Your search keyword '"Joemai RM"' showing total 25 results

1. Cochlear coordinates in regard to cochlear implantation: a clinically individually applicable 3 dimensional CT-based method.

Author

Verbist BM, Joemai RM, Briaire JJ, Teeuwisse WM, Veldkamp WJ, Frijns JH, Verbist, Berit M, Joemai, Raoul M S, Briaire, Jeroen J, Teeuwisse, Wouter M, Veldkamp, Wouter J H, and Frijns, Johan H M

Published

2010

2. Development and validation of a low dose simulator for computed tomography.

Author

Joemai RM, Geleijns J, Veldkamp WJ, Joemai, R M S, Geleijns, J, and Veldkamp, W J H

Abstract

Purpose: To develop and validate software for facilitating observer studies on the effect of radiation exposure on the diagnostic value of computed tomography (CT).Methods: A low dose simulator was developed which adds noise to the raw CT data. For validation two phantoms were used: a cylindrical test object and an anthropomorphic phantom. Images of both were acquired at different dose levels by changing the tube current of the acquisition (500 mA to 20 mA in five steps). Additionally, low dose simulations were performed from 500 mA downwards to 20 mA in the same steps. Noise was measured within the cylindrical test object and in the anthropomorphic phantom. Finally, noise power spectra (NPS) were measured in water.Results: The low dose simulator yielded similar image quality compared with actual low dose acquisitions. Mean difference in noise over all comparisons between actual and simulated images was 5.7 +/- 4.6% for the cylindrical test object and 3.3 +/- 2.6% for the anthropomorphic phantom. NPS measurements showed that the general shape and intensity are similar.Conclusion: The developed low dose simulator creates images that accurately represent the image quality of acquisitions at lower dose levels and is suitable for application in clinical studies. [ABSTRACT FROM AUTHOR]

Published

2010

3. Perfusion CT of the Brain and Liver and of Lung Tumors: Use of Monte Carlo Simulation for Patient Dose Estimation for Examinations With a Cone-Beam 320-MDCT Scanner.

Author

Cros M, Geleijns J, Joemai RM, and Salvadó M

Subjects

Female, Humans, Male, Phantoms, Imaging, Brain diagnostic imaging, Liver diagnostic imaging, Lung Neoplasms diagnostic imaging, Monte Carlo Method, Radiation Dosage, Radiometry methods, Tomography, X-Ray Computed methods

Abstract

Objective: The purpose of this study was to estimate the patient dose from perfusion CT examinations of the brain, lung tumors, and the liver on a cone-beam 320-MDCT scanner using a Monte Carlo simulation and the recommendations of the International Commission on Radiological Protection (ICRP)., Materials and Methods: A Monte Carlo simulation based on the Electron Gamma Shower Version 4 package code was used to calculate organ doses and the effective dose in the reference computational phantoms for an adult man and adult woman as published by the ICRP. Three perfusion CT acquisition protocols--brain, lung tumor, and liver perfusion--were evaluated. Additionally, dose assessments were performed for the skin and for the eye lens. Conversion factors were obtained to estimate effective doses and organ doses from the volume CT dose index and dose-length product., Results: The sex-averaged effective doses were approximately 4 mSv for perfusion CT of the brain and were between 23 and 26 mSv for the perfusion CT body protocols. The eye lens dose from the brain perfusion CT examination was approximately 153 mGy. The sex-averaged peak entrance skin dose (ESD) was 255 mGy for the brain perfusion CT studies, 157 mGy for the lung tumor perfusion CT studies, and 172 mGy for the liver perfusion CT studies., Conclusion: The perfusion CT protocols for imaging the brain, lung tumors, and the liver performed on a 320-MDCT scanner yielded patient doses that are safely below the threshold doses for deterministic effects. The eye lens dose, peak ESD, and effective doses can be estimated for other clinical perfusion CT examinations from the conversion factors that were derived in this study.

Published

2016

4. Low contrast detectability performance of model observers based on CT phantom images: kVp influence.

Author

Hernandez-Giron I, Calzado A, Geleijns J, Joemai RM, and Veldkamp WJ

Subjects

Observer Variation, Psychometrics, Phantoms, Imaging, Signal-To-Noise Ratio, Tomography, X-Ray Computed instrumentation

Abstract

This paper studies low contrast detectability (LCD) performance of two model observers in CT phantom images acquired at different kVp levels and compares the results with humans in a 2-alternative forced choice experiment (2-AFC). Images of the Catphan phantom with objects of different contrasts (0.5 and 1%) and diameters (2-15 mm) were acquired in an Aquilion ONE 320-detector row CT (Toshiba Medical Systems, Tokyo, Japan), in two experiments, selecting (80-100-120-135 kV) with fixed mAs and varying the mAs to keep the dose constant, respectively. Four human observers evaluated the objects visibility obtaining a proportion correct (PC) for each case. LCD was also analyzed with two model observers (non-prewhitening matched filter with an eye filter, NPWE, and channelized Hotelling observer with Gabor channels, CHO). Object contrast was affected by kV, with differences up to 17% between the lowest and highest kV. Both models overestimated human performance and were corrected by efficiency and internal noise factors. The NPWE model reproduced better the human PC values trends showing Pearson's correlation coefficients ≥0.976 (0.954-0.987, 95% CI) for both experiments, whereas for CHO they were ≥0.706 (0.493-0.839). Bland-Altman plots showed better agreement between NPWE and humans being the average difference Δ and the range of the differences Δ±2σ (σ, standard deviation) of Δ=-0.3%, Δ±2σ = [-4.0%,4.5%]. For CHO, Δ=-1.2%, Δ± 2σ= [-10.7%,8.3%]. The NPWE model can be a useful tool to predict human performance in CT low contrast detection tasks in a standard phantom and be potentially used in protocol optimization based on kV selection., (Copyright © 2015 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.)

Published

2015

5. A Survey of Radiation Doses in CT Urography Before and After Implementation of Iterative Reconstruction.

Author

van der Molen AJ, Miclea RL, Geleijns J, and Joemai RM

Subjects

Aged, Female, Humans, Male, Middle Aged, Retrospective Studies, Radiation Dosage, Radiographic Image Interpretation, Computer-Assisted methods, Tomography, X-Ray Computed, Urography

Abstract

Objective: The purpose of this study was to survey the radiation dose used in CT urography (CTU) in routine clinical practice, both before and after implementation of a scanning protocol that uses iterative reconstruction (Adaptive Iterative Dose Reduction 3D [AIDR 3D])., Materials and Methods: We retrospectively surveyed dose reports from consecutive CTU examinations performed in 2011 with the use of 64- and 320-MDCT scanners that were reconstructed with filtered back projection (FBP) and from CTU examinations performed from May 2012 through November 2013 that were reconstructed with the use of AIDR 3D. Findings from these dose reports were then correlated with such patient characteristics as weight and body mass index (BMI; weight in kilograms divided by the square of height in meters). Only dose reports from single-bolus three-phase CTU examinations were included in the study. The volume CT dose index, dose-length product (DLP), and effective dose were surveyed both per examination and per phase by use of published effective dose DLP conversion factors. Image quality was evaluated subjectively for a subset of patients., Results: The two study cohorts included 82 patients (median patient weight, 75.0 kg; median BMI, 25.3) who underwent CTU with FBP and 85 patients (median patient weight, 78.0 kg; median BMI, 24.5) who underwent CTU with AIDR 3D. The median total DLP and median effective dose were 924 mGy · cm and 13.0 mSv, respectively, in the CTU with the FBP cohort and 433 mGy · cm and 6.1 mSv, respectively, in the CTU with the AIDR 3D cohort. The median DLP in the unenhanced, nephrogenic, and excretory phases was 218, 300, and 441 mGy · cm, respectively, in patients undergoing CTU with FBP and 114, 121, and 190 mGy · cm, respectively, in patients undergoing CTU with AIDR 3D. Image quality was diagnostic in both groups, with relatively fewer artifacts noted on scans obtained using CTU with AIDR 3D., Conclusion: Our study presents detailed dose data from three-phase CTU examinations performed both before and after implementation of iterative reconstruction. Implementation of a CTU protocol using iterative reconstruction resulted in a mean effective dose of 6.1 mSv with preservation of clinical diagnostic image quality.

Published

2015

6. Monte Carlo simulation of the dose distribution of ICRP adult reference computational phantoms for acquisitions with a 320 detector-row cone-beam CT scanner.

Author

Salvadó M, Cros M, Joemai RM, Calzado A, and Geleijns J

Subjects

Adult, Female, Humans, Male, Radiation Protection, Software, Cone-Beam Computed Tomography instrumentation, Monte Carlo Method, Phantoms, Imaging, Radiation Dosage

Abstract

Purpose: The purpose of this study was to develop and validate a Monte Carlo (MC) simulation tool for patient dose assessment for a 320 detector-row CT scanner, based on the recommendations of International Commission on Radiological Protection (ICRP). Additionally, the simulation was applied on four clinical acquisition protocols, with and without automatic tube current modulation (TCM)., Methods: The MC simulation was based on EGS4 code and was developed specifically for a 320 detector-row cone-beam CT scanner. The ICRP adult reference phantoms were used as patient models. Dose measurements were performed free-in-air and also in four CTDI phantoms: 150 mm and 350 mm long CT head and CT body phantoms. The MC program was validated by comparing simulations results with these actual measurements acquired under the same conditions. The measurements agreed with the simulations across all conditions within 5%. Patient dose assessment was performed for four clinical axial acquisitions using the ICRP adult reference phantoms, one of them using TCM., Results: The results were nearly always lower than those obtained from other dose calculator tools or published in other studies, which were obtained using mathematical phantoms in different CT systems. For the protocol with TCM organ doses were reduced by between 28 and 36%, compared to the results obtained using a fixed mA value., Conclusions: The developed simulation program provides a useful tool for assessing doses in a 320 detector-row cone-beam CT scanner using ICRP adult reference computational phantoms and is ready to be applied to more complex protocols., (Copyright © 2015 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.)

Published

2015

7. Cone-beam CT versus multi-slice CT systems for postoperative imaging of cochlear implantation--a phantom study on image quality and radiation exposure using human temporal bones.

Author

Theunisse HJ, Joemai RM, Maal TJ, Geleijns J, Mylanus EA, and Verbist BM

Subjects

Cadaver, Humans, Phantoms, Imaging, Postoperative Period, Radiation Dosage, Radiographic Image Interpretation, Computer-Assisted, Tomography Scanners, X-Ray Computed, Tomography, X-Ray Computed methods, Cochlea diagnostic imaging, Cochlear Implantation, Cochlear Implants, Cone-Beam Computed Tomography methods, Temporal Bone diagnostic imaging

Abstract

Hypothesis: Image quality of low-dose multi-slice computed tomography (MSCT) after cochlear implantation is comparable to that of cone-beam computed tomography (CBCT)., Background: CBCT has been described as a low-dose alternative with superior image quality to MSCT for postoperative cochlear implant (CI) imaging, but to our knowledge, no dose-matched comparisons of image quality have been published., Materials and Methods: Five human cochleae were implanted with CI electrodes and scanned on two CBCT and two MSCT systems. Four independent observers rated aspects of image quality on a five-point scale. CBCT scans were compared to clinical and dose-matched MSCT scans. Declining-dose MSCT protocols were compared to the clinical protocol. CT phantoms were used to determine effective dose and resolution for each acquisition protocol., Results: Effective dose of the CBCT protocols was 6 to 16% of the clinical MSCT dose. Visibility of cochlear inner and outer walls and overall image quality were positively correlated with radiation dose on MSCT and image quality was better with clinical MSCT than with CBCT protocols. In other comparisons, differences between systems were found, but a distinction between CBCT and MSCT could not be made., Conclusion: CBCT and dose-matched MSCT are both suitable for postoperative CI imaging. Selecting a CT system and radiation dose depends on which cochlear structures need to be visualized.

Published

2015

8. Comparison between human and model observer performance in low-contrast detection tasks in CT images: application to images reconstructed with filtered back projection and iterative algorithms.

Author

Hernandez-Giron I, Calzado A, Geleijns J, Joemai RM, and Veldkamp WJ

Subjects

Algorithms, Humans, Japan, Models, Theoretical, Phantoms, Imaging, Radiation Dosage, Software, Image Processing, Computer-Assisted methods, Radiographic Image Interpretation, Computer-Assisted methods, Tomography, X-Ray Computed methods

Abstract

Objective: To compare low-contrast detectability (LCDet) performance between a model [non-pre-whitening matched filter with an eye filter (NPWE)] and human observers in CT images reconstructed with filtered back projection (FBP) and iterative [adaptive iterative dose reduction three-dimensional (AIDR 3D; Toshiba Medical Systems, Zoetermeer, Netherlands)] algorithms., Methods: Images of the Catphan® phantom (Phantom Laboratories, New York, NY) were acquired with Aquilion ONE™ 320-detector row CT (Toshiba Medical Systems, Tokyo, Japan) at five tube current levels (20-500 mA range) and reconstructed with FBP and AIDR 3D. Samples containing either low-contrast objects (diameters, 2-15 mm) or background were extracted and analysed by the NPWE model and four human observers in a two-alternative forced choice detection task study. Proportion correct (PC) values were obtained for each analysed object and used to compare human and model observer performances. An efficiency factor (η) was calculated to normalize NPWE to human results., Results: Human and NPWE model PC values (normalized by the efficiency, η = 0.44) were highly correlated for the whole dose range. The Pearson's product-moment correlation coefficients (95% confidence interval) between human and NPWE were 0.984 (0.972-0.991) for AIDR 3D and 0.984 (0.971-0.991) for FBP, respectively. Bland-Altman plots based on PC results showed excellent agreement between human and NPWE [mean absolute difference 0.5 ± 0.4%; range of differences (-4.7%, 5.6%)]., Conclusion: The NPWE model observer can predict human performance in LCDet tasks in phantom CT images reconstructed with FBP and AIDR 3D algorithms at different dose levels., Advances in Knowledge: Quantitative assessment of LCDet in CT can accurately be performed using software based on a model observer.

Published

2014

9. Total bolus extraction method improves arterial image quality in dynamic CTAs derived from whole-brain CTP data.

Author

Ghariq E, Mendrik AM, Willems PW, Joemai RM, Ghariq E, Vonken EJ, van Osch MJ, and van Walderveen MA

Subjects

Aged, Aged, 80 and over, Brain blood supply, Contrast Media, Female, Hemodynamics, Humans, Male, Middle Aged, Stroke pathology, Brain diagnostic imaging, Cerebral Angiography methods, Stroke diagnostic imaging, Tomography, X-Ray Computed methods

Abstract

Background and Purposes. The 320-detector row CT scanner enables visualization of whole-brain hemodynamic information (dynamic CT angiography (CTA) derived from CT perfusion scans). However, arterial image quality in dynamic CTA (dCTA) is inferior to arterial image quality in standard CTA. This study evaluates whether the arterial image quality can be improved by using a total bolus extraction (ToBE) method. Materials and Methods. DCTAs of 15 patients, who presented with signs of acute cerebral ischemia, were derived from 320-slice CT perfusion scans using both the standard subtraction method and the proposed ToBE method. Two neurointerventionalists blinded to the scan type scored the arterial image quality on a 5-point scale in the 4D dCTAs in consensus. Arteries were divided into four categories: (I) large extradural, (II) intradural (large, medium, and small), (III) communicating arteries, and (IV) cerebellar and ophthalmic arteries. Results. Quality of extradural and intradural arteries was significantly higher in the ToBE dCTAs than in the standard dCTAs (extradural P = 0.001, large intradural P < 0.001, medium intradural P < 0.001, and small intradural P < 0.001). Conclusion. The 4D dCTAs derived with the total bolus extraction (ToBE) method provide hemodynamic information combined with improved arterial image quality as compared to standard 4D dCTAs.

Published

2014

10. Additional diagnostic value of integrated analysis of cardiac CTA and SPECT MPI using the SMARTVis system in patients with suspected coronary artery disease.

Author

Kirişli HA, Gupta V, Shahzad R, Al Younis I, Dharampal A, Geuns RJ, Scholte AJ, de Graaf MA, Joemai RM, Nieman K, van Vliet L, van Walsum T, Lelieveldt B, and Niessen WJ

Subjects

Aged, Female, Heart diagnostic imaging, Humans, Image Processing, Computer-Assisted, Male, Middle Aged, Observer Variation, Perfusion, Retrospective Studies, Sensitivity and Specificity, Software, Time Factors, Coronary Angiography, Coronary Artery Disease diagnostic imaging, Myocardial Perfusion Imaging, Tomography, Emission-Computed, Single-Photon, Tomography, X-Ray Computed

Abstract

Unlabelled: CT angiography (CTA) and SPECT myocardial perfusion imaging (MPI) are complementary imaging techniques to assess coronary artery disease (CAD). Spatial integration and combined visualization of SPECT MPI and CTA data may facilitate correlation of myocardial perfusion defects and subtending coronary arteries and thus offer additional diagnostic value over either stand-alone or side-by-side interpretation of the respective datasets from the 2 modalities. In this study, we investigated the additional diagnostic value of a software-based CTA/SPECT MPI image fusion system over conventional side-by-side analysis in patients with suspected CAD., Methods: Seventeen symptomatic patients who underwent both CTA and SPECT MPI within a 90-d period were included in our study; 7 of them also underwent invasive coronary angiography (ICA). The potential benefits of the synchronized multimodal heart visualization (SMARTVis) system in assessing CAD were investigated through a case study involving 4 experts from 2 medical centers, in which we performed, first, a side-by-side analysis using structured CTA and SPECT reports and, second, an integrated analysis using the SMARTVis system in addition to the reports., Results: The fused interpretation led to a more accurate diagnosis, reflected in an increase in the individual observers' sensitivity and specificity to correctly refer for invasive angiography eventually followed by revascularization. For the first, second, third, and fourth observers, the respective sensitivities improved from 50%, 60%, 80%, and 80% to 70%, 80%, 100%, and 90% and the respective specificities from 100%, 94%, 83%, and 83% to 100%, 100%, 94%, and 83%. Additionally, the interobserver diagnosis agreement increased from 74% to 84%. The improvement was primarily found in patients presenting with CAD in more vessels than the number of reported perfusion defects., Conclusion: Integrated analysis of cardiac CTA and SPECT MPI using the SMARTVis system results in an improved diagnostic performance.

Published

2014

11. Adaptive iterative dose reduction 3D versus filtered back projection in CT: evaluation of image quality.

Author

Joemai RM, Veldkamp WJ, Kroft LJ, Hernandez-Giron I, and Geleijns J

Subjects

Humans, Phantoms, Imaging, Quality Control, Radiation Protection methods, Radiographic Image Interpretation, Computer-Assisted, Algorithms, Imaging, Three-Dimensional, Radiation Dosage, Tomography, X-Ray Computed methods

Abstract

Objective: The purpose of this study was to evaluate image quality with filtered back projection (FBP) and adaptive iterative dose reduction 3D (AIDR 3D)., Materials and Methods: Phantom acquisitions were performed at six dose levels to assess spatial resolution, noise, and low-contrast detectability (LCD). Spatial resolution was assessed with the modulation transfer function at high and low contrast levels. Noise power spectrum and SD of attenuation were assessed. LCD was calculated with a mathematic model observer applied to phantom CT images. The subjective image quality of clinical CT scans was assessed by five radiologists., Results: Compared with FBP, AIDR 3D resulted in substantial noise reduction at all frequencies with a similar shape of the noise power spectrum. Spatial resolution was similar for AIDR 3D and FBP. LCD improved with AIDR 3D, which was associated with a potential average dose reduction of 36% (range, 9-86%). The observer study showed that overall image quality improved and artifacts decreased with AIDR 3D., Conclusion: AIDR 3D performs better than FBP with regard to noise and LCD, resulting in better image quality, and performs similarly with respect to spatial resolution. The evaluation of image quality of clinical CT scans was consistent with the objective assessment of image quality with a phantom. The amount of dose reduction should be investigated for each clinical indication in studies with larger numbers of patients.

Published

2013

12. Effect of dose reduction on image quality and diagnostic performance in coronary computed tomography angiography.

Author

van der Bijl N, Joemai RM, Mertens BJ, de Roos A, Veldkamp WJ, Bax JJ, Schuijf JD, Geleijns J, and Kroft LJ

Subjects

Aged, Area Under Curve, False Negative Reactions, Female, Humans, Logistic Models, Male, Middle Aged, Observer Variation, Predictive Value of Tests, ROC Curve, Reproducibility of Results, Retrospective Studies, Severity of Illness Index, Coronary Angiography methods, Coronary Artery Disease diagnostic imaging, Coronary Stenosis diagnostic imaging, Coronary Vessels diagnostic imaging, Radiation Dosage, Tomography, X-Ray Computed

Abstract

To evaluate the effect of radiation dose reduction on image quality and diagnostic accuracy of coronary computed tomography (CT) angiography. Coronary CT angiography studies of 40 patients with (n = 20) and without (n = 20) significant (≥50 %) stenosis were included (26 male, 14 female, 57 ± 11 years). In addition to the original clinical reconstruction (100 % dose), simulated images were created that correspond to 50, 25 and 12.5 % of the original dose. Image quality and diagnostic performance in identifying significant stenosis were determined. Receiver-operator-characteristics analysis was used to assess diagnostic accuracy at different dose levels. The identification of patients with significant stenosis decreased consistently at doses of 50, 25 and 12.5 of the regular clinical acquisition (100 %). The effect was relatively weak at 50 % dose, and was strong at dose levels of 25 and 12.5 %. At lower doses a steady increase was observed for false negative findings. The number of coronary artery segments that were rated as diagnostic decreased gradually with dose, this was most prominent for smaller segments. The area-under-the-curve (AUC) was 0.90 (p = 0.4) at 50 % dose; accuracy decreased significantly with 25 % (AUC 0.70) and 12.5 % dose (AUC 0.60) (p < 0.0001), with underestimation of patients having significant stenosis. The clinical acquisition protocol for evaluation of coronary artery stenosis with CT angiography represents a good balance between image quality and patient dose. A potential for a modest (<50 %) reduction of tube current might exist. However, more substantial reduction of tube current will reduce diagnostic performance of coronary CT angiography substantially.

Published

2013

13. Performance of longitudinal and volumetric tube current modulation in a 64-slice CT with different choices of acquisition and reconstruction parameters.

Author

Van der Molen AJ, Joemai RM, and Geleijns J

Subjects

Humans, Phantoms, Imaging, Image Processing, Computer-Assisted methods, Tomography, X-Ray Computed methods

Abstract

Aim of the study was to evaluate the performance of a tube current modulation (TCM) system ((SURE)Exposure 3D). On a 64 detector-row CT scanner (Aquilion 64, Toshiba), performance of fixed tube current, longitudinal TCM, and volumetric TCM acquisitions were assessed. A homogeneous cone-shaped phantom and an anthropomorphic phantom were used. Tube current and noise profiles were quantitatively analysed by box and whisker plots when phantom size, acquisition, and reconstruction parameters were varied. At similar median noise, fixed tube current scanning showed a noise range of 16.8-38.3 HU, while longitudinal TCM showed a range of 19.4-31.4 HU and volumetric TCM showed an even lower range of 20.7-28.7 HU. When acquisitions resulting in similar image quality (noise) were compared, the use of volumetric compared to longitudinal TCM resulted in a variable radiation dose reduction up to 6.6%. In conclusion, (SURE)Exposure 3D resulted in more uniform image quality at a lower dose. Volumetric TCM shows improved results over longitudinal TCM., (Copyright © 2011 Associazione Italiana di Fisica Medica. Published by Elsevier Ltd. All rights reserved.)

Published

2012

14. Measuring femoral lesions despite CT metal artefacts: a cadaveric study.

Author

Malan DF, Botha CP, Kraaij G, Joemai RM, van der Heide HJ, Nelissen RG, and Valstar ER

Subjects

Aged, Aged, 80 and over, Algorithms, Cadaver, Female, Humans, Male, Osteolysis etiology, Phantoms, Imaging, Prosthesis Failure adverse effects, Radiographic Image Enhancement methods, Artifacts, Femur diagnostic imaging, Metals, Osteolysis diagnostic imaging, Prostheses and Implants, Tomography, X-Ray Computed methods

Abstract

Objective: Computed tomography is the modality of choice for measuring osteolysis but suffers from metal-induced artefacts obscuring periprosthetic tissues. Previous papers on metal artefact reduction (MAR) show qualitative improvements, but their algorithms have not found acceptance for clinical applications. We investigated to what extent metal artefacts interfere with the segmentation of lesions adjacent to a metal femoral implant and whether metal artefact reduction improves the manual segmentation of such lesions., Materials and Methods: We manually created 27 periprosthetic lesions in 10 human cadaver femora. We filled the lesions with a fibrotic interface tissue substitute. Each femur was fitted with a polished tapered cobalt-chrome prosthesis and imaged twice--once with the metal, and once with a substitute resin prosthesis inserted. Metal-affected CTs were processed using standard back-projection as well as projection interpolation (PI) MAR. Two experienced users segmented all lesions and compared segmentation accuracy., Results: We achieved accurate delineation of periprosthetic lesions in the metal-free images. The presence of a metal implant led us to underestimate lesion volume and introduced geometrical errors in segmentation boundaries. Although PI MAR reduced streak artefacts, it led to greater underestimation of lesion volume and greater geometrical errors than without its application., Conclusion: CT metal artefacts impair image segmentation. PI MAR can improve subjective image appearance but causes loss of detail and lower image contrast adjacent to prostheses. Our experiments showed that PI MAR is counterproductive for manual segmentation of periprosthetic lesions and should be used with care.

Published

2012

15. Metal artifact reduction for CT: development, implementation, and clinical comparison of a generic and a scanner-specific technique.

Author

Joemai RM, de Bruin PW, Veldkamp WJ, and Geleijns J

Subjects

Humans, Reproducibility of Results, Sensitivity and Specificity, Shoulder surgery, Algorithms, Artifacts, Metals, Prostheses and Implants, Radiographic Image Enhancement methods, Radiographic Image Interpretation, Computer-Assisted methods, Shoulder diagnostic imaging, Tomography, X-Ray Computed methods

Abstract

Purpose: To develop, implement, and compare two metal artifact reduction methods for CT., Methods: Two methods for metal artifact reduction were developed. The first is based on applying corrections in a Radon transformation of the CT images. The second method is based on a forward projection of the CT images and applying corrections in the scanner's original raw data. The first method is generic since it does not depend on the scanner specifications. For the second method, detailed information on the design of the CT scanner and the raw data of the study is required. Clinical implementation and evaluation were performed using pre- and post-operative CT scans of four patients with shoulder prosthesis. For comparison of these methods, the authors developed a quantitative technique that compares improvement in image quality for the two metal artifact reduction techniques with the image quality of the uncorrected images., Results: Metal artifact reduction using either of the two methods yields a decrease of noise and artifacts in CT scans of patients with shoulder prostheses. Artifacts that appeared as bright and dark streaks were reduced or eliminated and as a result image quality improved. Quantitative assessment of clinical images showed improved image quality for both techniques of metal artifact reduction, but the method based on correction in original raw data performed better in all comparisons., Conclusion: Both methods are effective for metal artifact reduction, but better performance was observed for the method that is based on correcting the original raw data. The used evaluation technique provides an objective way of evaluating the metal artifacts in clinical CT images.

Published

2012

16. Electrode migration in cochlear implant patients: not an exception.

Author

van der Marel KS, Verbist BM, Briaire JJ, Joemai RM, and Frijns JH

Subjects

Adult, Aged, Asymptomatic Diseases, Child, Child, Preschool, Electrodes, Implanted adverse effects, Follow-Up Studies, Headache etiology, Humans, Infant, Middle Aged, Retrospective Studies, Tinnitus etiology, Vertigo etiology, Young Adult, Cochlear Implantation adverse effects, Cochlear Implants adverse effects, Foreign-Body Migration etiology, Hearing Loss, Sensorineural surgery, Postoperative Complications etiology

Abstract

Objective: It was the aim of this study to investigate the occurrence of electrode migration of a cochlear implant in patients with and without complaints., Methods: We performed a retrospective case review in a tertiary referral center. The electrode position was evaluated in 35 cochlear implantees, 16 with a CII HiFocus1 (non-positioner) and 19 with a HiRes90K HiFocus1J, using multiplanar reconstructions of the postoperative CT scans. Of 5 patients, a second scan was obtained to evaluate complaints of performance drop, vertigo, tinnitus, headache or nonauditory stimulation. Displacements of the electrode contacts were calculated and displacements of >1 mm were considered a migration. The possible correlation with implant type, insertion depth or presence of complaints was analyzed., Results: Migrations were detected in 10 patients (29%). There was a significant effect of the implant type in favour of the HiFocus1, but no relation with the original insertion depth of the device. In the 5 patients scanned because of complaints, two migrations were detected., Conclusions: In our patient population, electrode migration was not uncommon and turned out to occur in patients with and without complaints., (Copyright © 2012 S. Karger AG, Basel.)

Published

2012

17. Cochlear reimplantation with same device: surgical and audiologic results.

Author

van der Marel KS, Briaire JJ, Verbist BM, Joemai RM, Boermans PP, Peek FA, and Frijns JH

Subjects

Adult, Age Factors, Aged, Audiometry methods, Child, Child, Preschool, Cochlear Implantation methods, Cohort Studies, Female, Follow-Up Studies, Hearing Loss etiology, Hearing Loss physiopathology, Hospitals, University, Humans, Male, Middle Aged, Postoperative Complications physiopathology, Postoperative Complications surgery, Reoperation methods, Retrospective Studies, Risk Assessment, Speech Perception physiology, Statistics, Nonparametric, Treatment Outcome, Verbal Behavior, Voice Quality, Young Adult, Cochlear Implantation adverse effects, Cochlear Implants, Hearing Loss surgery, Prosthesis Failure, Replantation methods

Abstract

Objectives/hypothesis: To study to what extent it is possible to achieve identical insertion depths and to maintain the same performance after cochlear reimplantation., Study Design: Outcome research on a retrospective case series in a tertiary university referral center., Methods: Data were collected for 12 adults and three children who underwent reimplantation during the last 3 years with a new HiRes90K device with HiFocus 1J electrode owing to failure of the feed-through seal. Multislice computed tomography scans were used to compare positions of the original and newly placed electrode arrays. The speech-perception scores on a consonant-vowel-consonant word test before and after reimplantation were compared., Results: All reimplantations were successfully performed by two experienced cochlear implantation surgeons, and no complications were observed. Postoperative imaging showed that the average displacement of the new implant was only 0.59 mm. Reactivation of the implant gave immediate open set speech understanding in all patients, and speech perception rapidly returned to the previous level obtained with the original implant within weeks; it was even significantly better at the 3-month follow-up. No relation was found between changes in performance and the amount of displacement of the electrode array., Conclusions: After cochlear reimplantation with the same device, electrode-array position can be accurately replicated and speech perception can be regained or even improved within weeks., (Copyright © 2011 The American Laryngological, Rhinological, and Otological Society, Inc.)

Published

2011

18. Radiation exposure to patients in a multicenter coronary angiography trial (CORE 64).

Author

Geleijns J, Joemai RM, Dewey M, de Roos A, Zankl M, Cantera AC, and Artells MS

Subjects

Adult, Algorithms, Body Size, Female, Humans, Male, Models, Biological, Monte Carlo Method, Sex Factors, Thermoluminescent Dosimetry, Coronary Angiography, Coronary Artery Disease diagnostic imaging, Radiation Dosage, Tomography, X-Ray Computed

Abstract

Objective: The objective of this study was to assess the exposure of patients to radiation for the cardiac CT acquisition protocol of the multicenter Coronary Artery Evaluation Using 64-Row Multidetector Computed Tomography Angiography (CORE 64) trial., Materials and Methods: An algorithm for patient dose assessment with Monte Carlo dosimetry was developed for the Aquilion 64-MDCT scanner. During the CORE 64 study, different acquisition protocols were used depending on patient size and sex; therefore, six patient models were constructed representing three men and three women in the categories of small, normal size, and obese. Organ dose and effective dose resulting from the cardiac CT protocol were assessed for these six patient models., Results: The average effective dose for coronary CT angiography (CTA) calculated according to Report 103 of the International Commission on Radiological Protection (ICRP) is 19 mSv (range, 16-26 mSv). The average effective dose for the whole cardiac CT protocol including CT scanograms, bolus tracking, and calcium scoring is slightly higher-22 mSv (range, 18-30 mSv). An average conversion factor for the calculation of effective dose from dose-length product of 0.030 mSv/mGy · cm was derived for coronary CTA., Conclusion: The current methods of assessing patient dose are not well suited for cardiac CT acquisitions, and published effective dose values tend to underestimate effective dose. The effective dose of cardiac CT is approximately 25% higher when assessed according to the preferred ICRP Report 103 compared with ICRP Report 60. Underestimation of effective dose by 43% or 53% occurs in coronary CTA according to ICRP Report 103 when a conversion factor (E / DLP, where E is effective dose and DLP is dose-length product) for general chest CT of 0.017 or 0.014 mSv/mGy · cm, respectively, is used instead of 0.030 mSv/mGy · cm.

Published

2011

19. Automated analysis of neuronal morphology, synapse number and synaptic recruitment.

Author

Schmitz SK, Hjorth JJ, Joemai RM, Wijntjes R, Eijgenraam S, de Bruijn P, Georgiou C, de Jong AP, van Ooyen A, Verhage M, Cornelisse LN, Toonen RF, and Veldkamp WJ

Subjects

Animals, Cells, Cultured, Dendrites metabolism, Diagnostic Imaging, Disks Large Homolog 4 Protein, Guanylate Kinases, Hippocampus cytology, Intracellular Signaling Peptides and Proteins metabolism, Lysine analogs & derivatives, Lysine metabolism, Lysosomal Membrane Proteins metabolism, Membrane Proteins metabolism, Mice, Mice, Mutant Strains, Microtubule-Associated Proteins metabolism, Munc18 Proteins genetics, Neurites metabolism, Neuropeptide Y metabolism, Receptors, Transferrin metabolism, Synaptic Vesicles metabolism, Time Factors, Vesicle-Associated Membrane Protein 2 metabolism, Electronic Data Processing methods, Neurons cytology, Neurons physiology, Software, Synapses physiology

Abstract

The shape, structure and connectivity of nerve cells are important aspects of neuronal function. Genetic and epigenetic factors that alter neuronal morphology or synaptic localization of pre- and post-synaptic proteins contribute significantly to neuronal output and may underlie clinical states. To assess the impact of individual genes and disease-causing mutations on neuronal morphology, reliable methods are needed. Unfortunately, manual analysis of immuno-fluorescence images of neurons to quantify neuronal shape and synapse number, size and distribution is labor-intensive, time-consuming and subject to human bias and error. We have developed an automated image analysis routine using steerable filters and deconvolutions to automatically analyze dendrite and synapse characteristics in immuno-fluorescence images. Our approach reports dendrite morphology, synapse size and number but also synaptic vesicle density and synaptic accumulation of proteins as a function of distance from the soma as consistent as expert observers while reducing analysis time considerably. In addition, the routine can be used to detect and quantify a wide range of neuronal organelles and is capable of batch analysis of a large number of images enabling high-throughput analysis., (© 2010 Elsevier B.V. All rights reserved.)

Published

2011

20. Assessment of Agatston coronary artery calcium score using contrast-enhanced CT coronary angiography.

Author

van der Bijl N, Joemai RM, Geleijns J, Bax JJ, Schuijf JD, de Roos A, and Kroft LJ

Subjects

Electrocardiography, Female, Humans, Male, Middle Aged, Predictive Value of Tests, Radiographic Image Interpretation, Computer-Assisted, Sensitivity and Specificity, Statistics, Nonparametric, Calcinosis diagnostic imaging, Contrast Media, Coronary Angiography methods, Coronary Stenosis diagnostic imaging, Iopamidol analogs & derivatives, Tomography, X-Ray Computed methods

Abstract

Objective: The purpose of this article is to evaluate to what extent Agatston scores may be derived from CT coronary angiography (CTA) examinations, compared with traditional unenhanced CT calcium scores., Materials and Methods: Fifty patients with a CT calcium score-Agatston score of zero and 50 patients with a CT calcium score-Agatston score of 1 or greater whose CT calcium scores had been calculated and who had undergone CTA using volumetric 320-MDCT were included. Agatston scores were obtained at 3.0-mm slices for CT calcium score and CTA. Method agreement, interobserver agreement, and diagnostic performance of CTA for detecting coronary calcium were evaluated., Results: Of 50 patients with a positive CT calcium score-Agatston score, coronary artery calcium was detected with CTA in 43 patients by observer 1 (mean CTA score, 102 ± 202; mean CT calcium score, 254 ± 501) and in 46 patients by observer 2 (mean CTA score, 94 ± 147; mean CT calcium score, 272 ± 531). Of the 50 patients with a CT calcium score-Agatston score of zero, 49 (98%, observer 1) and 50 (100%, observer 2) had a zero score with CTA as well. An intraclass correlation of 0.78 and 0.62 was found between CT calcium score and CTA (p < 0.01), whereas higher Agatston scores were underestimated with CTA. For observer 1, the sensitivity, specificity, positive predictive value, negative predictive value, and diagnostic accuracy for detection of coronary calcium with CTA were 86%, 98%, 98%, 88%, and 92%, respectively, and the corresponding values for observer 2 were 92%, 100%, 100%, 93%, and 96%, respectively. Interobserver agreement was 0.996 for CT calcium score and 0.93 for CTA., Conclusion: Coronary artery calcium can be detected on CTA images with high accuracy. The Agatston calcium score derived from CTA images shows good correlation with unenhanced CT calcium score and is highly reproducible. However, higher Agatston scores are systematically underestimated when derived from CTA images.

Published

2010

21. Development and validation of segmentation and interpolation techniques in sinograms for metal artifact suppression in CT.

Author

Veldkamp WJ, Joemai RM, van der Molen AJ, and Geleijns J

Subjects

Algorithms, Humans, Numerical Analysis, Computer-Assisted, Phantoms, Imaging, Reproducibility of Results, Sensitivity and Specificity, Signal Processing, Computer-Assisted, Tomography, X-Ray Computed instrumentation, Artifacts, Metals, Pattern Recognition, Automated methods, Prostheses and Implants, Radiographic Image Enhancement methods, Radiographic Image Interpretation, Computer-Assisted methods, Tomography, X-Ray Computed methods

Abstract

Purpose: Metal prostheses cause artifacts in computed tomography (CT) images. The purpose of this work was to design an efficient and accurate metal segmentation in raw data to achieve artifact suppression and to improve CT image quality for patients with metal hip or shoulder prostheses., Methods: The artifact suppression technique incorporates two steps: metal object segmentation in raw data and replacement of the segmented region by new values using an interpolation scheme, followed by addition of the scaled metal signal intensity. Segmentation of metal is performed directly in sinograms, making it efficient and different from current methods that perform segmentation in reconstructed images in combination with Radon transformations. Metal signal segmentation is achieved by using a Markov random field model (MRF). Three interpolation methods are applied and investigated. To provide a proof of concept, CT data of five patients with metal implants were included in the study, as well as CT data of a PMMA phantom with Teflon, PVC, and titanium inserts. Accuracy was determined quantitatively by comparing mean Hounsfield (HU) values and standard deviation (SD) as a measure of distortion in phantom images with titanium (original and suppressed) and without titanium insert. Qualitative improvement was assessed by comparing uncorrected clinical images with artifact suppressed images., Results: Artifacts in CT data of a phantom and five patients were automatically suppressed. The general visibility of structures clearly improved. In phantom images, the technique showed reduced SD close to the SD for the case where titanium was not inserted, indicating improved image quality. HU values in corrected images were different from expected values for all interpolation methods. Subtle differences between interpolation methods were found., Conclusions: The new artifact suppression design is efficient, for instance, in terms of preserving spatial resolution, as it is applied directly to original raw data. It successfully reduced artifacts in CT images of five patients and in phantom images. Sophisticated interpolation methods are needed to obtain reliable HU values close to the prosthesis.

Published

2010

22. Assessment of patient and occupational dose in established and new applications of MDCT fluoroscopy.

Author

Joemai RM, Zweers D, Obermann WR, and Geleijns J

Subjects

Female, Humans, Male, Radiation Dosage, Radiation Injuries prevention & control, Radiation Protection, Radiography, Interventional statistics & numerical data, Safety Management, Fluoroscopy, Occupational Exposure analysis, Radiometry statistics & numerical data, Tomography, X-Ray Computed

Abstract

Objective: This study aimed to assess patient dose and occupational dose in established and new applications of MDCT fluoroscopy., Materials and Methods: Electronic personal dosimeters were used to measure occupational dose equivalent. Effective patient dose was derived from the recorded dose-length product. Acquisition parameters that were observed during CT fluoroscopy (CTF) provided the basis for the estimation of an entrance skin dose profile. Two hundred ten CT-guided interventional procedures were included in the study., Results: The median effective patient dose was 10 mSv (range, 0.1-235 mSv; 107 procedures). The median peak entrance skin dose was 0.4 Sv (0.1-2.1 Sv; 27 procedures). From 547 measurements of occupational dose equivalent, a median occupational effective dose of 3 muSv per procedure was derived for the interventional radiologists and 0.4 muSv per procedure for the assisting radiologists and radiology technologists. The estimated maximum occupational effective dose reached 0.4 mSv., Conclusion: The study revealed high effective patient doses, up to 235 mSv, mainly for relatively new applications such as CTF-guided radiofrequency ablations using MDCT, vertebroplasty, and percutaneous ethanol injections of tumors. Entrance doses were occasionally in the range of the warning level for deterministic skin effects but were always below the threshold for serious deterministic effects. The complexity of the procedure, expected benefits of the treatment, and general health state of the patient contribute to the justification of observed high effective patient doses.

Published

2009

23. Automated cardiac phase selection with 64-MDCT coronary angiography.

Author

Joemai RM, Geleijns J, Veldkamp WJ, de Roos A, and Kroft LJ

Subjects

Adult, Aged, Artificial Intelligence, Female, Humans, Male, Middle Aged, Reproducibility of Results, Sensitivity and Specificity, Algorithms, Cardiac-Gated Imaging Techniques methods, Coronary Angiography methods, Image Enhancement methods, Image Interpretation, Computer-Assisted methods, Pattern Recognition, Automated methods, Tomography, X-Ray Computed methods

Abstract

Objective: The aim of this study was to assess three different phase-selection methods for obtaining optimal CT coronary artery image quality., Materials and Methods: ECG-gated CT coronary angiography scans of 40 patients (23 men, 17 women; mean age, 56 years) were retrieved. The patient group was composed of 20 consecutive patients with heart rates < or = 65 beats per minute (bpm) and 20 consecutive patients with heart rates > 65 bpm. Three phase-selection methods were evaluated: fixed phase selection, manual phase selection, and automated phase selection. Two scoring systems were used to evaluate diagnostic quality: scoring of axial images on a 5-point scale and scoring of multiplanar reconstructions (MPRs) on a forced-choice 3-point preference scale. Differences were tested by Wilcoxon's signed rank test for the entire patient group and the two subgroups including patients with heart rates < or = 65 bpm and those with heart rates > 65 bpm., Results: Axial image evaluation of the entire patient group showed statistically significant superior image quality for the manual phase-selection method compared with the predefined phase-selection method and no statistically significant differences were found for the other comparisons. Analysis at heart rates < or = 65 bpm showed no significant differences between phase-selection methods. Analysis at heart rates > 65 bpm showed the best results for the automated phase-selection method, and image quality was significantly better for the automated and manual phase-selection methods than for the predefined phase-selection method., Conclusion: The automated phase-selection method accurately detects the optimal diagnostic phase for CT coronary artery evaluation and has the potential to reduce operator time needed for image reconstruction.

Published

2008

24. Evaluation of 4 multisection CT systems in postoperative imaging of a cochlear implant: a human cadaver and phantom study.

Author

Verbist BM, Joemai RM, Teeuwisse WM, Veldkamp WJ, Geleijns J, and Frijns JH

Subjects

Cadaver, Cochlea diagnostic imaging, Electrodes, Implanted, Equipment Failure Analysis, Humans, Pain Measurement, Prosthesis Fitting, Sensitivity and Specificity, Temporal Bone diagnostic imaging, Cochlear Implants, Image Processing, Computer-Assisted, Phantoms, Imaging, Postoperative Complications diagnostic imaging, Tomography, Spiral Computed

Abstract

Background and Purpose: Postoperative imaging of cochlear implants (CIs) needs to provide detailed information on localization of the electrode array. We evaluated visualization of a HiFocus1J array and accuracy of measurements of electrode positions for acquisitions with 64-section CT scanners of 4 major CT systems (Toshiba Aquilion-64, Philips Brilliance-64, GE LightSpeed-64, and Siemens Sensation-64)., Materials and Methods: An implanted human cadaver temporal bone, a polymethylmethacrylate (PMMA) phantom containing a CI, and a point spread function (PSF) phantom were scanned. In the human cadaver temporal bone, the visibility of cochlear structures and electrode array were assessed by using a visual analog scale (VAS). Statistical analysis was performed with a paired 2-tailed Student t test with significant level set to .008 after Bonferroni correction. Distinction of individual electrode contacts was quantitatively evaluated. Quantitative assessment of electrode contact positions was achieved with the PMMA phantom by measurement of the displacement. In addition, PSF was measured to evaluate spatial resolution performance of the CT scanners., Results: VAS scores were significantly lower for Brilliance-64 and LightSpeed-64 compared with Aquilion-64 and Sensation-64. Displacement of electrode contacts ranged from 0.05 to 0.14 mm on Aquilion-64, 0.07 to 0.16 mm on Brilliance-64, 0.07 to 0.61 mm on LightSpeed-64, and 0.03 to 0.13 mm on Sensation-64. PSF measurements show an in-plane and longitudinal resolution varying from 0.48 to 0.68 mm and 0.70 to 0.98 mm, respectively, over the 4 scanners., Conclusion: According to PSF results, electrode contacts of the studied CI can be visualized separately on all of the studied scanners unless curvature causes intercontact spacing narrowing. Assessment of visibility of CI and electrode contact positions, however, varies between scanners.

Published

2008

25. Clinical evaluation of 64-slice CT assessment of global left ventricular function using automated cardiac phase selection.

Author

Joemai RM, Geleijns J, Veldkamp WJ, and Kroft LJ

Subjects

Adult, Aged, Algorithms, Coronary Angiography methods, Coronary Angiography statistics & numerical data, Electrocardiography, Female, Heart Function Tests statistics & numerical data, Humans, Male, Middle Aged, Radiographic Image Interpretation, Computer-Assisted methods, Retrospective Studies, Tomography, X-Ray Computed statistics & numerical data, Heart Function Tests methods, Tomography, X-Ray Computed methods, Ventricular Function, Left

Abstract

Background: Left ventricular (LV) function provides prognostic information regarding the morbidity and mortality of patients. An automated cardiac phase selection algorithm has the potential to support the assessment of LV function with computed tomography (CT). This algorithm is clinically evaluated for 64-slice cardiac CT., Methods and Results: Examinations of twenty consecutive patients were selected. Electrocardiogram gated contrast-enhanced CT was performed. Reconstructions were performed using an automated and a manual method, followed by the determination of the global LV function. Significances were tested using 2-sided Student's t-tests. Reduction in post processing time and storage capacity were estimated. A slightly smaller mean end-systolic volume was found with the automated method (52+/-18 ml vs 54+/-17 ml, p=0.02, r=0.99). The mean LV ejection fraction was slightly larger with the automated method (65+/-8% vs 64+/-8%, p=0.004, r=0.99). The estimated reduction in post processing time was maximal 5 min per patient with a potential 80% data storage reduction., Conclusions: Results of the automated phase selection algorithm are similar to the manual method. The automated tool reduces post processing time, reconstruction time and transfer time.

Published

2008