit), and a comparison of conventional screen-film radiography and film-digitized radiography (2 K x 2 K pixels, 10 bit). From these previous studies, a spatial resolution of 0.2-mm pixel size was considered inadequate to diagnose subtle interstitial lung diseases. Under these circumstances, the newly developed Fuji Computed Radiography system (FCR 9000; Fuji Photo Film, Tokyo, Japan) has recently become available. This system provides 0.1-mm pixel size (4 K x 5 K pixels, 10-bit depth) and life-size hard copies (14 x 17 inches). To evaluate the reliability of new high-resolution storage-phosphor radiography (FCR 9000) in diagnosing simulated subtle interstitial abnormalities (including simulated lines, micronodules, and groundglass opacities), the differences among radiologists in interpreting conventional screen-film radiographs and life-size high-resolution storage-phosphor radiographs were studied. Observation was made by eight experienced chest radiologists and receiver-operating characteristic (ROC) analysis was performed. There was no significant difference in detecting in subtle simulated interstitial abnormalities between conventional film-screen radiography and high-resolution storage-phosphor radiography. For all three types of abnormalities, there was no significant difference between conventional and storage-phosphor radiography. In conclusion, the high-resolution storage-phosphor chest radiography (0.1-mm pixel size, 10-bit depth) may be substituted for conventional chest radiography in the detection of subtle interstitial abnormalities.

Published

1995

50. Clinical aspects of Direct digital mammography

Author

G. J. S. Parkin

Subjects

medicine.medical_specialty, Digital mammography, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Image processing, Radiation Dosage, Black films, Image presentation, Image Processing, Computer-Assisted, medicine, Humans, Mammography, X-Ray Intensifying Screens, Radiology, Nuclear Medicine and imaging, Medical physics, Computed radiography, Radiological and Ultrasound Technology, medicine.diagnostic_test, business.industry, X-Ray Film, Digital imaging, Computer Science Applications, Radiographic Image Enhancement, Radiology Information Systems, Data Display, Female, Artifacts, business, Algorithms, Forecasting

Abstract

Since 1990, computed radiography (CR) has been used routinely in our symptomatic mammography service, imaging approximately 2,000 patients per year. Careful selection of the appropriate image processing parameters results in high-quality images of diagnostic value equivalent to conventional film-screen mammograms. Problems encountered included dust artifacts, black films, and white films, but these constituted only a very small proportion of images obtained and the remedies are discussed. Hard-copy reporting is used and improved image presentation is considered. New processing algorithms and the development of soft-copy reporting at dedicated workstations are expected in the near future.

Published

1995