Your search keyword '"Yoichiro Ikushima"' showing total 10 results

1. A novel algorithm for comprehensive quality assessment of clinical magnetic resonance images based on natural scene statistics in spatial domain

Author

Yoichiro, Ikushima, Shogo, Tokurei, Hiroyuki, Tarewaki, Junji, Morishita, and Hidetake, Yabuuchi

Subjects

Male, Biomedical Engineering, Biophysics, Brain, Humans, Reproducibility of Results, Radiology, Nuclear Medicine and imaging, Magnetic Resonance Imaging, Algorithms

Abstract

A magnetic resonance imaging (MRI)-specific objective image quality assessment (IQA) algorithm, the quality evaluation using multidirectional filters for MRI (QEMDIM), was previously reported. QEMDIM requires a set of reference images to calculate the quality score (STo propose a modified version of the IQA algorithm and compare the IQA performance of the original and modified algorithms.Brain axial TThe CCs of SOur modified algorithm was superior to QEMDIM in terms of IQA performance in clinical practice, especially in terms of accuracy, robustness, and reproducibility.

Published

2022

2. A Triphasic Split-bolus Contrast Injection Protocol for Artery-vein Separation During Pulmonary Computed Tomographic Angiography

Author

Yoichiro Ikushima, Shohei Kudomi, Shusaku Sato, Munemasa Okada, Shogo Tokurei, and Kazuki Takegami

Subjects

Pulmonary and Respiratory Medicine, medicine.diagnostic_test, business.industry, medicine.medical_treatment, media_common.quotation_subject, Contrast medium, medicine.anatomical_structure, Hounsfield scale, Angiography, medicine, Contrast (vision), Radiology, Nuclear Medicine and imaging, Bolus (digestion), Vein, Nuclear medicine, business, Saline, Artery, media_common

Abstract

PURPOSE Accurate artery-vein separation on pulmonary computed tomographic (CT) angiography is desirable for preoperative 3-dimensional image simulation, while using a minimal amount of contrast medium. This study aimed to verify whether a split-bolus contrast enhancement protocol with test-bolus tracking would provide contrast differentiation between the pulmonary arteries (PA) and pulmonary veins (PV) during high-pitch single-pass CT angiography. MATERIALS AND METHODS Fifty patients underwent pulmonary CT angiography with a triphasic split-bolus injection protocol with the main bolus of contrast medium for 6 seconds, followed by a subsequent bolus of 20% diluted contrast medium/80% saline for another 6 seconds and a 5-second saline chaser. The single-scan timing was individually tailored to the peak enhancement at the left atrium, that is, the pulmonary-venous dominant phase, by monitoring a time-enhancement curve with test bolus. RESULTS Time-enhancement curves of the test bolus demonstrated that the interval times between the peak enhancements at the PA and PV were ~6 seconds. For contrast enhancement image analyses with our protocol, the attenuation measurements at the main PA and left atrium were performed. The mean (SD) CT numbers were 246.4 (50.0) HU at the main PA, and 410.8 (59.0) HU at the left atrium. The mean difference in the CT numbers was 164.4 HU (95% confidence interval: 149.2-179.6, P

Published

2021

3. Influence of monitor display resolution and displayed image size on the spatial resolution of ultra-high-resolution CT images: a phantom study

Author

Yoichiro Ikushima, Shogo Tokurei, Shusaku Sato, Kojiro Ikushima, Noriyuki Hashimoto, Junji Morishita, and Hidetake Yabuuchi

Subjects

Radiation, Phantoms, Imaging, Radiology, Nuclear Medicine and imaging, Physical Therapy, Sports Therapy and Rehabilitation, General Medicine, Radionuclide Imaging, Tomography, X-Ray Computed, Lung, Liquid Crystals

Abstract

To determine the optimal display conditions for ultra-high-resolution computed tomography (UHRCT) images in clinical practice, this study investigated the effects of liquid-crystal display (LCD) resolution and displayed image size on the spatial resolution of phantom images acquired using a UHRCT system. A phantom designed to evaluate the high-contrast resolution was scanned. The scan data were reconstructed into four types of UHRCT image series consisting of the following possible combinations: two types of reconstruction kernels on the filtered back-projection method (for the lung and mediastinum) and two types of matrix sizes (1024

Published

2021

4. Medical display application for degraded image sharpness restoration based on the modulation transfer function: initial assessment for a five-megapixel mammography display monitor

Author

Kazuki Takegami, Munemasa Okada, Yoichiro Ikushima, Shogo Tokurei, and Junji Morishita

Subjects

Digital mammography, Computer science, Biomedical Engineering, Biophysics, Image processing, Breast Diseases, modulation transfer function, image sharpness, Optical transfer function, digital mammography, medicine, Image noise, Mammography, Humans, Radiology, Nuclear Medicine and imaging, Computer vision, Instrumentation, Radiological and Ultrasound Technology, medicine.diagnostic_test, business.industry, Noise (signal processing), two-alternative-forced-choice sensitivity measurement, image processing, Liquid Crystals, Computer Terminals, Data Display, liquid-crystal display monitor, Microcalcification, Artificial intelligence, Nyquist frequency, medicine.symptom, business, Biotechnology

Abstract

An image-display application for medical liquid-crystal display (LCD) monitors called the sharpness recovery (SR) function has been developed to compensate for image sharpness as a function of deficiencies in the modulation transfer function (MTF) of a monitor. We investigated the effects of the SR function for a five-megapixel (MP) mammography LCD monitor on the resolution and noise properties of the displayed images by measuring the MTF and overall noise power spectrum (NPS), respectively. Furthermore, the effectiveness of the SR function for the 5-MP monitor in displaying subtle microcalcifications on digital mammograms was verified using a two-alternative-forced-choice sensitivity measurement as an initial application for medical image interpretation. Four radiologists compared the visibility of 45 regions of interest with a malignant microcalcification cluster shown on SR-processed and unprocessed mammograms. SR processing improved the MTF of the displayed images by approximately 40% at the Nyquist frequency of the 5-MP monitor, whereas it slightly increased the overall NPS values. All observers indicated that the fraction of cases considered to have better visibility of microcalcifications with the SR processing was significantly greater than that without the processing (averaging 82%, with the 95% confidence interval ranging from 70 to 93%). The SR processing for the 5-MP monitor yielded a significant improvement in the resolution properties of the displayed images, with a certain increase in the image noise. The SR function has the potential to improve the observer performance of radiologists, particularly when reading subtle microcalcifications reproduced on 5-MP monitors.

Published

2021

5. Effects of Imaging Parameters on the Quality of Contrast-Enhanced MR Angiography of Cerebral Aneurysms Treated Using Stent-Assisted Coiling: A Phantom Study

Author

Tsukasa Doi, Yoichiro Ikushima, Yoshiyuki Watanabe, and Takashi Hashido

Subjects

medicine.medical_specialty, Scanner, Contrast Media, contrast-enhanced MRA, Stent assisted coiling, stent-assisted coiling, Imaging phantom, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Flip angle, Image noise, Humans, Medicine, Radiology, Nuclear Medicine and imaging, imaging parameter, Receiver Bandwidth, Phantoms, Imaging, business.industry, Echo time, Mr angiography, Intracranial Aneurysm, Image Enhancement, Cerebral Angiography, Stents, Radiology, Artifacts, business, Nuclear medicine, Magnetic Resonance Angiography, Major Paper, 030217 neurology & neurosurgery

Abstract

Purpose To quantitatively investigate in vitro the effects of flip angle (FA), receiver bandwidth (BW), echo time (TE), and magnetic field strength (FS) on image noise and artifacts induced by stent-assisted coiling on contrast-enhanced MR angiography (CE-MRA) images, as a first step towards optimization of imaging parameters. Methods A phantom simulating a cerebral aneurysm treated using stent-assisted coiling was filled with diluted gadolinium contrast medium, and MR angiography were obtained using varied parameters: FA (10°-60°), BW (164-780 Hz/pixel), and FS (1.5 and 3.0T). The TE varied automatically with BW because the TE was set to the smallest value. Three kinds of indices were semi-automatically calculated to quantify the severity of stent- and coil-induced artifacts: artificial lumen narrowing (ALN) representing a decrease in the in-stent luminal area, and relative in-stent signal (RISS) and relative in-coil signal (RISC) representing an increase in the in-stent and in-coil signal intensities, respectively. We also measured the ratio of in-stent signal to noise (IS/N) for each parameter. The variation in these indices with variations in FA, BW (TE), and FS was analyzed. Results An increase in FA led to an increase of up to 65% in the RISS, while the IS/N increased by up to three times. The 1.5T scanner indicated fewer artifacts (71% lower ALN, two times higher RISS, and 40% higher RISC) than the 3.0T scanner. On the other hand, the 1.5T scanner worsened the IS/N compared with the 3.0T scanner, although the difference was relatively small. Variation in BW (and hence, TE) led to a trade-off between artifact severity and IS/N. Conclusion A high FA and low FS should be used for improved artifact severity and IS/N on CE-MRA images of a stent-assisted coil. A wide BW (short TE) could improve artifact severity at the expense of the image noise.

Published

2017

6. [Assessment Tool of Image Quality for Medical Liquid-crystal Displays Using Commercially Available Digital Cameras]

Author

Junji Morishita, Shogo Tokurei, Noriyuki Hashimoto, Yusuke Bamba, Hideyuki Iwanaga, Yoichiro Ikushima, and Ogaki Mamoru

Subjects

Liquid-crystal display, business.product_category, business.industry, Computer science, Image quality, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Color, Image processing, General Medicine, Grayscale, GeneralLiterature_MISCELLANEOUS, law.invention, Liquid Crystals, law, Data Display, Image Processing, Computer-Assisted, Monochrome, RGB color model, Computer vision, Artificial intelligence, Image sensor, business, Software, ComputingMethodologies_COMPUTERGRAPHICS, Digital camera

Abstract

We developed a simplified tool for measuring image quality of medical liquid-crystal displays (LCDs) using a commercially available color digital camera. This tool implemented as a plug-in software for ImageJ (open-source image processing program) was designed to compute modulation transfer functions (MTFs) and Wiener spectra (WS) of monochrome and color LCDs from LCD photographed images captured by a camera. The intensities of the red (R), green (G), and blue (B) signals of the unprocessed image data depend on the spectral sensitivity of the image sensor used in the camera. In order to evaluate image quality based on LCD luminance, the plug-in software calibrates the RGB signals from the camera using measured luminance of the LCD and converts them into grayscale signals that correspond to the luminance of the LCD. The MTFs and WS are determined based on the line response from a one-pixel line image and the one-dimensional noise profiles acquired by scanning the uniform image using numerically synthesized slit, respectively. With this plug-in software for ImageJ, we are able to readily compute MTFs and WS of both monochrome and color LCDs from unprocessed image data of cameras. Our simplified tool is helpful to evaluate and understand the physical performance of LCDs for a large number of display users in hospitals and medical centers.

Published

2019

7. SU-E-I-62: Investigation of Dominant Factors Affecting Fatigue in Image Reading of Radiologists

Author

Junji Morishita, Hiroyuki Honda, Hidetake Yabuuchi, and Yoichiro Ikushima

Subjects

Sleeping time, medicine.medical_specialty, Younger age, business.industry, media_common.quotation_subject, Eye Fatigue, General Medicine, Audiology, Reading (process), Critical fusion frequency, Simulator sickness, Medicine, business, media_common

Abstract

Purpose: To investigate dominant factors affecting fatigue in image reading of radiologists.Methods: Two kinds of fatigue were assessed in this study. One was fatigue in the central nervous system evaluated by the critical fusion frequency (CFF). The other was eye fatigue evaluated by a score determined from a questionnaire based on the oculomotor strain subscale from the Simulator Sickness Questionnaire (SSQ). When fatigue increases, the CFF and the SSQ score indicate low and high values, respectively. The fatigue of seventeen radiologists was assessed before and after their daily image reading. The reading times and the numbers of images were different among the assessments, and ranged about 1.5 – 5.0 hours and 1,000 – 12,000 images, respectively. The assessments of fatigue were repeated four times for each radiologist on different days. Finally, the measurements of the two kinds of fatigue were analyzed in terms of years of experience, age, sleeping time the previous night, ambient light conditions, reading time, and the numbers of interpreted images, series, and cases. Results: The CFF and SSQ score after image reading were significantly lower and higher than those measured before image reading, respectively. Younger and less experienced radiologists indicated a higher level of fatigue than older and more experienced radiologists in both the CFF and the SSQ score. When radiologists interpreted clinical images for longer hours, the SSQ score tended to be higher. On the other hand, there was little incremental difference in the CFF among different lengths of reading time. No obvious differences were observed in the other items. Conclusions: Less experience with reading images, a younger age, and a longer reading time could be dominant factors affecting fatigue in image reading.

Published

2017

8. Analysis of Dominant Factors Affecting Fatigue Caused by Soft-Copy Reading

Author

Hiroshi Honda, Yoichiro Ikushima, Hidetake Yabuuchi, and Junji Morishita

Subjects

Adult, Male, medicine.medical_specialty, Visual acuity, Soft copy reading, business.industry, media_common.quotation_subject, Middle Aged, Audiology, Clinical Practice, Reading, Surveys and Questionnaires, Reading (process), Critical fusion frequency, Linear regression, medicine, Humans, Female, Radiology, Nuclear Medicine and imaging, Multiple linear regression analysis, Asthenopia, medicine.symptom, Radiology, business, media_common

Abstract

Rationale and Objectives The aim of this study was to analyze the dominant factors affecting fatigue caused by soft-copy reading to identify a method for decreasing fatigue in clinical practice. Materials and Methods Two types of fatigue—fatigue in the central nervous system and subjective visual fatigue—were evaluated using a critical fusion frequency test and a questionnaire administered to 17 male radiologists before and after soft-copy reading. Reading-induced fatigue was assumed to be affected by 20 hypothetical factors associated with personal characteristics, time required for reading, content or amount of reading, and the reading environment. We used multiple linear regression analysis with a variable selection method to detect the best combination of factors capable of expressing variations in each of the measured fatigue values. The effects of the detected (dominant) factors on fatigue were also examined based on coefficients of the dominant factors in multiple regression models. Results Fatigue in the central nervous system decreased with a higher corrected visual acuity and a higher ambient illuminance in the reading room and was also affected by the type of monitor used. Visual fatigue was relieved when there was a larger difference in the brightness of the monitor and the surfaces surrounding the monitor and tended to be more severe when glasses rather than contact lenses were worn. Conclusions Increasing the ambient illuminance, using an appropriate type of monitor, improving the corrected visual acuity, and using contact lenses rather than eyeglasses could help decrease reading-induced fatigue in male radiologists.

Published

2013

9. Visual assessment method of angular performance in medical liquid-crystal displays by use of the ANG test pattern: effect of ambient illuminance and effectiveness of modified scoring

Author

Yoichiro Ikushima, Hiroshi Akamine, Yasuhiko Nakamura, Noriyuki Hashimoto, and Junji Morishita

Subjects

Adult, Quality Control, genetic structures, Light, Computer science, Physical Therapy, Sports Therapy and Rehabilitation, Luminance, law.invention, User-Computer Interface, Young Adult, law, Visual assessment, Humans, Radiology, Nuclear Medicine and imaging, Computer vision, Lighting, Radiation, Liquid-crystal display, Data display, business.industry, Illuminance, General Medicine, Equipment Design, eye diseases, Test (assessment), Liquid Crystals, Radiographic Image Enhancement, Data Display, Artificial intelligence, business, Quality assurance

Abstract

A visual assessment method of the angular performance in medical liquid–crystal displays (LCDs) by use of the “ANG test pattern” was proposed by Badano and the International Electrotechnical Commission. Our goals were to examine the effect of ambient illuminance on the visual assessment, and to investigate whether our modified visual assessment (with the ANG test pattern) can be used instead of the conventional assessment based on luminance measurements. As the ambient illuminance increased, the original scores obtained with the visual assessment decreased. The modified score of the visual assessment was in reasonable agreement with the results of the luminance-based assessment. We conclude that the visual assessment with the ANG test pattern should be performed in a room with constant ambient illuminance, and the modified visual assessment could have the potential to be used instead of the luminance-based assessment for quality assurance of medical LCDs.

Published

2013

10. SU-E-I-43: Verification of the Usefulness of Evaluation Method for Angular Performance with the ANG Test Pattern

Author

Yoichiro Ikushima, Yasuhiko Nakamura, Noriyuki Hashimoto, Hiroshi Akamine, and Junji Morishita

Subjects

Liquid crystal devices, Liquid-crystal display, business.industry, Scoring methods, General Medicine, Viewing angle, Luminance, law.invention, Optics, law, Evaluation methods, Contrast ratio, business, Luminance meter, Mathematics

Abstract

Purpose: A simple method with the ANG test pattern to evaluate the angular performance of medical‐grade liquid‐crystal display (LCD) monitors was proposed by the International Electrotechnical Commission (IEC) in December 2009 (IEC 62563‐1). The purpose of this study was to investigate correlation between the results obtained by using the ANG test pattern and the angular performance measured by a luminance meter. We also examined the effect of ambient‐light conditions on the results evaluated by using the ANG test pattern. Methods: Three LCDs, a medical‐grade monochrome LCD (Radiforce GS220, 500 cd/m2, Eizo Nanao), a medical‐grade color LCD (Radiforce RX211, 300 cd/m2, Eizo Nanao), and a general‐purpose LCD (SyncMaster940B, 180 cd/m2, Samsung) were used in this study. The ANG test pattern was observed by eight observers under three ambient‐light conditions (0, 35, and 327 lux). Two different scoring methods were used. One is the method proposed by the IEC 62563‐1, and the other is the method modified for comparison of results measured by a luminance meter. The luminance performance was measured as a function of viewing angle, and evaluated as the relative contrast ratio. Finally, the results in terms of the modified scores were compared to the luminance performance in various viewing angles. Results: Variations of the modified scores and the relative contrast ratio as a function of viewing angle indicated a similar tendency for medical‐grade LCDs. On the other hand, the two results did not correspond well for the general‐purpose LCD. The difference between the results obtained at 0 and 327 lux was 0.11 at a maximum for all LCDs used in this study. Conclusions: The evaluation method with the ANG test pattern is considered to be useful for evaluation of the angular performance for medical‐grade LCDs taking ambient‐light conditions into consideration.

Published

2011