Your search keyword '"Extended field of view"' showing total 173 results

1. Clinical value of whole body 18F-FDG PET/CT imaging in patients with cutaneous melanoma: A multi-center cohort study.

Author

Bower, Nichole, Morris, Amy, O'Connor, Janet, Sponagle, Melissa, Bahr, Rebekah, Gilbert, Robert, Mohamed, Abdolell, and Bower, Jonathan

Subjects

RADIOPHARMACEUTICALS, DEOXY sugars, POSITRON emission tomography computed tomography, LONGITUDINAL method, RESEARCH, CUTANEOUS malignant melanoma

Abstract

Copyright of Journal of Medical Imaging & Radiation Sciences is the property of Elsevier B.V. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. The 2-Point Method: A Quick, Accurate, and Repeatable Approach to Estimate Ultrasound-Derived Quadriceps Femoris Cross-Sectional Area.

Author

Hernández-Belmonte, Alejandro, Martínez-Cava, Alejandro, and Pallarés, Jesús G.

Subjects

ULTRASONIC imaging, ANALYSIS of variance, CROSS-sectional method, MAGNETIC resonance imaging, REGRESSION analysis, T-test (Statistics), QUADRICEPS muscle, DESCRIPTIVE statistics, REPEATED measures design, DATA analysis software

Abstract

Purpose: To analyze the feasibility of the 2-point method for estimating ultrasound-derived quadriceps femoris cross-sectional area (QUADACSA). First, (1) the agreement between QUADACSA measured by panoramic ultrasound and magnetic resonance imaging (MRI) was studied, and thereafter, we examined 2 approaches of the 2-point method in terms of (2) estimation errors and (3) test–retest repeatability. Methods: Both thighs of 16 young men were analyzed. Ultrasound-QUADACSA versus MRI-QUADACSA comparison was conducted at 6 thigh lengths (20%–70% of the thigh length). Thereafter, ultrasound-QUADACSA corresponding to 30% and 60% (2-point30%–60%) or 20% and 70% (2-point20%–70%) were used to estimate QUADACSA of the remaining regions. Estimated QUADACSA resulting from both 2-point approaches was compared with the measured one. Finally, the test–retest repeatability was examined by comparing the errors generated on 2 separate estimations. Statistics included the standard error of measurement (SEM) expressed in absolute (in square centimeters) and relative terms (in percentage) as a coefficient of variation (CV), as well as the intraclass correlation cofficient (ICC) and bias. Results: An excellent agreement (ICC ≥ 0.980) and reduced errors (SEM ≤ 2.43 cm2) resulted from the ultrasound-QUADACSA versus MRI-QUADACSA comparison. Although estimation errors found were reduced (CV ≤ 7.50%), they proved to be lower and less biased for the 2-point30%–60%, especially at the central regions (SEM ≤ 2.01 cm2; bias ≤ 0.89 cm2). Similarly, repeatability analysis revealed lower test–retest errors for the 2-point30%–60% (CV ≤ 1.9%) than for the 2-point20%–70% (CV ≤ 4.6%). Conclusion: The 2-point method, especially that implemented using the 30% and 60% regions, represents an accurate and repeatable strategy to evaluate QUADACSA. [ABSTRACT FROM AUTHOR]

Published

2022

3. So, you want to get into 'total-body' PET/CT scanning? An installation guide for beginners!

Author

Rodney J. Hicks

Subjects

Positron emission tomography, PET, Extended field of view, Total-body PET/CT, Precision medicine, Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract “Total-body” and ultra-extended field-of-view PET/CT scanners are now available commercially with great enthusiasm for their potential in both streamlining clinical practice and providing unique research opportunities. Accordingly, many groups are rushing to implement this technology. For early adopters, the challenges of these systems compared with more standard PET/CT systems have been significant. In this guide, aspects that need to be considered in planning installation of one of these scanners are discussed. These include financing, space, structural engineering, power supply, chilled water and environmental controls to manage heat loads, IT infrastructure and data storage, radiation safety and radiopharmaceutical procurement, staffing levels, patient handling logistics and imaging protocol redesign to leverage the superior sensitivity of these scanners, and marketing. It is a daunting but worthwhile endeavor in the author’s opinion but needs a great team and the ability to bring in the appropriate expertise at the appropriate time.

Published

2023

4. Cone‐beam CT imaging with laterally enlarged field of view based on independently movable source and detector.

Author

Karius, Andre, Szkitsak, Juliane, Strnad, Vratislav, Fietkau, Rainer, and Bert, Christoph

Subjects

*CONE beam computed tomography, *COMPUTED tomography, *DETECTORS, *NOISE control, *IMAGE reconstruction algorithms, *SPATIAL resolution

Abstract

Background: CBCT imaging with field of views (FOVs) exceeding the size of scans acquired in the conventional imaging geometry, i.e. with opposing source and detector, is of high clinical importance for many medical fields. A novel approach for enlarged FOV scanning with one full‐scan (EnFOV360) or two short‐scans (EnFOV180) using an O‐arm system arises from non‐isocentric imaging based on independent source and detector rotations. Purpose: The presentation, description, and experimental validation of this novel approach and the novel scanning techniques EnFOV360 and EnFOV180 for an O‐arm system forms the scope of this work. Methods: We describe the EnFOV360, EnFOV180, and non‐isocentric imaging techniques for the acquisition of laterally extended FOVs. For their experimental validation, scans of dedicated quality assurance as well as anthropomorphic phantoms were acquired, with the phantoms being placed both within the tomographic plane and at the longitudinal FOV border with and without lateral shifts from the gantry center. Based on this, geometric accuracy, contrast‐noise‐ratio (CNR) of different materials, spatial resolution, noise characteristics, as well as CT number profiles were quantitatively assessed. Results were compared to scans performed with the conventional imaging geometry. Results: With EnFOV360 and EnFOV180, we increased the in‐plane size of acquired FOVs from 250 × 250 mm2 obtained for the conventional imaging geometry to up to 400 × 400 mm2 for the performed measurements. Geometric accuracy was very high for all scanning techniques with mean values ≤0.21 ± 0.11 mm. CNR and spatial resolution were comparable between isocentric and non‐isocentric full‐scans as well as EnFOV360, whereas substantial image quality deteriorations in this respect were observed for EnFOV180. Image noise in the isocenter was lowest for conventional full‐scans with 13.4 ± 0.2 HU. For laterally shifted phantom positions, noise increased for conventional scans and EnFOV360, whereas noise reductions were observed for EnFOV180. Considering the anthropomorphic phantom scans, both EnFOV360 and EnFOV180 were comparable to conventional full‐scans. Conclusion: Both enlarged FOV techniques have high potential for imaging laterally extended FOVs. EnFOV360 revealed an image quality comparable to conventional full‐scans in general. EnFOV180 showed an inferior performance particularly regarding CNR and spatial resolution. [ABSTRACT FROM AUTHOR]

Published

2023

5. Expanding accessible 3D sample size in lab-based X-ray nanotomography without compromising resolution.

Author

Englisch, Silvan, Wirth, Janis, Drobek, Dominik, Apeleo Zubiri, Benjamin, and Spiecker, Erdmann

Subjects

*X-rays, *SAMPLE size (Statistics), *THREE-dimensional imaging, *POROUS materials, *SPATIAL resolution

Abstract

State-of-the-art lab-based X-ray nanotomography enables versatile and well-accessible three-dimensional imaging of samples with spatial resolutions comparable to synchrotron setups. By its nature, the technique brings a trade-off between high spatial resolution and accessible sample volume. A so-called 'stitching approach' can overcome this challenge by extending the accessible three-dimensional volume without compromising spatial resolution and is demonstrated in a state-of-the-art lab-based X-ray microscope on two porous, low-Z material systems: macroporous zeolite particles and supported catalytically active metal solutions. Fourier ring and shell correlation are utilized to calculate the achievable two- and three-dimensional resolution of the X-ray microscope and the tomographic reconstructions, respectively. The excellent performance of the stitching approach is evaluated by comparing three-dimensional reconstructions of identical sample volumes obtained with and without stitching at different magnifications. The influence of illumination time, depth of field and number of projections are investigated by comparing the spatial resolution of the experiments with theoretical resolution limits. [Display omitted] • Methods to extend 3D sample size without compromising resolution for lab-based CT. • Stitching approach applied on porous & low-Z materials in Zernike phase-contrast. • Qualitative comparison of low- and high-res 3D reconstructions of same volume. • Quantitative 2D & 3D resolution analysis using Fourier ring & shell correlation. • 3D resolution in enlarged reconstructions in high-res mode is maintained. [ABSTRACT FROM AUTHOR]

Published

2023

6. Reliability of Muscle Quantity and Quality Measured With Extended-Field-of-View Ultrasound at Nine Body Sites.

Author

Van den Broeck, Jona, Héréus, Savanah, Cattrysse, Erik, Raeymaekers, Hubert, De Maeseneer, Michel, and Scafoglieri, Aldo

Subjects

*MEASUREMENT errors, *ULTRASONIC imaging, *BICEPS femoris, *TRICEPS, *INTRACLASS correlation, *LEG muscles, *RECTUS femoris muscles

Abstract

Measuring muscle quantity and quality is very important because the loss of muscle quantity and quality is associated with several adverse effects specifically in older people. Ultrasound is a method widely used to measure muscle quantity and quality. One problem with ultrasound is its limited field of view, which makes it impossible to measure the muscle quantity and quality of certain muscles. In this study, we aimed to evaluate the intra- and inter-rater reliability of extended-field-of-view (EFOV) ultrasound for the measurement of muscle quantity and quality in nine muscles of the limbs and trunk. Two examiners took two ultrasound EFOV images with a linear probe from each of the muscle sites. The intraclass correlation coefficient (ICC) was used, and the standard error of measurement and coefficient of variation were calculated. Intra-rater reliability was good to excellent (ICC = 0.2–1.00) for all muscle measurements. The inter-rater reliability for most of the muscle measurements was good to excellent (ICC = 0.82–0.98). Inter-rater reliability was moderate (0.58–0.72) for some muscle quantity measurements of the tibialis anterior, gastrocnemius, rectus femoris, biceps femoris and triceps brachii muscles. Muscle quantity and quality can be measured reliably using EFOV US. [ABSTRACT FROM AUTHOR]

Published

2023

7. Will extended field-of-view PET/CT depopulate the graveyard of failed PET radiopharmaceuticals?

Author

E. F. J. de Vries, P. H. Elsinga, and C. Tsoumpas

Subjects

PET-radiopharmaceutical, Extended field of view, PET-camera, Sensitivity, Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract With the rapid emergence of extended Field-of-View PET-cameras several new applications for radiopharmaceuticals become within reach. Main reason is the significant increase of the sensitivity of the PET-camera so that much less radioactivity can be administered. Issues that that hampered development or use of PET-radiopharmaceuticals become realistic again. Molar activity requirements can become less strict. New low-yielding radiochemistry methods may become applicable. Carbon-11 labelled compounds can revive and potentially be shipped to nearby PET-facilities. PET-radiopharmaceuticals with slow kinetics in comparison to their half life can still be used. As additional infrastructure and equipment will likely remain unchanged and keep the same sensitivity therefore there will be issues with kinetic modelling requiring analysis of plasma or metabolites samples with lower count rate. Besides the potential revival of failed radiopharmaceuticals, novel challenges are ahead to develop novel radiochemistry based on thus far unsuitable (low yielding or time consuming) reactions.

Published

2022

8. So, you want to get into “total-body” PET/CT scanning? An installation guide for beginners!

Author

Hicks, Rodney J.

Published

2023

9. Pectoralis Cross-Sectional Area can be Accurately Measured using Panoramic Ultrasound: A Validity and Repeatability Study.

Author

Hernández-Belmonte, Alejandro, Martínez-Cava, Alejandro, and Pallarés, Jesús G.

Subjects

*STATISTICAL reliability, *ULTRASONIC imaging, *MEASUREMENT errors, *IMAGE analysis, *MAGNETIC resonance imaging, *PANORAMIC radiography, *PECTORALIS muscle, *ANIMALS, RESEARCH evaluation

Abstract

The objective of the current study was to examine the validity and repeatability of panoramic ultrasound in evaluating the anatomical cross-sectional area (ACSA) of the pectoralis major. Specifically, we aimed to quantify the measurement errors generated during the image acquisition and analysis (repeatability), as well as when comparing with magnetic resonance imaging (MRI) (validity). Moreover, we aimed to analyze the influence of the operator's experience on these measurement errors. Both sides of the chest of 16 participants (n = 32) were included. Errors made by two operators (trained and novice) when measuring pectoralis major ACSA (50% of sternum-areola mammae distance) were examined. Acquisition errors included the comparison of two images acquired 5 min apart. Acquisition 1 was analyzed twice to quantify analysis errors. Thereafter, acquisition 1 was compared with MRI. Statistics include the standard error of measurement (SEM), expressed in absolute (cm2) and relative (%) terms as a coefficient of variation (CV), and the calculation of systematic bias. Errors made by the trained operator were lower than those made by the novice, especially during the image acquisition (SEM = 0.25 vs. 0.66 cm2, CV = 1.06 vs. 2.98%) and when compared with MRI (SEM = 0.27 vs. 1.90 cm2, CV = 1.13 vs. 8.16%). Furthermore, although both operators underestimated the ACSA, magnitude and variability [SD] of these errors were lower for the trained operator (bias = -0.19 [0.34] cm2) than for the novice (bias = -1.97 [2.59] cm2). Panoramic ultrasound is a valid and repeatable technique for measuring pectoralis major ACSA, especially when implemented by a trained operator. [ABSTRACT FROM AUTHOR]

Published

2022

10. Clinical value of whole body 18 F-FDG PET/CT imaging in patients with cutaneous melanoma: A multi-center cohort study.

Author

Bower N, Morris A, O'Connor J, Sponagle M, Bahr R, Gilbert R, Mohamed A, and Bower J

Subjects

Humans, Female, Male, Retrospective Studies, Middle Aged, Aged, Whole Body Imaging methods, Adult, Melanoma, Cutaneous Malignant, Aged, 80 and over, Lower Extremity diagnostic imaging, Neoplasm Staging, Melanoma diagnostic imaging, Fluorodeoxyglucose F18, Positron Emission Tomography Computed Tomography methods, Skin Neoplasms diagnostic imaging, Skin Neoplasms pathology, Radiopharmaceuticals

Abstract

Background: 18 F-FDG-PET/CT is a valuable tool in the staging and surveillance of cutaneous melanoma; however, recent studies prompt debate on the clinical significance of imaging patients below the lesser trochanter. This study explored two research questions. In patients with a known primary cutaneous melanoma within the standard field of view (SFOV, between the orbits and lesser trochanter), what is the prevalence of metastasis to sites solely within the lower extremities? and, In patients with a known primary cutaneous melanoma within the SFOV what demographic and clinical factors are associated with sole metastasis to the lower extremities?, Methods: A retrospective, multi-centered, observational study of consecutive case reports was conducted. Subjects included 619 patients who underwent extended field of view (EFOV) 18 F-FDG-PET/CT (from vertex to toes) for staging and/or follow-up of cutaneous melanoma. Data was collected at three primary healthcare centers in Canada (Nova Scotia, Alberta, and British Columbia). Inclusion criteria were patients >18 years of age, confirmed primary cutaneous melanoma, and a known location of the primary within the SFOV. Patients with primary cutaneous melanoma lesions in lower extremities and previous other cancers were excluded. To determine the prevalence of lesions located below the lesser trochanter, the proportion of such lesions were computed, and 95% confidence intervals ensured a precise estimation of the proportion., Results: 2512 patient charts were reviewed with 619 meeting the inclusion criteria, 298 of these were females. Six percent had metastases in both the lower extremities and sites within the SFOV. The number of subjects who had no metastasis within their SFOV was 361 (58.3%). The number of subjects who presented with confirmed metastasis in the lower extremities without concurrent metastasis in the SFOV region was one (0.58%). Despite a large initial study sample, the number of patients with metastasis in the lower extremities was insufficient to allow correlation of factors associated with risk of spread to the lower extremities., Conclusion: Lower extremity 18 F-FDG-PET/CT provided additional, relevant clinical data in a sole patient. This finding supports prior research suggesting the prevalence is rare. Future studies should seek to define demographic and clinical factors that predict such rare occurrences, where follow up would be warranted. This study highlights feasibility challenges associated with such investigation., (Copyright © 2024. Published by Elsevier Inc.)

Published

2024

11. Changes in Biceps Femoris Long Head Fascicle Length after 10-d Bed Rest Assessed with Different Ultrasound Methods.

Author

SARTO, FABIO, MONTI, ELENA, ŠIMUNIČ, BOŠTJAN, PIŠOT, RADO, NARICI, MARCO V., and FRANCHI, MARTINO V.

Subjects

*SPORTS injury prevention, *ULTRASONIC imaging, *BED rest, *HEALTH status indicators, *HAMSTRING muscle, *DESCRIPTIVE statistics

Abstract

Purpose: This study aimed to investigate the changes in fascicle length (Lf) of biceps femoris long head (BFlh) after 10 d of bed rest (BR) by comparing four different ultrasound (US) methods. Methods: Ten healthy men participated in 10-d BR. Before (BR0) and after (BR10) the BR period, BFlh Lf values were obtained using 1) extended-field-of-view (EFOV) technique, 2) the manual linear extrapolation (MLE) method, and 3) two trigonometric equations (equations A and B) from a single US image. Results: After BR10, decreased Lf values were observed by EFOV(P < 0.001; Hedges' g = 0.29) and MLE (P = 0.0082; g = 0.22) methods, but not with equations A and B. Differences between equation A and the other US methods were detected at both time points. The percentage of changes in Lf between BR0 and BR10 was influenced by the US methods applied, with difference detected between the changes measured by EFOVand the ones estimated by equation A (P = 0.04; g = 0.53). Bland--Altman analyses revealed relevant average absolute biases in Lf between EFOV and other methods at both time points (range BR0--BR10: MLE, 0.3-0.37 cm (3.4%-4.32%); equation B, 0.3-0.48 cm (3.24%-5.41%); equation A, 2.44-2.97 cm (24.05%-29.2%)). A significant correlation (r = 0.83) in percentage of change in Lf values was observed only between EFOV and MLE. Conclusions: We showed that four distinct US methods lead to different results in the assessment of BFlh Lf changes after a short-term period of unloading. The implementation of EFOV technique (or alternatively MLE) to assess Lf changes in BFlh during longitudinal studies is warranted. [ABSTRACT FROM AUTHOR]

Published

2021

12. Evaluation of novel AI‐based extended field‐of‐view CT reconstructions.

Author

Fonseca, Gabriel Paiva, Baer‐Beck, Matthias, Fournie, Eric, Hofmann, Christian, Rinaldi, Ilaria, Ollers, Michel C, Elmpt, Wouter J.C., and Verhaegen, Frank

Subjects

*COMPUTED tomography, *DEEP learning, *ALGORITHMS, *PHYSICIANS, *IMAGE reconstruction, *IMAGING phantoms, *FLUOROSCOPY, *SCANNING systems

Abstract

Purpose: Modern computed tomography (CT) scanners have an extended field‐of‐view (eFoV) for reconstructing images up to the bore size, which is relevant for patients with higher BMI or non‐isocentric positioning due to fixation devices. However, the accuracy of the image reconstruction in eFoV is not well known since truncated data are used. This study introduces a new deep learning‐based algorithm for extended field‐of‐view reconstruction and evaluates the accuracy of the eFoV reconstruction focusing on aspects relevant for radiotherapy. Methods: A life‐size three‐dimensional (3D) printed thorax phantom, based on a patient CT for which eFoV was necessary, was manufactured and used as reference. The phantom has holes allowing the placement of tissue mimicking inserts used to evaluate the Hounsfield unit (HU) accuracy. CT images of the phantom were acquired using different configurations aiming to evaluate geometric and HU accuracy in the eFoV. Image reconstruction was performed using a state‐of‐the‐art reconstruction algorithm (HDFoV), commercially available, and the novel deep learning‐based approach (HDeepFoV). Five patient cases were selected to evaluate the performance of both algorithms on patient data. There is no ground truth for patients so the reconstructions were qualitatively evaluated by five physicians and five medical physicists. Results: The phantom geometry reconstructed with HDFoV showed boundary deviations from 1.0 to 2.5 cm depending on the volume of the phantom outside the regular scan field of view. HDeepFoV showed a superior performance regardless of the volume of the phantom within eFOV with a maximum boundary deviation below 1.0 cm. The maximum HU (absolute) difference for soft issue inserts is below 79 and 41 HU for HDFoV and HDeepFoV, respectively. HDeepFoV has a maximum deviation of −18 HU for an inhaled lung insert while HDFoV reached a 229 HU difference. The qualitative evaluation of patient cases shows that the novel deep learning approach produces images that look more realistic and have fewer artifacts. Conclusion: To be able to reconstruct images outside the sFoV of the CT scanner there is no alternative than to use some kind of extrapolated data. In our study, we proposed and investigated a new deep learning‐based algorithm and compared it to a commercial solution for eFoV reconstruction. The deep learning‐based algorithm showed superior performance in quantitative evaluations based on phantom data and in qualitative assessments of patient data. [ABSTRACT FROM AUTHOR]

Published

2021

13. Stitching of 3D ultrasound datasets for the determination of large thyroid volumes - phantom study part II: mechanically-swept probes.

Author

Seifert, Philipp, Winkens, Thomas, Knichel, Leonard, Kühnel, Christian, Freesmeyer, Martin, and Kühnel, Chirstian

Subjects

*PEARSON correlation (Statistics), *VOLUMETRIC analysis, *STATISTICAL correlation

Abstract

Aims: To investigate the feasibility and accuracy of 3D-US extended field of view volumetric analyses acquired with mechanically-swept ultrasound probes with different measurement methods for large volume thyroid phantoms.Materials and Methods: Fifteen thyroid phantoms with different shapes (regular, nodular, thickened isthmus) and volumes (50-400 mL) were created. Two different mechanically-swept US probes were used for the separate scanning of the left and right lobes: convex and linear probe. After specific modifications, the 3D-US datasets were stitched together to an extended field of view using predefined landmarks. Volumetric analyses were performed by conventional ellipsoid model and manual tracing methods. The correspondence of measured and reference volumes was calculated using Pearson's correlation coefficients and limits of agreement according to Bland and Altman.Results: The C-probe proved feasible for the acquisition and processing of the three-dimensional ultrasound extended field of view images; very high levels of agreement (correlation coefficients for volume analyses: 0.9843-0.9992) were observed for all shapes and volumes investigated. The manual tracing method showed superior results in comparison to the ellipsoid model, but was more time consuming. The linear probe was only applicable for the 50 mL phantoms due to its limited field of view.Conclusions: The investigated mechanically-swept convex probe was suitable for the three-dimensional ultrasound extended field of view stitching of large volume thyroid phantoms. Accurate volume analyses could be carried out. The mechanically-swept linear probe is limited to a maximum of 50 m. [ABSTRACT FROM AUTHOR]

Published

2019

14. Holographic cameras for active 3D data capture

Author

Józwik, Michał, Żak, Jakub, Kujawińska, Małgorzata, Kacprzyk, Janusz, Series editor, Pal, Nikhil R., Advisory editor, Bello Perez, Rafael, Advisory editor, Corchado, Emilio S., Advisory editor, Hagras, Hani, Advisory editor, Kóczy, László T., Advisory editor, Kreinovich, Vladik, Advisory editor, Lin, Chin-Teng, Advisory editor, Lu, Jie, Advisory editor, Melin, Patricia, Advisory editor, Nedjah, Nadia, Advisory editor, Nguyen, Ngoc Thanh, Advisory editor, Wang, Jun, Advisory editor, Jabłoński, Ryszard, editor, and Brezina, Tomas, editor

Published

2016

15. Will extended field-of-view PET/CT depopulate the graveyard of failed PET radiopharmaceuticals?

Author

de Vries, E. F. J., Elsinga, P. H., and Tsoumpas, C.

Published

2022

16. The Influence of Sonographer Experience on Skeletal Muscle Image Acquisition and Analysis

Author

Joshua C. Carr, Gena R. Gerstner, Caleb C. Voskuil, Joel E. Harden, Dustin Dunnick, Kristin M. Badillo, Jason I. Pagan, Kylie K. Harmon, Ryan M. Girts, Jonathan P. Beausejour, and Matt S. Stock

Subjects

ultrasonography, extended field of view, muscle size, muscle quality, Diseases of the musculoskeletal system, RC925-935

Abstract

The amount of experience with ultrasonography may influence measurement outcomes while images are acquired or analyzed. The purpose of this study was to identify the interrater reliability of ultrasound image acquisition and image analysis between experienced and novice sonographers and image analysts, respectively. Following a brief hands-on training session (2 h), the experienced and novice sonographers and analysts independently performed image acquisition and analyses on the biceps brachii, vastus lateralis, and medial gastrocnemius in a sample of healthy participants (n = 17). Test–retest reliability statistics were computed for muscle thickness (transverse and sagittal planes), muscle cross-sectional area, echo intensity and subcutaneous adipose tissue thickness. The results show that image analysis experience generally has a greater impact on measurement outcomes than image acquisition experience. Interrater reliability for measurements of muscle size during image acquisition was generally good–excellent (ICC2,1: 0.82–0.98), but poor–moderate for echo intensity (ICC2,1: 0.43–0.77). For image analyses, interrater reliability for measurements of muscle size for the vastus lateralis and biceps brachii was poor–moderate (ICC2,1: 0.48–0.70), but excellent for echo intensity (ICC2,1: 0.90–0.98). Our findings have important implications for laboratories and clinics where members possess varying levels of ultrasound experience.

Published

2021

17. Extended field of view magnetic resonance imaging for suspected osteomyelitis in very young children: is it useful?

Author

Lindsay, Aaron J., Delgado, Jorge, Jaramillo, Diego, and Chauvin, Nancy A.

Subjects

*MAGNETIC resonance imaging, *MAGNETIC fields, *OSTEOMYELITIS, *CHANGE management, *DIAGNOSTIC imaging, *FOOT orthoses, *DIFFERENTIAL diagnosis, *RETROSPECTIVE studies

Abstract

Background: Osteomyelitis is a challenging diagnosis for clinicians, particularly in very young children. At our institution, the magnetic resonance imaging (MRI) protocol in suspected osteomyelitis for children 5 years of age or younger includes a large field of imaging regardless of the clinical site of concern.Objective: To determine if extended field of view (FOV) MRI contributes important information in young children with suspected osteomyelitis.Materials and Methods: A retrospective study was performed including children 5 years of age or younger with suspected osteomyelitis from January 2011 to September 2015. All children underwent coronal fluid-sensitive MRI from neck to feet. Focused imaging was performed as necessary on abnormal sites depicted on survey imaging. Two radiologists reviewed the imaging findings, which were compared to the clinical outcome.Results: We studied 51 children with a mean age of 2.2 years (range: 21 days-5.5 years); 53% were boys. Osteomyelitis was depicted by MRI in 20 subjects (39.2%). Survey coronal fluid-sensitive imaging was accomplished by adding a single fluid-sensitive series in 1 child, 2 series in 31 children, 3 series in 16 children and 4 series in 3 children. Survey imaging added a median total time of 6:51 min to the examination (range: 2.29-20.54 min). Extended FOV imaging added important information in 11/51 subjects (21.6%), in 6 cases (11.8%) of infection and in 5 cases (9.8%) by suggesting alternative diagnoses.Conclusion: The addition of extended FOV MRI in young children with suspected osteomyelitis added important clinical information in 21.6% of patients while only adding a median of 6:51 min to the examination. It is our experience that in children ≤5 years of age with suspected osteomyelitis, extended FOV imaging adds important information and may result in changes in management. [ABSTRACT FROM AUTHOR]

Published

2019

18. Evaluating the impact of extended field‐of‐view CT reconstructions on CT values and dosimetric accuracy for radiation therapy.

Author

Cheung, Joey P., Shugard, Erin, Mistry, Nilesh, Pouliot, Jean, and Chen, Josephine

Subjects

*CANCER diagnosis, *IMAGE reconstruction, *COMPUTED tomography, *RADIATION dosimetry, *CANCER treatment

Abstract

Purpose: Wide bore CT scanners use extended field‐of‐view (eFOV) reconstruction algorithms to attempt to recreate tissue truncated due to large patient habitus. Radiation therapy planning systems rely on accurate CT numbers in order to correctly plan and calculate radiation dose. This study looks at the impact of eFOV reconstructions on CT numbers and radiation dose calculations in real patient geometries. Methods: A large modular phantom based on real patient geometries was created to surround a CIRS Model 062M phantom. The modular sections included a smooth patient surface, a skin fold in the patient surface, and the addition of arms for simulation of the patient in arms up or arms down position. This phantom was used to evaluate the accuracy of CT numbers for three extended FOV algorithms implemented on Siemens CT scanners: eFOV, HDFOV, and HDProFOV. Six different configurations of the phantoms were scanned and images were reconstructed for the three different extended FOV algorithms. The CIRS phantom inserts and overall phantom geometry were contoured in each image, and the Hounsfield units (HU) numbers were compared to an image of the phantom within the standard scan FOV (sFOV) without the modular sections. To evaluate the effect on dose calculations, six radiotherapy patients previously treated at our institution (three head and neck and three chest/pelvis) whose body circumferences extended past the 50 cm sFOV in the treatment planning CT were used. Images acquired on a Siemens Sensation Open scanner were reconstructed using sFOV, eFOV and HDFOV algorithms. A physician and dosimetrist identified the radiation target, critical organs, and external patient contour. A benchmark CT was created for each patient, consisting of an average of the 3 CT reconstructions with a density override applied to regions containing truncation artifacts. The benchmark CT was used to create an optimal radiation treatment plan. The plan was copied onto each CT reconstruction without density override and dose was recalculated. Results: Tissue extending past the sFOV impacts the HU numbers for tissues inside and outside the sFOV when using extended FOV reconstructions. On average, the HU for all CIRS density inserts in the arms up (arms down) position varied by 43 HU (67 HU), 39 HU (73 HU), and 18 HU (51 HU) for the eFOV, HDFOV, and HDProFOV scans, respectively. In the patient dose calculations, patients with a smooth patient contour had the least deviation from the benchmark in the HDFOV (0.1–0.5%) compared to eFOV (0.4–1.8%) reconstructions. In cases with large amounts of tissue and irregular skin folds, the eFOV deviated the least from the benchmark (range 0.2–0.6% dose difference) compared to HDFOV (range 1.3–1.8% dose difference). Conclusions: All reconstruction algorithms demonstrated good CT number accuracy in the center of the image. Larger artifacts are seen near and extending outside the scan FOV, however, dose calculations performed using typical beam arrangements using the extended FOV reconstructions were still mostly within 2.5% of best estimated reference values. [ABSTRACT FROM AUTHOR]

Published

2019

19. Stitching of sensor-navigated 3D ultrasound datasets for the determination of large thyroid volumes - a phantom study.

Author

Freesmeyer, Martin, Knichel, Leonard, Kühnel, Christian, Winkens, Thomas, and Kuehnel, Christian

Subjects

*THYROID cancer, *IODINE isotopes, *ULTRASONIC imaging, *PEARSON correlation (Statistics), *STATISTICAL correlation, *THYROID gland, *ANTHROPOMETRY, *DIGITAL image processing, *IMAGING phantoms, *THREE-dimensional imaging, *ANATOMY, RESEARCH evaluation

Abstract

Aims: Thyroid volume has to be measured in goiters prior to radioiodine treatment to calculate the needed amount of radioactivity. Modern clinical equipment for ultrasonography shows the trend to smaller probes, so that larger goiters do not fit any longer into the probe's field of view. This study evaluated the feasibility and accuracy of stitching procedures applied to thyroid volumetric analysis performed using three-dimensional ultrasound (3D-US).Material and Methods: Ad hoc thyroid phantoms of different shapes (regular, nodular, thickened isthmus) and volumes (ranging between 50 and 400 mL) were developed. In 15 such phantoms the left and right lobes were separately scanned, and the 3D-US datasets were then assembled (stitched) using predefined landmarks and dedicated software. Volumetric analysis was then assessed via a conventional ellipsoid model (em) and manual tracing (mt). The correlation of measured and reference volumes was determined using Pearson's correlation coefficients and Bland and Altman limits of agreement.Results: The results showed a high level of agreement (with correlation coefficients ranging from 0.974 to 0.999) for all shapes and volumes tested, including the largest volume of 400 mL. The mt method, although more time consuming, proved superior to the em.Conclusions: Stitching-mediated thyroid volumetric analysis is accurate, and its clinical performance should be investigated in future studies. [ABSTRACT FROM AUTHOR]

Published

2018

20. Will extended field-of-view PET/CT depopulate the graveyard of failed PET radiopharmaceuticals?

Subjects

Extended field of view, Sensitivity, PET-camera, PET-radiopharmaceutical

Abstract

With the rapid emergence of extended Field-of-View PET-cameras several new applications for radiopharmaceuticals become within reach. Main reason is the significant increase of the sensitivity of the PET-camera so that much less radioactivity can be administered. Issues that that hampered development or use of PET-radiopharmaceuticals become realistic again. Molar activity requirements can become less strict. New low-yielding radiochemistry methods may become applicable. Carbon-11 labelled compounds can revive and potentially be shipped to nearby PET-facilities. PET-radiopharmaceuticals with slow kinetics in comparison to their half life can still be used. As additional infrastructure and equipment will likely remain unchanged and keep the same sensitivity therefore there will be issues with kinetic modelling requiring analysis of plasma or metabolites samples with lower count rate. Besides the potential revival of failed radiopharmaceuticals, novel challenges are ahead to develop novel radiochemistry based on thus far unsuitable (low yielding or time consuming) reactions.

Published

2022

21. Investigation of Structural Changes in Rectus Abdominis Muscle According to Curl-Up Angle Using Ultrasound with an Extended Field of View

Author

Hwi-young Cho, Chang-Ki Kang, and Chansol Park

Subjects

rectus abdominis, ultrasound, extended field of view, curl-up, Electromyography, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Rectus Abdominis, Abdominal Muscles, Muscle Contraction, Ultrasonography

Abstract

The rectus abdominis (RA) muscle is related to abdominal muscle contraction and is divided into three sub-sections. In this study, changes in each section according to the curl-up angles were measured using ultrasound with an extended field of view (EFOV) scan and compared with the conventional scan. The results showed that the locations of the measurement position center were consistently detected only with the EFOV scan and that the change ratios in thickness and length between sections at the same angles were not significantly different, suggesting that each section was selectively activated. Furthermore, the ratios of the thickness and length changes in each section were significantly different between the rest position and curl-up angles. Specifically, in the section 2 there was a significant difference in the thickness and length changes between different angles, reflecting the characteristics of RA during contraction, and their variations were less than in the section 3. Therefore, the results suggest that changes in only a section of RA cannot be representative of overall RA activation, EFOV scan method can be useful for investigating the structural characteristics of RA in detail, and the proposed method can obtain various information about muscle contraction for efficient muscle treatment and muscle strengthening.

Published

2022

22. Evaluation of novel AI-based extended field-of-view CT reconstructions

Author

Matthias Baer-Beck, Christian Hofmann, Gabriel P. Fonseca, Wouter van Elmpt, Ilaria Rinaldi, Frank Verhaegen, Eric Fournie, Michel Öllers, RS: GROW - R3 - Innovative Cancer Diagnostics & Therapy, and Radiotherapie

Subjects

Scanner, Tomography Scanners, X-Ray Computed, Computer science, Field of view, Iterative reconstruction, Imaging phantom, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Hounsfield scale, Image Processing, Computer-Assisted, Humans, Computer vision, ALGORITHM, DIAGNOSTIC IMAGING (IONIZING AND NON‐IONIZING), Research Articles, radiotherapy, Ground truth, business.industry, Phantoms, Imaging, Deep learning, Reconstruction algorithm, extended field of view, General Medicine, 3D printing, HDFoV, 030220 oncology & carcinogenesis, CT imaging, Artificial intelligence, business, Artifacts, Tomography, X-Ray Computed, Algorithms, Research Article

Abstract

PURPOSE Modern computed tomography (CT) scanners have an extended field-of-view (eFoV) for reconstructing images up to the bore size, which is relevant for patients with higher BMI or non-isocentric positioning due to fixation devices. However, the accuracy of the image reconstruction in eFoV is not well known since truncated data are used. This study introduces a new deep learning-based algorithm for extended field-of-view reconstruction and evaluates the accuracy of the eFoV reconstruction focusing on aspects relevant for radiotherapy. METHODS A life-size three-dimensional (3D) printed thorax phantom, based on a patient CT for which eFoV was necessary, was manufactured and used as reference. The phantom has holes allowing the placement of tissue mimicking inserts used to evaluate the Hounsfield unit (HU) accuracy. CT images of the phantom were acquired using different configurations aiming to evaluate geometric and HU accuracy in the eFoV. Image reconstruction was performed using a state-of-the-art reconstruction algorithm (HDFoV), commercially available, and the novel deep learning-based approach (HDeepFoV). Five patient cases were selected to evaluate the performance of both algorithms on patient data. There is no ground truth for patients so the reconstructions were qualitatively evaluated by five physicians and five medical physicists. RESULTS The phantom geometry reconstructed with HDFoV showed boundary deviations from 1.0 to 2.5 cm depending on the volume of the phantom outside the regular scan field of view. HDeepFoV showed a superior performance regardless of the volume of the phantom within eFOV with a maximum boundary deviation below 1.0 cm. The maximum HU (absolute) difference for soft issue inserts is below 79 and 41 HU for HDFoV and HDeepFoV, respectively. HDeepFoV has a maximum deviation of -18 HU for an inhaled lung insert while HDFoV reached a 229 HU difference. The qualitative evaluation of patient cases shows that the novel deep learning approach produces images that look more realistic and have fewer artifacts. CONCLUSION To be able to reconstruct images outside the sFoV of the CT scanner there is no alternative than to use some kind of extrapolated data. In our study, we proposed and investigated a new deep learning-based algorithm and compared it to a commercial solution for eFoV reconstruction. The deep learning-based algorithm showed superior performance in quantitative evaluations based on phantom data and in qualitative assessments of patient data.

Published

2021

23. Extended field-of-view ultrasound imaging is reliable for measuring Transversus Abdominis muscle size at rest and during contraction

Author

Daniel M. Green, Ulrike H. Mitchell, Lauren Adams, Jade B. Kho, A. Wayne Johnson, and Nicolas B. Pace

Subjects

Adult, Contraction (grammar), lcsh:Diseases of the musculoskeletal system, Panoramic ultrasound imaging, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Measurement error, Rheumatology, Extended field of view, Medicine, Abdominal Oblique Muscles, Humans, Orthopedics and Sports Medicine, Transversus abdominis, Ultrasonography, Rest (physics), EFOV, business.industry, Ultrasound, Reproducibility of Results, Torso, 030229 sport sciences, Minimal detectable difference, Trunk, Abdominal muscles, Ultrasound imaging, lcsh:RC925-935, business, 030217 neurology & neurosurgery, Biomedical engineering, Research Article, Muscle Contraction

Abstract

Background The strength and size of core muscles, including the abdominal muscles, are crucial to proper function in most activities. Therefore, it is important to reliably assess these characteristics. Our primary objective was to determine if the length, thickness and cross-sectional area of the transversus abdominis (TrA) can be visualized independently from the internal and external abdominal oblique muscles using extended field of view ultrasound imaging at rest and with contraction and to establish its intra- and inter-tester reliability. Methods Twenty-six individuals were recruited to participate in the study (20 F, 6 M), average age 24.0 years (SD 9.4), height 170.7 cm (SD 8.6) and weight 63.9 kg (SD 9.0). From this total number of participants, two groups of 16 randomly selected participants were assessed to determine intra- and inter-tester reliability respectively. Extended field of view ultrasound images were obtained at three vertebral levels during rest and contraction in the side lying position for both the right and left sides of the trunk. Results Excellent intra-tester and inter-tester reliability was seen (ICC range of 0.972 to 0.984). The overall average percent standard error of the measurement for all measurements and locations was approximately 4%. The overall average minimal difference for the thickness measurement for the resting and contraction conditions combined were as follows: intratester 0.056 (0.014) cm and intertester 0.054 (0.017) cm, for area intratester 0.287 (0.086) cm2 and intertester 0.289 (0.101) cm2 and for length intratester 0.519 (0.097) cm and intertester 0.507 (0.085) cm. Conclusions Extended field of view ultrasound imaging is an effective method of reliably capturing clear images of the TrA during rest and contraction. It provides an efficient mechanism for the analysis of muscle morphology by being able to measure the cross-sectional area, thickness, and length on one image. This methodology is recommended for studies investigating TrA function and training.

Published

2021

24. Validity of Extended-Field-of-View Ultrasound Imaging to Evaluate Quantity and Quality of Trunk Skeletal Muscles

Author

Hiroshi Akima, Akito Yoshiko, Noriko Tanaka, and Madoka Ogawa

Subjects

Male, Acoustics and Ultrasonics, Rectus Abdominis, Biophysics, 030209 endocrinology & metabolism, Young Adult, 03 medical and health sciences, 0302 clinical medicine, Trunk skeletal muscle, medicine, Extended field of view, Humans, Cross-sectional area, Radiology, Nuclear Medicine and imaging, Muscle, Skeletal, Ultrasonography, Panoramic image, Third lumbar vertebra, Radiological and Ultrasound Technology, medicine.diagnostic_test, business.industry, Ultrasound, Reproducibility of Results, Skeletal muscle, Intramuscular fat, Magnetic resonance imaging, Abdominal Oblique Muscles, Thorax, Echo intensity, Magnetic Resonance Imaging, Trunk, medicine.anatomical_structure, Adipose Tissue, Ultrasound imaging, Nuclear medicine, business, 030217 neurology & neurosurgery, MRI

Abstract

This study examined the validity of extended-field-of-view (EFOV) ultrasound imaging for evaluating the quantity (cross-sectional area [CSA]) and quality (accumulation of intramuscular fat) of trunk skeletal muscles (rectus abdominis, abdominal oblique and erector spinae) using magnetic resonance imaging (MRI) as a reference. Thirty healthy young men participated in this study. Cross-sectional images of the trunk at the height of the third lumbar vertebra were acquired and compared by EFOV ultrasound imaging and MRI. No significant differences were observed in CSAs between the two methods (0.74 ≤ R^2 ≤ 0.85). Echo intensities significantly correlated with MRI-derived accumulation of intramuscular fat in each skeletal muscle group. However, the correlation coefficients were relatively low (0.37 ≤ r ≤0.47; p < 0.05). These results indicate that EFOV ultrasound imaging is a reliable method for assessing trunk skeletal muscle CSA. Further research is warranted to find the optimal ultrasound setting for evaluating muscle quality.

Published

2021

25. Variability of Regional Quadriceps Architecture in Trained Men Assessed by B-Mode and Extended-Field-of-View Ultrasonography

Author

John B. Cronin, Dustin J. Oranchuk, Andre R. Nelson, and Adam G. Storey

Subjects

Intraclass correlation, business.industry, Quadriceps Muscles, Ultrasound, Extended field of view, Fascicle length, Medicine, Orthopedics and Sports Medicine, Physical Therapy, Sports Therapy and Rehabilitation, Ultrasonography, business, Nuclear medicine

Abstract

Purpose: Regional muscle-architecture measures are reported widely; however, little is known about the variability of these measurements in the rectus femoris, vastus lateralis, and anterior and lateral vastus intermedius. The aim of this study was to quantify this variability. Methods: Regional muscle thickness, pennation angle (PA), and calculated and extended-field-of-view–derived fascicle length (FL) were quantified in 26 participants using ultrasonography across 51 limbs on 3 occasions. To quantify variability, the typical error of measurement (TEM) was multiplied by 2, and thresholds of 0.2–0.6 (small), 0.6–1.2 (moderate), 1.2–2.0 (large), 2.0–4.0 (very large), and >4.0 (extremely large) were applied. In addition, variability was deemed large when the intraclass correlation coefficient (ICC) was 10%, moderate when ICC > .67 or CV .67 and CV Results: Muscle thickness of all muscles and regions had low to moderate variability (ICC = .88–.98, CV = 2.4–9.3%, TEM = 0.15–0.47). PA of the proximal and distal vastus lateralis had low variability (ICC = .85–.96, CV = 3.8–8%) and moderate to large TEM (TEM = 0.42–0.83). PA of the rectus femoris was found to have moderate to very large variability (ICC = .38–.74, CV = 11.4–18.5%, TEM = 0.61–1.29) regardless of region. Extended-field-of-view–derived FL (ICC = .57–.94, CV = 4.1–11.5%, TEM = 0.26–0.88) was superior to calculated FL (ICC = .37–.84, CV = 7.4–17.9%, TEM = 0.44–1.33). Conclusions: Variability of muscle thickness was low in all quadriceps muscles and regions. Only rectus femoris PA and FL measurements were highly variable. The extended-field-of-view technique should be used to assess FL where possible. Inferences based on rectus femoris architecture should be interpreted with caution.

Published

2020

26. Extended-field synchrotron microtomography for non-destructive analysis of incremental lines in archeological human teeth cementum

Author

Griffin Rodgers, Gerhard Hotz, Christine Tanner, Georg Schulz, Gabriela Mani-Caplazi, Melissa Osterwalder, Mario Scheel, Timm Weitkamp, and Bert Müller

Subjects

business.industry, Extended field, stomatognathic diseases, Optics, medicine.anatomical_structure, stomatognathic system, Non destructive, Synchrotron microtomography, Extended field of view, medicine, Dental cementum, Tomography, Cementum, business, Geology, Historical record

Abstract

Tooth cementum annulation (TCA) is used for determining age-at-death and stress periods based on yearly deposited lines in the root cementum of human teeth. Traditionally, TCA analysis employs optical microscopy, which requires cutting sections of the root and provides only sparse sampling in the third dimension. Ancient teeth are unique specimens that should not be sliced. In this imaging study, we show that extended field of view synchrotron radiation-based tomography provides true micrometer resolution and coverage for non-destructively surveying for incremental lines. To rapidly review the root cementum layer of four teeth from early 19th century cemetery with historical records of life events, we employed machine learning for semi-automatic detection and analysis of incremental lines. Surveying large regions of the root cementum enables detection of incremental lines and hence improves TCA analysis as an alternative to slicing of the unique teeth.

Published

2021

27. The Influence of Sonographer Experience on Skeletal Muscle Image Acquisition and Analysis

Author

Caleb C. Voskuil, Joshua C. Carr, Jason I. Pagan, Ryan M. Girts, Gena R. Gerstner, Matt S. Stock, Dustin D. Dunnick, Kristin M. Badillo, Joel E. Harden, Jonathan P. Beausejour, and Kylie K. Harmon

Subjects

medicine.medical_specialty, Histology, Physical Therapy, Sports Therapy and Rehabilitation, Diseases of the musculoskeletal system, muscle quality, muscle size, ultrasonography, extended field of view, Biceps, Article, Physical medicine and rehabilitation, Rheumatology, medicine, Image acquisition, Orthopedics and Sports Medicine, Reliability (statistics), business.industry, Ultrasound, Skeletal muscle, Sagittal plane, Inter-rater reliability, medicine.anatomical_structure, RC925-935, Sonographer, Anatomy, business

Abstract

The amount of experience with ultrasonography may influence measurement outcomes while images are acquired or analyzed. The purpose of this study was to identify the interrater reliability of ultrasound image acquisition and image analysis between experienced and novice sonographers and image analysts, respectively. Following a brief hands-on training session (2 h), the experienced and novice sonographers and analysts independently performed image acquisition and analyses on the biceps brachii, vastus lateralis, and medial gastrocnemius in a sample of healthy participants (n = 17). Test–retest reliability statistics were computed for muscle thickness (transverse and sagittal planes), muscle cross-sectional area, echo intensity and subcutaneous adipose tissue thickness. The results show that image analysis experience generally has a greater impact on measurement outcomes than image acquisition experience. Interrater reliability for measurements of muscle size during image acquisition was generally good–excellent (ICC2,1: 0.82–0.98), but poor–moderate for echo intensity (ICC2,1: 0.43–0.77). For image analyses, interrater reliability for measurements of muscle size for the vastus lateralis and biceps brachii was poor–moderate (ICC2,1: 0.48–0.70), but excellent for echo intensity (ICC2,1: 0.90–0.98). Our findings have important implications for laboratories and clinics where members possess varying levels of ultrasound experience.

Published

2021

28. Beyond Head-mounted Display: Extended Field of View using Sparse Peripheral Display Techniques

Author

Kwanguk Kim and Jiwoong Heo

Subjects

Computer science, business.industry, Extended field of view, Optical head-mounted display, Computer vision, Artificial intelligence, business, Peripheral

Abstract

이 논문은 2017년도 정부(미래창조과학부)의 재원으로 한국연구재단-과학기술 인문사회융합연구사업의 지원을 받아 수행된 연구임(NRF-2017M3C1B6071069)

Published

2019

29. Ultrasound features of sole of foot pathology: a review

Author

James Teh and Claire Filippini

Subjects

Pathology, medicine.medical_specialty, lcsh:Medical technology, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Vascularity, High spatial resolution, Extended field of view, Medicine, Radiology, Nuclear Medicine and imaging, plantar fibromatosis, lcsh:R5-920, baxter’s neuropathy, Radiological and Ultrasound Technology, business.industry, Ultrasound, Review article, Increased risk, Patient tolerance, adventitial bursa, lcsh:R855-855.5, 030220 oncology & carcinogenesis, medicine.symptom, plantar fasciitis, lcsh:Medicine (General), business, Foot (unit), epidermal cyst

Abstract

Foot pain is a common problem among adults, with approximately 19% of men and 25% of women describing significant daily foot pain that limits their ability to function. Older adults, the obese, and active adults participating in sports involving running and jumping are at increased risk of developing pathology. Problems affecting the sole of the foot are often the cause of pain. Ultrasound is an extremely useful method of quickly and accurately localizing and characterizing pathology of the foot. The wide availability of ultrasound combined with its low cost, lack of ionizing radiation, high spatial resolution, multiplanar capability and excellent patient tolerance makes it an ideal technique for assessing the superficial structures in the sole of the foot. Ultrasound has the advantage of dynamic assessment over other imaging modalities. Furthermore, Doppler interrogation allows a real-time assessment of vascularity, not possible using other techniques. The ability to perform extended field of view images allows improved image presentation, which has increased clinicians' acceptance of the technique. Finally, ultrasound can be used to guide interventional procedures. This review article will consider the ultrasound features of pathology commonly affecting the sole of the foot, and will describe MRI correlates that can be expected. Foot pain is a common problem among adults, with approximately 19% of men and 25% of women describing significant daily foot pain that limits their ability to function. Older adults, the obese, and active adults participating in sports involving running and jumping are at increased risk of developing pathology. Problems affecting the sole of the foot are often the cause of pain. Ultrasound is an extremely useful method of quickly and accurately localizing and characterizing pathology of the foot. The wide availability of ultrasound combined with its low cost, lack of ionizing radiation, high spatial resolution, multiplanar capability and excellent patient tolerance makes it an ideal technique for assessing the superficial structures in the sole of the foot. Ultrasound has the advantage of dynamic assessment over other imaging modalities. Furthermore, Doppler interrogation allows a real-time assessment of vascularity, not possible using other techniques. The ability to perform extended field of view images allows improved image presentation, which has increased clinicians’ acceptance of the technique. Finally, ultrasound can be used to guide interventional procedures. This review article will consider the ultrasound features of pathology commonly affecting the sole of the foot, and will describe MRI correlates that can be expected.

Published

2019

30. Digital Holographic Microscopy with extended field of view using tool for generic image stitching

Author

Piotr Stępień, Damian Korbuszewski, and Malgorzata Kujawinska

Subjects

General Computer Science, Computer science, lcsh:Electronics, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, lcsh:TK7800-8360, digital holographic microscopy, cell culture analysis, aberration correction, digital holography, lcsh:Telecommunication, Electronic, Optical and Magnetic Materials, Image stitching, lcsh:TK5101-6720, Computer graphics (images), stitching, Extended field of view, Digital holographic microscopy, Electrical and Electronic Engineering, Digital holography

Abstract

This paper describes in detail the processing path leading to successful phase images stitching in digital holographic microscope for the extension of the field of view. It applies FIJI Grid/Collection Stitching Plugin, which is a general tool for images stitching, non‐specific for phase images. The FIJI plugin is extensively supported by aberration and phase offset correction. Comparative analysis of different aberration correction methods and data processing strategies is presented, together with the critical analysis of their applicability. The proposed processing path provides good background for statistical phase analysis of cell cultures and digital phase pathology.

Published

2019

31. Evaluating the impact of extended field‐of‐view<scp>CT</scp>reconstructions on<scp>CT</scp>values and dosimetric accuracy for radiation therapy

Author

Josephine Chen, Erin Shugard, Nilesh Mistry, J Cheung, and Jean Pouliot

Subjects

Tomography Scanners, X-Ray Computed, Computer science, medicine.medical_treatment, Radiation, Imaging phantom, 030218 nuclear medicine & medical imaging, Heart Neoplasms, 03 medical and health sciences, 0302 clinical medicine, Hounsfield scale, Image Processing, Computer-Assisted, Extended field of view, medicine, Humans, Radiation treatment planning, Pelvis, Pelvic Neoplasms, Phantoms, Imaging, business.industry, Radiotherapy Planning, Computer-Assisted, Radiation dose, Dosimetrist, Radiotherapy Dosage, General Medicine, Radiation therapy, medicine.anatomical_structure, Head and Neck Neoplasms, 030220 oncology & carcinogenesis, Tomography, X-Ray Computed, Previously treated, Nuclear medicine, business, Algorithms, Ct reconstruction

Abstract

Purpose Wide bore CT scanners use extended field-of-view (eFOV) reconstruction algorithms to attempt to recreate tissue truncated due to large patient habitus. Radiation therapy planning systems rely on accurate CT numbers in order to correctly plan and calculate radiation dose. This study looks at the impact of eFOV reconstructions on CT numbers and radiation dose calculations in real patient geometries. Methods A large modular phantom based on real patient geometries was created to surround a CIRS Model 062M phantom. The modular sections included a smooth patient surface, a skin fold in the patient surface, and the addition of arms for simulation of the patient in arms up or arms down position. This phantom was used to evaluate the accuracy of CT numbers for three extended FOV algorithms implemented on Siemens CT scanners: eFOV, HDFOV, and HDProFOV. Six different configurations of the phantoms were scanned and images were reconstructed for the three different extended FOV algorithms. The CIRS phantom inserts and overall phantom geometry were contoured in each image, and the Hounsfield units (HU) numbers were compared to an image of the phantom within the standard scan FOV (sFOV) without the modular sections. To evaluate the effect on dose calculations, six radiotherapy patients previously treated at our institution (three head and neck and three chest/pelvis) whose body circumferences extended past the 50 cm sFOV in the treatment planning CT were used. Images acquired on a Siemens Sensation Open scanner were reconstructed using sFOV, eFOV and HDFOV algorithms. A physician and dosimetrist identified the radiation target, critical organs, and external patient contour. A benchmark CT was created for each patient, consisting of an average of the 3 CT reconstructions with a density override applied to regions containing truncation artifacts. The benchmark CT was used to create an optimal radiation treatment plan. The plan was copied onto each CT reconstruction without density override and dose was recalculated. Results Tissue extending past the sFOV impacts the HU numbers for tissues inside and outside the sFOV when using extended FOV reconstructions. On average, the HU for all CIRS density inserts in the arms up (arms down) position varied by 43 HU (67 HU), 39 HU (73 HU), and 18 HU (51 HU) for the eFOV, HDFOV, and HDProFOV scans, respectively. In the patient dose calculations, patients with a smooth patient contour had the least deviation from the benchmark in the HDFOV (0.1-0.5%) compared to eFOV (0.4-1.8%) reconstructions. In cases with large amounts of tissue and irregular skin folds, the eFOV deviated the least from the benchmark (range 0.2-0.6% dose difference) compared to HDFOV (range 1.3-1.8% dose difference). Conclusions All reconstruction algorithms demonstrated good CT number accuracy in the center of the image. Larger artifacts are seen near and extending outside the scan FOV, however, dose calculations performed using typical beam arrangements using the extended FOV reconstructions were still mostly within 2.5% of best estimated reference values.

Published

2018

32. Use of extended field-of-view ultrasound imaging in giant primary breast angiosarcoma: a case description

Author

Yi Li, Wen He, Xinyao Liu, and Shuai Zheng

Subjects

medicine.medical_specialty, business.industry, Extended field of view, Ultrasound imaging, medicine, Radiology, Nuclear Medicine and imaging, Breast angiosarcoma, Radiology, Case description, business, Letter to the Editor

Published

2021

33. A modified MRI protocol for the increased detection of sacrococcygeal fractures in patients with thoracolumbar junction fractures

Author

Eun Kyung Khil, Jung-Ah Choi, Il Ju Choi, and Young-Woo Kim

Subjects

Male, Quality of life, Study groups, Science, Pain, Thoracic Vertebrae, Article, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Medical research, 0302 clinical medicine, Fractures, Compression, Diagnosis, Extended field of view, Humans, Medicine, In patient, Significant risk, Signs and symptoms, Lumbar Vertebrae, Musculoskeletal system, Multidisciplinary, Sacrococcygeal Region, business.industry, Incidence, Health care, Odds ratio, Middle Aged, Magnetic Resonance Imaging, Thoracolumbar junction, Sagittal plane, Logistic Models, medicine.anatomical_structure, Risk factors, Multivariate Analysis, Spinal Fractures, Female, Medical imaging, Nuclear medicine, business, 030217 neurology & neurosurgery

Abstract

This study aimed to identify concurrent thoracolumbar junction (TLJ) and sacrococcygeal (SC) fractures using a modified MRI protocol and analyze the risk factors associated with tandem fractures. We retrospectively investigated patients with MRI-confirmed TLJ fractures from January 2017 to March 2020. Patients were divided into two study groups: study 1 with a modified MRI protocol and study 2 with a routine protocol. The modified protocol included an extended field of view of sagittal scans in L-spine MRI covering the full SC spine. In study 1, frequency of concurrent TLJ and SC fractures was investigated. And we analyzed risk factors and compared CT and MRI for detecting SC fractures. In study 2, co-occurrence of both fractures was investigated. A total of 176 and 399 patients with TLJ fractures were enrolled in study 1 and 2, then SC fractures were identified in 53 (30.14%) and 36 patients (9.02%), respectively. An axial loading trauma mechanism was a significant risk factor (Odds ratio 7.0, p p

Published

2021

34. Test–Retest Reliability of Single Transverse versus Panoramic Ultrasound Imaging for Muscle Size and Echo Intensity of the Biceps Brachii.

Author

Jenkins, Nathaniel D.M., Miller, Jessie M., Buckner, Samuel L., Cochrane, Kristen C., Bergstrom, Haley C., Hill, Ethan C., Smith, Cory M., Housh, Terry J., and Cramer, Joel T.

Subjects

*ULTRASONIC imaging, *BICEPS brachii, *FOREARM, *FLEXOR muscles, *DIAGNOSTIC imaging

Abstract

This study compared test–retest reliability and sensitivity to change for muscle size and echo intensity (EI) measurements from single transverse (EI ST ) versus panoramic (EI P ) ultrasound (US) images of the biceps brachii. Forearm flexor muscle thickness and EI ST and biceps brachii muscle cross-sectional area and EI P were quantified from single transverse and panoramic US images in 14 men (age = 21.8 ± 2.5 y [mean ± standard deviation]) on two separate days. The intra-class correlation coefficients, coefficients of variation, and minimum differences for muscle thickness, EI ST , muscle cross-sectional area and EIP ranged from 0.78 to 0.99, from 2.26% to 3.29%, and from 6.26% to 9.12%, respectively. These findings suggested that single transverse imaging and panoramic US imaging are comparable, reliable techniques for quantifying muscle size and EI of the biceps brachii. Single transverse images may be simpler to obtain; thus, future studies may choose to quantify muscle size and EI from a single transverse US image in the biceps brachii. [ABSTRACT FROM AUTHOR]

Published

2015

35. An assessment of image distortion and CT number accuracy within a wide-bore CT extended field of view.

Author

Beeksma, B., Truant, D., Holloway, L., and Arumugam, S.

Abstract

Although wide bore computed tomography (CT) scanners provide increased space for patients, the scan field of view (sFOV) remains considerably smaller than the bore size. Consequently, patient anatomy which spans beyond the sFOV is truncated and the information is lost. As a solution, some manufacturers provide the capacity to reconstruct CT images from a partial dataset at an extended field of view (eFOV). To assess spatial distortion within this eFOV three phantoms were considered a 30 × 30 × 20 cm slab of solid water, the Gammex electron density CT phantom and a female anthropomorphic phantom. For each phantom, scans were taken centrally within the sFOV as a reference image and with the phantom edge extended at 1 cm intervals from 0 to 5 cm beyond the sFOV into the eFOV. To assess CT number accuracy various tissue equivalent materials were scanned in the eFOV and resulting CT numbers were compared to inserts scanned within the sFOV. For all phantom geometries, objects within the eFOV were geometrically overestimated with elongation of phantom shapes into the eFOV. The percentage increase in size ranged from 0.22 to 15.94 % over all phantoms considered. The difference between eFOV and sFOV CT numbers was dependent upon insert density. The eFOV underestimated CT numbers in the range of −127 to −230 HU for soft tissue densities and −278 to −640 for bone densities. This trend reversed for low tissue densities with the CT numbers in the eFOV being overestimated by 100-130 HU for lung equivalent inserts. Initial correlation between eFOV and sFOV CT numbers was seen and a correction function was successfully applied to better estimate the CT number representative of that seen within the sFOV. [ABSTRACT FROM AUTHOR]

Published

2015

36. Scatter measurement in the human eye based on a Shack‐Hartmann wavefront aberrometer with extended field of view

Author

Stefan Schramm, Sascha Klee, and Benjamin Solf

Subjects

Ophthalmology, Optics, medicine.anatomical_structure, Computer science, business.industry, Wavefront aberrometer, Extended field of view, medicine, Human eye, General Medicine, business

Published

2021

37. Spatial compounding of trans-esophageal echo volumes using X-ray probe tracking.

Author

Housden, R. J., Ma, Y., Arujuna, A., Nijhof, N., Cathier, P., Gijsbers, G., Bullens, R., and Rhode, K. S.

Abstract

The use of ultrasound imaging for image guidance of cardiac procedures is limited by the small field of view of the ultrasound volume. A larger view can be created by image-based registration of partially overlapping volumes, but automatic registration often fails unless the volume alignment is initialised close to the volumes' correct alignment. In this paper, we use X-ray images to track a trans-esophageal probe, which provides the required position estimates for the ultrasound volumes. The tracking is possible using multiple X-rays or just one X-ray at each probe position. We test the method in a phantom experiment and find that with at least 50% volume overlap, 98% of ultrasound volume pairs are correctly registered when tracked using three X-rays per volume, and 95% using single X-rays. [ABSTRACT FROM PUBLISHER]

Published

2012

38. Extended field of view for medium resolution electron holography at Philips CM 200 Microscope

Author

Sickmann, J., Formánek, P., Linck, M., Lichte, H., Luysberg, Martina, editor, Tillmann, Karsten, editor, and Weirich, Thomas, editor

Published

2008

39. Artificial intelligence-driven real-time 3D surface quantification of Barrett's oesophagus for risk stratification and therapeutic response monitoring

Author

Simon J. Leedham, Barbara Braden, Xin Lu, Maryam Haghighat, James E. East, Sharib Ali, Adam A. Bailey, Jens Rittscher, and Investigators Tgu.

Subjects

3d printed, Computer science, business.industry, Barrett's oesophagus, 3D reconstruction, Risk stratification, Extended field of view, Computer vision, Usability, Artificial intelligence, Patient data, business, Imaging phantom

Abstract

BACKGROUND & AIMSBarrett’s epithelium measurement using widely accepted Prague C&M criteria is highly operator dependent. By reconstructing the surface of the Barrett’s area in 3D from endoscopy video, we propose a novel methodology for measuring the C&M score automatically. This 3D reconstruction provides an extended field of view and also allows to precisely quantify the Barrett’s area including islands. We aim to assess the accuracy of the extracted measurements from phantom and demonstrate their clinical usability.METHODSAdvanced deep learning techniques are utilised to design estimators for depth and camera pose required to map standard endoscopy video to a 3D surface model. By segmenting the Barrett’s area and locating the position of the gastro-oesophageal junction (GEJ) we measure C&M scores and the Barrett’s oesophagus areas (BOA). Experiments using a purpose-built 3D printed oesophagus phantom and high-definition video from 98 patients scored by an expert endoscopist are used for validation.RESULTSEndoscopic phantom video data demonstrated a 95 % accuracy with a marginal ± 1.8 mm average deviation for C&M and island measurements, while for BOA we achieved nearly 93 % accuracy with only ± 1.1 cm2 average deviation compared to the ground-truth measurements. On patient data, the C&M measurements provided by our system concord with the reference provided by expert upper GI endoscopists.CONCLUSIONSThe proposed methodology is suitable for extracting Prague C&M scores automatically with a high degree of accuracy. Providing an accurate measurement of the entire Barrett’s area provides new opportunities for risk stratification and the assessment of therapy response.

Published

2020

40. Decision letter: Extended field-of-view ultrathin microendoscopes for high-resolution two-photon imaging with minimal invasiveness

Author

Darcy S. Peterka and Kaspar Podgorski

Subjects

Physics, Optics, Two-photon excitation microscopy, business.industry, Extended field of view, High resolution, business

Published

2020

41. Reliability and Feasibility of Extended Field of View Ultrasound Imaging Techniques for Measuring the Limb Muscle Cross-Sectional Area

Author

Kanako Nishihara, Aaron Y. L. Cheung, Sunita Mathur, Alex Hart, Nadia Keshwani, Lowell Kwan, and Claire D'Amico

Subjects

business.industry, Limb muscle, Ultrasound, Skeletal muscle, Physical Therapy, Sports Therapy and Rehabilitation, 030229 sport sciences, Original Articles, Visualization, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Extended field of view, medicine, Ultrasound imaging, Imaging technique, business, 030217 neurology & neurosurgery, Reliability (statistics), Biomedical engineering

Abstract

Purpose: Panoramic ultrasound imaging (pUSI) is an extended field of view (FOV) imaging technique that enables visualization of larger muscles; however, it is not available in all ultrasound systems. Using an acoustic standoff pad that is compatible with any ultrasound system may be an alternative method to increase FOV, but it has not been used to evaluate limb muscles. The purpose of this study was to evaluate the reliability and feasibility of using pUSI and an acoustic standoff pad to measure the limb muscle cross-sectional area (mCSA). Method: A cross-sectional study was conducted. Using pUSI and an acoustic standoff pad, we obtained B-mode ultrasound images of the rectus femoris, biceps brachii, and lateral gastrocnemius muscles of 26 healthy participants on two occasions 7–10 days apart. The agreement between the two methods was determined using intra-class correlation coefficients (ICCs) and Bland–Altman plots. Test–retest reliability was assessed using ICCs and standard error of measurement (SEM). The feasibility of acquiring and analyzing the images was evaluated using a Likert scale. Results: The acoustic standoff pad and pUSI demonstrated strong agreement (ICC[3,3] > 0.85); however, the mCSAs were different ( p [3,3] > 0.85; SEM = 0.6–1.5 cm2). Image acquisition was highly feasible, but there were some limitations in analyzing the images. Conclusions: pUSI and an acoustic standoff pad are two reliable techniques for measuring mCSA, but the measurements are not directly comparable. Future studies should evaluate the accuracy of the acoustic standoff pad compared with gold-standard methods.

Published

2020

42. Hamstring to quadriceps strength ratio and cross-sectional area of the quadriceps and hamstrings muscles assessed using extended field-of-view ultrasonography

Author

Chrysostomos Sahinis, Nikiforos Galanis, Eleftherios Kellis, Konstantinos Dafkou, and Athanasios Ellinoudis

Subjects

Male, Muscle size, Quadriceps strength, Physical Therapy, Sports Therapy and Rehabilitation, Hamstring Muscles, Quadriceps Muscle, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Isometric Contraction, Extended field of view, medicine, Humans, Orthopedics and Sports Medicine, Muscle Strength, Ultrasonography, Orthodontics, business.industry, Reproducibility of Results, 030229 sport sciences, Organ Size, Muscle atrophy, Torque, medicine.symptom, business, 030217 neurology & neurosurgery, Hamstring

Abstract

This study examined whether the association between hamstring (H) and quadriceps (Q) strength with size depends on the region and the muscle used to examined cross-sectional area (CSA). Maximum isometric contraction knee extension and flexion torque was obtained from 20 young participants while Q and H CSA was recorded using extended field of view ultrasonography at four sections along the thigh. Stepwise linear regression models using the maximum CSA of individual muscles showed a significant association of quadriceps (R

Published

2020

43. Extended field-of-view ultrathin microendoscopes for high-resolution two-photon imaging with minimal invasiveness in awake mice

Author

Claudio Moretti, Serena Bovetti, Andrea Sattin, Andrea Antonini, Andrea Bertoncini, Francesca Succol, Vijayakumar P. Rajamanickam, Monica Moroni, Carlo Liberale, Angelo Forli, Dania Vecchia, Stefano Panzeri, and Tommaso Fellin

Subjects

Physics, 0303 health sciences, Fluorescence-lifetime imaging microscopy, law.invention, Functional imaging, Lens (optics), 03 medical and health sciences, 0302 clinical medicine, Calcium imaging, Two-photon excitation microscopy, law, Extended field of view, Premovement neuronal activity, Image resolution, 030217 neurology & neurosurgery, 030304 developmental biology, Biomedical engineering

Abstract

Imaging neuronal activity with high and homogeneous spatial resolution across the field-of-view (FOV) and limited invasiveness in deep brain regions is fundamental for the progress of neuroscience, yet is a major technical challenge. We achieved this goal by correcting optical aberrations in gradient index lens-based ultrathin (≤ 500 µm) microendoscopes using aspheric microlenses generated through 3D-microprinting. Corrected microendoscopes had extended FOV (eFOV) with homogeneous spatial resolution for two-photon fluorescence imaging and required no modification of the optical set-up. Synthetic calcium imaging data showed that, compared to uncorrected endoscopes, eFOV-microendoscopes led to improved signal-to-noise ratio and more precise evaluation of correlated neuronal activity. We experimentally validated these predictions in awake head-fixed mice. Moreover, using eFOV-microendoscopes we demonstrated cell-specific encoding of behavioral state-dependent information in distributed functional subnetworks in a primary somatosensory thalamic nucleus. eFOV-microendoscopes are, therefore, small-cross-section ready-to-use tools for deep two-photon functional imaging with unprecedentedly high and homogeneous spatial resolution.

Published

2020

44. Extended field-of-view ultrathin microendoscopes for high-resolution two-photon imaging with minimal invasiveness

Author

Serena Bovetti, Andrea Sattin, Andrea Antonini, Andrea Bertoncini, Monica Moroni, Tommaso Fellin, Vijayakumar P. Rajamanickam, Angelo Forli, Dania Vecchia, Francesca Succol, Stefano Panzeri, Carlo Liberale, and Claudio Moretti

Subjects

0301 basic medicine, Male, Fluorescence-lifetime imaging microscopy, Mouse, QH301-705.5, Science, High resolution, General Biochemistry, Genetics and Molecular Biology, Aberration correction, law.invention, 03 medical and health sciences, Mice, 0302 clinical medicine, Calcium imaging, Optics, Two-photon excitation microscopy, Thalamus, law, Extended field of view, Animals, Biology (General), Image resolution, mouse, neuroscience, Physics, Endoscopes, Neurons, General Immunology and Microbiology, Behavior, Animal, business.industry, General Neuroscience, 3D microprinting, General Medicine, Tools and Resources, network dynamics, Lens (optics), Functional imaging, Mice, Inbred C57BL, 030104 developmental biology, Microscopy, Fluorescence, Multiphoton, Medicine, Female, business, two-photon imaging, microendoscopes, 030217 neurology & neurosurgery, Neuroscience

Abstract

Imaging neuronal activity with high and homogeneous spatial resolution across the field-of-view (FOV) and limited invasiveness in deep brain regions is fundamental for the progress of neuroscience, yet is a major technical challenge. We achieved this goal by correcting optical aberrations in gradient index lens-based ultrathin (≤500 µm) microendoscopes using aspheric microlenses generated through 3D-microprinting. Corrected microendoscopes had extended FOV (eFOV) with homogeneous spatial resolution for two-photon fluorescence imaging and required no modification of the optical set-up. Synthetic calcium imaging data showed that, compared to uncorrected endoscopes, eFOV-microendoscopes led to improved signal-to-noise ratio and more precise evaluation of correlated neuronal activity. We experimentally validated these predictions in awake head-fixed mice. Moreover, using eFOV-microendoscopes we demonstrated cell-specific encoding of behavioral state-dependent information in distributed functional subnetworks in a primary somatosensory thalamic nucleus. eFOV-microendoscopes are, therefore, small-cross-section ready-to-use tools for deep two-photon functional imaging with unprecedentedly high and homogeneous spatial resolution.

Published

2020

45. Effects of image distortion and Hounsfield unit variations on radiation treatment plans: An extended field-of-view reconstruction in a large bore CT scanner

Author

Yong-Ki Bae, S. Hong, and Jeong Woo Lee

Subjects

Scanner, Materials science, Tomography Scanners, X-Ray Computed, lcsh:Medicine, Dose distribution, Radiation, Imaging phantom, Article, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, Hounsfield scale, Extended field of view, Image Processing, Computer-Assisted, Humans, Breast, lcsh:Science, Radiation treatment planning, Multidisciplinary, Radiotherapy, business.industry, Phantoms, Imaging, Radiotherapy Planning, Computer-Assisted, lcsh:R, Radiotherapy Dosage, Thorax, Gamma index, 030220 oncology & carcinogenesis, lcsh:Q, Female, Radiotherapy, Intensity-Modulated, Nuclear medicine, business, Tomography, X-Ray Computed

Abstract

This study aimed to evaluate the effect of image distortion and Hounsfield unit (HU) variation due to the extended field-of-view (eFOV) of the large-bore (LB) computed tomography (CT) on dose distribution. Both home-made inhomogeneity and breast phantoms were scanned at the geometric center position and four different offset positions. We also performed dose optimizations based on different breast phantom CT sets for evaluating the effects of image artifacts on the intensity-modulated radiation techniques. The volume changes were 0.0% to 0.5% in the air, −0.5% to 3.0% in the water, and 4.0% to 5.0% in the high-density material of the inhomogeneity phantom. Both phantoms scanning results indicate that more distortions occurred in the eFOV area due to the biased scanning center. The gamma index differences ranged from 0.87% to 4.87% for the FIF plan and from 0.52% to 6.26% for the VMAT plan. This resulted in decrease of the minimum (7.3–13.1%), maximum (−0.8–2.2%), and mean doses (−0.2–4.4%). We recommend that it should be evaluated whether the applied CT would have an appropriate eFOV range for clinical radiation treatment planning for patients.

Published

2020

46. Cellular resolution AO-OCT imaging of the retina with an extended field of view

Author

Michael Pircher, Christoph K. Hitzenberger, M. Faizan Shirazi, Marie Laslandes, Wolfgang Drexler, Elisabeth Brunner, and Andreas Pollreisz

Subjects

Diffraction, Physics, Retina, medicine.diagnostic_test, business.industry, Deformable mirror, Scanning laser ophthalmoscopy, medicine.anatomical_structure, Optics, Optical coherence tomography, Cellular resolution, medicine, Extended field of view, business, Adaptive optics

Abstract

Diffraction limited performance in an adaptive optics optical coherence tomography system is achieved by compensating for isoplanatic effects with a second deformable mirror within an area of ~4°×4° and for a 7 mm pupil diameter.

Published

2020

47. Ultrasound-derived Biceps Femoris Long-Head Fascicle Length: Extrapolation Pitfalls

Author

Martino V. Franchi, Brent J. Raiteri, Daniel P. Fitze, Jörg Spörri, Daniel Hahn, University of Zurich, and Franchi, Martino V

Subjects

Male, Intraclass correlation, Extrapolation, Hamstring Muscles, Physical Therapy, Sports Therapy and Rehabilitation, 610 Medicine & health, Biceps, Young Adult, 03 medical and health sciences, 0302 clinical medicine, 2732 Orthopedics and Sports Medicine, Risk Factors, Skiing, Femur length, Extended field of view, Humans, Orthopedics and Sports Medicine, 3612 Physical Therapy, Sports Therapy and Rehabilitation, Ultrasonography, Physics, business.industry, Ultrasound, Reproducibility of Results, 030229 sport sciences, Fascicle length, Female, 10046 Balgrist University Hospital, Swiss Spinal Cord Injury Center, business, Nuclear medicine, Hamstring

Abstract

Purpose This study aimed to compare biceps femoris long head (BFlh) fascicle length (Lf) obtained with different ultrasound-based approaches: 1) single ultrasound images and linear Lf extrapolation, 2) single ultrasound images and one of two different trigonometric equations (termed equations A and B), and 3) extended field of view (EFOV) ultrasound images. Methods Thirty-seven elite alpine skiers (21.7 +/- 2.8 yr) without a previous history of hamstring strain injury were tested. Single ultrasound images were collected with a 5-cm linear transducer from BFlh at 50% femur length and were compared with whole muscle scans acquired by EFOV ultrasound. Results The intrasession reliability (intraclass correlation coefficient [ICC3,k]) of Lf measurements was very high for both single ultrasound images (i.e., Lf estimated by linear extrapolation; ICC3,k = 0.96-0.99, SEM = 0.18 cm) and EFOV scans (ICC3,k = 0.91-0.98, SEM = 0.19 cm). Although extrapolation methods showed cases of Lf overestimation and underestimation when compared with EFOV scans, mean Lf measured from EFOV scans (8.07 +/- 1.36 cm) was significantly shorter than Lf estimated by trigonometric equations A (9.98 +/- 2.12 cm, P < 0.01) and B (8.57 +/- 1.59 cm, P = 0.03), but not significantly different from Lf estimated with manual linear extrapolation (8.40 +/- 1.68 cm, P = 0.13). Bland-Altman analyses revealed mean differences in Lf obtained from EFOV scans and those estimated from equation A, equation B, and manual linear extrapolation of 1.91 +/- 2.1, 0.50 +/- 1.0, and 0.33 +/- 1.0 cm, respectively. Conclusions The typical extrapolation methods used for estimating Lf from single ultrasound images are reliable within the same session, but not accurate for estimating BFlh Lf at rest with a 5-cm field of view. We recommend that EFOV scans are implemented to accurately determine intervention-related Lf changes in BFlh.

Published

2020

48. Extended field-of-view deep brain imaging using aberration correction in GRIN microendoscopes through 3D printed polymer microlenses

Author

Andrea Antonini, Andrea Bertoncini, Claudio Moretti, Carlo Liberale, Andrea Sattin, Angelo Forli, Vijayakumar P. Rajamanickam, Serena Bovetti, Francesca Succol, and Tommaso Fellin

Subjects

0301 basic medicine, 3d printed, Materials science, business.industry, Image quality, Functional imaging, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Optics, Neuroimaging, Extended field of view, business, 030217 neurology & neurosurgery

Abstract

We report the development and application of a new approach to correct aberrations in GRIN microendoscopes using 3D printed polymer microlenses. Corrected microendoscopes are validated performing functional imaging experiments in the mouse brain in vivo.

Published

2020

49. Test-Retest Reliability and the Minimal Detectable Change for Achilles Tendon Length: A Panoramic Ultrasound Assessment.

Author

Ryan, Eric D., Rosenberg, Joseph G., Scharville, Michael J., Sobolewski, Eric J., Thompson, Brennan J., and King, Gilbert E.

Subjects

*MINIMUM detectable activity, *ULTRASONIC imaging, *ACHILLES tendon, *MEDICAL screening, *STATISTICAL correlation, *MEASUREMENT errors

Abstract

Abstract: The purpose of the present study was to examine test-retest reliability and minimal detectable change (MDC) values for Achilles tendon (AT) length determined using panoramic ultrasound (US) imaging. Seventeen men (age = 21.0 ± 2.3 y) visited the laboratory on two separate days, where AT length was examined along the mid-longitudinal axis of the right lower leg with a portable B-mode panoramic US device. These measures were found to have acceptable reliability with intra-class correlation coefficient (ICC) and standard error of measurement (SEM) values of 0.954 and 4.43 mm (SEM% of the mean = 2.37%), respectively. In addition, the MDC for the panoramic US assessment of AT length was 12.27 mm (MDC% of the mean = 6.57%). These findings suggest that panoramic US imaging is a reliable technique for detection of clinically relevant changes in AT length and may therefore be a practical and time-efficient clinical tool for future studies examining AT length in vivo. [Copyright &y& Elsevier]

Published

2013

50. Investigation of Structural Changes in Rectus Abdominis Muscle According to Curl-Up Angle Using Ultrasound with an Extended Field of View.

Author

Park C, Cho HY, and Kang CK

Subjects

Electromyography, Muscle Contraction physiology, Ultrasonography, Rectus Abdominis diagnostic imaging, Rectus Abdominis physiology, Abdominal Muscles diagnostic imaging, Abdominal Muscles physiology

Abstract

The rectus abdominis (RA) muscle is related to abdominal muscle contraction and is divided into three sub-sections. In this study, changes in each section according to the curl-up angles were measured using ultrasound with an extended field of view (EFOV) scan and compared with the conventional scan. The results showed that the locations of the measurement position center were consistently detected only with the EFOV scan and that the change ratios in thickness and length between sections at the same angles were not significantly different, suggesting that each section was selectively activated. Furthermore, the ratios of the thickness and length changes in each section were significantly different between the rest position and curl-up angles. Specifically, in the section 2 there was a significant difference in the thickness and length changes between different angles, reflecting the characteristics of RA during contraction, and their variations were less than in the section 3. Therefore, the results suggest that changes in only a section of RA cannot be representative of overall RA activation, EFOV scan method can be useful for investigating the structural characteristics of RA in detail, and the proposed method can obtain various information about muscle contraction for efficient muscle treatment and muscle strengthening.

Published

2022