Your search keyword '"Sebastian T. Schindera"' showing total 107 results

1. Assessment of task-based image quality for abdominal CT protocols linked with national diagnostic reference levels

Author

Sebastian T. Schindera, Francis R. Verdun, Anais Viry, Damien Racine, Thiago V. M. Lima, Reto Treier, and Christoph Aberle

Subjects

medicine.medical_specialty, Scanner, Tomography Scanners, X-Ray Computed, Image quality, Abdominal ct, Biophysics, General Physics and Astronomy, Signal-To-Noise Ratio, Radiation Dosage, Imaging phantom, 030218 nuclear medicine & medical imaging, Task (project management), Multidetector computed tomography, 03 medical and health sciences, Computed Tomography, 0302 clinical medicine, Diagnostic Reference Levels, Humans, Medicine, Radiology, Nuclear Medicine and imaging, Neuroradiology, Radiation protection, Phantoms, Imaging, business.industry, Ultrasound, General Medicine, Signal-to-noise ratio (imaging), 030220 oncology & carcinogenesis, Algorithms, Tomography, X-Ray Computed, Diagnostic reference levels, Radiology, business

Abstract

Objectives To assess task-based image quality for two abdominal protocols on various CT scanners. To establish a relationship between diagnostic reference levels (DRLs) and task-based image quality. Methods A protocol for the detection of focal liver lesions was used to scan an anthropomorphic abdominal phantom containing 8- and 5-mm low-contrast (20 HU) spheres at five CTDIvol levels (4, 8, 12, 16, and 20 mGy) on 12 CTs. Another phantom with high-contrast calcium targets (200 HU) was scanned at 2, 4, 6, 10, and 15 mGy using a renal stones protocol on the same CTs. To assess the detectability, a channelized Hotelling observer was used for low-contrast targets and a non-prewhitening observer with an eye filter was used for high contrast targets. The area under the ROC curve and signal to noise ratio were used as figures of merit. Results For the detection of 8-mm spheres, the image quality reached a high level (mean AUC over all CTs higher than 0.95) at 11 mGy. For the detection of 5-mm spheres, the AUC never reached a high level of image quality. Variability between CTs was found, especially at low dose levels. For the search of renal stones, the AUC was nearly maximal even for the lowest dose level. Conclusions Comparable task-based image quality cannot be reached at the same dose level on all CT scanners. This variability implies the need for scanner-specific dose optimization. Key Points • There is an image quality variability for subtle low-contrast lesion detection in the clinically used dose range. • Diagnostic reference levels were linked with task-based image quality metrics. • There is a need for specific dose optimization for each CT scanner and clinical protocol.

Published

2021

2. CT of the medial clavicular epiphysis for forensic age estimation: hands up?

Author

Jochen Herrmann, Lennart Well, Klaus Püschel, Kay Uwe Petersen, Magdalini Tozakidou, Rieke L. Meister, Sebastian T. Schindera, and Eilin Jopp-van Well

Subjects

Male, Adolescent, Patient positioning, Posture, Sternoclavicular joint, Radiation Dosage, Effective dose (radiation), 030218 nuclear medicine & medical imaging, Pathology and Forensic Medicine, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Age Determination by Skeleton, medicine, Image noise, Humans, In patient, 030216 legal & forensic medicine, business.industry, Clavicle, medicine.anatomical_structure, Age estimation, Epiphysis, Original Article, Forensic age estimation, Tomography, X-Ray Computed, Nuclear medicine, business, Epiphyses, Algorithms, Arm position, CT

Abstract

Purpose The aim of this study was to assess the impact of arm position in computed tomography (CT) of the clavicle performed for forensic age estimation on clavicular position, image noise, and radiation dose. Methods and materials Forty-seven CT scans of the medial clavicular epiphysis performed for forensic age estimation were conducted with either hands and arms held upwards (CTHU, 28 persons) or positioned at the body (CTHD, 19 persons). Presets were identical for both positions (70 mAs/140 kVp; Brilliance iCT, Philips). Each CT scan was reconstructed with an iterative algorithm (i-Dose 4) and evaluated at the middle of the sternoclavicular joint. Clavicular angle was measured on a.p. topograms in relation to a horizontal line. Quantitative image noise was measured in air at the level of medial clavicular epiphysis. Effective dose and scan length were recorded. Results Hands-up position compared with hands-down position resulted in a lower lateral body diameter (CTHU 41.1 ± 3.6 cm vs. CTHD 44.6 ± 3.1 cm; P = 0.03), a reduced quantitative image noise (CTHU: 39.5 ± 9.2; CTHD: 46.2 ± 8.3; P = 0.02), and lower CTDIvol (5.1 ± 1.4 mGy vs. 6.7 ± 1.8 mGy; P = 0.001). Scan length was longer in patients examined with hands up (HU: 8.5 ± 3.4 cm; HD: 6.2 ± 2.1 cm; P = 0.006). Mean effective dose for CTHU was 0.79 ± 0.32 mSv compared with 0.95 ± 0.38 mSv in CTHD (P = 0.12). Clavicular angle was 17° ± 6° in patients with hands down and 32° ± 7° in patients with hands up (P < 0.001). Conclusion By elevated arm positioning, the image quality of clavicular CT scans can be improved while maintaining radiation dose compared with hands down. Clavicular position differs according to the hand position. Thus, positioning patients with elevated hands is advisable for forensic clavicular CT examinations, but multiplanar CT reconstructions should be adjusted to clavicular position and scan length should be reduced to a minimum.

Published

2021

3. Radiation dose management systems—requirements and recommendations for users from the ESR EuroSafe Imaging initiative

Author

Virginia Tsapaki, Davide Caramella, Guy Frija, Peter Mildenberger, Graciano Paulo, Johan Sjöberg, Reinhard Loose, Eliseo Vano, Alberto Torresin, John Damilakis, and Sebastian T. Schindera

Subjects

Diagnostic Imaging, medicine.medical_specialty, Process management, Quality management, Dose management systems, Radiation Dosage, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Documentation, medicine, media_common.cataloged_instance, Humans, Radiology, Nuclear Medicine and imaging, Radiological Education, Optimisation, European union, Radiometry, media_common, Radiation protection, business.industry, General Medicine, Directive, Quality assurance, 030220 oncology & carcinogenesis, Radiological weapon, Management system, Radiology, business

Abstract

Abstract The European Directive 2013/59/Euratom requires member states of the European Union to ensure justification and optimisation of radiological procedures and store information on patient exposure for analysis and quality assurance. The EuroSafe Imaging campaign of the European Society of Radiology created a working group (WG) on “Dose Management” with the aim to provide European recommendations on the implementation of dose management systems (DMS) in clinical practice. The WG follows Action 4: “Promote dose management systems to establish local, national, and European diagnostic reference levels (DRL)” of the EuroSafe Imaging Call for Action 2018. DMS are designed for medical practitioners, radiographers, medical physics experts (MPE) and other health professionals involved in imaging to support their tasks and duties of radiation protection in accordance with local and national requirements. The WG analysed requirements and critical points when installing a DMS and classified the individual functions at different performance levels. Key Points • DMS are very helpful software tools for monitoring patient exposure, optimisation, compliance with DRLs and quality assurance. • DMS can help to fulfil dosimetric aspects of the European Directive 2013/59/Euratom. • The EuroSafe WG analyses DMS requirements and gives recommendations for users.

Published

2020

4. Comparison of the Effectiveness of Single-Component and Multicomponent Interventions for Reducing Radiation Doses in Patients Undergoing Computed Tomography A Randomized Clinical Trial

Author

Rebecca Neill, Jodi Roehm, Sebastian T. Schindera, Yifei Wang, Leif I. Solberg, Anokh Pahwa, Thomas Yellen-Nelson, Pavlina Pike, Rebecca Smith-Bindman, Ryan K. Lee, Cécile R. L. P. N. Jeukens, Jay Starkey, Phuong-Anh T. Duong, Saravanabavaan Suntharalingam, Luisa F. Cervantes, Allen R. Goode, Nima Kasraie, William Boswell, Naomi Lopez-Solano, Philip W. Chu, Diana L. Miglioretti, Robert Chung, Andrew J. Einstein, Bradley N. Delman, MUMC+: DA BV Klinisch Fysicus (9), and RS: Carim - B06 Imaging

Subjects

Male, Medizin, Psychological intervention, 01 natural sciences, Effective dose (radiation), law.invention, 0302 clinical medicine, Randomized controlled trial, law, Abdomen, 80 and over, Medicine, 030212 general & internal medicine, PROTECTION, Young adult, Tomography, Cancer, Original Investigation, Aged, 80 and over, QUALITY IMPROVEMENT COLLABORATIVES, Alcohol Use Disorders Identification Test, Thorax, Middle Aged, X-Ray Computed, medicine.anatomical_structure, Public Health and Health Services, Biomedical Imaging, SUBSEQUENT RISK, Female, Radiology, Adult, medicine.medical_specialty, BRAIN-TUMORS, Adolescent, Clinical Trials and Supportive Activities, Clinical Sciences, Radiation Dosage, 03 medical and health sciences, Young Adult, Clinical Research, Opthalmology and Optometry, Internal Medicine, Medical imaging, Humans, EXPOSURE, 0101 mathematics, OPTIMIZATION, Aged, business.industry, 010102 general mathematics, CT SCANS, Odds ratio, CANCER-RISKS, Good Health and Well Being, Tomography, X-Ray Computed, business, Head, LEUKEMIA

Abstract

ImportanceComputed tomography (CT) radiation doses vary across institutions and are often higher than needed.ObjectiveTo assess the effectiveness of 2 interventions to reduce radiation doses in patients undergoing CT.Design, Setting, and ParticipantsThis randomized clinical trial included 864 080 adults older than 18 years who underwent CT of the abdomen, chest, combined abdomen and chest, or head at 100 facilities in 6 countries from November 1, 2015, to September 21, 2017. Data analysis was performed from October 4, 2017, to December 14, 2018.InterventionsImaging facilities received audit feedback alone comparing radiation-dose metrics with those of other facilities followed by the multicomponent intervention, including audit feedback with targeted suggestions, a 7-week quality improvement collaborative, and best-practice sharing. Facilities were randomly allocated to the time crossing from usual care to the intervention.Main Outcomes and MeasuresPrimary outcomes were the proportion of high-dose CT scans and mean effective dose at the facility level. Secondary outcomes were organ doses. Outcomes after interventions were compared with those before interventions using hierarchical generalized linear models adjusting for temporal trends and patient characteristics.ResultsAcross 100 facilities, 864 080 adults underwent 1 156 657 CT scans. The multicomponent intervention significantly reduced proportions of high-dose CT scans, measured using effective dose. Absolute changes in proportions of high-dose scans were 1.1% to 7.9%, with percentage reductions in the proportion of high-dose scans of 4% to 30% (abdomen: odds ratio [OR], 0.82; 95% CI, 0.77-0.88; P P = .03; combined abdomen and chest: OR, 0.49; 95% CI, 0.41-0.59; P P P P P Conclusions and RelevanceFor imaging facilities, detailed feedback on CT radiation dose combined with actionable suggestions and quality improvement education significantly reduced doses, particularly organ doses. Effects of audit feedback alone were modest.Trial RegistrationClinicalTrials.gov Identifier: NCT03000751

Published

2020

5. Update of national diagnostic reference levels for adult CT in Switzerland and assessment of radiation dose reduction since 2010

Author

Sebastian T. Schindera, Reto Treier, Nick Ryckx, and Christoph Aberle

Subjects

Adult, Percentile, medicine.medical_specialty, Radiation Dosage, Carotid angiography, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Reference Values, medicine, Humans, Radiology, Nuclear Medicine and imaging, business.industry, Radiation dose, General Medicine, Radiation Exposure, medicine.disease, Cervical spine, Pulmonary embolism, Radiation exposure, 030220 oncology & carcinogenesis, Radiological weapon, Ct scanners, Radiology, Tomography, X-Ray Computed, business, Algorithms, Software, Switzerland

Abstract

To update the national diagnostic reference levels (DRLs) for adult CT in Switzerland using dose management software and to compare them to the previous Swiss DRLs from 2010. CT dose data from 14 radiological institutes with a total of 50 CT scanners were collected with locally installed dose management software between 2014 and 2017. Data were assigned to 15 defined master protocols. Data cleaning steps were developed and adjusted individually for each participating institute and protocol. The DRLs for each master protocol were calculated as the 75th percentile of the distribution of the median volume computed tomography dose index (CTDIvol) and dose-length product (DLP) values per CT scanner. In total, 220,269 CT exams were available after data cleaning. Updated DRLs showed a clear trend towards lower doses compared with previous DRLs. The average relative change in the DRLs for CTDIvol was − 30% (0 to − 47%) and − 22% for DLP (+ 20 to − 40%). The largest relative decrease in the DRL for DLP was observed for the cervical spine protocol (− 40%), the two chest protocols (chest, − 37%; and exclusion of pulmonary embolism, − 33%), and the two neck protocols (neck, − 32%; and carotid angiography, − 28%). The DRLs for other protocols, for example the head and the abdomen-pelvis protocol, showed smaller relative changes (− 11% and − 17%). The updated national DRLs are substantially lower than the previous values from 2010, demonstrating technological progress and the efforts of the radiological community to lower CT radiation exposure. • Dose management software allows the establishment of DRLs based on big data. • Updated Swiss DRLs for adult CT are substantially lower compared with those from 2010. • Swiss DRLs are low compared with other national DRLs.

Published

2019

6. Diagnostic reference levels and median doses for common clinical indications of CT: findings from an international registry

Author

Fiona MacLeod, Sophronia Yu, Anokh Pahwa, Allen R. Goode, Cécile R. L. P. N. Jeukens, Sebastian T. Schindera, Ryan K. Lee, Yifei Wang, Philip W. Chu, Marco Das, Jason Luong, James Anthony Seibert, Jodi Roehm, Nima Kasraie, Axel Wetter, Pavlina Pike, Jay Starkey, Phuong-Anh T. Duong, Denise Bos, Rebecca Neill, Rebecca Smith-Bindman, Luisa F. Cervantes, Andrew J. Einstein, Bradley N. Delman, RS: Carim - B06 Imaging, and MUMC+: DA BV Klinisch Fysicus (9)

Subjects

Adult, Percentile, medicine.medical_specialty, Abdominal pain, Carcinoma, Hepatocellular, Clinical Sciences, Medizin, X-ray computed, Radiation Dosage, Diagnostic reference levels, Rare Diseases, Clinical Research, Reference Values, medicine, Diagnostic Reference Levels, Humans, COMPUTED-TOMOGRAPHY, Radiology, Nuclear Medicine and imaging, EXPOSURE, Registries, Lung cancer, Tomography, Stroke, Cancer, Neuroradiology, RISK, medicine.diagnostic_test, business.industry, Carcinoma, Liver Neoplasms, Hepatocellular, Interventional radiology, General Medicine, medicine.disease, CANCER, United States, Appendicitis, Pulmonary embolism, NATIONAL-SURVEY, Nuclear Medicine & Medical Imaging, ESTABLISHMENT, RADIATION, Biomedical Imaging, Radiology, medicine.symptom, business, Tomography, X-Ray Computed, CARDIAC CT

Abstract

Ob jectives The European Society of Radiology identified 10 common indications for computed tomography (CT) as part of the European Study on Clinical Diagnostic Reference Levels (DRLs, EUCLID), to help standardize radiation doses. The objective of this study is to generate DRLs and median doses for these indications using data from the UCSF CT International Dose Registry. Methods Standardized data on 3.7 million CTs in adults were collected between 2016 and 2019 from 161 institutions across seven countries (United States of America (US), Switzerland, Netherlands, Germany, UK, Israel, Japan). DRLs (75th percentile) and median doses for volumetric CT-dose index (CTDIvol) and dose-length product (DLP) were assessed for each EUCLID category (chronic sinusitis, stroke, cervical spine trauma, coronary calcium scoring, lung cancer, pulmonary embolism, coronary CT angiography, hepatocellular carcinoma (HCC), colic/abdominal pain, appendicitis), and US radiation doses were compared with European. Results The number of CT scans within EUCLID categories ranged from 8,933 (HCC) to over 1.2 million (stroke). There was greater variation in dose between categories than within categories (p < .001), and doses were significantly different between categories within anatomic areas. DRLs and median doses were assessed for all categories. DRLs were higher in the US for 9 of the 10 indications (except chronic sinusitis) than in Europe but with a significantly higher sample size in the US. Conclusions DRLs for CTDIvol and DLP for EUCLID clinical indications from diverse organizations were established and can contribute to dose optimization. These values were usually significantly higher in the US than in Europe. Key Points • Registry data were used to create benchmarks for 10 common indications for CT identified by the European Society of Radiology. • Observed US radiation doses were higher than European for 9 of 10 indications (except chronic sinusitis). • The presented diagnostic reference levels and median doses highlight potentially unnecessary variation in radiation dose.

Published

2021

7. Letter to the Editor regarding 'Comparison of image quality between split-filter twin beam dual energy and single energy images in abdominal CT'

Author

André, Euler and Sebastian T, Schindera

Subjects

Radiography, Dual-Energy Scanned Projection, Abdomen, Humans, Radiation Dosage, Tomography, X-Ray Computed

Published

2020

8. National survey on dose data analysis in computed tomography

Author

Dominik Weishaupt, Elmar M. Merkle, Reto Treier, Christina Heilmaier, Hatem Alkadhi, Sebastian T. Schindera, University of Zurich, and Heilmaier, Christina

Subjects

Data Analysis, medicine.medical_specialty, 610 Medicine & health, Computed tomography, Radiation Dosage, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Radiation Protection, 0302 clinical medicine, Surveys and Questionnaires, Text messaging, medicine, Humans, 2741 Radiology, Nuclear Medicine and Imaging, Radiology, Nuclear Medicine and imaging, Medical physics, Radiometry, Radiology Department, Hospital, medicine.diagnostic_test, 10042 Clinic for Diagnostic and Interventional Radiology, business.industry, General Medicine, Method of analysis, Radiation Exposure, Clinical routine, Quality Improvement, humanities, Radiation exposure, Current practice, 030220 oncology & carcinogenesis, Radiological weapon, Patient Safety, Radiology, Radiation protection, Tomography, X-Ray Computed, business, Software, Switzerland

Abstract

A nationwide survey was performed assessing current practice of dose data analysis in computed tomography (CT). All radiological departments in Switzerland were asked to participate in the on-line survey composed of 19 questions (16 multiple choice, 3 free text). It consisted of four sections: (1) general information on the department, (2) dose data analysis, (3) use of a dose management software (DMS) and (4) radiation protection activities. In total, 152 out of 241 Swiss radiological departments filled in the whole questionnaire (return rate, 63%). Seventy-nine per cent of the departments (n = 120/152) analyse dose data on a regular basis with considerable heterogeneity in the frequency (1-2 times per year, 45%, n = 54/120; every month, 35%, n = 42/120) and method of analysis. Manual analysis is carried out by 58% (n = 70/120) compared with 42% (n = 50/120) of departments using a DMS. Purchase of a DMS is planned by 43% (n = 30/70) of the departments with manual analysis. Real-time analysis of dose data is performed by 42% (n = 21/50) of the departments with a DMS; however, residents can access the DMS in clinical routine only in 20% (n = 10/50) of the departments. An interdisciplinary dose team, which among other things communicates dose data internally (63%, n = 76/120) and externally, is already implemented in 57% (n = 68/120) departments. Swiss radiological departments are committed to radiation safety. However, there is high heterogeneity among them regarding the frequency and method of dose data analysis as well as the use of DMS and radiation protection activities. • Swiss radiological departments are committed to and interest in radiation safety as proven by a 63% return rate of the survey. • Seventy-nine per cent of departments analyse dose data on a regular basis with differences in the frequency and method of analysis: 42% use a dose management software, while 58% currently perform manual dose data analysis. Of the latter, 43% plan to buy a dose management software. • Currently, only 25% of the departments add radiation exposure data to the final CT report.

Published

2018

9. Effects of various generations of iterative CT reconstruction algorithms on low-contrast detectability as a function of the effective abdominal diameter: A quantitative task-based phantom study

Author

Sabine Schmidt, Francis R. Verdun, Fabio Becce, Sebastian T. Schindera, Jean-François Knebel, Christoph Aberle, Damien Racine, and Anais Viry

Subjects

Computed tomography, Iterative reconstruction algorithms, Low-contrast detectability, Mathematical model observers, Task-based image quality assessment, media_common.quotation_subject, Biophysics, General Physics and Astronomy, Iterative reconstruction, Signal-To-Noise Ratio, Imaging phantom, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Low contrast, Abdomen, Image Processing, Computer-Assisted, Humans, Contrast (vision), Figure of merit, Radiology, Nuclear Medicine and imaging, media_common, Mathematics, Receiver operating characteristic, Phantoms, Imaging, General Medicine, Function (mathematics), 030220 oncology & carcinogenesis, Tomography, X-Ray Computed, Algorithm, Algorithms, Ct reconstruction

Abstract

Purpose To investigate how various generations of iterative reconstruction (IR) algorithms impact low-contrast detectability (LCD) in abdominal computed tomography (CT) for different patient effective diameters, using a quantitative task-based approach. Methods Investigations were performed using an anthropomorphic abdominal phantom with two optional additional rings to simulate varying patient effective diameters (25, 30, and 35 cm), and containing multiple spherical targets (5, 6, and 8 mm in diameter) with a 20-HU contrast difference. The phantom was scanned using routine abdominal protocols (CTDIvol, 5.9–16 mGy) on four CT systems from two manufacturers. Images were reconstructed using both filtered back-projection (FBP) and various IR algorithms: ASiR 50%, SAFIRE 3 (both statistical IRs), ASiR-V 50%, ADMIRE 3 (both partial model-based IRs), or Veo (full model-based IR). Section thickness/interval was 2/1 mm or 2.5/1.25 mm, except 0.625/0.625 mm for Veo. We assessed LCD using a channelized Hotelling observer with 10 dense differences of Gaussian channels, with the area under the receiver operating characteristic curve (AUC) as a figure of merit. Results For the smallest phantom (25-cm diameter) and smallest lesion size (5-mm diameter), AUC for FBP and the various IR algorithms did not significantly differ for any of the tested CT systems. For the largest phantom (35-cm diameter), Veo yielded the highest AUC improvement (8.5%). Statistical and partial model-based IR algorithms did not significantly improve LCD. Conclusion In abdominal CT, switching from FBP to IR algorithms offers limited possibilities for achieving significant dose reductions while ensuring a constant objective LCD.

Published

2018

10. Transatlantic Comparison of CT Radiation Doses in the Era of Radiation Dose–Tracking Software

Author

Sebastian T. Schindera, Anushri Parakh, André Euler, and Zsolt Szucs-Farkas

Subjects

medicine.medical_specialty, Radiation, Radiation Dosage, Tracking (particle physics), 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Software, Reference Values, Humans, Medicine, Radiology, Nuclear Medicine and imaging, Medical physics, Registries, Radiometry, business.industry, Radiation dose, General Medicine, Sample (graphics), Europe, 030220 oncology & carcinogenesis, Reference values, North America, Tomography, X-Ray Computed, business, Nuclear medicine

Abstract

The purpose of this study is to compare diagnostic reference levels from a local European CT dose registry, using radiation-tracking software from a large patient sample, with preexisting European and North American diagnostic reference levels.Data (n = 43,761 CT scans obtained over the course of 2 years) for the European local CT dose registry were obtained from eight CT scanners at six institutions. Means, medians, and interquartile ranges of volumetric CT dose index (CTDIOur local registry had a lower 75th percentile CTDIOur local registry had lower diagnostic reference level values than did existing European and North American diagnostic reference levels. Automated radiation-tracking software could be used to establish and update existing diagnostic reference levels because they are capable of analyzing large datasets meaningfully.

Published

2017

11. Systematic radiation dose optimization of abdominal dual-energy CT on a second-generation dual-source CT scanner: assessment of the accuracy of iodine uptake measurement and image quality in an in vitro and in vivo investigations

Author

Luigia D'Errico, Caroline Zaehringer, Maka Kekelidze, Sebastian T. Schindera, Matthias R. Benz, Fides Schwartz, and Zsolt Szucs-Farkas

Subjects

Male, Radiography, Abdominal, Scanner, medicine.medical_specialty, Image quality, Iohexol, Urology, Contrast Media, Radiation Dosage, Imaging phantom, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, In vivo, Image noise, Humans, Medicine, Radiology, Nuclear Medicine and imaging, Aged, Retrospective Studies, Protocol (science), Radiological and Ultrasound Technology, Phantoms, Imaging, business.industry, Radiation dose, Gastroenterology, Reproducibility of Results, Middle Aged, 030220 oncology & carcinogenesis, Female, Radiology, Dual energy ct, Tomography, X-Ray Computed, business, Nuclear medicine

Abstract

To assess the accuracy of iodine quantification in a phantom study at different radiation dose levels with dual-energy dual-source CT and to evaluate image quality and radiation doses in patients undergoing a single-energy and two dual-energy abdominal CT protocols. In a phantom study, the accuracy of iodine quantification (4.5–23.5 mgI/mL) was evaluated using the manufacturer-recommended and three dose-optimized dual-energy protocols. In a patient study, 75 abdomino-pelvic CT examinations were acquired as follows: 25 CT scans with the manufacturer-recommended dual-energy protocol (protocol A); 25 CT scans with a dose-optimized dual-energy protocol (protocol B); and 25 CT scans with a single-energy CT protocol (protocol C). CTDIvol and objective noise were measured. Five readers scored each scan according to six subjective image quality parameters (noise, contrast, artifacts, visibility of small structures, sharpness, overall diagnostic confidence). In the phantom study, differences between the real and measured iodine concentrations ranged from −8.8% to 17.0% for the manufacturer-recommended protocol and from −1.6% to 20.5% for three dose-optimized protocols. In the patient study, the CTDIvol of protocol A, B, and C were 12.5 ± 1.9, 7.5 ± 1.2, and 6.5 ± 1.7 mGycm, respectively (p

Published

2017

12. Clinical Applications of Spectral CT

Author

André Euler, Sebastian T. Schindera, University of Zurich, Samei, Ehsan, Pelc, Norbert J, and Euler, André

Subjects

medicine.medical_specialty, Modality (human–computer interaction), medicine.diagnostic_test, 10042 Clinic for Diagnostic and Interventional Radiology, Computer science, Image quality, Virtual monoenergetic imaging, Digital Enhanced Cordless Telecommunications, 610 Medicine & health, Computed tomography, 2700 General Medicine, Radiation exposure, 1300 General Biochemistry, Genetics and Molecular Biology, medicine, Body region, Medical physics, Clinical imaging

Abstract

Dual-energy computed tomography (DECT) has evolved from a research tool to an established clinical imaging modality since its first commercial introduction in the mid-2000s. The possibility to characterize the composition of different human tissues and the quantification of certain materials like iodine, calcium, or fat have shown clinical benefit for various body regions. Virtual monoenergetic imaging (VMI) and multi-material decomposition (MMD) imaging (see Chap. 12) are the most popular and investigated applications of DECT that can be used to improve detection and conspicuity of disease as well as objective and subjective image quality. Furthermore, virtual non-contrast (VNC) imaging can reduce the radiation exposure to the patient by omitting the need for a conventional non-contrast CT scan. In this chapter we review clinically established applications of DECT for the main body regions from head to toe. Moreover, we highlight interesting experimental and preclinical research topics that may become clinically available in the future. Concluding this chapter, we discuss the potential pitfalls associated with DECT.

Published

2019

13. Fragen und Antworten zur neuen Strahlenschutzverordnung

Author

Dorette Opplinger-Schäfer, Michael Fix, Sebastian T. Schindera, Hatem Alkadhi, Andreas Gutzeit, and University of Zurich

Subjects

10042 Clinic for Diagnostic and Interventional Radiology, 610 Medicine & health, General Medicine

Published

2019

14. Nouvelle ordonnance sur la radioprotection: questions et rponses

Author

Sebastian T. Schindera, Hatem Alkadhi, Michael Fix, Andreas Gutzeit, and Dorette Opplinger-Schäfer

Subjects

Microbiology (medical), Immunology, Immunology and Allergy

Published

2019

15. Comparison of different iterative CT reconstruction techniques and filtered back projection for assessment of the medial clavicular epiphysis in forensic age estimation

Author

Ilze Apine, Kay Uwe Petersen, Julius Matthias Weinrich, Jochen Herrmann, Klaus Püschel, Magdalini Tozakidou, Eilin Jopp-van Well, and Sebastian T. Schindera

Subjects

Adult, Male, Adolescent, Iterative method, Image quality, Computer science, Iterative reconstruction, Signal-To-Noise Ratio, Radiation Dosage, Pathology and Forensic Medicine, chemistry.chemical_compound, Young Adult, Osteogenesis, Age Determination by Skeleton, Image noise, medicine, Image Processing, Computer-Assisted, Idose, Humans, Retrospective Studies, Radon transform, business.industry, Clavicle, Noise, medicine.anatomical_structure, chemistry, Epiphysis, Nuclear medicine, business, Tomography, X-Ray Computed, Epiphyses, Algorithms

Abstract

To assess the impact of iterative reconstruction and filtered back projection (FBP) on image quality in computed tomography (CT)-based forensic age estimation of the medial clavicular epiphysis. CT of the clavicle was performed in 19 patients due to forensic reasons (70 mAs/140 kVp). Raw data were reconstructed with FBP and with an iterative algorithm at level 4 and 6. Clavicular ossification stage was determined by two radiologists in consensus, firstly on FBP reconstructed images and secondly after reviewing all reconstructions including iDose 4 and 6. In addition, the 3 reconstructions were compared regarding artefacts and delineation of the meta-/epiphyseal interface. Quantitative image noise was measured. Quantitative noise was lower in iDose 6 reconstructed images than in FBP (P < 0.042), but not significantly lower between iDose 4 and FBP (P = 0.127). Side by side comparison revealed lesser qualitative image noise on both iDose reconstructed images than for FBP. The meta-/epiphyseal interface delineation was rated better on both iDose levels than with FBP. In 3 of 19 patients, the clavicular ossification stage was reclassified after iterative reconstructions had been additionally reviewed. Using iterative CT reconstruction algorithms, a reduction of image noise and an enhancement of image quality regarding the meta-/epiphyseal clavicular interface can be achieved. The study highlights the importance of image standardization as variation of reconstruction technique has impact on forensic age estimation.

Published

2019

16. Dose-optimized computed tomography of the cervical spine in patients with shoulder pull-down: Is image quality comparable with a standard dose protocol in an emergency setting?

Author

Anna Hirschmann, Schu-Ren Yang, Magdalini Tozakidou, Zsolt Szucs-Farkas, Balazs Kovacs, Sebastian T. Schindera, and Ueli Studler

Subjects

Adult, Male, Shoulder, Shoulders, Image quality, Computed tomography, Radiation Dosage, Effective dose (radiation), Statistics, Nonparametric, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Image noise, Medicine, Humans, Radiology, Nuclear Medicine and imaging, In patient, Prospective Studies, Aged, medicine.diagnostic_test, business.industry, Soft tissue, General Medicine, Middle Aged, Radiation Exposure, Cervical spine, Spinal Injuries, 030220 oncology & carcinogenesis, Cervical Vertebrae, Radiographic Image Interpretation, Computer-Assisted, Female, business, Nuclear medicine, Emergency Service, Hospital, Tomography, X-Ray Computed

Abstract

Purpose Superimposing soft tissue and bony structures in computed tomography (CT) of the cervical spine (C-spine) is a limiting factor in optimizing radiation exposure maintaining an acceptable image quality. Therefore, we assessed image quality of dose-optimized (DO) C-spine CT in patients capable of shoulder pull-down in an emergency setting. Methods and materials DO-CT (105mAs/120 kVp) of the C-spine in trauma settings was performed in patients with shoulder pull-down if C5 was not superimposed by soft tissue on the lateral topogram, otherwise standard-dose (SD)-CT (195 mAs/120 kVp) was performed. 34 DO (mean age, 68y ± 21; BMI, 24.2 kg/m2 ± 3.2) and 34 SD (mean age 70y ± 19; BMI 25.7 kg/m2 ± 4.4) iterative reconstructed CTs were evaluated at C2/3 and C6/7 by two musculoskeletal radiologists. Qualitative image noise and morphological characteristics of bony structures (cortex, trabeculae) were assessed on a Likert scale. Quantitative image noise was measured and effective dose (ED) was recorded. Parameters were compared using Mann-Whitney-U-test (p Results At C2/3, DO-CT vs. SD-CT yielded comparable qualitative noise (mean, 1.3 vs. 1.0; p = 0.18) and morphological characteristics, but higher quantitative noise (27.2 ± 8.8HU vs. 19.6 ± 4.5HU; p Conclusion C-spine CT with dose reduction of 51% showed no image quality impairment. Additional pull-down of both shoulders allowed better image quality at lower C-spine segments as compared to a standard protocol.

Published

2019

17. International variation in radiation dose for computed tomography examinations: prospective cohort study

Author

Ryan K. Lee, Robert G. Gould, Saravanabavaan Suntharalingam, J. Anthony Seibert, Thomas Yellen-Nelson, Yifei Wang, Mary Cocker, Bradley N. Delman, Sebastian T. Schindera, Rebecca Smith-Bindman, Andrew J. Einstein, Jonathan Balcombe, Joachim E. Wildberger, Philip W. Chu, Marcos Das, Jay Starkey, Michael J. Flynn, Diana L. Miglioretti, Robert Chung, Axel Wetter, MUMC+: DA Beeldvorming (5), Beeldvorming, RS: CARIM - R3.11 - Imaging, and RS: Carim - B06 Imaging

Subjects

Adult, Male, medicine.medical_specialty, Percentile, Adolescent, Medizin, CHILDHOOD, Global Health, Radiation Dosage, Logistic regression, Care provision, Effective dose (radiation), 030218 nuclear medicine & medical imaging, Young Adult, 03 medical and health sciences, 0302 clinical medicine, SCANS, medicine, Humans, Prospective Studies, Registries, EXPOSURE, Young adult, Prospective cohort study, Aged, Aged, 80 and over, RISK, business.industry, Research, Trauma center, Dose-Response Relationship, Radiation, General Medicine, Middle Aged, CANCER, 3. Good health, medicine.anatomical_structure, 030220 oncology & carcinogenesis, Abdomen, Female, Radiology, IONIZING-RADIATION, Tomography, X-Ray Computed, business, CT

Abstract

Objective To determine patient, institution, and machine characteristics that contribute to variation in radiation doses used for computed tomography (CT). Design Prospective cohort study. Setting Data were assembled and analyzed from the University of California San Francisco CT International Dose Registry. Participants Standardized data from over 2.0 million CT examinations of adults who underwent CT between November 2015 and August 2017 from 151 institutions, across seven countries (Switzerland, Netherlands, Germany, United Kingdom, United States, Israel, and Japan). Main outcome measures Mean effective doses and proportions of high dose examinations for abdomen, chest, combined chest and abdomen, and head CT were determined by patient characteristics (sex, age, and size), type of institution (trauma center, care provision 24 hours per day and seven days per week, academic, private), institutional practice volume, machine factors (manufacturer, model), country, and how scanners were used, before and after adjustment for patient characteristics, using hierarchical linear and logistic regression. High dose examinations were defined as CT scans with doses above the 75th percentile defined during a baseline period. Results The mean effective dose and proportion of high dose examinations varied substantially across institutions. The doses varied modestly (10-30%) by type of institution and machine characteristics after adjusting for patient characteristics. By contrast, even after adjusting for patient characteristics, wide variations in radiation doses across countries persisted, with a fourfold range in mean effective dose for abdomen CT examinations (7.0-25.7 mSv) and a 17-fold range in proportion of high dose examinations (4-69%). Similar variation across countries was observed for chest (mean effective dose 1.7-6.4 mSv, proportion of high dose examinations 1-26%) and combined chest and abdomen CT (10.0-37.9 mSv, 2-78%). Doses for head CT varied less (1.4-1.9 mSv, 8-27%). In multivariable models, the dose variation across countries was primarily attributable to institutional decisions regarding technical parameters (that is, how the scanners were used). Conclusions CT protocols and radiation doses vary greatly across countries and are primarily attributable to local choices regarding technical parameters, rather than patient, institution, or machine characteristics. These findings suggest that the optimization of doses to a consistent standard should be possible. Study registration Clinicaltrials.gov NCT03000751 .

Published

2019

18. Clinical evaluation of a novel multibolus contrast agent injection protocol for thoraco-abdominal CT angiography: Assessment of homogeneity of arterial contrast enhancement

Author

Julian E. Gehweiler, Julia Janetzki, Sebastian T. Schindera, Matthias R. Benz, Markus M. Obmann, and Daniel T. Boll

Subjects

Male, Radiography, Abdominal, Contrast enhancement, Computed Tomography Angiography, media_common.quotation_subject, Abdominal ct, Contrast Media, Injections, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Humans, Medicine, Contrast (vision), Radiology, Nuclear Medicine and imaging, Lead (electronics), Aorta, Aged, Retrospective Studies, media_common, Aortic dissection, Protocol (science), medicine.diagnostic_test, business.industry, Homogeneity (statistics), General Medicine, Middle Aged, medicine.disease, Radiographic Image Enhancement, Aortic Dissection, 030220 oncology & carcinogenesis, Angiography, Feasibility Studies, Female, Radiography, Thoracic, business, Nuclear medicine

Abstract

Purpose To evaluate the in vivo feasibility of a multibolus contrast agent (CA) injection protocol with a reduced CA volume for thoraco-abdominal CT angiography (CTA) and to compare it to a single-bolus CA injection protocol. Method 63 patients who underwent CTA with the multibolus protocol (60 ml CA) were divided in two groups either without (group 1, n = 48) or with (group 2, n = 15) aortic dissection. The aortic contrast enhancement was measured in group 1 using manual ROI analysis (10 segments), as well as semi-automated linear attenuation profiles. A subgroup (n = 18) of group 1, who also underwent imaging with the single-bolus protocol (94 ml CA), was used to compare both protocols. In group 2, differences in attenuation of the true and the false lumen for both the single- and the multibolus protocol were assessed with ROI attenuation measurements in both lumina. Comparisons were made using Wilcoxon test. Results Average attenuation was above 200 HU for 98 % of cases using the multibolus protocol. There was superior contrast homogeneity for the multibolus protocol with a lower standard deviation of attenuation values along the length of the scan (p = 0.003), while average attenuation was higher for the single-bolus protocol (p = 0.002). Prolonged enhancement plateau lead to a more uniform opacification of the true and the false lumen in patients with aortic dissection using the multibolus protocol (p = 0.012). Conclusions The multibolus protocol in thoraco-abdominal CTA is feasible in patients. It shows consistently high arterial enhancement with superior contrast homogeneity compared to a single-bolus protocol in patients with and without aortic dissection.

Published

2020

19. Correction to: National survey on dose data analysis in computed tomography

Author

Christina Heilmaier, Hatem Alkadhi, Elmar M. Merkle, Reto Treier, Dominik Weishaupt, Sebastian T. Schindera, University of Zurich, and Heilmaier, Christina

Subjects

medicine.medical_specialty, medicine.diagnostic_test, 10042 Clinic for Diagnostic and Interventional Radiology, business.industry, 610 Medicine & health, Interventional radiology, Mistake, Computed tomography, General Medicine, Radiology Nuclear Medicine and imaging, 2741 Radiology, Nuclear Medicine and Imaging, Medicine, Radiology, Nuclear Medicine and imaging, Radiology, business, Neuroradiology

Abstract

The original version of this article, published on 28 May 2018, unfortunately contained a mistake.

Published

2018

20. Strategien zur Reduktion der CT-Strahlendosis

Author

Peter Vock, Zsolt Szucs-Farkas, Claude Nauer, R. Treier, G. von Allmen, Philipp R. Trueb, and Sebastian T. Schindera

Subjects

education.field_of_study, business.industry, Image quality, Population, Iterative reconstruction, Image noise, Dosimetry, Medicine, Radiology, Nuclear Medicine and imaging, Tomography, Radiation protection, Nuclear medicine, business, education, Cardiac imaging

Abstract

Zusammenfassung: Die rasante technische Weiterentwicklung der CT hat in den letzten Jahren zu einer deutlichen Zunahme der diagnostischen Möglichkeiten geführt, mit dem Resultat, dass die CT-Untersuchungszahlen weltweit angestiegen sind. Dies hat ebenfalls Auswirkung auf die Strahlenexposition der Bevölkerung. Bis heute sind zahlreiche Publikationen erschienen, die gezeigt haben, dass eine Dosisreduktion erreicht werden kann, ohne dadurch die Bildqualität und Sensitivität der CT zu beeinträchtigen. Die Mehrzahl der Strategien zur Dosisoptimierung sind einfach anzuwenden und unabhängig von der Detektorkonfiguration des CT-Scanners. Im vorliegenden Übersichtsartikel werden die wichtigsten Methoden vorgestellt: indikationsabhängige Methoden (z.B. rechtfertigende Indikation, Reduktion der Röhrenspannung für die CT-Angiographie, Wahl von Kollimation und Pitchfaktor, Minimierung der Untersuchungsphasen, Senkung der Röhrenspannung und des -stroms für die Nativphase), herstellerabhängige Methoden (z.B. automatische Röhrenstrommodulation, adaptive Filter zur Reduktion des Bildrauschens, iterative Bildrekonstruktion) und allgemeine Methoden (z.B. Patientenzentrierung im Isozentrum der CT-Gantry, Reduktion der Scanlänge, Anwendung von Röntgenschutzmitteln, Reduktion der Röhrenspannung und/oder des -stroms für den CT-Planungsscan)

Published

2018

21. Cholangiocarcinoma and its mimickers in primary sclerosing cholangitis

Author

Scott Fung, Jonghun John Lee, Sebastian T. Schindera, Hyun-Jung Jang, and Tae Kyoung Kim

Subjects

Diagnostic Imaging, medicine.medical_specialty, Pathology, Urology, Cholangitis, Sclerosing, information science, Bile Duct Neoplasm, Malignancy, Primary sclerosing cholangitis, Cholangiocarcinoma, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, parasitic diseases, Medical imaging, medicine, Humans, Radiology, Nuclear Medicine and imaging, cardiovascular diseases, Radiological and Ultrasound Technology, business.industry, fungi, Ultrasound, Gastroenterology, Hepatology, medicine.disease, Bile Duct Neoplasms, 030220 oncology & carcinogenesis, Hepatocellular carcinoma, cardiovascular system, 030211 gastroenterology & hepatology, Radiology, Hepatic fibrosis, business

Abstract

Cholangiocarcinoma (CCA) is the most common malignancy in primary sclerosing cholangitis (PSC). Approximately half of CCA are diagnosed within two years of initial diagnosis and often have a poor prognosis because of advanced tumor stage at the time of diagnosis. Thus, rigorous initial imaging evaluation for detecting CCA is important. CCA in PSC usually manifests as intrahepatic mass-forming or perihilar periductal-infiltrating type. Imaging diagnosis is often challenging due to pre-existing biliary strictures and heterogeneous liver. Multimodality imaging approach and careful comparison with prior images are often helpful in detecting small CCA. Ultrasound is widely used as an initial test, but has a limited ability to detect small tumors in the heterogeneous liver with PSC. MRI combined with MRCP is excellent to demonstrate focal biliary abnormalities as well as subtle liver masses. Contrast-enhanced ultrasound is useful to demonstrate CCA by demonstrating rapid and marked washout. In addition, there are other disease entities that mimic CCA including hepatocellular carcinoma, confluent hepatic fibrosis, IgG4-related sclerosing cholangitis, inflammatory mass, and focal fat deposition. In this pictorial essay, imaging findings of CCA in PSC is described and discuss the challenges in imaging surveillance for CCA in the patients with PSC. Imaging findings of the mimickers of CCA in PSC and their differentiating features are also discussed.

Published

2017

22. Systematic Radiation Dose Reduction in Cervical Spine CT of Human Cadaveric Specimens: How Low Can We Go?

Author

M Müller-Gerbl, Anna Hirschmann, D Harder, C Reisinger, Magdalini Tozakidou, Zsolt Szucs-Farkas, Sebastian T. Schindera, J Lieb, and Ueli Studler

Subjects

Adult, Male, Image quality, Iterative reconstruction, Radiation Dosage, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Cadaver, Hounsfield scale, Image noise, Medicine, Humans, Radiology, Nuclear Medicine and imaging, business.industry, Middle Aged, Spine, medicine.anatomical_structure, Cervical Vertebrae, Radiographic Image Interpretation, Computer-Assisted, Female, Neurology (clinical), Tomography, business, Cadaveric spasm, Nuclear medicine, Artifacts, Tomography, X-Ray Computed, 030217 neurology & neurosurgery, Algorithms, Cervical vertebrae

Abstract

BACKGROUND AND PURPOSE: While the use of cervical spine CT in trauma settings has increased, the balance between image quality and dose reduction remains a concern. The purpose of our study was to compare the image quality of CT of the cervical spine of cadaveric specimens at different radiation dose levels. MATERIALS AND METHODS: The cervical spine of 4 human cadavers (mean body mass index; 30.5 ± 5.2 kg/m(2); range, 24–36 kg/m(2)) was examined using different reference tube current–time products (45, 75, 105, 135, 150, 165, 195, 275, 355 mAs) and a tube voltage of 120 kV(peak). Data were reconstructed with filtered back-projection and iterative reconstruction. Qualitative image noise and morphologic characteristics of bony structures were quantified on a Likert scale. Quantitative image noise was measured. Statistics included analysis of variance and the Tukey test. RESULTS: Compared with filtered back-projection, iterative reconstruction provided significantly lower qualitative (mean noise score: iterative reconstruction = 2.10/filtered back-projection = 2.18; P = .003) and quantitative (mean SD of Hounsfield units in air: iterative reconstruction = 30.2/filtered back-projection = 51.8; P < .001) image noise. Image noise increased as the radiation dose decreased. Qualitative image noise at levels C1–4 was rated as either “no noise” or as “acceptable noise.” Any shoulder position was at level C5 and caused more artifacts at lower levels. When we analyzed all spinal levels, scores for morphologic characteristics revealed no significant differences between 105 and 355 mAs (P = .555), but they were worse in scans at 75 mAs (P = .025). CONCLUSIONS: Clinically acceptable image quality of cervical spine CTs for evaluation of bony structures of cadaveric specimens with different body habitus can be achieved with a reference mAs of 105 at 120 kVp with iterative reconstruction. Pull-down of shoulders during acquisition could improve image quality but may not be feasible in trauma patients with unknown injuries.

Published

2017

23. Comparison of image quality and radiation dose between split-filter dual-energy images and single-energy images in single-source abdominal CT

Author

Bram Stieltjes, Sebastian T. Schindera, Markus M. Obmann, Anna L. Falkowski, Caroline Zaehringer, Zsolt Szucs-Farkas, Daniele Marin, Bernhard Krauss, Achille Mileto, André Euler, and David J. Winkel

Subjects

Adult, Male, Radiography, Abdominal, medicine.medical_specialty, Image quality, Abdominal ct, Signal-To-Noise Ratio, Radiation Dosage, 030218 nuclear medicine & medical imaging, Spectral shaping, Radiography, Dual-Energy Scanned Projection, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Image noise, Image Processing, Computer-Assisted, Medicine, Humans, Radiology, Nuclear Medicine and imaging, Aged, Retrospective Studies, Aged, 80 and over, business.industry, Ultrasound, Radiation dose, General Medicine, Filter (signal processing), Middle Aged, 030220 oncology & carcinogenesis, Female, Radiology, business, Nuclear medicine, Tomography, X-Ray Computed, Energy (signal processing)

Abstract

To compare image quality and radiation dose of abdominal split-filter dual-energy CT (SF-DECT) combined with monoenergetic imaging to single-energy CT (SECT) with automatic tube voltage selection (ATVS). Two-hundred single-source abdominal CT scans were performed as SECT with ATVS (n = 100) and SF-DECT (n = 100). SF-DECT scans were reconstructed and subdivided into composed images (SF-CI) and monoenergetic images at 55 keV (SF-MI). Objective and subjective image quality were compared among single-energy images (SEI), SF-CI and SF-MI. CNR and FOM were separately calculated for the liver (e.g. CNRliv) and the portal vein (CNRpv). Radiation dose was compared using size-specific dose estimate (SSDE). Results of the three groups were compared using non-parametric tests. Image noise of SF-CI was 18% lower compared to SEI and 48% lower compared to SF-MI (p 0.628). Subjective sharpness was equal between single-energy and monoenergetic images and diagnostic confidence was equal between single-energy and composed images. FOMliv was highest for SF-CI. FOMpv was equal for SEI and SF-MI (p = 0.78). SSDE was significant lower for SF-DECT compared to SECT (p < 0.022). The combined use of split-filter dual-energy CT images provides comparable objective and subjective image quality at lower radiation dose compared to single-energy CT with ATVS. • Split-filter dual-energy results in 18% lower noise compared to single-energy with ATVS. • Split-filter dual-energy results in 11% lower SSDE compared to single-energy with ATVS. • Spectral shaping of split-filter dual-energy leads to an increased dose-efficiency.

Published

2017

24. Spleen

Author

Andre Euler and Sebastian T. Schindera

Published

2017

25. Assessment of image quality and low-contrast detectability in abdominal CT of obese patients: comparison of a novel integrated circuit with a conventional discrete circuit detector at different tube voltages

Author

Tobias Heye, Sebastian T. Schindera, M. Kekelidze, Georg Bongartz, B. Schmidt, Christof-Matthias Sommer, André Euler, and Zsolt Szucs-Farkas

Subjects

Male, Models, Anatomic, medicine.medical_specialty, Image quality, Integrated circuit, Signal-To-Noise Ratio, Discrete circuit, Radiation Dosage, Imaging phantom, law.invention, Electricity, law, medicine, Image noise, Humans, Radiology, Nuclear Medicine and imaging, Obesity, Aged, Phantoms, Imaging, business.industry, Liver Neoplasms, Detector, Ultrasound, General Medicine, Cone-Beam Computed Tomography, Middle Aged, equipment and supplies, Radiographic Image Interpretation, Computer-Assisted, Female, Radiology, Tomography, X-Ray Computed, Nuclear medicine, business, Voltage

Abstract

To compare image quality and low-contrast detectability of an integrated circuit (IC) detector in abdominal CT of obese patients with conventional detector technology at low tube voltages. A liver phantom with 45 lesions was placed in a water container to mimic an obese patient and examined on two different CT systems at 80, 100 and 120 kVp. The systems were equipped with either the IC or conventional detector. Image noise was measured, and the contrast-to-noise-ratio (CNR) was calculated. Low-contrast detectability was assessed independently by three radiologists. Radiation dose was estimated by the volume CT dose index (CTDIvol). The image noise was significantly lower, and the CNR was significantly higher with the IC detector at 80, 100 and 120 kVp, respectively (P = 0.023). The IC detector resulted in an increased lesion detection rate at 80 kVp (38.1 % vs. 17.2 %) and 100 kVp (57.0 % vs. 41.0 %). There was no difference in the detection rate between the IC detector at 100 kVp and the conventional detector at 120 kVp (57.0 % vs. 62.2 %). The CTDIvol at 80, 100 and 120 kVp measured 4.5–5.2, 7.3–7.9 and 9.8–10.2 mGy, respectively. The IC detector at 100 kVp resulted in similar low-contrast detectability compared to the conventional detector with a 120-kVp protocol at a radiation dose reduction of 37 %. • An integrated circuit (IC) detector significantly improves the quantitative image quality • The IC detector results in a significant improvement of low-contrast detectability • Reduction of tube voltage to 100 kVp is feasible in obese patients • The IC detector holds great promise for improving patient safety

Published

2014

26. Iterative Reconstruction Algorithm for CT: Can Radiation Dose Be Decreased While Low-Contrast Detectability Is Preserved?

Author

Syed Arsalan Raza, Devang Odedra, Sebastian T. Schindera, Tae Kyoung Kim, Patrik Rogalla, Zsolt Szucs-Farkas, and Hyun-Jung Jang

Subjects

Radon transform, Phantoms, Imaging, business.industry, Image quality, Liver Neoplasms, Radiation dose, Equipment Design, Iterative reconstruction, Radiation Dosage, Sensitivity and Specificity, Imaging phantom, Low contrast, Image noise, Humans, Radiographic Image Interpretation, Computer-Assisted, Medicine, Radiology, Nuclear Medicine and imaging, Tomography, Tomography, X-Ray Computed, Nuclear medicine, business, Algorithm, Algorithms

Abstract

To compare the low-contrast detectability and image quality of computed tomography (CT) at different radiation dose levels reconstructed with iterative reconstruction (IR) and filtered back projection (FBP).A custom liver phantom with 12 simulated hypoattenuating tumors (diameters of 5, 10, 15, and 20 mm; tumor-to-liver contrast values of -10, -20, and -40 HU) was designed. The phantom was scanned with a standard abdominal CT protocol with a volume CT dose index of 21.6 mGy (equivalent 100% dose) and four low-dose protocols (20%, 40%, 60%, and 80% of the standard protocol dose). CT data sets were reconstructed with IR and FBP. Image noise was measured, and the tumors' contrast-to-noise ratios (CNRs) were calculated. Tumor detection was independently assessed by three radiologists who were blinded to the CT technique used. A total of 840 simulated tumors were presented to the radiologists. Statistical analyses included analysis of variance.IR yielded an image noise reduction of 43.9%-63.9% and a CNR increase of 74.1%-180% compared with FBP at the same dose level (P.001). The overall sensitivity for tumor detection was 64.7%-85.3% for IR and 66.3%-85.7% for FBP at the 20%-100% doses, respectively. There was no significant difference in the sensitivity for tumor detection between IR and FBP at the same dose level (P = .99). The sensitivity of the protocol at the 20% dose with FBP and IR was significantly lower than that of the protocol at the 100% dose with FBP and IR (P = .019).As the radiation dose at CT decreases, the IR algorithm does not preserve the low-contrast detectability.http://radiology.rsna.org/lookup/suppl/doi:10.1148/radiol.13122349/-/DC1.

Published

2013

27. Combining automated attenuation-based tube voltage selection and iterative reconstruction: a liver phantom study

Author

Sebastian T. Schindera, Hatem Alkadhi, Natalie Chuck, Zsolt Szucs-Farkas, Daniela B. Husarik, Burkhardt Seifert, Fabian Morsbach, University of Zurich, and Husarik, Daniela B

Subjects

medicine.medical_specialty, 610 Medicine & health, Computed tomography, Iterative reconstruction, Signal-To-Noise Ratio, Radiation Dosage, Sensitivity and Specificity, Imaging phantom, Liver Function Tests, medicine, 2741 Radiology, Nuclear Medicine and Imaging, Radiology, Nuclear Medicine and imaging, Selection (genetic algorithm), Neuroradiology, medicine.diagnostic_test, 10042 Clinic for Diagnostic and Interventional Radiology, Phantoms, Imaging, business.industry, Liver Diseases, Attenuation, Ultrasound, 10060 Epidemiology, Biostatistics and Prevention Institute (EBPI), General Medicine, Liver, Radiographic Image Interpretation, Computer-Assisted, Radiology, Artifacts, Tomography, X-Ray Computed, Nuclear medicine, business, Algorithms, Voltage

Abstract

Objectives: To determine the value of combined automated attenuation-based tube-potential selection and iterative reconstructions (IRs) for optimising computed tomography (CT) imaging of hypodense liver lesions. Methods: A liver phantom containing hypodense lesions was imaged by CT with and without automated attenuation-based tube-potential selection (80, 100 and 120kVp). Acquisitions were reconstructed with filtered back projection (FBP) and sinogram-affirmed IR. Image noise and contrast-to-noise ratio (CNR) were measured. Two readers marked lesion localisation and rated confidence, sharpness, noise and image quality on a five-point scale (1 = worst, 5 = best). Results: Image noise was lower (31-52%) and CNR higher (43-102%) on IR than on FBP images at all tube voltages. On 100-kVp and 80-kVp IR images, confidence and sharpness were higher than on 120-kVp FBP images. Scores for image quality score and noise as well as sensitivity for 100-kVp IR were similar or higher than for 120-kVp FBP and lower for 80-kVp IR. Radiation dose was reduced by 26% at 100kVp and 56% at 80kVp. Conclusions: Compared with 120-kVp FBP images, the combination of automated attenuation-based tube-potential selection at 100kVp and IR provides higher image quality and improved sensitivity for detecting hypodense liver lesions in vitro at a dose reduced by 26%. Key Points: • Combining automated tube voltage selection/iterative CT reconstruction improves image quality. • Attenuation values remain stable on IR compared with FBP images. • Lesion detection was highest on 100-kVp IR images.

Published

2013

28. Clinical impact of an adaptive statistical iterative reconstruction algorithm for detection of hypervascular liver tumours using a low tube voltage, high tube current MDCT technique

Author

Sebastian T. Schindera, Daniele Marin, Brian C. Allen, James G. Colsher, Lisa M. Ho, Rendon C. Nelson, Kingshuk Roy Choudhury, Ehsan Samei, and Rajan T. Gupta

Subjects

Male, medicine.medical_specialty, Carcinoma, Hepatocellular, Image quality, Contrast Media, Iterative reconstruction, Radiation Dosage, Sensitivity and Specificity, Lesion, Multidetector Computed Tomography, Medical imaging, medicine, Humans, Radiology, Nuclear Medicine and imaging, Prospective Studies, Carcinoma, Renal Cell, Aged, Neuroradiology, medicine.diagnostic_test, business.industry, Liver Neoplasms, Ultrasound, Low tube voltage, Magnetic resonance imaging, General Medicine, Middle Aged, Magnetic Resonance Imaging, Radiographic Image Enhancement, Early Diagnosis, Radiographic Image Interpretation, Computer-Assisted, Female, Radiology, medicine.symptom, business, Nuclear medicine, Algorithm, Algorithms

Abstract

To investigate the impact of an adaptive statistical iterative reconstruction (ASiR) algorithm on diagnostic accuracy and confidence for the diagnosis of hypervascular liver tumours, as well as the reader’s perception of image quality, using a low tube voltage (80 kVp), high tube current computed tomography (CT) technique. Forty patients (29 men, 11 women) with 65 hypervascular liver tumours underwent dual energy CT. The 80 kV set of the dual energy acquisition was reconstructed with standard filtered backprojection (FBP) and ASiR at different blending levels. Lesion contrast-to-noise ratio (CNR), reader’s confidence for lesion detection and characterisation, and reader’s evaluation of image quality were recorded. ASiR yielded significantly higher CNR values compared with FBP (P

Published

2013

29. The Forensic Reference Phantom—a new tool for quality assurance of attenuation measurements in forensic radiology

Author

Thomas Allmendinger, Garyfalia Ampanozi, Thomas D. Ruder, Sebastian T. Schindera, Michael J. Thali, Yannick Thali, Dominic Gascho, Lars C. Ebert, Gary M. Hatch, and Simon A Dalla Torre

Subjects

business.industry, Computer science, Attenuation, Radiography, Intra-rater reliability, Imaging phantom, Pathology and Forensic Medicine, Virtopsy, Hounsfield scale, Forensic radiology, Radiology, Nuclear Medicine and imaging, business, Nuclear medicine, Quality assurance

Abstract

Introduction The purpose of this paper is to present the technical specifications of the Forensic Reference Phantom (FRP), to test its behavior relative to organic test materials, and discuss potential applications of the phantom in forensic radiology. Materials and method The FRP prototype is made of synthetic materials designed to simulate the computed tomography (CT) attenuation of water. It has six bore holes that accommodate multiuse containers. These containers were filled with test materials and scanned at 80 kVp, 120 kVp, and 140 kVp. X-ray attenuation was measured by two readers. Intra- and inter-reader reliability was assessed using the intra-class correlation coefficient (ICC). Significance levels between mean CT numbers at 80 kVp, 120 kVp, and 140 kVp were assessed with the Friedman-test. The T-test was used to assess significance levels between the FRP and water. Results Overall mean CT numbers ranged from −3.0–3.7HU for the FRP; −1000.3–−993.5HU for air; −157.7– −108.1HU for oil; 35.5–42.0HU for musle tissue; and 1301.5–2354.8HU for cortical bone. Inter-reader and intra-reader reliability were excellent (ICC>0.994; and ICC=0.999 respectively). CT numbers were significantly different at different energy levels. There was no significant difference between the attenuation of the FRP and water. Conclusions The FRP is a new tool for quality assurance and research in forensic radiology. The mean CT attenuation of the FRP is equivalent to water. The phantom can be scanned during routine post-mortem CT to assess the composition of unidentified objects. In addition, the FRP may be used to investigate new imaging algorithms and scan protocols in forensic radiology.

Published

2013

30. Pediatric CT of the Lung: Influences on Image Quality

Author

Rainer Walter Wolf, Sebastian T. Schindera, Enno Stranzinger, Jennifer L. Cullmann, Ralph Herrmann, and Shu-Fang Hsu Schmitz

Subjects

medicine.medical_specialty, Lung, business.industry, Image quality, Sedation, Pediatric ct, law.invention, medicine.anatomical_structure, law, Ventilation (architecture), Medicine, Abdomen, Lung volumes, Radiology, medicine.symptom, Stage (cooking), business

Abstract

Objective: To assess influential factors of CT on image quality of the lung in children. Materials and methods: Retrospective evaluation of 82 consecutive chest-CT-scans in 50 children (1-16 years, 17 females and 33 males). Two pediatric radiologists evaluated in consensus the subjective image quality on lung windows using a 4-point scale (1 = very good, 2 = good, 3 = moderate, 4 = poor). Ventilation, motion artifacts and beam hardening artifact were included in this score. The effects of the following factors were evaluated: 1) CT-settings (tube energy, tube current); 2) Patient’s age, weight, chest size, ventilation; 3) Artifacts of devices, tubes and lines; 4) Combination MRI of the abdomen prior to CT of the chest with the same sedation/anesthesia in oncological patients. Results: The odds of having a better image quality increase with patient’s age, weight and chest diameter in a multiple-factor model. There was no difference between tube current protocols. In infants (15 kg) subjective image quality was good in only 1 (8%), moderate in 8 (67%) and poor in 3 (25%) scans. In childhood and adolescence (15 - 90 kg) 25 (36%) scans were very good, 28 (40%) good, 15 (21%) moderate and 2 (3%) poor. Artifacts of tubes and lines have no statistical significant influence on image quality. Lower lung densities were related to better ventilation and older children. Conclusion: Increasing dose parameters may not increase necessarily subjective image quality in infants (15 kg), rather than good ventilation, optimal preparation and avoiding artifacts. A possible explanation of the rather moderate image quality in infants may be the alveolar stage of the lung. Up to two years of age the lung has a high specific lung volume per kg and a low total lung volume with a low alveolar surface.

Published

2013

31. Impact of model-based iterative reconstruction on low-contrast lesion detection and image quality in abdominal CT: a 12-reader-based comparative phantom study with filtered back projection at different tube voltages

Author

Clemens Reisinger, Bram Stieltjes, Luigia D’Errico, Sabine Bucher, Zsolt Szucs-Farkas, Matthias Streif, Markus Wilhelm, Achim Kircher, André Euler, Anna Hirschmann, Reto Eichenberger, David Buergler, Caroline Zaehringer, Sebastian T. Schindera, Sebastién Kopp, University of Zurich, and Schindera, Sebastian T

Subjects

medicine.medical_specialty, based iterative reconstruction, Image quality, 610 Medicine & health, Iterative reconstruction, Radiation Dosage, Imaging phantom, 030218 nuclear medicine & medical imaging, Lesion, Multidetector computed tomography, 03 medical and health sciences, 0302 clinical medicine, medicine, Image noise, 2741 Radiology, Nuclear Medicine and Imaging, Humans, Radiology, Nuclear Medicine and imaging, Tomographic reconstruction, Radon transform, contrast detection, business.industry, Phantoms, Imaging, Ultrasound, General Medicine, 10020 Clinic for Cardiac Surgery, Low, 030220 oncology & carcinogenesis, Filtered back projection, Radiographic Image Interpretation, Computer-Assisted, Radiology, medicine.symptom, Radiological phantom, business, Nuclear medicine, Tomography, X-Ray Computed, Algorithms, Model

Abstract

To evaluate the impact of model-based iterative reconstruction (MBIR) on image quality and low-contrast lesion detection compared with filtered back projection (FBP) in abdominal computed tomography (CT) of simulated medium and large patients at different tube voltages. A phantom with 45 hypoattenuating lesions was placed in two water containers and scanned at 70, 80, 100, and 120 kVp. The 120-kVp protocol served as reference, and the volume CT dose index (CTDIvol) was kept constant for all protocols. The datasets were reconstructed with MBIR and FBP. Image noise and contrast-to-noise-ratio (CNR) were assessed. Low-contrast lesion detectability was evaluated by 12 radiologists. MBIR decreased the image noise by 24% and 27%, and increased the CNR by 30% and 29% for the medium and large phantoms, respectively. Lower tube voltages increased the CNR by 58%, 46%, and 16% at 70, 80, and 100 kVp, respectively, compared with 120 kVp in the medium phantom and by 9%, 18% and 12% in the large phantom. No significant difference in lesion detection rate was observed (medium: 79-82%; large: 57-65%; P > 0.37). Although MBIR improved quantitative image quality compared with FBP, it did not result in increased low-contrast lesion detection in abdominal CT at different tube voltages in simulated medium and large patients. • MBIR improved quantitative image quality but not lesion detection compared with FBP. • Increased CNR by low tube voltages did not improve lesion detection. • Changes in image noise and CNR do not directly influence diagnostic accuracy.

Published

2016

32. CT Radiation Dose Management: A Comprehensive Optimization Process for Improving Patient Safety

Author

Sebastian T. Schindera, Anushri Parakh, and Mika Kortesniemi

Subjects

medicine.medical_specialty, business.industry, Process (engineering), Radiation dose, Radiation Dosage, Quality Improvement, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Patient safety, 0302 clinical medicine, Radiation Protection, 030220 oncology & carcinogenesis, Models, Organizational, Medicine, Humans, Radiology, Nuclear Medicine and imaging, Medical physics, Patient Safety, business, Radiometry, Tomography, X-Ray Computed

Abstract

Rising concerns of radiation exposure from computed tomography have caused various advances in dose reduction technologies. While proper justification and optimization of scans has been the main focus to address increasing doses, the value of dose management has been largely overlooked. The purpose of this article is to explain the importance of dose management, provide an overview of the available options for dose tracking, and discuss the importance of a dedicated dose team. The authors also describe how a digital radiation tracking software can be used for analyzing the big data on doses for auditing patient safety, scanner utilization, and productivity, all of which have enormous personal and institutional implications. (©) RSNA, 2016.

Published

2016

33. Automatic tube current modulation for whole-body polytrauma CT with immobilization devices: is there an increase in radiation dose and degradation of image quality?

Author

Sebastian T. Schindera, Bram Stieltjes, and André Euler

Subjects

Scanner, Image quality, Streak, Radiation Dosage, Imaging phantom, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Immobilization, 0302 clinical medicine, Tube current modulation, Image noise, Medicine, Humans, Radiology, Nuclear Medicine and imaging, Whole Body Imaging, business.industry, Multiple Trauma, Phantoms, Imaging, Bedding and Linens, medicine.disease, Polytrauma, Emergency Medicine, Radiographic Image Interpretation, Computer-Assisted, business, Nuclear medicine, Whole body, Artifacts, Tomography, X-Ray Computed, 030217 neurology & neurosurgery

Abstract

The objective of this study was the assessment of the image quality and radiation dose in polytrauma CT using immobilization devices. An anthropomorphic whole body and a liver phantom were scanned on a 128-slice CT scanner with four different protocols using automatic tube current modulation (120 kVp, 150 ref. mAs; 120 kV, 200 ref. mAs; 140 kVp, 150 ref. mAs; and 140 kVp, 200 ref. mAs) and four different setups (no immobilization device (setup A), vacuum mattress 1 (setup B), vacuum mattress 2 (setup C), and spineboard (setup D)). Qualitative and quantitative image quality parameters and radiation dose were assessed. Image noise increased on average by 6.6, 11.2, and 9.4 %, and CNR decreased by 11.2, 13.9, and 6.5 for setups B, C, and D, respectively, compared with setup A. The CTDIvol increased up to 6 % using immobilization devices. Severe streak artifacts, provoked by the inflation valve of the mattresses were detected at the level of the head and shoulder. Applying immobilization devices for whole-body CT with automatic tube current modulation increases the radiation dose and decreases the quantitative image quality slightly. Severe artifacts, induced by the inflation valve of the mattress, can influence the diagnostic accuracy at the level of the head and shoulder.

Published

2016

34. Feasibility of Dose Optimization in a Second-Generation Dual-Source CT Scanner for a Manufacturer-Recommended Urolithiasis Protocol for Imaging Renal Stones

Author

Sebastian T. Schindera, Balazs Kovacs, Joachim Hohmann, Tilman Schubert, Zsolt Szucs-Farkas, Michele Pansini, and Fabian Morsbach

Subjects

Adult, Male, Scanner, medicine.medical_specialty, Image quality, Dual source ct, Radiation Dosage, Imaging phantom, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Kidney Calculi, 0302 clinical medicine, Clinical Protocols, Image noise, Medicine, Humans, Radiology, Nuclear Medicine and imaging, CT protocol, Aged, Protocol (science), business.industry, Phantoms, Imaging, Dose-Response Relationship, Radiation, General Medicine, Middle Aged, body regions, Dose optimization, 030220 oncology & carcinogenesis, Feasibility Studies, Female, Radiology, Nuclear medicine, business, Tomography, X-Ray Computed

Abstract

The purpose of this article is to investigate the magnitude of dose optimization for a manufacturer-recommended urolithiasis protocol in a second-generation dual-source CT scanner.Custom renal phantoms with 24 stones were scanned using the manufacturer-provided dual-energy CT protocol (tube A, 100 kVp and 210 reference mAs; tube B, 140 kVp and 162 reference mAs) and seven dose-optimized protocols in which the reference tube current-time product setting of tube A was reduced stepwise by 20 mAs. Detection and characterization of the stones was assessed. In the patient study, 25 patients underwent the manufacturer-provided dual-energy protocol and 25 patients underwent imaging with a dose-optimized protocol (tube A, 100 kVp and 90 reference mAs; tube B, 140 kVp and 70 reference mAs). Dose-length product (DLP), image noise, and contrast-to-noise ratio (CNR) were assessed. Subjective image quality was analyzed by three independent radiologists.In the phantom study, the reference tube current-time product of tube A could be reduced from 210 to 90 mAs without losing the accuracy of detection or characterization of the calculi. In the patient study, the dose-optimized protocol resulted in a significant reduction of the average DLP by 51% compared with the standard protocol (219.4 vs 443.5 mGy·cm, respectively; p = 0.0001). The image noise was higher, and the CNR was lower, in the dose-optimized group than in the standard-dose group (p0.05). The subjective overall image quality of the dose-optimized CT examinations was rated as good, and that of the standard-dose CT examinations was rated as excellent (p = 0.001).The in vitro and in vivo assessment revealed a potential for a 51% dose reduction of the manufacturer-recommended dual-energy CT protocol for urolithiasis without compromising the accuracy.

Published

2016

35. Dual-energy CT-cholangiography in potential donors for living-related liver transplantation: Improved biliary visualization by intravenous morphine co-medication

Author

M Holzschuh, Lars Grenacher, Jan Schmidt, H. U. Kauczor, Sebastian T. Schindera, Boris Radeleff, Juergen Weitz, Christof-Matthias Sommer, C.B. Schwarzwaelder, Ulrike Stampfl, Tobias Heye, Nadine Bellemann, and Wolfram Stiller

Subjects

Male, medicine.medical_specialty, medicine.medical_treatment, Urology, Contrast Media, Liver transplantation, Sensitivity and Specificity, Gastroenterology, Donor Selection, Young Adult, Absorptiometry, Photon, Cholangiography, Intravenous morphine, Internal medicine, Living related liver transplantation, Living Donors, medicine, Humans, Radiology, Nuclear Medicine and imaging, Saline, Morphine, medicine.diagnostic_test, Bile duct, business.industry, Reproducibility of Results, General Medicine, Middle Aged, Image Enhancement, Liver Transplantation, Analgesics, Opioid, medicine.anatomical_structure, Injections, Intravenous, Female, Bile Ducts, Dual energy ct, Tomography, X-Ray Computed, business, medicine.drug

Abstract

To prospectively evaluate whether intravenous morphine co-medication improves bile duct visualization of dual-energy CT-cholangiography.Forty potential donors for living-related liver transplantation underwent CT-cholangiography with infusion of a hepatobiliary contrast agent over 40 min. Twenty minutes after the beginning of the contrast agent infusion, either normal saline (n=20 patients; control group [CG]) or morphine sulfate (n=20 patients; morphine group [MG]) was injected. Forty-five minutes after initiation of the contrast agent, a dual-energy CT acquisition of the liver was performed. Applying dual-energy post-processing, pure iodine images were generated. Primary study goals were determination of bile duct diameters and visualization scores (on a scale of 0 to 3: 0--not visualized; 3--excellent visualization).Bile duct visualization scores for second-order and third-order branch ducts were significantly higher in the MG compared to the CG (2.9±0.1 versus 2.6±0.2 [P0.001] and 2.7±0.3 versus 2.1±0.6 [P0.01], respectively). Bile duct diameters for the common duct and main ducts were significantly higher in the MG compared to the CG (5.9±1.3 mm versus 4.9±1.3 mm [P0.05] and 3.7±1.3 mm versus 2.6±0.5 mm [P0.01], respectively).Intravenous morphine co-medication significantly improved biliary visualization on dual-energy CT-cholangiography in potential donors for living-related liver transplantation.

Published

2012

36. How reliable are Hounsfield-unit measurements in forensic radiology?

Author

Sebastian T. Schindera, Steffen Ross, Thomas D. Ruder, Gary M. Hatch, Michael J. Thali, Simon A Dalla Torre, Wolf Dieter Zech, Yannick Thali, University of Zurich, and Ruder, Thomas D

Subjects

Reproducibility, Scanner, Pathology, medicine.medical_specialty, medicine.diagnostic_test, Correlation coefficient, business.industry, 340 Law, 610 Medicine & health, Computed tomography, 10218 Institute of Legal Medicine, Imaging phantom, Pathology and Forensic Medicine, 2734 Pathology and Forensic Medicine, Hounsfield scale, Medicine, Forensic radiology, business, Nuclear medicine, Law, Reliability (statistics)

Abstract

OBJECTIVE: To assess the reliability of computed tomography (CT) numbers, also known as Hounsfield-units (HU) in the differentiation and identification of forensically relevant materials and to provide instructions to improve the reproducibility of HU measurements in daily forensic practice. MATERIALS AND METHODS: We scanned a phantom containing non-organic materials (glass, rocks and metals) on three different CT scanners with standardized parameters. The t-test was used to assess the influence of the scanner, the size and shape of different types of regions-of-interest (ROI), the composition and shape of the object, and the reader performance on HU measurements. Intra-class correlation coefficient was used to assess intra- and inter-reader reliability. RESULTS: HU values did not change significantly as a function of ROI-shape or -size (p>0.05). Intra-reader reliability reached ICC values >0.929 (p

Published

2012

37. Effect of Tumor Size and Tumor-to-Liver Contrast of Hypovascular Liver Tumors on the Diagnostic Performance of Hepatic CT Imaging

Author

Zsolt Szucs-Farkas, Sebastian T. Schindera, Daniele Marin, Jaled Charimo Torrente, Andrea B. Rosskopf, Oliver Rusch, Stephan Raible, Peter Vock, and Lisa F. Hareter

Subjects

Male, medicine.medical_specialty, Time Factors, media_common.quotation_subject, Statistics as Topic, Contrast Media, Diagnostic accuracy, Computed tomography, Sensitivity and Specificity, Predictive Value of Tests, medicine, Humans, Contrast (vision), Radiology, Nuclear Medicine and imaging, Retrospective Studies, media_common, Tumor size, medicine.diagnostic_test, business.industry, Liver Neoplasms, General Medicine, Middle Aged, Predictive value of tests, Female, Radiology, Tomography, Ct imaging, Tomography, X-Ray Computed, business

Abstract

To assess the effect of tumor size and tumor-to-liver contrast of simulated hypovascular liver tumors on the diagnostic accuracy of hepatic computed tomography (CT).This retrospective study was approved by the institutional review board, and informed consent was waived. A total of 153 simulated hypovascular liver tumors were embedded in 70 hepatic CT data sets that were acquired during the portal venous phase. The simulated tumors had 3 different diameters (6, 10, and 14 mm) and 3 different tumor-to-liver contrast values (20, 35, and 50 HU). There were also 30 hepatic CT data sets without liver tumors. Three radiologists independently performed tumor detection on the randomized 100 hepatic CT data sets.The lowest sensitivity was obtained for the 6-mm tumors with a tumor-to-liver contrast of 20 HU (4.1%), and the highest sensitivity was obtained for the 10- and 14-mm tumors with a tumor-to-liver contrast of 50 HU (100%). Increasing the contrast from 20 to 35 to 50 HU in the 6-mm tumors yielded a significant increase in sensitivity (4.1%, 48.8%, and 92.4%, respectively; P0.0001). The sensitivity for the 10- and 14-mm tumors also increased significantly as the tumor-to-liver contrast value increased from 20 to 35 HU (P0.01). However, no significant increase in sensitivity was seen for the 10- and 14-mm tumors as the tumor-to-liver contrast values increased from 35 to 50 HU (P = 0.733 and P = 1.0, respectively).Increasing the tumor-to-liver contrast from 20 to 35 HU results in a significant increase in the detection of hypovascular liver tumors ranging from 6 to 14 mm in diameter. Optimization of the tumor-to-liver contrast is necessary for improved detection of hypovascular liver tumors.

Published

2012

38. State of the art low-dose CT angiography of the body

Author

Sebastian T. Schindera and Hatem Alkadhi

Subjects

Radiography, Abdominal, Protocol (science), medicine.medical_specialty, medicine.diagnostic_test, business.industry, Angiography, General Medicine, Radiation Dosage, Aortography, Pelvis, Contrast-to-noise ratio, medicine, Humans, Optimal combination, Low dose ct, Radiology, Nuclear Medicine and imaging, Medical physics, Body region, Radiology, Tomography, X-Ray Computed, business, Quality information, Computed tomography angiography

Abstract

This review summarizes current evidence based on pertinent literature on low-dose computed tomography angiography (CTA) of the body. Various strategies for optimizing CTA protocols with the aim to lower the radiation dose while maintaining the diagnostic accuracy of the examination are summarized. To date, various publications have demonstrated that CTA of the body can be performed at a low radiation dose while providing high quality information. Nevertheless, a number of questions still need to be answered, including the optimal combination of tube voltage and tube current settings, as well as the appropriate protocol parameters in relation to the body physiognomy and the specific body region imaged.

Published

2011

39. Iterative Reconstruction Algorithm for Abdominal Multidetector CT at Different Tube Voltages: Assessment of Diagnostic Accuracy, Image Quality, and Radiation Dose in a Phantom Study

Author

Hubert C Müller, Sebastian T. Schindera, Lars Diedrichsen, Bernhard Schmidt, Daniele Marin, Oliver Rusch, Rainer Raupach, Peter Vock, and Zsolt Szucs-Farkas

Subjects

Radiography, Abdominal, Analysis of Variance, Radon transform, Phantoms, Imaging, business.industry, Image quality, Radiography, Liver Neoplasms, Image processing, Iterative reconstruction, Radiation Dosage, Imaging phantom, Humans, Radiographic Image Interpretation, Computer-Assisted, Medicine, Radiology, Nuclear Medicine and imaging, Tomography, Tomography, X-Ray Computed, business, Nuclear medicine, Algorithm, Algorithms, Voltage

Abstract

To assess the diagnostic accuracy, image quality, and radiation dose of an iterative reconstruction algorithm compared with a filtered back projection (FBP) algorithm for abdominal computed tomography (CT) at different tube voltages.A custom liver phantom with 45 simulated hypovascular liver tumors (diameters of 5, 10, and 15 mm; tumor-to-liver contrast of 10, 25, and 50 HU) was placed in a cylindrical water container that mimicked an intermediate-sized patient. The phantom was scanned at 120, 100, and 80 kVp. The CT data sets were reconstructed with FBP and iterative reconstruction. The image noise was measured, and the contrast-to-noise ratio (CNR) of the tumors was calculated. The radiation dose was assessed with the volume CT dose index. Tumor detection was independently performed by three radiologists. Statistical analysis included analysis of variance.Compared with the FBP data set at 120 kVp, the iterative reconstruction data set collected at 100 kVp demonstrated significantly lower mean image noise (20.9 and 16.7 HU, respectively; P.001) and greater mean CNRs for the simulated tumors (P.001). The iterative reconstruction data set collected at 120 kVp yielded the highest sensitivity for tumor detection, while the FBP data set at 80 kVp yielded the lowest. The sensitivity for the iterative reconstruction data set at 100 kVp was comparable with that for the FBP data set at 120 kVp (79.3% and 74.9%, respectively; P.99). The volume CT dose index decreased by 39.8% between the 120-kVp protocol and the 100-kVp protocol and by 70.3% between the 120-kVp protocol and the 80-kVp protocol.Results of this phantom study suggest that a 100-kVp abdominal CT protocol with an iterative reconstruction algorithm for simulated intermediate-sized patients increases the image quality and maintains the diagnostic accuracy at a reduced radiation dose when compared with a 120-kVp protocol with an FBP algorithm.

Published

2011

40. Body CT: Technical Advances for Improving Safety

Author

Sebastian T. Schindera, Daniele Marin, Rendon C. Nelson, and Geoffrey D. Rubin

Subjects

medicine.medical_specialty, business.industry, Radiation dose, MEDLINE, General Medicine, Radiation Dosage, Iodinated contrast media, Patient benefit, Patient safety, Contrast medium, Radiation Protection, Humans, Medicine, Whole Body Imaging, Radiology, Nuclear Medicine and imaging, Medical physics, Radiation Injuries, Radiometry, Tomography, X-Ray Computed, business

Abstract

OBJECTIVE. In this review, we attempt to address many of the issues that are related to ensuring patient benefit in body CT, balancing the use of ionizing radiation and iodinated contrast media. We attempt to not only summarize the literature but also make recommendations relevant to CT protocols, including the technical parameters of both the scanner and the associated contrast media. CONCLUSION. Although CT is a powerful tool that has transformed the practice of medicine, the benefits are accompanied by important risks. Radiologists must understand these risks and the strategies available to minimize them as well as the risks associated with contrast medium delivery in abdominal CT.

Published

2011

41. Decreased Detection of Hypovascular Liver Tumors With MDCT in Obese Patients: A Phantom Study

Author

Rendon C. Nelson, Sebastian T. Schindera, Zsolt Szucs-Farkas, Daniele Marin, Hanno Hoppe, Jaled Charimo Torrente, and Thomas D. Ruder

Subjects

Analysis of Variance, medicine.medical_specialty, Scanner, Lesion detection, Phantoms, Imaging, business.industry, Image quality, Noise reduction, Liver Neoplasms, General Medicine, Imaging phantom, Tumor detection, medicine, Image noise, Humans, Regression Analysis, Radiology, Nuclear Medicine and imaging, Obesity, Radiology, Tomography, X-Ray Computed, business

Abstract

The purpose of this article is to assess the impact of large patient size on the detection of hypovascular liver tumors with MDCT and the effect of a noise filter on image quality and lesion detection in obese patients.A liver phantom with 45 hypovascular tumors (diameters of 5, 10, and 15 mm) was placed into two water containers mimicking intermediate and large patients. The containers were scanned with a 64-MDCT scanner. The CT dataset from the large phantom was postprocessed using a noise filter. The image noise was measured and the contrast-to-noise ratio (CNR) of the tumors was calculated. Tumor detection was independently performed by three radiologists in a blinded fashion.The application of the noise filter in the large phantom yielded a reduction of image noise by 42% (p0.0001). The CNR values of the tumors in the nonfiltered and filtered large phantom were lower than that in the intermediate phantom (p0.05). In the non-filtered and filtered large phantom, 25% and 19% fewer tumors, respectively, were detected on average compared with the intermediate phantom (p0.01).The risk of missing hypovascular liver tumors with CT is substantially increased in large patients. A noise filter improves image quality in obese patients.

Published

2011

42. Nonlinear Three-dimensional Noise Filter with Low-Dose CT Angiography: Effect on the Detection of Small High-Contrast Objects in a Phantom Model

Author

Sebastian T. Schindera, Susanne Bensler, Peter Vock, Jaled Charimo Torrente, Zsolt Szucs-Farkas, and Jennifer L. Cullmann

Subjects

Analysis of Variance, Endoleak, medicine.diagnostic_test, Phantoms, Imaging, business.industry, Image quality, Noise reduction, Angiography, Reconstruction algorithm, Image Enhancement, Imaging phantom, Aortic Aneurysm, Nonlinear system, Imaging, Three-Dimensional, Filter (video), Humans, Radiographic Image Interpretation, Computer-Assisted, Medicine, Radiology, Nuclear Medicine and imaging, Tomography, Tomography, X-Ray Computed, Nuclear medicine, business, Algorithms

Abstract

To study the effect of a nonlinear noise filter on the detection of simulated endoleaks in a phantom with 80- and 100-kVp multidetector computed tomographic (CT) angiography.An aortic aneurysm phantom, including iodinated endoleaks, was constructed. Multidetector CT angiography with use of 80-, 100-, and 120-kVp tube voltages was performed for simulated intermediate-sized and large patients (estimated body weights, 72-85 kg and 118-142 kg, respectively). Images obtained with 80 and 100 kVp were postprocessed by using a nonlinear noise filter. CT images containing 1152 endoleaks and images with no endoleaks were randomized and independently analyzed by three radiologists blinded to the location of the endoleaks. Diagnostic confidence and image quality were rated by using subjective scales. Analysis of variance was used for statistical assessment.In simulated intermediate-sized patients, energy reduction from 120 to 100 kVp and from100 to 80 kVp did not decrease image quality when images with reduced kilovoltage were filtered (P = .2692 and P.99, respectively). Readers detected more endoleaks on the filtered 100-kVp images than on the nonfiltered images in simulated large patients (83 vs 75 lesions, P = .041). The number of detected endoleaks and the confidence rate were similar at 100 kVp with a filter and at 120 kVp in simulated large patients (P = .339 and P = .211, respectively).In a phantom, the nonlinear noise filter can prevent decreased image quality with use of 80- and 100-kVp abdominal multidetector CT angiography at a wide range of simulated body weights and may facilitate a better detection rate of endoleaks in heavy patients.

Published

2011

43. Low-dose pulmonary CT angiography: reduced radiation exposure and iodine load at low tube kilovoltage

Author

Sebastian T. Schindera, Peter Vock, and Zsolt Szucs-Farkas

Subjects

medicine.medical_specialty, Ct pulmonary angiography, Radiological and Ultrasound Technology, medicine.diagnostic_test, business.industry, Radiation dose, Low dose, chemistry.chemical_element, Iodine, medicine.disease, Pulmonary embolism, Radiation exposure, chemistry, Angiography, Medicine, Radiology, Nuclear Medicine and imaging, Radiology, Radiation protection, Nuclear medicine, business

Abstract

CT pulmonary angiography is the currently accepted standard in ruling out acute pulmonary embolism. Issues of radiation dose received by patients via CT have been extensively disputed by radiologists and reported by the media. In recent years there has been considerable research performed to find ways for reducing radiation exposure from CT. Herein, we will discuss specific measures that have been shown to be valuable for CT pulmonary angiography. The limitations and the potential benefits of reduced CT peak tube kilovoltage will be detailed as this method is capable of reducing both radiation exposure and iodine load to the patient simultaneously. We discuss some of the emerging tools, which will hopefully play a significant role in wider acceptance of low-dose CT pulmonary angiography protocols.

Published

2010

44. Detection of Pancreatic Tumors, Image Quality, and Radiation Dose during the Pancreatic Parenchymal Phase: Effect of a Low-Tube-Voltage, High-Tube-Current CT Technique—Preliminary Results

Author

Huiman X. Barnhart, Rendon C. Nelson, Lisa M. Ho, Sebastian T. Schindera, Terry T. Yoshizumi, Tracy A. Jaffe, Richard S. Youngblood, Daniele Marin, and Ehsan Samei

Subjects

Male, medicine.medical_specialty, Pancreatic disease, Image quality, Pilot Projects, Radiation Dosage, Sensitivity and Specificity, Radiation Protection, Pancreatic tumor, Parenchyma, medicine, Humans, Radiology, Nuclear Medicine and imaging, Pancreas, Aged, Aged, 80 and over, business.industry, Radiation dose, Reproducibility of Results, Middle Aged, medicine.disease, Pancreatic Neoplasms, medicine.anatomical_structure, Body Burden, Ct technique, Female, Radiology, Tomography, Tomography, X-Ray Computed, Nuclear medicine, business

Abstract

To intraindividually compare a low-tube-voltage (80 kVp), high-tube-current (675 mA) computed tomographic (CT) technique with a high-tube-voltage (140 kVp) CT protocol for the detection of pancreatic tumors, image quality, and radiation dose during the pancreatic parenchymal phase.This prospective, single-center, HIPAA-compliant study was approved by the institutional review board, and written informed consent was obtained. Twenty-seven patients (nine men, 18 women; mean age, 64 years) with 23 solitary pancreatic tumors underwent dual-energy CT. Two imaging protocols were used: 140 kVp and 385 mA (protocol A) and 80 kVp and 675 mA (protocol B). For both protocols, the following variables were compared during the pancreatic parenchymal phase: contrast enhancement for the aorta, the pancreas, and the portal vein; pancreas-to-tumor contrast-to-noise ratio (CNR); noise; and effective dose. Two blinded, independent readers qualitatively scored the two data sets for tumor detection and image quality. Random-effect analysis of variance tests were used to compare differences between the two protocols.Compared with protocol A, protocol B yielded significantly higher contrast enhancement for the aorta (508.6 HU vs 221.5 HU, respectively), pancreas (151.2 HU vs 67.0 HU), and portal vein (189.7 HU vs 87.3 HU), along with a greater pancreas-to-tumor CNR (8.1 vs 5.9) (P.001 for all comparisons). No statistically significant difference in tumor detection was observed between the two protocols. Although standard deviation of image noise increased with protocol B (11.5 HU vs 18.6 HU), this protocol significantly reduced the effective dose (from 18.5 to 5.1 mSv; P.001).A low-tube-voltage, high-tube-current CT technique has the potential to improve the enhancement of the pancreas and peripancreatic vasculature, improve tumor conspicuity, and reduce patient radiation dose during the pancreatic parenchymal phase.

Published

2010

45. Focal Cystic High-Attenuation Lesions: Characterization in Renal Phantom by Using Photon-counting Spectral CT—Improved Differentiation of Lesion Composition

Author

Ewald Roessl, Rendon C. Nelson, Elmar M. Merkle, Neil A. Patil, Roland Proksa, Daniel T. Boll, Erik K. Paulson, Jens Peter Schlomka, Thorsten R. Fleiter, Sebastian T. Schindera, and Gerhard Martens

Subjects

Photons, Kidney, Phantoms, Imaging, business.industry, Attenuation, Contrast Media, Kidney Diseases, Cystic, Test object, Kidney cysts, Imaging phantom, Photon counting, Lesion, medicine.anatomical_structure, medicine, Humans, Radiographic Image Interpretation, Computer-Assisted, Regression Analysis, Radiology, Nuclear Medicine and imaging, medicine.symptom, Tomography, X-Ray Computed, Nuclear medicine, business, High attenuation

Abstract

To evaluate the capability of spectral computed tomography (CT) to improve the characterization of cystic high-attenuation lesions in a renal phantom and to test the hypothesis that spectral CT will improve the differentiation of cystic renal lesions with high protein content and those that have undergone hemorrhage or malignant contrast-enhancing transformation.A renal phantom that contained cystic lesions grouped in nonenhancing cyst and hemorrhage series and an iodine-enhancing series was developed. Spectral CT is based on new detector designs that may possess energy-sensitive photon-counting abilities, thereby facilitating the assessment of quantitative information about the elemental and molecular composition of tissue or contrast materials. Imaging of the renal phantom was performed with a prototype scanner at 20 mAs and 70 keV, allowing characterization of x-ray photons at 25-34, 34-39, 39-44, 44-49, 49-55, and more than 55 keV. Region of interest analysis was used to determine lesion attenuation values at various x-ray energies. Statistical analysis was performed to assess attenuation patterns and identify distinct levels of attenuation on the basis of curve regression analysis with analysis of variance tables.Spectral CT depicted linear clusters for the cyst (P.001, R(2)0.940) and hemorrhage (P.001, R(2)0.962) series without spectral overlap. A distinct linear attenuation profile without spectral overlap was also detected for the iodine-enhancing series (P.001, R(2)0.964), with attenuation values attained in the 34-39-keV energy bin statistically identified as outliers (mean slope variation,37%), corresponding with iodine k-edge effects at 33.2 keV.Spectral CT has the potential to enable distinct characterization of hyperattenuating fluids in a renal phantom by helping identify proteinaceous and hemorrhagic lesions through assessment of their distinct levels of attenuation as well as by revealing iodine-containing lesions through analysis of their specific k-edge discontinuities.

Published

2010

46. Low-Tube-Voltage, High-Tube-Current Multidetector Abdominal CT: Improved Image Quality and Decreased Radiation Dose with Adaptive Statistical Iterative Reconstruction Algorithm—Initial Clinical Experience

Author

Samuel Richard, Terry T. Yoshizumi, Rendon C. Nelson, Richard S. Youngblood, Ehsan Samei, Sebastian T. Schindera, and Daniele Marin

Subjects

Male, Radiography, Abdominal, medicine.medical_specialty, Image quality, Radiography, Contrast Media, Iterative reconstruction, Radiation Dosage, Humans, Medicine, Dosimetry, Radiology, Nuclear Medicine and imaging, Tube (fluid conveyance), Prospective Studies, Aged, Analysis of Variance, Phantoms, Imaging, business.industry, Liver Neoplasms, Middle Aged, Iopamidol, Noise, medicine.anatomical_structure, Radiographic Image Interpretation, Computer-Assisted, Abdomen, Female, Tomography, Radiology, Tomography, X-Ray Computed, Nuclear medicine, business, Algorithm, Algorithms

Abstract

To investigate whether an adaptive statistical iterative reconstruction (ASIR) algorithm improves the image quality at low-tube-voltage (80-kVp), high-tube-current (675-mA) multidetector abdominal computed tomography (CT) during the late hepatic arterial phase.This prospective, single-center HIPAA-compliant study was institutional review board approved. Informed patient consent was obtained. Ten patients (six men, four women; mean age, 63 years; age range, 51-77 years) known or suspected to have hypervascular liver tumors underwent dual-energy 64-section multidetector CT. High- and low-tube-voltage CT images were acquired sequentially during the late hepatic arterial phase of contrast enhancement. Standard convolution FBP was used to reconstruct 140-kVp (protocol A) and 80-kVp (protocol B) image sets, and ASIR (protocol C) was used to reconstruct 80-kVp image sets. The mean image noise; contrast-to-noise ratio (CNR) relative to muscle for the aorta, liver, and pancreas; and effective dose with each protocol were assessed. A figure of merit (FOM) was computed to normalize the image noise and CNR for each protocol to effective dose. Repeated-measures analysis of variance with Bonferroni adjustment for multiple comparisons was used to compare differences in mean CNR, image noise, and corresponding FOM among the three protocols. The noise power spectra generated from a custom phantom with each protocol were also compared.When image noise was normalized to effective dose, protocol C, as compared with protocols A (P = .0002) and B (P = .0001), yielded an approximately twofold reduction in noise. When the CNR was normalized to effective dose, protocol C yielded significantly higher CNRs for the aorta, liver, and pancreas than did protocol A (P = .0001 for all comparisons) and a significantly higher CNR for the liver than did protocol B (P = .003). Mean effective doses were 17.5 mSv +/- 0.6 (standard error) with protocol A and 5.1 mSv +/- 0.3 with protocols B and C. Compared with protocols A and B, protocol C yielded a small but quantifiable noise reduction across the entire spectrum of spatial frequencies.Compared with standard FBP reconstruction, an ASIR algorithm improves image quality and has the potential to decrease radiation dose at low-tube-voltage, high-tube-current multidetector abdominal CT during the late hepatic arterial phase.

Published

2010

47. Central Venous Catheter Integrity during Mechanical Power Injection of Iodinated Contrast Medium

Author

Sebastian T. Schindera, Laurens E. Howle, Douglas B. Macha, John W. Hollingsworth, and Rendon C. Nelson

Subjects

Catheterization, Central Venous, medicine.medical_specialty, medicine.medical_treatment, Contrast Media, Statistics, Nonparametric, Catheters, Indwelling, Iodinated contrast, X ray computed, Pressure, Humans, Medicine, Radiology, Nuclear Medicine and imaging, Rupture, Equipment Safety, business.industry, Catheter, Equipment failure, Injections, Intravenous, Safety Equipment, Equipment Failure, Radiology, Rheology, Tomography, X-Ray Computed, business, Nuclear medicine, Central venous catheter

Abstract

To evaluate a widely used nontunneled triple-lumen central venous catheter in order to determine whether the largest of the three lumina (16 gauge) can tolerate high flow rates, such as those required for computed tomographic angiography.Forty-two catheters were tested in vitro, including 10 new and 32 used catheters (median indwelling time, 5 days). Injection pressures were continuously monitored at the site of the 16-gauge central venous catheter hub. Catheters were injected with 300 and 370 mg of iodine per milliliter of iopamidol by using a mechanical injector at increasing flow rates until the catheter failed. The infusion rate, hub pressure, and location were documented for each failure event. The catheter pressures generated during hand injection by five operators were also analyzed. Mean flow rates and pressures at failure were compared by means of two-tailed Student t test, with differences considered significant at P.05.Injections of iopamidol with 370 mg of iodine per milliliter generate more pressure than injections of iopamidol with 300 mg of iodine per milliliter at the same injection rate. All catheters failed in the tubing external to the patient. The lowest flow rate at which catheter failure occurred was 9 mL/sec. The lowest hub pressure at failure was 262 pounds per square inch gauge (psig) for new and 213 psig for used catheters. Hand injection of iopamidol with 300 mg of iodine per milliliter generated peak hub pressures ranging from 35 to 72 psig, corresponding to flow rates ranging from 2.5 to 5.0 mL/sec.Indwelling use has an effect on catheter material property, but even for used catheters there is a substantial safety margin for power injection with the particular triple-lumen central venous catheter tested in this study, as the manufacturer's recommendation for maximum pressure is 15 psig.

Published

2009

48. Dual Energy Versus Single Energy MDCT: Measurement of Radiation Dose Using Adult Abdominal Imaging Protocols

Author

Greta Toncheva, Rendon C. Nelson, Lynne M. Hurwitz, Sebastian T. Schindera, Daniele Marin, Lisa M. Ho, and Terry T. Yoshizumi

Subjects

Adult, Radiography, Abdominal, medicine.medical_specialty, Scanner, Radiography, Radiation, Radiation Dosage, Effective dose (radiation), Precontrast, Relative biological effectiveness, medicine, Humans, Radiology, Nuclear Medicine and imaging, Radiometry, Phantoms, Imaging, business.industry, Digital Enhanced Cordless Telecommunications, Viscera, Body Burden, Female, Tomography, Radiology, Tomography, X-Ray Computed, Nuclear medicine, business, Relative Biological Effectiveness

Abstract

RATIONALE AND OBJECTIVES: The aim of this study was to measure the radiation dose of dual-energy and single-energy multidetector computed tomographic (CT) imaging using adult liver, renal, and aortic imaging protocols. MATERIALS AND METHODS: Dual-energy CT (DECT) imaging was performed on a conventional 64-detector CT scanner using a software upgrade (Volume Dual Energy) at tube voltages of 140 and 80 kVp (with tube currents of 385 and 675 mA, respectively), with a 0.8-second gantry revolution time in axial mode. Parameters for single-energy CT (SECT) imaging were a tube voltage of 140 kVp, a tube current of 385 mA, a 0.5-second gantry revolution time, helical mode, and pitch of 1.375:1. The volume CT dose index (CTDI(vol)) value displayed on the console for each scan was recorded. Organ doses were measured using metal oxide semiconductor field-effect transistor technology. Effective dose was calculated as the sum of 20 organ doses multiplied by a weighting factor found in International Commission on Radiological Protection Publication 60. Radiation dose saving with virtual noncontrast imaging reconstruction was also determined. RESULTS: The CTDI(vol) values were 49.4 mGy for DECT imaging and 16.2 mGy for SECT imaging. Effective dose ranged from 22.5 to 36.4 mSv for DECT imaging and from 9.4 to 13.8 mSv for SECT imaging. Virtual noncontrast imaging reconstruction reduced the total effective dose of multiphase DECT imaging by 19% to 28%. CONCLUSION: Using the current Volume Dual Energy software, radiation doses with DECT imaging were higher than those with SECT imaging. Substantial radiation dose savings are possible with DECT imaging if virtual noncontrast imaging reconstruction replaces precontrast imaging.

Published

2009

49. Lipid-Poor Adenomas on Unenhanced CT: Does Histogram Analysis Increase Sensitivity Compared with a Mean Attenuation Threshold?

Author

Sebastian T. Schindera, Erik K. Paulson, Terence Z. Wong, Matthew J. Brady, and Lisa M. Ho

Subjects

Adenoma, Adult, Male, medicine.medical_specialty, Adrenal Gland Neoplasms, Ct attenuation, Sensitivity and Specificity, Histogram, Humans, Medicine, Adrenal adenoma, Radiology, Nuclear Medicine and imaging, Lung cancer, Aged, Aged, 80 and over, business.industry, Attenuation, Reproducibility of Results, General Medicine, Middle Aged, medicine.disease, Lipids, Radiographic Image Enhancement, Radiographic Image Interpretation, Computer-Assisted, Female, Radiology, Tomography, X-Ray Computed, business, Nuclear medicine, Algorithms

Abstract

The purpose of our study was to evaluate the efficacy of CT histogram analysis for further characterization of lipid-poor adenomas on unenhanced CT.One hundred thirty-two adrenal nodules were identified in 104 patients with lung cancer who underwent PET/CT. Sixty-five nodules were classified as lipid-rich adenomas if they had an unenhanced CT attenuation of less than or equal to 10 H. Thirty-one masses were classified as lipid-poor adenomas if they had an unenhanced CT attenuation greater than 10 H and stability for more than 1 year. Thirty-six masses were classified as lung cancer metastases if they showed rapid growth in 1 year (n = 27) or were biopsy-proven (n = 9). Histogram analysis was performed for all lesions to provide the mean attenuation value and percentage of negative pixels.All lipid-rich adenomas had more than 10% negative pixels; 51.6% of lipid-poor adenomas had more than 10% negative pixels and would have been classified as indeterminate nodules on the basis of mean attenuation alone. None of the metastases had more than 10% negative pixels. Using an unenhanced CT mean attenuation threshold of less than 10 H yielded a sensitivity of 68% and specificity of 100% for the diagnosis of an adenoma. Using an unenhanced CT threshold of more than 10% negative pixels yielded a sensitivity of 84% and specificity of 100% for the diagnosis of an adenoma.CT histogram analysis is superior to mean CT attenuation analysis for the evaluation of adrenal nodules and may help decrease referrals for additional imaging or biopsy.

Published

2008

50. Effect of Echo Time Pair Selection on Quantitative Analysis for Adrenal Tumor Characterization with In-Phase and Opposed-Phase MR Imaging: Initial Experience

Author

David M. DeLong, Sebastian T. Schindera, Brian J. Soher, Brian M. Dale, and Elmar M. Merkle

Subjects

Adenoma, Adult, Male, medicine.medical_specialty, Adrenal Gland Neoplasms, Sensitivity and Specificity, Imaging phantom, Image Interpretation, Computer-Assisted, medicine, Humans, Adrenocortical carcinoma, Radiology, Nuclear Medicine and imaging, Adrenal tumors, Aged, Aged, 80 and over, medicine.diagnostic_test, Echo-Planar Imaging, business.industry, Echo time, Echo (computing), Reproducibility of Results, Magnetic resonance imaging, Mean age, Middle Aged, Image Enhancement, medicine.disease, Mr imaging, Female, Radiology, business, Nuclear medicine

Abstract

To determine the effect of two pairs of echo times (TEs) for in-phase (IP) and opposed-phase (OP) 3.0-T magnetic resonance (MR) imaging on (a) quantitative analysis prospectively in a phantom study and (b) diagnostic accuracy retrospectively in a clinical study of adrenal tumors, with use of various reference standards in the clinical study.A fat-saline phantom was used to perform IP and OP 3.0-T MR imaging for various fat fractions. The institutional review board approved this HIPAA-compliant study, with waiver of informed consent. Single-breath-hold IP and OP 3.0-T MR images in 21 patients (14 women, seven men; mean age, 63 years) with 23 adrenal tumors (16 adenomas, six metastases, one adrenocortical carcinoma) were reviewed. The MR protocol involved two acquisition schemes: In scheme A, the first OP echo (approximately 1.5-msec TE) and the second IP echo (approximately 4.9-msec TE) were acquired. In scheme B, the first IP echo (approximately 2.4-msec TE) and the third OP echo (approximately 5.8-msec TE) were acquired. Quantitative analysis was performed, and analysis of variance was used to test for differences between adenomas and nonadenomas.In the phantom study, scheme B did not enable discrimination among voxels that had small amounts of fat. In the clinical study, no overlap in signal intensity (SI) index values between adenomas and nonadenomas was seen (P.05) with scheme A. However, with scheme B, no overlap in the adrenal gland SI-to-liver SI ratio between adenomas and nonadenomas was seen (P.05). With scheme B, no overlap in adrenal gland SI index-to-liver SI index ratio between adenomas and nonadenomas was seen (P.05).This initial experience indicates SI index is the most reliable parameter for characterization of adrenal tumors with 3.0-T MR imaging when obtaining OP echo before IP echo. When acquiring IP echo before OP echo, however, nonadenomas can be mistaken as adenomas with use of the SI index value.

Published

2008