Your search keyword '"Verdun, F. R."' showing total 6 results

1. Occupational and patient exposure as well as image quality for full spine examinations with the EOS imaging system.

Author

Damet, J., Fournier, P., Monnin, P., Sans‐Merce, M., Ceroni, D., Zand, T., Verdun, F. R., and Baechler, S.

Subjects

INDUSTRIAL hygiene, IMAGE quality analysis, IMAGE analysis, X-rays, RADIOLOGY, RADIATION doses

Abstract

Purpose: EOS (EOS imaging S.A, Paris, France) is an x-ray imaging system that uses slot-scanning technology in order to optimize the trade-off between image quality and dose. The goal of this study was to characterize the EOS system in terms of occupational exposure, organ doses to patients as well as image quality for full spine examinations. Methods: Occupational exposure was determined by measuring the ambient dose equivalents in the radiological room during a standard full spine examination. The patient dosimetry was performed using anthropomorphic phantoms representing an adolescent and a five-year-old child. The organ doses were measured with thermoluminescent detectors and then used to calculate effective doses. Patient exposure with EOS was then compared to dose levels reported for conventional radiological systems. Image quality was assessed in terms of spatial resolution and different noise contributions to evaluate the detector's performances of the system. The spatial-frequency signal transfer efficiency of the imaging system was quantified by the detective quantum efficiency (DQE). Results: The use of a protective apron when the medical staff or parents have to stand near to the cubicle in the radiological room is recommended. The estimated effective dose to patients undergoing a full spine examination with the EOS system was 290 µSv for an adult and 200 µSv for a child.MTF and NPS are nonisotropic, with higher values in the scanning direction; they are in addition energydependent, but scanning speed independent. The system was shown to be quantum-limited, with a maximum DQE of 13%. The relevance of the DQE for slot-scanning system has been addressed. Conclusions: As a summary, the estimated effective dose was 290 µSv for an adult; the image quality remains comparable to conventional systems. [ABSTRACT FROM AUTHOR]

Published

2014

2. Fluoroscopy-guided procedures in cardiology: is patient exposure being reduced over time?

Author

Samara, E. T., Aroua, A., Stauffer, J.-C., Bochud, F., and Verdun, F. R.

Subjects

CARDIOLOGY, RADIATION exposure, RADIATION doses, X-rays, PATIENTS, MEDICAL radiography

Abstract

The number of fluoroscopy-guided procedures in cardiology is increasing over time and it is appropriate to wonder whether technological progress or change of techniques is influencing patient exposure. The aim of this study is to examine whether patient dose has been decreasing over the years. Patient dose data of more than 7700 procedures were collected from two cardiology centres. A steady increase in the patient dose over the years was observed in both the centres for the two cardiological procedures included in this study. Significant increase in dose was also observed after the installation of a flat-panel detector. The increasing use of radial access may lead to an increase in the patient exposure. The monitoring of dose data over time showed a considerable increase in the patient exposure over time. Actions have to be taken towards dose reduction in both the centres. [ABSTRACT FROM PUBLISHER]

Published

2010

3. Criteria for establishing shielding of multi-detector computed tomography (MDCT) rooms.

Author

Verdun, F. R., Aroua, A., Baechler, S., Schmidt, S., Trueb, P. R., and Bochud, F. O.

Subjects

TOMOGRAPHY, RADIATION measurements, MEDICAL radiography, RADIATION doses, X-rays, ACADEMIC medical centers

Abstract

The aim of this work is to compare two methods used for determining the proper shielding of computed tomography (CT) rooms while considering recent technological advances in CT scanners. The approaches of the German Institute for Standardisation and the US National Council on Radiation Protection and Measurements were compared and a series of radiation measurements were performed in several CT rooms at the Lausanne University Hospital. The following three-step procedure is proposed for assuring sufficient shielding of rooms hosting new CT units with spiral mode acquisition and various X-ray beam collimation widths: (1) calculate the ambient equivalent dose for a representative average weekly dose length product at the position where shielding is required; (2) from the maximum permissible weekly dose at the location of interest, calculate the transmission factor F that must be taken to ensure proper shielding and (3) convert the transmission factor into a thickness of lead shielding. A similar approach could be adopted to use when designing shielding for fluoroscopy rooms, where the basic quantity would be the dose area product instead of the load of current (milliampere-minute). [ABSTRACT FROM PUBLISHER]

Published

2010

4. How to set up and apply reference levels in fluoroscopy at a national level.

Author

Aroua, A., Rickli, H., Stauffer, J.-C., Schnyder, P., Trueb, P. R., Valley, J.-F., Vock, P., and Verdun, F. R.

Subjects

FLUOROSCOPY, CARDIOLOGY, RADIOLOGY, ANGIOGRAPHY, INTERNAL medicine, PUBLIC hospitals, COMPARATIVE studies, DIAGNOSTIC imaging, DOSE-response relationship (Radiation), RESEARCH methodology, MEDICAL cooperation, RADIATION doses, RADIATION measurements, INTERVENTIONAL radiology, REFERENCE values, RESEARCH, SKIN, EVALUATION research

Abstract

A nationwide survey was launched to investigate the use of fluoroscopy and establish national reference levels (RL) for dose-intensive procedures. The 2-year investigation covered five radiology and nine cardiology departments in public hospitals and private clinics, and focused on 12 examination types: 6 diagnostic and 6 interventional. A total of 1,000 examinations was registered. Information including the fluoroscopy time (T), the number of frames (N) and the dose-area product (DAP) was provided. The data set was used to establish the distributions of T, N and the DAP and the associated RL values. The examinations were pooled to improve the statistics. A wide variation in dose and image quality in fixed geometry was observed. As an example, the skin dose rate for abdominal examinations varied in the range of 10 to 45 mGy/min for comparable image quality. A wide variability was found for several types of examinations, mainly complex ones. DAP RLs of 210, 125, 80, 240, 440 and 110 Gy cm2 were established for lower limb and iliac angiography, cerebral angiography, coronary angiography, biliary drainage and stenting, cerebral embolization and PTCA, respectively. The RL values established are compared to the data published in the literature. [ABSTRACT FROM AUTHOR]

Published

2007

5. Influence of detector collimation on SNR in four different MDCT scanners using a reconstructed slice thickness of 5 mm.

Author

Verdun, F., Noel, A., Meuli, R., Pachoud, M., Monnin, P., Valley, J.-F., Schnyder, P., Denys, A., and Verdun, F R

Subjects

DRUG dosage, SCANNING systems, MAGNETIC resonance imaging, DIAGNOSTIC imaging, COMPARATIVE studies, DIGITAL image processing, RESEARCH methodology, MEDICAL cooperation, IMAGING phantoms, RADIATION doses, RESEARCH, EVALUATION research, EQUIPMENT & supplies, MEDICAL artifacts

Abstract

The purpose of this paper is to compare the influence of detector collimation on the signal-to-noise ratio (SNR) for a 5.0 mm reconstructed slice thickness for four multi-detector row CT (MDCT) units. SNRs were measured on Catphan test phantom images from four MDCT units: a GE LightSpeed QX/I, a Marconi MX 8000, a Toshiba Aquilion and a Siemens Volume Zoom. Five-millimetre-thick reconstructed slices were obtained from acquisitions performed using detector collimations of 2.0-2.5 mm and 5.0 mm, 120 kV, a 360 degrees tube rotation time of 0.5 s, a wide range of mA and pitch values in the range of 0.75-0.85 and 1.25-1.5. For each set of acquisition parameters, a Wiener spectrum was also calculated. Statistical differences in SNR for the different acquisition parameters were evaluated using a Student's t-test (P<0.05). The influence of detector collimation on the SNR for a 5.0-mm reconstructed slice thickness is different for different MDCT scanners. At pitch values lower than unity, the use of a small detector collimation to produce 5.0-mm thick slices is beneficial for one unit and detrimental for another. At pitch values higher than unity, using a small detector collimation is beneficial for two units. One manufacturer uses different reconstruction filters when switching from a 2.5- to a 5.0-mm detector collimation. For a comparable reconstructed slice thickness, using a smaller detector collimation does not always reduce image noise. Thus, the impact of the detector collimation on image noise should be determined by standard deviation calculations, and also by assessing the power spectra of the noise. [ABSTRACT FROM AUTHOR]

Published

2004

6. Image quality and dose in spiral computed tomography.

Author

Verdun, F., Meuli, R., Bochud, F., Imsand, C., Raimondi, S., Schnyder, P., Valley, J.-F., Verdun, F R, Meuli, R A, and Bochud, F O

Subjects

CALIBRATION, COMPARATIVE studies, COMPUTED tomography, DIAGNOSTIC imaging, DIGITAL image processing, RESEARCH methodology, MEDICAL cooperation, IMAGING phantoms, PLASTICS, POLYMETHYLMETHACRYLATE, QUALITY assurance, RADIATION doses, RESEARCH, RESEARCH evaluation, WATER, EVALUATION research, MEDICAL artifacts

Abstract

Image quality and dose produced by a spiral CT with various pitch values were investigated on the basis of test-object images and measurements of CT dose indexes. No major difference in image quality or dose was observed when comparing sequential and spiral mode acquisition with a pitch of one. Increase in pitch value produces a loss of contrast which leads to a loss of detectability. Nevertheless, in realistic protocols the image quality in the transverse plane remains acceptable up to pitch values of 1.3-1.6. [ABSTRACT FROM AUTHOR]

Published

1996