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2. First experience of 192Ir source stuck event during high-dose-rate brachytherapy in Japan

Author

Jun'ichi Kotoku, Shinobu Kumagai, Kenshiro Shiraishi, Hiroshi Oba, Daisuke Kon, Toshiya Saitoh, Takeshi Takata, Norikazu Arai, and Shigeru Furui

Subjects
medicine.medical_specialty, Event (computing), business.industry, medicine.medical_treatment, Treatment process, Brachytherapy, brachytherapy, Treatment room, Case Report, monte carlo simulation, High-Dose Rate Brachytherapy, Emergency response, Oncology, medicine, Medicine, Radiology, Nuclear Medicine and imaging, Medical physics, Dose rate, business, medical event
Abstract

Purpose To share the experience of an iridium-192 (192Ir) source stuck event during high-dose-rate (HDR) brachytherapy for cervical cancer. Material and methods In 2014, we experienced the first source stuck event in Japan when treating cervical cancer with HDR brachytherapy. The cause of the event was a loose screw in the treatment device that interfered with the gear reeling the source. This event had minimal clinical effects on the patient and staff; however, after the event, we created a normal treatment process and an emergency process. In the emergency processes, each staff member is given an appropriate role. The dose rate distribution calculated by the new Monte Carlo simulation system was used as a reference to create the process. Results According to the calculated dose rate distribution, the dose rates inside the maze, near the treatment room door, and near the console room were ≅ 10-2 [cGy · h-1], 10-3 [cGy · h-1], and << 10-3 [cGy · h-1], respectively. Based on these findings, in the emergency process, the recorder was evacuated to the console room, and the rescuer waited inside the maze until the radiation source was recovered. This emergency response manual is currently a critical workflow once a year with vendors. Conclusions We reported our experience of the source stuck event. Details of the event and proposed emergency process will be helpful in managing a patient safety program for other HDR brachytherapy users.

Published
2020

3. Calculating and estimating second cancer risk from breast radiotherapy using Monte Carlo code with internal body scatter for each out-of-field organ

Author

Jun'ichi Kotoku, Kenshiro Shiraishi, Takenori Kobayashi, Shinobu Kumagai, Hiroshi Oba, Takeshi Takata, Takahide Okamoto, and Norikazu Arai

Subjects
medicine.medical_specialty, Neoplasms, Radiation-Induced, medicine.medical_treatment, Monte Carlo method, Breast radiotherapy, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Breast cancer, breast cancer, second cancer risk, medicine, Humans, Radiation Oncology Physics, Radiology, Nuclear Medicine and imaging, low‐dose bath, Radiation treatment planning, Instrumentation, Monte Carlo simulation, radiotherapy, Radiation, business.industry, Phantoms, Imaging, Radiotherapy Planning, Computer-Assisted, Absolute risk reduction, Second cancer, Neoplasms, Second Primary, Radiotherapy Dosage, medicine.disease, Radiation therapy, Monte carlo code, 030220 oncology & carcinogenesis, Female, Radiology, business, Monte Carlo Method
Abstract

Out‐of‐field organs are not commonly designated as dose calculation targets during radiation therapy treatment planning, but they might entail risks of second cancer. Risk components include specific internal body scatter, which is a dominant source of out‐of‐field doses, and head leakage, which can be reduced by external shielding. Our simulation study quantifies out‐of‐field organ doses and estimates second cancer risks attributable to internal body scatter in whole‐breast radiotherapy (WBRT) with or without additional regional nodal radiotherapy (RNRT), respectively, for right and left breast cancer using Monte Carlo code PHITS. Simulations were conducted using a complete whole‐body female model. Second cancer risk was estimated using the calculated doses with a concept of excess absolute risk. Simulation results revealed marked differences between WBRT alone and WBRT plus RNRT in out‐of‐field organ doses. The ratios of mean doses between them were as large as 3.5–8.0 for the head and neck region and about 1.5–6.6 for the lower abdominal region. Potentially, most out‐of‐field organs had excess absolute risks of less than 1 per 10,000 persons‐year. Our study surveyed the respective contributions of internal body scatter to out‐of‐field organ doses and second cancer risks in breast radiotherapy on this intact female model.

Published
2020

4. Image quality improvement in cone-beam CT using the super-resolution technique

Author

Shinobu Kumagai, Kenshiro Shiraishi, Jun'ichi Kotoku, Asuka Oyama, Takeshi Takata, Yusuke Saikawa, Takenori Kobayashi, and Norikazu Arai

Subjects
Cone beam computed tomography, Mean squared error, sparse coding, Computer science, Image quality, Health, Toxicology and Mutagenesis, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, super-resolution, Pelvis, 030218 nuclear medicine & medical imaging, Image (mathematics), 03 medical and health sciences, 0302 clinical medicine, Regular Paper, Humans, Radiology, Nuclear Medicine and imaging, Computer vision, deformable image registration, Linear combination, Cone beam ct, Radiation, business.industry, Cone-Beam Computed Tomography, Superresolution, Radiographic Image Enhancement, Computer Science::Computer Vision and Pattern Recognition, 030220 oncology & carcinogenesis, cone-beam CT, Artificial intelligence, dictionary learning, business, Algorithms
Abstract

This study was conducted to improve cone-beam computed tomography (CBCT) image quality using the super-resolution technique, a method of inferring a high-resolution image from a low-resolution image. This technique is used with two matrices, so-called dictionaries, constructed respectively from high-resolution and low-resolution image bases. For this study, a CBCT image, as a low-resolution image, is represented as a linear combination of atoms, the image bases in the low-resolution dictionary. The corresponding super-resolution image was inferred by multiplying the coefficients and the high-resolution dictionary atoms extracted from planning CT images. To evaluate the proposed method, we computed the root mean square error (RMSE) and structural similarity (SSIM). The resulting RMSE and SSIM between the super-resolution images and the planning CT images were, respectively, as much as 0.81 and 1.29 times better than those obtained without using the super-resolution technique. We used super-resolution technique to improve the CBCT image quality.

Published
2018
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5. Denoising Projection Data with a Robust Adaptive Bilateral Filter in Low-Count SPECT

Author

Norikazu Arai, Kenshiro Shiraishi, Takashi Chikamatsu, Takao Okamoto, Takahide Okamoto, Jun'ichi Kotoku, Susumu Nakabayashi, Takenori Kobayashi, Shinobu Kumagai, and Tatsuro Kaminaga

Subjects
Image quality, Computer science, business.industry, Noise reduction, Butterworth filter, Filter (signal processing), 030218 nuclear medicine & medical imaging, 03 medical and health sciences, Noise, 0302 clinical medicine, 030220 oncology & carcinogenesis, Spect imaging, Computer vision, Bilateral filter, Artificial intelligence, business, Image resolution
Abstract

Low-count SPECT images are well known to be smoothed strongly by a Butterworth filter for statistical noise reduction. Reconstructed images have a low signal-to-noise ratio (SNR) and spatial resolution because of the removal of high-frequency signal components. Using the developed robust adaptive bilateral filter (RABF), which was designed as a pre-stage filter of the Butterworth filter, this study was conducted to improve SNR without degrading the spatial resolution for low-count SPECT imaging. The filter can remove noise while preserving spatial resolution. To evaluate the proposed method, we extracted SNR and spatial resolution in a phantom study. We also conducted paired comparison for visual image quality evaluation in a clinical study. Results show that SNR was increased 1.4 times without degrading the spatial resolution. Visual image quality was improved significantly (p < 0.01) for clinical low-count data. Moreover, the accumulation structure became sharper. A structure embedded in noise emerged. Our method, which denoises without degrading the spatial resolution for low-count SPECT images, is expected to increase the effectiveness of diagnosis for low-dose scanning and short acquisition time scanning.

Published
2018
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6. Fast skin dose estimation system for interventional radiology

Author

Shinobu Kumagai, Takenori Kobayashi, Shigeru Furui, Norikazu Arai, Masayoshi Yamamoto, Hideyuki Maejima, Takeshi Takata, Kenshiro Shiraishi, Jun'ichi Kotoku, and Hiroshi Kondo

Subjects
Time Factors, Computer science, Health, Toxicology and Mutagenesis, Monte Carlo method, Radiation, Radiology, Interventional, Radiation Dosage, Imaging phantom, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, medicine, Calibration, Regular Paper, Fluoroscopy, Humans, Radiology, Nuclear Medicine and imaging, Computer Simulation, MC-GPU, Monte Carlo simulation, Skin, Dosimeter, medicine.diagnostic_test, Pixel, business.industry, Phantoms, Imaging, Reproducibility of Results, Interventional radiology, Dose-Response Relationship, Radiation, 030220 oncology & carcinogenesis, IR, Nuclear medicine, business, radiation dose
Abstract

To minimise the radiation dermatitis related to interventional radiology (IR), rapid and accurate dose estimation has been sought for all procedures. We propose a technique for estimating the patient skin dose rapidly and accurately using Monte Carlo (MC) simulation with a graphical processing unit (GPU, GTX 1080; Nvidia Corp.). The skin dose distribution is simulated based on an individual patient’s computed tomography (CT) dataset for fluoroscopic conditions after the CT dataset has been segmented into air, water and bone based on pixel values. The skin is assumed to be one layer at the outer surface of the body. Fluoroscopic conditions are obtained from a log file of a fluoroscopic examination. Estimating the absorbed skin dose distribution requires calibration of the dose simulated by our system. For this purpose, a linear function was used to approximate the relation between the simulated dose and the measured dose using radiophotoluminescence (RPL) glass dosimeters in a water-equivalent phantom. Differences of maximum skin dose between our system and the Particle and Heavy Ion Transport code System (PHITS) were as high as 6.1%. The relative statistical error (2 σ) for the simulated dose obtained using our system was ≤3.5%. Using a GPU, the simulation on the chest CT dataset aiming at the heart was within 3.49 s on average: the GPU is 122 times faster than a CPU (Core i7–7700K; Intel Corp.). Our system (using the GPU, the log file, and the CT dataset) estimated the skin dose more rapidly and more accurately than conventional methods.

Published
2017

7. First experience of 192Ir source stuck event during high-dose-rate brachytherapy in Japan.

Author

Shinobu Kumagai, Norikazu Arai, Takeshi Takata, Daisuke Kon, Toshiya Saitoh, Hiroshi Oba, Shigeru Furui, Jun'ichi Kotoku, and Kenshiro Shiraishi

Subjects
*HIGH dose rate brachytherapy, *RADIOISOTOPE brachytherapy, *MONTE Carlo method, *RADIATION sources, *CERVICAL cancer
Abstract

Purpose: To share the experience of an iridium-192 (192Ir) source stuck event during high-dose-rate (HDR) brachytherapy for cervical cancer. Material and methods: In 2014, we experienced the first source stuck event in Japan when treating cervical cancer with HDR brachytherapy. The cause of the event was a loose screw in the treatment device that interfered with the gear reeling the source. This event had minimal clinical effects on the patient and staff; however, after the event, we created a normal treatment process and an emergency process. In the emergency processes, each staff member is given an appropriate role. The dose rate distribution calculated by the new Monte Carlo simulation system was used as a reference to create the process. Results: According to the calculated dose rate distribution, the dose rates inside the maze, near the treatment room door, and near the console room were ≅ 10-2 [cGy · h-1], 10-3 [cGy · h-1], and << 10-3 [cGy · h-1], respectively. Based on these findings, in the emergency process, the recorder was evacuated to the console room, and the rescuer waited inside the maze until the radiation source was recovered. This emergency response manual is currently a critical workflow once a year with vendors. Conclusions: We reported our experience of the source stuck event. Details of the event and proposed emergency process will be helpful in managing a patient safety program for other HDR brachytherapy users. [ABSTRACT FROM AUTHOR]

Published
2020
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8. SU-E-J-128: 3D Surface Reconstruction of a Patient Using Epipolar Geometry

Author

T Ishibashi, Shinobu Kumagai, Norikazu Arai, Jun'ichi Kotoku, A Haga, Takenori Kobayashi, Naoya Saotome, and Susumu Nakabayashi

Subjects
Computer science, business.industry, Epipolar geometry, 3D reconstruction, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Reprojection error, Scale-invariant feature transform, Bundle adjustment, General Medicine, Iterative reconstruction, RANSAC, law.invention, Lens (optics), law, Computer vision, Artificial intelligence, Fundamental matrix (computer vision), business, Surface reconstruction, ComputingMethodologies_COMPUTERGRAPHICS
Abstract

Purpose: To obtain a 3D surface data of a patient in a non-invasive way can substantially reduce the effort for the registration of patient in radiation therapy. To achieve this goal, we introduced the multiple view stereo technique, which is known to be used in a "photo tourism" on the internet. Methods: 70 Images were taken with a digital single-lens reflex camera from different angles and positions. The camera positions and angles were inferred later in the reconstruction step. A sparse 3D reconstruction model was locating by SIFT features, which is robust for rotation and shift variance, in each image. We then found a set of correspondences between pairs of images by computing the fundamental matrix using the eight-point algorithm with RANSAC. After the pair matching, we optimized the parameter including camera positions to minimize the reprojection error by use of bundle adjustment technique (non-linear optimization). As a final step, we performed dense reconstruction and associate a color with each point using the library of PMVS. Results: Surface data were reconstructed well by visual inspection. The human skin is reconstructed well, althogh the reconstruction was time-consuming for direct use in daily clinical practice. Conclusion: 3D reconstruction using multi view stereo geometry is a promising tool for reducing the effort of patient setup. This work was supported by JSPS KAKENHI(25861128).

Published
2014
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9. Design and fabrication of a metallic nanostamp using UV nanoimprinting and electroforming for replicating discrete track media with feature size of 35 nm.

Author

Jiseok Lim, Hyun-guk Hong, Jungjin Han, Eikhyun Cho, Young-joo Kim, Hiroshi Hatano, and Norikazu Arai

Subjects
BACK up systems, DATA warehousing, INFORMATION retrieval research, ELECTROFORMING, ELECTROMETALLURGY
Abstract

The demand for high-density data-storage media is increasing, necessitating the development of novel magnetic data-storage technologies. Among the various types of storage media, discrete track media (DTM) is an emerging technology that is being used to overcome the limitations of conventional continuous magnetic data-storage technology, such as the superparamagnetic effect and medium noise. In this study, the authors propose a method of fabricating a metallic stamp for replicating DTM patterns using ultraviolet (UV) nanoimprinting and electroforming, which are inexpensive processes that can be used to fabricate nanostructures with high precision. First, a silicon nanomaster with a feature size of 35 nm and a pitch of 70 nm was designed and fabricated by electron-beam recording and inductively coupled plasma etching. The measured pitch of the silicon master was 71.6 nm. Then, a polymeric master with a full track of nanoline patterns was then replicated from the silicon nanomaster via UV nanoimprinting. To improve the releasing properties during UV nanoimprinting, the silicon nanomaster was coated with a self-assembled monolayer of fluoroctatrichlorosilane. The measured average pitch and height of the replicated polymer master were 71.5 and 61 nm, respectively. Then, a metallic nanostamp with a thickness of 300 lm and a diameter of 80mm was fabricated using electroforming. The metallic nanostamp was successfully fabricated, and its geometrical properties were measured and analyzed. The pitch and height of fabricated nickel stamp were 71.2 and 60.3 nm, respectively. [ABSTRACT FROM AUTHOR]

Published
2013
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12. Optical Performance of Aspheric Singlets for Compact Disc Use

Author

Norikazu Arai and Tadashi Kojima

Subjects
Physics, Wavefront, Optics, Image field, business.industry, Compact disc, Focal length, Point (geometry), business, Optical disc, Refractive index
Abstract

We reported the diffracton-limited plastic aspheric singlet for CD(Compact Disc) use last year,1,2 and it is now under mass-production. We investigated the off-axis performance of bi-aspheric singlets as well as mono-aspheric singlets, and achievable size of image field from a point of view of optical design. In this study, the specifications of singlets are f=4.5mm, 4mm, NA 0.45 and NA 0.6. Optical performance is evaluated by the value of max-imum image field defined by the area of which the rms wave front error is less than 0.07X (Marechal Criterion). The performance of the design results of bi-aspheric singlets and mono-aspheric singlets under several conditions are investigated. From these results, we concluded that bi-aspheric singlets are most suitable for not only CD but also general optical disc use maintaining enough back focal length and image field.

Published
1986
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