Your search keyword '"Kawashiro A"' showing total 927 results

1. Neutralizing antibody responses and cellular responses against SARS-CoV-2 Omicron subvariants after mRNA SARS-CoV-2 vaccination in kidney transplant recipients

Author

Kawashiro, Keita, Suzuki, Rigel, Nogimori, Takuto, Tsujino, Shuhei, Iwahara, Naoya, Hirose, Takayuki, Okada, Kazufumi, Yamamoto, Takuya, Fukuhara, Takasuke, Hotta, Kiyohiko, and Shinohara, Nobuo

Published

2024

2. Neutralizing antibody responses and cellular responses against SARS-CoV-2 Omicron subvariants after mRNA SARS-CoV-2 vaccination in kidney transplant recipients

Author

Keita Kawashiro, Rigel Suzuki, Takuto Nogimori, Shuhei Tsujino, Naoya Iwahara, Takayuki Hirose, Kazufumi Okada, Takuya Yamamoto, Takasuke Fukuhara, Kiyohiko Hotta, and Nobuo Shinohara

Subjects

Medicine, Science

Abstract

Abstract Although the mRNA SARS-CoV-2 vaccine has improved the mortality rate in the general population, its efficacy against rapidly mutating virus strains, especially in kidney transplant recipients, remains unclear. We examined the anti-SARS-CoV-2 spike protein IgG antibody and neutralizing antibody titers and cellular immunity against B.1.1, BA.1, and BA.5 antigens in 73 uninfected kidney recipients and 16 uninfected healthy controls who received three doses of an mRNA SARS-CoV-2 vaccine. The IgG antibody titers were significantly lower in recipients than in healthy controls. Similarly, neutralizing antibody titers against three viral variants were significantly lower in recipients. When the virus was mutated, the neutralizing antibody titers decreased significantly in both groups. In cellular immunity analysis, the number of spike-specific CD8 + non-naïve T cells against three variants significantly decreased in recipients. Conversely, the frequency of spike-specific Th2 CD4 + T-cells in recipients was higher than that in healthy controls. Nineteen recipients and six healthy controls also received a bivalent omicron-containing booster vaccine, leading to increase IgG and neutralizing antibody titers in both groups. After that, eleven recipients and five healthy controls received XBB.1.5 monovalent vaccines, increasing the neutralizing antibody titers against not only XBB.1.5, but also EG.5.1 and BA.2.86 antigens in kidney recipients. Although kidney recipients did not gain sufficient immunity against Omicron BA.5 with the third dose of vaccine, humoral response against mutant SARS-CoV-2 lineages significantly increased after bivalent Omicron-containing booster vaccine and the XBB.1.5 monovalent vaccine. Therefore, it is important for kidney recipients to continue to administer updated vaccines.

Published

2024

3. Concurrent chemoradiotherapy using proton beams can reduce cardiopulmonary morbidity in esophageal cancer patients: a systematic review

Author

Nonaka, Tetsuo, Kawashiro, Shohei, Ishikawa, Hitoshi, Ito, Yoshinori, Nemoto, Kenji, Ishihara, Ryu, Oyama, Takashi, Oyama, Tsuneo, Kato, Ken, Kato, Hiroyuki, Kawakubo, Hirofumi, Kawachi, Hiroshi, Kuribayashi, Shiko, Kono, Koji, Kojima, Takashi, Takeuchi, Hiroya, Tsushima, Takahiro, Toh, Yasushi, Booka, Eisuke, Makino, Tomoki, Matsuda, Satoru, Matsubara, Hisahiro, Mano, Masayuki, Minashi, Keiko, Miyazaki, Tatsuya, Muto, Manabu, Yamaji, Taiki, Yamatsuji, Tomoki, Yoshida, Masahiro, and Kitagawa, Yuko

Published

2023

4. MRI Grading Scale Predicts Ambulatory Function After Radiotherapy for Metastatic Spinal Cord Compression: A Prospective Single-Institution Observational Study

Author

Yano, Natsuko, Ono, Takashi, Suzuki, Tomoto, Sugai, Yasuhiro, Yamada, Masayoshi, Kawashiro, Shohei, Harada, Mayumi, Akamatsu, Hiroko, Hagiwara, Yasuhito, Ichikawa, Mayumi, Sato, Hiraku, Takagi, Michiaki, Kanoto, Masafumi, and Nemoto, Kenji

Published

2022

5. Implementation rate and effects of multidisciplinary team meetings on decision making about radiotherapy: an observational study at a single Japanese institution

Author

Mayumi Ichikawa, Ken Uematsu, Natsuko Yano, Masayoshi Yamada, Takashi Ono, Shohei Kawashiro, Hiroko Akamatsu, Yasuhito Hagiwara, Hiraku Sato, and Kenji Nemoto

Subjects

Multidisciplinary team meetings, Tumor board, Cancer, Oncology, Radiotherapy, Decision making, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Abstract Background Cancer treatment requires a multidisciplinary approach. Therefore, multidisciplinary team meetings (MDTMs) have been widely used to determine the direction of treatment. However, no standard provisions exist for conducting MDTMs, and recommendations discussed in MDTMs are sometimes not implemented. ​This study analyzed the indications for radiotherapy discussed and recommended at MDTMs, identified the rate of radiotherapy recommendations for patients that were not implemented, and clarified the reasons at a single academic center in Japan. Methods This was a cross-sectional study that analyzed the minutes and electronic medical records of cases discussed at MDTMs held between April 2012-March 2017 at Yamagata University Hospital. We categorized how radiotherapy was initially presented at MDTMs, determined the rate of radiotherapy recommendations made through MDTMs, analyzed whether treatment recommendations were subsequently implemented, and examined the causes of non-implementation. We performed a statistical analysis to assess some clinical factors (sex, age, number of multidisciplinary team meetings, and classification of planned treatment) associated with the non-implementation of radiotherapy recommendations from MDTMs. Results A total of 1813 cases were discussed at MDTMs, of which 71% (1293 cases) were presented with treatment plans, including radiotherapy. Further, 66% (1205 cases) were recommended for radiotherapy through the MDTMs. Recommendations from MDTMs were not implemented in 7% (142 cases). The most typical reason for non-implementation was the clinician’s opinion (30%), followed by patient preferences (27%) and disease progression (20%). Change in cancer stage and improvement in symptoms were 12% and 4%, respectively. These ratios were similar each year. We could not find the factors associated with the non-implementation of radiotherapy recommendations from MDTMs. Conclusions MDTMs had a significant effect on the recommendation of radiotherapy for each patient with a tumor. The primary reason for the non-implementation of decisions made at MDTMs was the opinion of clinicians and the patient’s preference. These results were similar to previous studies. We need to establish a monitoring system where patients themselves can decide the treatments based on their choices while using the recommendations from MDTMs.

Published

2022

6. Implementation rate and effects of multidisciplinary team meetings on decision making about radiotherapy: an observational study at a single Japanese institution

Author

Ichikawa, Mayumi, Uematsu, Ken, Yano, Natsuko, Yamada, Masayoshi, Ono, Takashi, Kawashiro, Shohei, Akamatsu, Hiroko, Hagiwara, Yasuhito, Sato, Hiraku, and Nemoto, Kenji

Published

2022

7. Clinical Outcome of Sacral Chordoma Patients Treated with Pencil Beam Scanning Proton Therapy

Author

Walser, M., Bojaxhiu, B., Kawashiro, S., Tran, S., Beer, J., Leiser, D., Pica, A., Bachtiary, B., and Weber, D.C.

Published

2021

8. Usefulness of a 3D-printing air sampler for capturing live airborne bacteria and exploring the environmental factors that can influence bacterial dynamics

Author

Mori, Saaya, Ishiguro, Sakura, Miyazaki, Satoru, Okubo, Torahiko, Omori, Ryosuke, Kai, Ayako, Sugiyama, Kyohei, Kawashiro, Airi, Sumi, Masato, Thapa, Jeewan, Nakamura, Shinji, Katoh, Chietsugu, and Yamaguchi, Hiroyuki

Published

2021

9. Efficacy and feasibility of re-irradiation using carbon ions for pancreatic cancer that recurs after carbon-ion radiotherapy

Author

Hagiwara, Yasuhito, Yamada, Shigeru, Isozaki, Yuka, Takiyama, Hirotoshi, Shinoto, Makoto, Kawashiro, Shohei, Bhattacharyya, Tapesh, Nemoto, Kenji, and Tsuji, Hiroshi

Published

2021

10. Adjuvant Therapy with Immune Checkpoint Inhibitors after Carbon Ion Radiotherapy for Mucosal Melanoma of the Head and Neck: A Case-Control Study.

Author

Mizoguchi, Nobutaka, Kano, Kio, Okuda, Tatsuya, Koge, Hiroaki, Shima, Satoshi, Tsuchida, Keisuke, Takakusagi, Yosuke, Kawashiro, Shohei, Yoshida, Manatsu, Kitani, Yuka, Hashimoto, Kaori, Furukawa, Madoka, Shirai, Katsuyuki, Kamada, Tadashi, Yoshida, Daisaku, and Katoh, Hiroyuki

Subjects

MELANOMA, RESEARCH funding, CANCER relapse, HEAD & neck cancer, CARBON, MUCOUS membranes, TREATMENT effectiveness, DESCRIPTIVE statistics, COST benefit analysis, IMMUNE checkpoint inhibitors, METASTASIS, CASE-control method, QUALITY of life, NIVOLUMAB, EVALUATION

Abstract

Simple Summary: Mucosal malignant melanoma is a type of head and neck cancer with a high mortality rate. Although favorable local control has been reported when using carbon ion radiotherapy (CIRT) to treat mucosal malignant melanoma of the head and neck, the prognosis remains unsatisfactory because of the tendency for early distant metastasis. In recent years, favorable outcomes have been reported for the use of immune checkpoint inhibitors (ICIs) as adjuvant therapy for cutaneous malignant melanoma, indicating their potential applicability to mucosal malignant melanoma. In addition to achieving favorable local control with CIRT, the control of distant metastasis using ICIs is expected to prolong survival. The findings of this analysis indicate that the use of ICIs as adjuvant therapy can improve prognosis following CIRT, offering a new treatment option. The development of new treatment strategies to improve the prognosis of mucosal malignant melanoma of the head and neck (MMHN) after carbon ion radiotherapy (CIRT) is essential because of the risk of distant metastases. Therefore, our objective was to evaluate the outcomes of immune checkpoint inhibitor (ICI) treatment to justify its inclusion in the regimen after CIRT. Thirty-four patients who received CIRT as an initial treatment were included in the analysis and stratified into three groups: those who did not receive ICIs (Group A), those who received ICIs after recurrence or metastasis (Group B), and those who received ICIs as adjuvant therapy after CIRT (Group C). In total, 62% of the patients (n = 21) received ICIs. The 2-year local control and overall survival (OS) rates for all patients were 90.0% and 66.8%, respectively. The 2-year OS rates for patients in Groups A, B, and C were 50.8%, 66.7%, and 100%, respectively. No significant differences were observed between Groups A and B (p = 0.192) and Groups B and C (p = 0.112). However, a significant difference was confirmed between Groups A and C (p = 0.017). Adjuvant therapy following CIRT for MMHN may be a promising treatment modality that can extend patient survival. [ABSTRACT FROM AUTHOR]

Published

2024

11. Efficacy and feasibility of re-irradiation using carbon ions for pancreatic cancer that recurs after carbon-ion radiotherapy

Author

Yasuhito Hagiwara, Shigeru Yamada, Yuka Isozaki, Hirotoshi Takiyama, Makoto Shinoto, Shohei Kawashiro, Tapesh Bhattacharyya, Kenji Nemoto, and Hiroshi Tsuji

Subjects

Pancreatic cancer, Carbon-ion radiotherapy, Re-irradiation, Survival, Medical physics. Medical radiology. Nuclear medicine, R895-920, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background and purpose: Patients who receive carbon-ion radiotherapy (C-ion RT) for primary pancreatic cancer may experience locoregional recurrence; however, the treatment options for such patients are limited. We aimed to investigate the feasibility and efficacy of carbon-ion re-irradiation for patients with pancreatic cancer who experienced recurrence after initial C-ion RT. Materials and methods: Twenty-one patients with recurrent pancreatic cancer who underwent repeat C-ion RT between December 2010 and November 2016 at our institute were retrospectively evaluated. The sites of post-initial C-ion RT failure were in-field central in 16 patients (76.2%) and marginal in 5 (23.8%). The median doses of initial and repeat C-ion RT were both 52.8 Gy (relative biological effectiveness [RBE]). Thirteen patients (61.9%) received concurrent chemotherapy with re-irradiation, while 11 (52.4%) received adjuvant chemotherapy. Results: The median follow-up period after re-irradiation was 11 months. The 1-year local control, progression-free survival, and overall survival rates were 53.5%, 24.5%, and 48.7%, respectively. Toxicity data was obtained from the patients’ charts. Only 1 patient (4.8%) developed grade 3 acute toxicities and none developed grade ≥3 late toxicities. Univariate analysis indicated that patients who received adjuvant chemotherapy had significantly improved local control rates compared with those who did not; the 1-year local control rates were 80.0% and 0.0%, respectively (P = 0.0469). Conclusion: Repeating C-ion RT may be a reasonable option with tolerable toxicity for patients with recurrent pancreatic cancers. Adjuvant chemotherapy appears to improve the local control rate. This is the first study to examine re-irradiation using C-ion for recurrent pancreatic cancer after initial C-ion RT.

Published

2021

12. Evaluation of the availability of single‐position treatment with a rotating gantry and the validity of deformable image registration dose assessment for pancreatic cancer carbon‐ion radiotherapy

Author

Miyasaka, Yuya, primary, Kawashiro, Shohei, additional, Lee, Sung Hyun, additional, Souda, Hikaru, additional, Ichikawa, Mayumi, additional, Chai, Hongbo, additional, Ishizawa, Miyu, additional, Ono, Takuya, additional, Sato, Hiraku, additional, and Iwai, Takeo, additional

Published

2024

13. Neutralizing antibody responses and cellular responses against SARS-CoV-2 Omicron subvariant BA.5 after mRNA SARS-CoV-2 vaccination in kidney transplant recipients

Author

Kawashiro, Keita, primary, Suzuki, Rigel, additional, Nogimori, Takuto, additional, Iwahara, Naoya, additional, Hirose, Takayuki, additional, Okada, Kazufumi, additional, Yamamoto, Takuya, additional, Fukuhara, Takasuke, additional, Hotta, Kiyohiko, additional, and Shinohara, Nobuo, additional

Published

2024

14. Power Device Packaging Technology for Next Generation Railway Applications

Author

KAWASHIRO, Fumiyoshi, primary

Published

2024

15. Comparison of the effects of radiotherapy doses of 50.4 Gy and 60 Gy on outcomes of chemoradiotherapy for thoracic esophageal cancer: subgroup analysis based on the Comprehensive Registry of Esophageal Cancer in Japan from 2009 to 2011 by the Japan Esophageal Society

Author

Nemoto, Kenji, Kawashiro, Shohei, Toh, Yasushi, Numasaki, Hodaka, Tachimori, Yuji, Uno, Takashi, Jingu, Keiichi, and Matsubara, Hisahiro

Published

2020

16. Effect of copper over-pad metallization on reliability of aluminum wire bonds

Author

Kawashiro, Fumiyoshi, Takao, Kentaro, Kobayashi, Tatsuya, Yoshikawa, Masaaki, Miyake, Eitaro, Endo, Yoshiki, Tonedachi, Tatsuo, and Nishikawa, Hiroshi

Published

2019

17. Carbon-ion radiotherapy for locally recurrent rectal cancer: Japan Carbon-ion Radiation Oncology Study Group (J-CROS) Study 1404 Rectum

Author

Shinoto, Makoto, Yamada, Shigeru, Okamoto, Masahiko, Shioyama, Yoshiyuki, Ohno, Tatsuya, Nakano, Takashi, Nemoto, Kenji, Isozaki, Yuka, Kawashiro, Shohei, Tsuji, Hiroshi, and Kamada, Tadashi

Published

2019

18. Current status of remote radiotherapy treatment planning in Japan: findings from a national survey

Author

Saito, Masahide, primary, Tamamoto, Tetsuro, additional, Kawashiro, Shohei, additional, Umezawa, Rei, additional, Matsuda, Masaki, additional, Tohyama, Naoki, additional, Katsuta, Yoshiyuki, additional, Kanai, Takayuki, additional, Nemoto, Hikaru, additional, and Onishi, Hiroshi, additional

Published

2023

19. A Study of Adhesion Enhancement for Porous Nickel Plating Treated Surface

Author

Tsai, Yu-Ning, primary, Fukuda, Chisa, additional, Takahashi, Koya, additional, Takahashi, Yoshiko, additional, Kawashiro, Fumiyoshi, additional, and Noda, Takamitsu, additional

Published

2023

20. Multi-institutional Study of Carbon-ion Radiotherapy for Locally Advanced Pancreatic Cancer: Japan Carbon-ion Radiation Oncology Study Group (J-CROS) Study 1403 Pancreas

Author

Kawashiro, Shohei, Yamada, Shigeru, Okamoto, Masahiko, Ohno, Tatsuya, Nakano, Takashi, Shinoto, Makoto, Shioyama, Yoshiyuki, Nemoto, Kenji, Isozaki, Yuka, Tsuji, Hiroshi, and Kamada, Tadashi

Published

2018

21. The development of a rapid, high-throughput neutralization assay using a SARS-CoV-2 reporter

Author

Suzuki, Rigel, Kamiyama, Akifumi, Ito, Hayato, Kawashiro, Keita, Tomiyama, Takahiro, Tamura, Tomokazu, Suzuki, Saori, Yoshizumi, Tomoharu, Hotta, Kiyohiko, and Fukuhara, Takasuke

Published

2024

22. Neutralizing antibody responses and cellular responses against severe acute respiratory syndrome coronavirus 2 omicron subvariant BA.5 after an mRNA severe acute respiratory syndrome coronavirus 2 vaccine dose in kidney transplant recipients

Author

Kawashiro, Keita, primary, Suzuki, Rigel, additional, Nogimori, Takuto, additional, Iwahara, Naoya, additional, Hirose, Takayuki, additional, Okada, Kazufumi, additional, Yamamoto, Takuya, additional, Fukuhara, Takasuke, additional, Hotta, Kiyohiko, additional, and Shinohara, Nobuo, additional

Published

2023

23. Current status of remote radiotherapy treatment planning in Japan: findings from a national survey.

Author

Saito, Masahide, Tamamoto, Tetsuro, Kawashiro, Shohei, Umezawa, Rei, Matsuda, Masaki, Tohyama, Naoki, Katsuta, Yoshiyuki, Kanai, Takayuki, Nemoto, Hikaru, and Onishi, Hiroshi

Subjects

RADIOTHERAPY treatment planning, LINEAR accelerators, TELECOMMUTING

Abstract

The purpose of this study was to investigate the status of remote-radiotherapy treatment planning (RRTP) in Japan through a nationwide questionnaire survey. The survey was conducted between 29 June and 4 August 2022, at 834 facilities in Japan that were equipped with linear accelerators. The survey utilized a Google form that comprised 96 questions on facility information, information about the respondent, utilization of RRTP between facilities, usage for telework and the inclination to implement RRTPs in the respondent's facility. The survey analyzed the utilization of the RRTP system in four distinct implementation types: (i) utilization as a supportive facility, (ii) utilization as a treatment facility, (iii) utilization as a teleworker outside of the facility and (iv) utilization as a teleworker within the facility. The survey response rate was 58.4% (487 facilities responded). Among the facilities that responded, 10% (51 facilities) were implementing RRTP. 13 served as supportive facilities, 23 as treatment facilities, 17 as teleworkers outside of the facility and 5 as teleworkers within the facility. In terms of system usage between supportive and treatment facilities, 70–80% of the participants utilized the system for emergencies or as overtime work for external workers. A substantial number of facilities (38.8%) reported that they were unfamiliar with RRTP implementation. The survey showed that RRTP utilization in Japan is still limited, with a significant number of facilities unfamiliar with the technology. The study highlights the need for greater understanding and education about RRTP and financial funds of economical compensation. [ABSTRACT FROM AUTHOR]

Published

2024

24. Photodissociative Modules that Control Dual‐Emission Properties in Donor‐π‐Acceptor Organoborane Fluorophores

Author

Kawashiro, Midori, primary, Mori, Tatsuya, additional, Ito, Masato, additional, Ando, Naoki, additional, and Yamaguchi, Shigehiro, additional

Published

2023

25. Photodissociative Modules that Control Dual‐Emission Properties in Donor–π–Acceptor Organoborane Fluorophores

Author

Midori Kawashiro, Tatsuya Mori, Masato Ito, Naoki Ando, and Shigehiro Yamaguchi

Subjects

General Chemistry, General Medicine, Catalysis

Published

2023

26. Comparative metabolic study between two selective estrogen receptor modulators, toremifene and tamoxifen, in human liver microsomes

Author

Watanabe, Miyuki, Watanabe, Noriko, Maruyama, Sakiko, and Kawashiro, Takashi

Published

2015

27. Effect of Aluminum Clad Cu Wire Bonds on Power Cycle Lifetime for High Current Density Power Module Packages

Author

Fumiyoshi KAWASHIRO, Masaaki YOSHIKAWA, Eitaro MIYAKE, Yoshiki ENDO, Tatsuo TONEDACHI, and Hiroshi NISHIKAWA

Published

2022

28. Clinical Outcome of Sacral Chordoma Patients Treated with Pencil Beam Scanning Proton Therapy

Author

D. Leiser, Sisi Tran, Barbara Bachtiary, M. Walser, Damien C. Weber, Jürgen Beer, Shohei Kawashiro, Alessia Pica, and B. Bojaxhiu

Subjects

medicine.medical_specialty, medicine.medical_treatment, 610 Medicine & health, Biopsy, Chordoma, Proton Therapy, Humans, Medicine, Radiology, Nuclear Medicine and imaging, Pencil-beam scanning, Proton therapy, Retrospective Studies, Univariate analysis, Spinal Neoplasms, medicine.diagnostic_test, business.industry, Common Terminology Criteria for Adverse Events, Tumor Burden, Radiation therapy, Oncology, Cohort, Radiology, Neoplasm Recurrence, Local, business, Sacral Chordoma

Abstract

AIMS Sacral chordomas are locally aggressive, radio-resistant tumours. Proton therapy has the potential to deliver high radiation doses, which may improve the therapeutic ratio when compared with conventional radiotherapy. We assessed tumour control and radiation-induced toxicity in a cohort of sacral chordoma patients treated with definitive or postoperative pencil beam scanning proton therapy. METHODS AND MATERIALS Sixty patients with histologically proven sacral chordoma treated between November 1997 and October 2018 at the Paul Scherrer Institute with postoperative (n = 50) or definitive proton therapy (n = 10) were retrospectively analysed. Only 10 (17%) patients received combined photon radiotherapy and proton therapy. Survival rates were calculated using the Kaplan-Meier actuarial method. The Log-rank test was used to compare different functions for local control, freedom from distant recurrence and overall survival. Acute and late toxicity were assessed according to the Common Terminology Criteria for Adverse Events (CTCAE) v5.0. RESULTS The median follow-up was 48 months (range 4-186). Local recurrence occurred in 20 (33%) patients. The 4-year local control, freedom from distant recurrence and overall survival rates were 77%, 89% and 85%, respectively. On univariate analysis, subtotal resection/biopsy (P = 0.02), tumour extension restricted to bone (P = 0.01) and gross tumour volume >130 ml (P = 0.04) were significant predictors for local recurrence. On multivariate analysis, tumour extension restricted to bone (P = 0.004) and gross total resection (P = 0.02) remained independent favourable prognostic factors for local recurrence. Twenty-four (40%), 28 (47%) and eight (11%) patients experienced acute grade 1, 2 and 3 toxicities, respectively. The 4-year late toxicity-free survival was 91%. Two patients developed secondary malignancies to the bladder 3-7 years after proton therapy. CONCLUSIONS Our data indicate that pencil beam scanning proton therapy for sacral chordomas is both safe and effective. Gross total resection, tumour volume

Published

2021

29. Prediction of the minimum spacer thickness required for definitive radiotherapy with carbon ions and photons for pelvic tumors: an in silico planning study using virtual spacers

Author

Yasuhito Hagiwara, Shohei Kawashiro, Takayuki Kanai, Hikaru Souda, Yuya Miyasaka, Kenji Nemoto, Mayumi Ichikawa, Mayumi Harada, Hiroko Akamatsu, Masayoshi Yamada, Natsuko Yano, Rei Matsueda, Hiraku Sato, and Ken Uematsu

Subjects

Photon, Health, Toxicology and Mutagenesis, medicine.medical_treatment, Planning target volume, carbon-ion radiotherapy (C-ion RT), Oncology/Medicine, 030218 nuclear medicine & medical imaging, planning study, 03 medical and health sciences, 0302 clinical medicine, Planning study, Linear regression, medicine, spacer, Radiology, Nuclear Medicine and imaging, intensity-modulated radiotherapy (IMRT), Definitive radiotherapy, Physics, Radiation, business.industry, Minimum distance, medicine.disease, Radiation therapy, in silico, 030220 oncology & carcinogenesis, AcademicSubjects/SCI00960, Pelvic tumor, AcademicSubjects/MED00870, Nuclear medicine, business

Abstract

We aimed to predict the minimum distance between a tumor and the gastrointestinal (GI) tract that can satisfy the dose constraint by creating simulation plans with carbon-ion (C-ion) radiotherapy (RT) and photon RT for each case assuming insertion of virtual spacers of various thicknesses. We enrolled 55 patients with a pelvic tumor adjacent to the GI tract. Virtual spacers were defined as the overlap volume between the GI tract and the volume expanded 7–17 mm from the gross tumor volume (GTV). Simulation plans (70 Gy in 35 fractions for at least 95% of the planning target volume [PTV]) were created with the lowest possible dose to the GI tract under conditions that meet the dose constraints of the PTV. We defined the minimum thickness of virtual spacers meeting D2 cc of the GI tract

Published

2021

30. Efficacy and feasibility of re-irradiation using carbon ions for pancreatic cancer that recurs after carbon-ion radiotherapy

Author

Hagiwara, Yasuhito, Yamada, Shigeru, Isozaki, Yuka, Takiyama, Hirotoshi, Shinoto, Makoto, Kawashiro, Shohei, Bhattacharyya, Tapesh, Nemoto, Kenji, Tsuji, Hiroshi, Yasuhito, Hagiwara, Shigeru, Yamada, Yuka, Isozaki, Hirotoshi, Takiyama, Makoto, Shinoto, Shohei, Kawashiro, Kenji, Nemoto, Hiroshi, Tsuji, Hagiwara, Yasuhito, Yamada, Shigeru, Isozaki, Yuka, Takiyama, Hirotoshi, Shinoto, Makoto, Kawashiro, Shohei, Bhattacharyya, Tapesh, Nemoto, Kenji, Tsuji, Hiroshi, Yasuhito, Hagiwara, Shigeru, Yamada, Yuka, Isozaki, Hirotoshi, Takiyama, Makoto, Shinoto, Shohei, Kawashiro, Kenji, Nemoto, and Hiroshi, Tsuji

Abstract

Background and purpose: Patients who receive carbon-ion radiotherapy (C-ion RT) for primary pancreatic cancer may experience locoregional recurrence; however, the treatment options for such patients are limited. We aimed to investigate the feasibility and efficacy of carbon-ion re-irradiation for patients with pancreatic cancer who experienced recurrence after initial C-ion RT. Materials and methods: Twenty-one patients with recurrent pancreatic cancer who underwent repeat Cion RT between December 2010 and November 2016 at our institute were retrospectively evaluated. The sites of post-initial C-ion RT failure were in-field central in 16 patients (76.2%) and marginal in 5 (23.8%). The median doses of initial and repeat C-ion RT were both 52.8 Gy (relative biological effectiveness [RBE]). Thirteen patients (61.9%) received concurrent chemotherapy with re-irradiation, while 11 (52.4%) received adjuvant chemotherapy. Results: The median follow-up period after re-irradiation was 11 months. The 1-year local control, progression-free survival, and overall survival rates were 53.5%, 24.5%, and 48.7%, respectively. Toxicity data was obtained from the patients’ charts. Only 1 patient (4.8%) developed grade 3 acute toxicities and none developed grade 3 late toxicities. Univariate analysis indicated that patients who received adjuvant chemotherapy had significantly improved local control rates compared with those who did not; the 1-year local control rates were 80.0% and 0.0%, respectively (P = 0.0469). Conclusion: Repeating C-ion RT may be a reasonable option with tolerable toxicity for patients with recurrent pancreatic cancers. Adjuvant chemotherapy appears to improve the local control rate. This is the first study to examine re-irradiation using C-ion for recurrent pancreatic cancer after initial C-ion RT.

Published

2020

31. Attitudes of Healthcare Students on Gross Anatomy Laboratory Sessions

Author

Kawashiro, Yukiko, Anahara, Reiko, Kohno, Toshihiko, Mori, Chisato, and Matsuno, Yoshiharu

Abstract

At Chiba University, gross anatomy laboratory sessions ("laboratories") are required for physical therapy students. Though most physical therapy schools require their students to participate in laboratories so that they will better understand the structure of the human body, few data exist on the value of these laboratories specifically for physical therapy students. We administered questionnaires to physical therapy undergraduate students both before and after they participated in laboratories. Questionnaire items focused on student attitudes toward the laboratories and on human life and dignity. Data from 83 students were analyzed, with the following results: (1) 74.7% of students had a positive attitude about attending laboratories before doing so; (2) with few exceptions, students' attitudes about upcoming laboratories grew more positive after experiencing the laboratory work (P less than 0.001); (3) laboratories caused students to contemplate the topics of human life and dignity; and (4) 83.1% of students hoped to participate in laboratories at least four times. These results indicate that laboratories reinforce physical therapy students' positive attitudes about laboratory learning and promote student reflection on human life and dignity. This study provides support for the implementation of multiple laboratory sessions using cadavers into a uniform curriculum for physical therapy students in Japan. (Contains 4 tables and 2 figures.)

Published

2009

32. Efficacy and feasibility of re-irradiation using carbon ions for pancreatic cancer that recurs after carbon-ion radiotherapy

Author

Yuka Isozaki, Shohei Kawashiro, Hirotoshi Takiyama, Kenji Nemoto, Shigeru Yamada, Hiroshi Tsuji, Makoto Shinoto, Tapesh Bhattacharyya, and Yasuhito Hagiwara

Subjects

Re-Irradiation, Survival, medicine.medical_treatment, R895-920, D2cc, dose covering 2 cc, GS, gemcitabine plus S1, Gastroenterology, 030218 nuclear medicine & medical imaging, Medical physics. Medical radiology. Nuclear medicine, 0302 clinical medicine, Original Research Article, CTV, clinical target volume, IMRT, intensity-modulated radiotherapy, RC254-282, Univariate analysis, medicine.diagnostic_test, C-ion RT, carbon-ion radiotherapy, GTV, gross tumour volume, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, PFS, progression-free survival, CT, computed tomography, Oncology, LAPC, locally advanced pancreatic cancer, 030220 oncology & carcinogenesis, S-1, tegafur, gimeracil, and oteracil, Toxicity, RBE, relative biological effectiveness, LET, linear energy transfer, PTV, planning target volume, medicine.medical_specialty, EBRT, external beam radiation therapy, SBRT, stereotactic body radiation therapy, OS, overall survival, 03 medical and health sciences, Internal medicine, Pancreatic cancer, medicine, Radiology, Nuclear Medicine and imaging, Carbon-ion radiotherapy, Progression-free survival, 18F-FDG-PET, 18F-fluorodeoxyglucose positron emission tomography, business.industry, Magnetic resonance imaging, medicine.disease, Radiation therapy, Carbon Ion Radiotherapy, Re-irradiation, LC, local control, business, MRI, magnetic resonance imaging

Abstract

Highlights • Carbon-ion re-irradiation for pancreatic cancer; feasibility and efficacy. • Adjuvant chemotherapy improve local control of re-irradiation using carbon ions. • Carbon-ion radiotherapy for recurrent pancreatic cancer; reasonable option., Background and purpose Patients who receive carbon-ion radiotherapy (C-ion RT) for primary pancreatic cancer may experience locoregional recurrence; however, the treatment options for such patients are limited. We aimed to investigate the feasibility and efficacy of carbon-ion re-irradiation for patients with pancreatic cancer who experienced recurrence after initial C-ion RT. Materials and methods Twenty-one patients with recurrent pancreatic cancer who underwent repeat C-ion RT between December 2010 and November 2016 at our institute were retrospectively evaluated. The sites of post-initial C-ion RT failure were in-field central in 16 patients (76.2%) and marginal in 5 (23.8%). The median doses of initial and repeat C-ion RT were both 52.8 Gy (relative biological effectiveness [RBE]). Thirteen patients (61.9%) received concurrent chemotherapy with re-irradiation, while 11 (52.4%) received adjuvant chemotherapy. Results The median follow-up period after re-irradiation was 11 months. The 1-year local control, progression-free survival, and overall survival rates were 53.5%, 24.5%, and 48.7%, respectively. Toxicity data was obtained from the patients’ charts. Only 1 patient (4.8%) developed grade 3 acute toxicities and none developed grade ≥3 late toxicities. Univariate analysis indicated that patients who received adjuvant chemotherapy had significantly improved local control rates compared with those who did not; the 1-year local control rates were 80.0% and 0.0%, respectively (P = 0.0469). Conclusion Repeating C-ion RT may be a reasonable option with tolerable toxicity for patients with recurrent pancreatic cancers. Adjuvant chemotherapy appears to improve the local control rate. This is the first study to examine re-irradiation using C-ion for recurrent pancreatic cancer after initial C-ion RT.

Published

2021

33. MRI Grading Scale Predicts Ambulatory Function After Radiotherapy for Metastatic Spinal Cord Compression: A Prospective Single-Institution Observational Study

Author

Natsuko Yano, Takashi Ono, Tomoto Suzuki, Yasuhiro Sugai, Masayoshi Yamada, Shohei Kawashiro, Mayumi Harada, Hiroko Akamatsu, Yasuhito Hagiwara, Mayumi Ichikawa, Hiraku Sato, Michiaki Takagi, Masafumi Kanoto, and Kenji Nemoto

Subjects

Oncology

Abstract

Although magnetic resonance imaging (MRI) is an important modality for the diagnosis of metastatic spinal cord compression (MSCC), there are only a few reports on MSCC findings and symptoms after radiotherapy. We aimed to reveal the factors related to ambulatory function after treatment, including the MRI findings, in a prospective observational study.Patients with suspected MSCC who were treated with radiotherapy were included in this study. Orthopedic surgeons evaluated the neurological function according to the Frankel grade. All patients underwent spinal MRI, and the degree of spinal cord compression was assessed by a radiologist and a radiation oncologist using an MRI grading scale. One month after treatment, orthopedic surgeons reassessed the Frankel grade. Twenty-three patients who were evaluated 1 month after radiotherapy were included in the analysis.Before radiotherapy, 17 patients were ambulatory and six were unable to walk. Furthermore, 13 patients were diagnosed with grade 3 compression on MRI (spinal cord compression with no cerebrospinal fluid seen on axial T2-weighted imaging). Patients with grade 3 MSCC were significantly more likely to be non-ambulatory at 1 month.The MRI grading scale for MSCC may be a prognostic factor for ambulatory function after radiotherapy. MRI findings could aid in determining the indication for radiotherapy.

Published

2022

34. Carbon‐ion radiotherapy for isolated para‐aortic lymph node recurrence from colorectal cancer

Author

Isozaki, Yuka, Yamada, Shigeru, Kawashiro, Shohei, Yasuda, Shigeo, Okada, Naomi, Ebner, Daniel, Tsuji, Hiroshi, Kamada, Tadashi, and Matsubara, Hisahiro

Published

2017

35. Construction of Hyperelliptic Curves with CM and Its Application to Cryptosystems.

Author

Jinhui Chao, Kazuto Matsuo, Hiroto Kawashiro, and Shigeo Tsujii

Published

2000

36. Construction of Hyperelliptic Curves with CM and Its Application to Cryptosystems

Author

Chao, Jinhui, Matsuo, Kazuto, Kawashiro, Hiroto, Tsujii, Shigeo, Goos, Gerhard, editor, Hartmanis, Juris, editor, van Leeuwen, Jan, editor, and Okamoto, Tatsuaki, editor

Published

2000

37. Hippocampal Sparing Radiotherapy in adults with Primary Brain Tumors: A comparative planning and dosimetric study using IMPT, IMRT and 3DCRT

Author

Aka, P, Taylor, R, Hugtenburg, R, Lambert, J, Powell, J, Bevolo, T, Gao, M, Gondi, V, Hartsell, W.H, Bolsi, A, Beer, J, Belosi, M.F, Siewert, D, Lomax, A.J, Weber, D.C, Huang, Y.J, Huang, C.C, Chao, P.J, Liu, C, Shang, H, Ding, X, Wang, Y, Mammar, H, Froelich, Sébastien, Alapetite, Claire, Bolle, Stéphanie, Calugaru, Valentin, Feuvret, Loic, Helfre, Sylvie, Champion, Laurence, Goudjil, Farid, Dendal, Remi, Engelholm, S.A, Munck Af Rosenschold, P, Kristensen, I, Smulders, B, Muhic, A, Alkner, S, Jacob, E, Engelholm, S, Aljabab, S, Lui, A, Wong, T, Liao, J, Laramore, G, Parvathaneni, U, Kharouta, M, Pidikiti, R, Jesseph, F, Smith, M, Dobbins, D, Mattson, D, Choi, S, Mansur, D, Machtay, M, Bhatt, A, Lütgendorf-Caucig, C, Dunavölgyi, R, Georg, P, Perpar, A, Fussl, C, Konstantinovic, R, Ulrike, M, Piero, F, Eugen, H, Vidal, M, Gerard, A, Barnel, C, Maneval, D, Herault, J, Claren, A, Doyen, J, Dendale, R, Toutee, A, Pasquie, I, Goudjil, F, Lumbroso Lerouic, L, Levy, C, Desjardins, L, Cassoux, N, Elisei, G, Pella, A, Calvi, G, Ricotti, R, Tagaste, B, Valvo, F, Ciocca, M, Via, R, Mastella, E, Baroni, G, Saotome, N, Yonai, S, Makishima, H, Hara, Y, Inaniwa, T, Sakama, M, Kanematsu, N, Tsuji, H, Furukawa, T, Shirai, T, Sauerwein, W, Finger, P.T, Gallie, B, Gavrylyuk, Y, Thariat, J, Salleron, J, Maschi, C, Fevrier, E, Caujolle, J.P, Hofverberg, P, Angellier, G, Peyrichon, M.L, Breneman, J, Esslinger, H, Pater, L, Vatner, R, Habrand, J.L, Stefan, D, Lesueur, P, Kao, W, Véla, A, Geffrelot, J, Tessonnier, T, Balosso, J, Mahé, M.A, Lim, P.S, Rompokos, V, Chang, Y.C, Royle, G, Gaze, M, Gains, J, Vennarini, S, Francesco, F, Rombi, B, Amichetti, M, Schwarz, M, Lorentini, S, Mee, T, Burnet, N.G, Crellin, A, Kirkby, N.F, Smith, E, Kirkby, K.J, Roggio, M, Buwenge, M, Melchionda, F, Ammendolia, I, Ronchi, L, Cammelli, S, Morganti, A.G, Youn, S.H, Kim, J.Y, Park, H.J, Shin, S.H, Lee, S.H, Hong, E.K, Czerska, K, Winczura, P, Wejs-Maternik, J, Blukis, A, Antonowicz-Szydlowska, M, Rucinski, A, Olko, P, Badzio, A, Kopec, R, Franceschini, D, Cozzi, L, De Rose, F, Meattini, I, Fogliata, A, Cozzi, S, Becherini, C, Tomatis, S, Livi, L, Scorsetti, M, Garda, A, Fattahi, S, Michel, A, Mutter, R, Yan, E, Park, S, Corbin, K, Giap, H, LAM, W.W, Geng, H, Tang, K.K, Lee, T.Y, Kong, C.W, Yang, B, Chiu, T.L, Cheung, K.Y, Yu, S.K, Ma, M, Gao, X, Zhao, Z, Zhao, B, Mullikin, T, Routman, D, Yu, J, Greco, K, Fagundes, M, Shan, J, Daniels, T, Rule, W, DeWees, T, Hu, Y, Bues, M, Sio, T, Liu, W, chenbin, L, yuehu, P, yuenan, W, Bai, Y, Gao, X.S, Zhao, Z.L, Ma, M.W, Ren, X.Y, Salem, A, Woolf, D, Aznar, M, Azadeh, A, Eccles, C, Charlwood, F, Faivre-Finn, C, Teoh, S, Fiorini, F, George, B, Vallis, K, Van den Heuvel, F, Huang, E.Y, Juang, P.J, Pan, S, Hawkins, M, Clarke, M, Lowe, M, Radhakrishna, G, Schaub, S, Bowen, S, Nyflot, M, Chapman, T, Apisarnthanarax, S, Vitek, P, Kubes, J, Vondracek, V, Vinakurau, S, Zamecnik, L, Vitolo, V, Barcellini, A, Brugnatelli, S, Cobianchi, L, Vanoli, A, Fossati, P, Facoetti, A, Dionigi, P, Orecchia, R, Iannalfi, A, Vischioni, B, Ronchi, S, D’Ippolito, E, Petrucci, R, Yamaguchi, H, Honda, M, Hamada, K, Todate, Y, Seto, I, Suzuki, M, Wada, H, Murakami, M, Yu, Z, Zheng, W, Lien-Chun, L, Zhengshan, H, Qing, Z, Jiade, L, Guoliang, J, Fiore, M.R, D'Ippolito, E, Fukumitsu, N, Hayakawa, T, Yamashita, T, Mima, M, Demizu, Y, Suzuki, T, Soejima, T, Hartsell, W, Collins, S, Casablanca, V, Mihalcik, S, Brennan, E, Van Nispen, A, Corbett, A, Mohammed, N, Lee, P, van Nispen, A, Liang, Y.S, Mein, S, Kopp, B, Choi, K, Haberer, T, Debus, J, Abdollahi, A, Mairani, A, Ogino, H, Iwata, H, Hashimoto, S, Nakajima, K, Hattori, Y, Nomura, K, Shibamoto, Y, Li, P, Wu, S, Deng, L, Zhang, G, Zhang, Q, Fu, S, Yang, Z, Zhang, Y, Sasaki, R, Okimoto, T, Akasaka, H, Miyawaki, D, Yoshida, K, Wang, T, Komatsu, S, Fukumoto, T, Shuang, W, Xin, C, zhengshan, H, Shen, F, Vorobyov, N, Andreev, G, Martynova, N, Lyubinsky, A, Kubasov, A, Chen, J, Ma, N, Lu, Y, Zhao, J, Shahnazi, K, Lu, J, Jiang, G, Mao, J, Walser, M, Bojaxhiu, B, Kawashiro, S, Tran, S, Pica, A, Bachtiary, B, Weber, D, Gaito, S, Abravan, A, Richardson, J, Colaco, R, Saunders, D, Brennan, B, Petersen, I, Ahmed, S, Laack, N, Mizoe, J.E, Iizumi, T, Minohara, S, Kusano, Y, Matsuzaki, Y, Tsuchida, K, Serizawa, I, Yoshida, D, Katoh, H, Sakurai, H, Tujii, H, Kim, T.H, Park, J.W, Bo Hyun, K, Hyunjung, K, Sung Ho, M, Sang Soo, K, Sang Myung, W, Young-Hwan, K, Woo Jin, L, Dae Yong, K, Hong, Z, Wang, Z, Koroulakis, A, Molitoris, J, Kaiser, A, Hanna, N, Jiang, Y, Regine, W, DeCesaris, C.M, Choi, J.I, Carr, S.R, Burrows, W.M, Regine, W.F, Simone, C.B, Aihara, T, Hiratsuka, J, Kamitani, N, Higashino, M, Kawata, R, Kumada, H, Ono, K, Chou, Y.C, Dippolito, E, Bonora, M, Alterio, D, Gandini, S, Jereczeck, B.A, Kelly, C, Dobeson, C, Iqbal, S, Chatterjee, S, Hague, C, Li, T, Lin, A, Lukens, J, Slevin, N, Thomson, D, van Herk, M, West, C, Teo, K, Jeans, E, Manzar, G, Patel, S, Ma, D, Lester, S, Foote, R, Friborg, J, Jensen, K, Hansen, C.R, Andersen, E, Andersen, M, Eriksen, J.G, Johansen, J, Overgaard, J, Grau, C, Dědečková, K, Vítek, P, Ondrová, B, Sláviková, S, Zapletalová, S, Zapletal, R, Vondráček, V, Rotnáglová, E, Kwanghyun, J, Woojin, L, Dongryul, O, Yong Chan, A, Paudel, N, Schmidt, S, Ruckman, M, Gans, S, Stauffer, M, Helenowski, I, Patel, U, Samant, S, Gentile, M, Damico, N, Yao, M, Shuja, M, Routman, D.M, Foote, R.L, Garces, Y.I, Neben-Wittich, M.A, Patel, S.H, McGee, L.A, Harmsen, W.S, Ma, D.J, Sommat, K, Tong, A.K.T, Hu, J, Ong, A.L.K, Wang, F, Sin, S.Y, Wee, T.S, Tan, W.K, Fong, K.W, Soong, Y.L, Wallace, N, Fredericks, S, Fitzgerald, T, Vernimmen, F, Petringa, G, Cirrone, P, Agosteo, S, Attili, A, Cammarata, F.P, Cuttone, G, Conte, V, La Tessa, C, Manti, L, Rosenfeld, A, Lojacono, P.A, Hennings, F, Fattori, G, Peroni, M, Lomax, A, Hrbacek, J, Nguyen, H.G, Bach Cuadra, M, Sznitman, R, Schalenbourg, A, Pflaeger, A, Weber, A, Seidel, S, Stark, R, Heufelder, J, Mailhot Vega, R, Bradley, J, Lockney, N, Macdonald, S, Liang, X, Mazal, A, Mendenhall, N, Sher, D, Korreman, S.S, Andreasen, S, Petersen, J.B, Offersen, B.V, Gergelis, K, Jethwa, K, Whitaker, T, Shiraishi, S, Shumway, D, Press, R, Shelton, J, Zhang, C, Dang, Q, Tian, S, Shu, T, Seldon, C, Jani, A, Zhou, J, McDonald, M, Gort, E, Beukema, J.C, Spijkerman-Bergsma, M.J, Both, S, Langendijk, J.A, Matysiak, W.P, Brouwer, C.L, Baba, K, Numajiri, H, Murofushi, K, Oshiro, Y, Mizumoto, M, Onishi, K, Nonaka, T, Ishikawa, H, Okumura, T, Dominietto, M, Adam, K, Ahlhelm, F.J, Safai, S, Abdul-Jabbar, L, Song, J, Tseng, Y. D, Rockhill, J, Fink, J, Chang, L, Halasz, L. M, Guntrum, F, Steinmeier, T, Nagaraja, S, Jazmati, D, Geismar, D, Timmermann, B, Plaude, S, Lynch, C, Petras, K, Chang, J, Grimm, S, Lukas, R, Kumthekar, P, Merrell, R, Kalapurakal, J, Gross, J, Hoppe, B, Simone, C, Nichols, R.C, Pham, D, Mohindra, P, Chon, B, Morris, C, Li, Z, Flampouri, S, Powell, J.R, Murray, L, Burnet, N, Fernandez, S, Lingard, Z, McParland, L, O’Hara, D, Whitfield, G, Short, S.C, Guan, X, Gao, J, Hu, W, Yang, J, Xing, X, Hu, C, Kong, L, Zou, Z, Thomas, H, Sasidharan, B.K, Rengan, R, Zeng, J, Busold, S, Heese, J, Cerello, P, Bottura, L, Felcini, E, Ferrero, V, Monaco, V, Pennazio, F, de Rijk, G, Chang, H, KyungDon, C, Byunghun, H, Gyuseong, C, Chilukuri, S, Jalali, R, Panda, P.K, Korn, G, Larosa, G, Russo, A, Schillaci, F, Scuderi, V, Margarone, D, Fredén, E, Almhagen, E, Mejaddam, Y, Siegbahn, A, Guardiola, C, Gómez, F, Prieto-Pena, J, Fleta, C, De Marzi, L, Prezado, Y, Kabolizadeh, P, Reitemeier, P, Navin, M, Hamstra, D, Anderson, J, Stevens, C, Bartolucci, L, Adrien, C, Lejars, M, Vaillant, M, Fourquet, A, Robillard, M, Costa, E, Kirova, Y, Kolano, A.M, Degiovanni, A, Farr, J.B, Kundel, S, Pinto, M, Kurichiyanil, N, Würl, M, Englbrecht, F, Hillbrand, M, Schreiber, J, Parodi, K, Kurup, A, Magliari, A, Perez, J, Masui, S, Asano, T, Owen, H, Burt, G, Apsimon, R, Pitman, S, Popovici, M.A, Vasilache, R, Safavi-Naeini, M, Chacon, A, Howell, N, Middleton, R.J, Fraser, B, Guatelli, S, Rendina, L, Matsufuji, N, Gregoire, M.C, Sikora, K, Pettingell, J, Crocker, M, Saplaouras, A, Snijders, A, Mao, J.H, Nakamura, K, Bin, J, Gonsalves, A, Mao, H.S, Steinke, S, Roach, M, Leemans, W, Blakely, E, Takayama, K, Tan, T.S, Wee, J.T.S, Tuan, J.K.L, Wang, M.L.C, Quah, J.S.H, Tay, N.C.W, Lee, J.C.L, Lim, J.K.H, Oei, A.A, Tan, J.M, Park, S.Y, Chow, W.W.L, Omar, Y.B, Chew, P.G, Taylor, P, Lee, J, Tsurudome, T, Hirabayashi, M, Tsutsui, H, Yoshida, J, Takahashi, N, Kamiguchi, N, Hashimoto, A, Tachikawa, T, Mikami, Y, Kumata, Y, Wang, M, Chua, E.T, Wee, J, Wong, F.Y, Tuan, J, Master, Z, Wong, S, Welsh, J, Hentz, C, Pankuch, M, DeJongh, F, Xia, Y, Aitkenhead, A.H, Appleby, R, Merchant, M.J, MacKay, R.I, Young, H, Hughes, V, Alsulimane, M, Barajas, C.A, Taylor, J, Casse, G, Omar, A, Burdin, S, Boon, C, Lester, J, Thomas, A.J, Khan, A, Huthart, L, Leaver, K, Snell, J, Warlow, A, Burigo, L.N, Oborn, B, Belosi, F, Fredh, A, van de Water, S, Schneider, T, Patriarca, A, Bergs, J, Hierso, E, Hirayama, R, Martínez-Rovira, I, Seksek, O, Shirato, H, Nakamura, T, Ogino, T, Akimoto, T, Tamamura, H, Nishimoto, N, Proton-Net, G, Shimizu, S, Fabiano, S, Bangert, M, Guckenberger, M, Unkelbach, J, Mcauley, G, Teran, A, Slater, J, Wroe, A, Boon, I, Clorley, J, Owen, K, Oliver, T, Cicchetti, A, Ballarini, F, Rancati, T, Carrara, M, Zaffaroni, N, Bezawy, R. El, Carante, M, Valdagni, R, Faccini, R, Forte, G.I, Dhinsey, S, Greenshaw, T, Parsons, J, Welsch, C, Stock, M, Grevillot, L, Kragl, G, Carlino, A, Martino, G, Hug, E, Arya, H, Chirayath, V.A, Jin, M, Weiss, A.H, Glass, G.A, Chi, Y, Kaplan, L.P, Perez, R.A, Vestergaard, A, Gittings, E, Stamper, J, Beltran, C, Mark, P, Furutani, K, McAuley, G, Gordon, J, Boisseau, P, Dart, A, Nett, W, Kollipara, S, Grossmann, M, Actis, O, Diete, W, Rudolf, D, Klein, H.U, Kramert, R, Meer, D, Venkataraman, C, Waterstradt, T, Hérault, J, Bergerot, J.M, Hsi, W.C, Zhou, R, Zhang, X, Yang, F, Yinxiangzi, S, Sun, J, Li, X, Zhiling, C, Yuehu, P, Mengya, G, Haiyun, K, Qi, L, Zhentang, Z, Lin, Y.H, Tan, H.Q, Tan, L.K.R, Ang, K.W, Xiufang, L, Milkowski, K, Pang, D, Jones, M, Mizota, M, Tsunashima, Y, Himukai, T, Ogata, R, Uno, T, Ouyang, L, Jia, B, Li, D, Paul, K, Pullia, M, Savazzi, S, Lante, V, Foglio, S, Donetti, M, Falbo, L, Casalegno, L, Rousseau, M, Shinomiya, K, Yazawa, T, Iseki, Y, Kanai, Y, Hirata, Y, Powers, J, Solovev, A, Chernukha, A, Saburov, V, Shegai, P, Ivanov, S, Kaprin, A, Stolarczyk, L, Mojżeszek, N, Van Hoey, O, Farah, J, Domingo, C, Mares, V, Ploc, O, Trinkl, S, Harrison, R, Toltz, A, Nevitt, Z, Bloch, C, Taddei, P, Saini, J, Regmi, R, Yuntao, S, Jinxing, Z, Yap, J.S.L, Hentz, M, Silverman, J, Jolly, S, Boogert, S, Nevay, L, Kacperek, A, Schnuerer, R, Resta-Lopez, J, Zeng, X, Zheng, J, Li, M, Han, M, Song, Y, Holm, A, Korreman, S, Petersen, J.B.B, Bäumer, C, Fuenstes, C, Janson, M, Matic, A, Wulff, J, Psoroulas, S, Lomax, T, Arjomandy, B, Athar, B, Tesfamicael, B, Bejarano Buele, A, Deemer, J, Kozlyuk, V, VanSickle, K, Bolt, R, van Goethem, M.J, Langendijk, J, van t Veld, A, Chen, K.L, Wlodarczyk, B, Wu, H, Chen, Z, Shen, L, Fachouri, N, Placidi, L, Böhlen, T, Ieko, Y, Iwai, T, Nemoto, K, Suzuki, K, Kanai, T, Miyasaka, Y, Harada, M, Yamashita, H, Kubota, I, Kayama, T, Jensen, M.F, Bræmer-Jensen, P, Randers, P, Søndergaard, C.S, Nørrevang, O, Taasti, V.T, Kong, H, Yin, C, Gu, M, Liu, M, Shu, H, Chongxian, Y, Haiyang, Z, Juan, Z, Ming, L, Manzhou, Z., Liying, Z, Kecheng, C, Xiaolei, D, Castro, J, Freire, J, Cremades, M, Moral, L, Rico, P, Ares, C, Miralbell, R, Shi, J, Xia, J, Wang, B, Li, Q, Liu, X, Sung, C.C, Chen, W.P, Liao, T.Y, Takashina, M, Hamatani, N, Tsubouchi, T, Yagi, M, Mizoe, J, Titt, U, Mirkovic, D, Yepes, P, Wang, Q, Grosshans, D, Wieser, H.P, Mohan, R, Vadrucci, M, Xiao, G, Cai, X, Li, G, Yuan, Y, Lu, R, Sun, G, Zhang, M, Deming, L, lianhua, O, Takada, K, Tanaka, S, Matsumoto, Y, Naito, F, Kurihara, T, Nakai, K, Matsumura, A, Sakae, T, Shamurailatpam, D, P, K, Mp, N, A, M, Kg, G, T, R, C, S, J, R, Rozes, A, Dutheil, P, Batalla, A, Vela, A, Rana, S, Bennouna, J, Gutierrez, A, He, P, Shen, G, Dai, Z, Ma, Y, Chen, W, Pandey, J, Chirvase, C, Osborne, M, Ilsley, E, Di Biase, I, Kato, T, Hirose, K, Arai, K, Motoyanagi, T, Harada, T, Takeuchi, A, Kato, R, Tanaka, H, Mitsumoto, T, Takai, Y, Bolsa-Ferruz, M, Palmans, H, Chen, Y.S, Wu, S.W, Huang, H.C, Wang, H.T, Yeh, C.Y, Chen, H.H, Cook, H, Lourenço, A, Dal Bello, R, Magalhaes Martins, P, Hermann, G, Kihm, T, Seimetz, M, Brons, S, Seco, J, De Saint-Hubert, M, Swakon, J, De Freitas Nascimento, L, Tessaro, V.B, Poignant, F, Gervais, B, Beuve, M, Galassi, M.E, Harms, J, Chang, C.W, Zhang, R, Lin, Y, Langen, K, Liu, T, Lin, L, Howard, M, Denbeigh, J, Remmes, N, Debrot, E, Herman, M, Huang, Y.Y, Tsai, S.H, Fang, F.M, Mizuno, H, Sagara, T, Yamazaki, Y, Kato, M, Oyama, S, Pembroke, C, Joslin-Tan, T, Maggs, R, O’Neil, K, Barrett-Lee, P, Staffurth, J, Resch, A, Heyes, P, Georg, D, Fuchs, H, Hideyuki, M, katsuhisa, N, Wataru, Y, Samnøy, A.T, Ytre-Hauge, K.S, Povoli, M, Kok, A, Summanwar, A, Linh, T, Malinen, E, Röhrich, D, Asp, J, Santos, A, Afshar, V.S, Zhang, W.Q, Bezak, E, a, M, k, G, p, K, mp, N, t, R, c, S, j, R, Smith, B, Hammer, C, Hyer, D, DeWerd, L, Culberson, W, Brooke, M, Straticiuc, M, Craciun, L, Matei, C.E, Radu, M, Xiao, M, Paschalis, S, Joshi, P, Price, T, Mehta, M, Graça, J, Biglin, E, Aitkenhead, A, Price, G, Williams, K, Chadwick, A, Schettino, G, Robinson, A, Kirkby, K, Catanzano, D, Cessac, R, Rutherford, R, Ahmed, A, Mohammadi, A, Tashima, H, Yamaya, T, Chavez Barajas, C, Taylor, A, Vossebeld, J, Barwick, I, CHEON, W, Jo, K, Ahn, S.W, Cho, J, Han, Y, Choi, H.H.F, Cheung, C.W, Cohilis, M, Lee, J.A, Sterpin, E, Souris, K, Mundy, D, Petasecca, M, Rosenfeld, A.B, Boso, A, Di Fulvio, A, Becchetti, F.D, Torres-Isea, R.O, Febbraro, M, Gagnon-Moisan, F, Feng, Y, Fontana, M, Etxebeste, A, Dauvergne, D, Letang, J.M, Testa, E, Sarrut, D, Maxim, V, Gajewski, J, Durante, M, Garbacz, M, Krah, N, Krzempek, K, Schiavi, A, Skrzypek, A, Tommasino, F, Ruciński, A, Gillin, M, Sahoo, N, Zhu, X.R, Van Delinder, K.W, Crawford, D, Khan, R, Gräfe, J, Kakiuchi, G, Shioyama, Y, Shimokomaki, R, Huang, Z, Wang, W, Sheng, Y, Lee, M.W, Jan, M.L, Hong, J.H, Okamoto, K, Sato, H, Kalantan, S, Boston, A, Kang, Y, Shen, J, Casey, W, Vern-Gross, T, Wong, W, McGee, L, Halyard, M, Keole, S, Kelleter, L, Radogna, R, Saakyan, R, Basharina-Freshville, A, Attree, D, Volz, L, Komenda, W, Krzempek, D, Mierzwińska, G, Barbara, M, Kopeć, R, Lan, J.H, Chang, F.X, Lin, C.H, Lee, T.F, Ahn, S, Cheon, W, Lee, M, Letellier, V, Osorio, J, Dreindl, R, Livingstone, J, Gallin-Martel, M.L, Létang, J.M, Marcatili, S, Morel, C, Maggi, P, Chen, H, Yang, H, Panthi, R, Mackin, D, Peterson, S, Beddar, S, Polf, J, Masuda, T, Nishio, T, Sano, A, Tomozawa, H, Nishio, A, Tsuneda, M, Okamoto, T, Karasawa, K, Miszczynska Giza, O, Sánchez-Parcerisa, D, Herraiz, J. L, Rojo-Santiago, J, Udias, J.M, Mitrović, U, Hager, M, List, I, Fischer, C, Cecowski, M, Gajšek, R, Mizutani, S, Hotta, K, Baba, H, Tanizaki, N, Yamaguchi, T, Moon, S.Y, Rah, J.E, Yoon, M, Shin, D, Nebah, P, Dugas, J, Syh, J, Maynard, M, Marsh, N, Rosen, L, Nichiporov, D, Watts, D.A, Chen, Y, Petterson, M, Lee, W.D, Penfold, S.N, Ruebel, N, Piersimoni, P, Mille, M, Mossahebi, S, Chen-Mayer, H, Allport, P, Green, S, Shaikh, S, Walker, D, Qamhiyeh, S, Levegruen, S, Kutscher, S, Kranke, H, Olbrich, G, Stuschke, M, Baran, J, Pawlik-Niedzwiecka, M, Moskal, P, Rutherford, H, Poenisch, F, Martin, C, Wu, R, Mayo, L.L, Shah, S.J, Frank, S.J, Gunn, G.B, Sakurai, Y, Takata, T, Kondo, N, Schlegel, N, Deng, Y, Sun, W, Wu, X, Yap, J, Zhang, H, Szumlak, T, Schuy, C, Simeonov, Y, Zink, K, Graeff, C, Weber, U, Allred, B, Robertson, D, Dewees, T, Gagneur, J, Stoker, J, Stützer, K, Valentini, C, Agolli, L, Hölscher, T, Thiele, J, Dutz, A, Löck, S, Krause, M, Baumann, M, Richter, C, Takayanagi, T, Uesaka, T, Nakamura, Y, Unlu, M.B, Kuriyama, Y, Uesugi, T, Ishi, Y, Umegaki, K, Matsuura, T, Watts, D. A, Huisman, B, Valladolid Onecha, V, Fraile, L.M, Sanchez Parcerisa, D, España, S, Ze, W, Chen, H.Y, Chuang, K.S, Wilson, M, Lui, J, Noble, D, Holloway, S, Yap, J.H.H, Chew, M.M.L, Pang, P.P, Lim, C.J.C, Gan, S.A, Tan, T.W.K, Shen, Z.M, Moyers, M, Qianxia, W, Chen, H.L, Li, J, Lin, J, Zhao, L, Myers, W, Ates, O, Faught, J, Yan, Y, Faught, A, Sobczak, D, Hua, C.H, Moskvin, V, Merchant, T, Henkner, K, Ecker, S, Chaudhri, N, Ellerbrock, M, Jäkel, O, Hernandez Morales, D, Augustine, K, Johnson, J, Younkin, J, Fiorina, E, Mattei, I, Morrocchi, M, Sarti, A, Traini, G, Valle, S.M, Bert, C, Karger, C.P, Kamada, T, Scholz, M, DeLuca, P.M, De Simoni, M, Dong, Y, Embriaco, A, Fischetti, M, Mancini-Terracciano, C, Mirabelli, R, Muraro, S, Lens, E, de Blécourt, A, Schaart, D, Vos, F, van Dongen, K, Berthold, J, Khamfongkhruea, C, Petzoldt, J, Wohlfahrt, P, Pausch, G, Janssens, G, Smeets, J, Shamblin, J, Blakey, M, Moore, R, Matteo, J, Schreuder, N, Derenchuk, V, Shin, J, Jee, K.W, Clasie, B.M, Depauw, N, Batin, E, Madden, T.M, Schuemann, J, Paganetti, H, Kooy, H.M, Daniel, M, Abbassi, L, Arsène-Henry, A, Amessis, M, Maes, S, O’Ryan-Blair, A, Laval, G, Ermoian, R, Taddei, P. J, Andersson, K, Norrlid, O, Lindbäck, E, Vallhagen Dahlgren, C, Witt Nyström, P, Argota Perez, R, Sharma, M.B, Elstrøm, U.V, Bizzocchi, N, Albertini, F, Branco, D, Kry, S, Rong, J, Frank, S, Followill, D, Busch, K, Muren, L.P, Thörnqvist, S, Andersen, A.G, Pedersen, J, Dong, L, Cao, W, Bai, X, Van Lobenstein, N, Traneus, E, Anson, C, Comi, S, Marvaso, G, Russo, S, Giandini, T, Avuzzi, B, Ciardo, D, Cattani, F, Jereczek-Fossa, B, Cotterill, J, Esposito, M, Winter, A, Allinson, N, Liu, G, Yan, D, Jawad, S, Dilworth, J, Chen, P, Ackermann, B, Florijn, M, Sharfo, A.W.M, Wiggenraad, R.G.J, van Santvoort, J.P.C, Petoukhova, A.L, Hoogeman, M.S, Mast, M.E, Dirkx, M.L.P, Fujitaka, S, Fujii, Y, Nihongi, H, Nakayama, S, Ho, M.W, Artz, M, Tong, K.T.A, Hytonen, R, Koponen, T, Niemela, P, Iancu, G, Lautenschlaeger, S, Eberle, F, Horst, F, Ringbaek, T, Engenhart-Cabillic, R, Kim, M.J, Hong, C.S, Kim, Y.B, Park, S.H, Kim, J.S, Reiterer, J, Steffal, C, Gora, J, Kann, T, Schratter-Sehn, A.U, Li, H, Chen, M, wu, R, Li, Y, zhang, X, Gautam, A, poenisch, F, sahoo, N, Zhu, R, Lin, M, Chang, J.T.C, Maeda, Y, Sato, Y, Shibata, S, Bou, S, Yamamoto, K, Sasaki, M, Fuwa, N, Takamatsu, S, Kume, K, Lim, F, Faller, F, Stiller, W, Ming, X, Hui, H, Mukawa, T, Takashi, Y, Stephenson, L, Pang, E.P.P, Paz, A.E, Yoshida, Y, Righetto, R, Vecchi, C, Alparone, A, De Spirito, M, Radhakrishnan, S, Chandrashekaran, A, Nandigam, J, Sarma, Y, Rechner, L, Munck af Rosenschöld, P, Bäck, A, Johansen, T.S, Schut, D.A, Aznar, M.C, Nyman, J, Ren, X, Rosas, S, Vanderstraeten, R, Jyske, T, Jari, L, Yuenan, W, Henthorn, N, Warmenhoven, J, Merchant, M, Kirkby, N, Ranald, M, Stefanowicz, S, Zschaeck, S, Troost, E.G.C, Stubington, E, Ehrgott, M, Nohadani, O, Shentall, G, Sun, T, yin, Y, Lin, X, Yoshimura, T, Matsuo, Y, Yamazaki, R, Takao, S, Miyamoto, N, Toussaint, L, Indelicato, D.J, Lassen-Ramshad, Y, Kirby, K, Mikkelsen, R, Di Pinto, M, Høyer, M, Stokkevåg, C.H, Van Herk, M, Shortall, J, Green, A, Vasquez Osorio, E, Mackay, R, Navratil, M, Andrlik, M, Chiang, Y.Y, Yeh, Y.H, Yeh, Y.J, Chang, T.C, Eaton, B, Yang, X, Esiashvili, N, Gu, W, Ruan, D, O’Connor, D, Zou, W, Tsai, M.Y, Jia, X, Sheng, K, Hyde, C, Chen, P.Y, Deraniyagala, R, Petoukhova, A, Klaassen, L, Habraken, S, Jacobs, J, Sattler, M, Verhoeven, K, Klaver, Y, Widesott, L, Fracchiolla, F, Algranati, C, Scifoni, E, Scartoni, D, Farace, P, Kröniger, K, Bauer, J, Nilsson, R, Chen, X, Liu, R, Sun, B, Mutic, S, Zhang, T, Zhao, T, Kajdrowicz, T, Wochnik, A, Swakoń, J, Małecki, K, Michalec, B, Moffitt, G, Wootton, L, Hardemark, B, Sandison, G, Emery, R, Stewart, R, Reidel, C.A, Finck, C, Deisher, A, Mahajan, A, Michael, H, Ahn, S.H, Kwang Hyeon, K, Chankyu, K, Youngmoon, G, Shinhaeng, C, Se Byeong, L, Young Kyung, L, Haksoo, K, Dongho, S, Jong Hwi, J, Ali, Y, Monini, C, Maigne, L, Alshaikhi, J, D’Souza, D, Amos, R. A, Baumann, K.S, Gomà, C, Flatten, V, Lautenschläger, S, Abdel-Rehim, A, Wan Chan Tseung, H.S, Ma, J, Kamal Syed, H, Boscolo, D, Krämer, M, Fuss, M, Braunroth, T, Rabus, H, Baek, W.Y, Brown, H, Alshammari, H, Brownstein, J, Giantsoudi, D, Wang, C.C, Grassberger, C, Chen, C, Chan, M.F, Mah, D, Hojo, Y, Xu, C, Elia, A, Fung, A, Nguyen, B.N, Oyervides, M, Koska, B, Kamal Sayed, H, Kim, C, Kim, Y.J, Lee, S.B, Goh, Y, Cho, S, Jeong, J.H, Kim, H, Lim, Y.K, Koh, W.Y.C, Lew, W.S, Lee, C.L.J, Kollitz, E, Han, H, Kim, C.H, Kroll, C, Riboldi, M, Newhauser, W, Dedes, G, Fuglsang Jensen, M, Nyström, U.H, Skyt, P.S, Hoffmann, L, Sloth Møller, D, Dokic, I, Kuo, S.H, Tai, P.L, Cheng, S.W, Chong, N.S, Yeom, Y.S, Kuzmin, G, Griffin, K, Langner, U, Jung, J.W, Lee, C, Lee, C.C, Hsu, W, Chao, T.C, Liamsuwan, T, Pischom, N, Tangboonduangjit, P, Suchada, T, Zheng, D, Rutenberg, M, Dhabaan, A, Harrabi, S, MARAFINI, M, Gioscio, E, Yunsheng, D, Alphonse, G, Rodriguez Lafrasse, C, Testa, É, Morris, B, Asavaphatiboon, S, DeBlois, D, Yam, M, Sękowski, P, Skwira-Chalot, I, Matulewicz, T, Flynn, R, Verbeek, N, Smyczek, S, Brualla, L, Lei, Y, Ghavidel, B, Curran, W, Beitler, J, Yu, H.W, Jeng, S.C, Tsai, Y.C, Chiou, J.F, Yusa, K, Dai, T, Yuan, P, Shafai-Erfani, G, Shu, H.K, Pepin, M, Tryggestad, E.J, Abdel Rehim, A, Johnson, J.E, Herman, M.G, Lee, S.C, Sheu, R.J, Ödén, J, Ramos-Mendez, J, Perl, J, Faddegon, B, Alaka, B.G, Bentefour, E.H, Samuel, D, Biradar, B, Frusti, P, Den Otter, L.A, Kurz, C, Stanislawski, M, Landry, G, Meijers, A, Knopf, A.C, Dickmann, J, Wesp, P, Rit, S, Johnson, R.P, Bashkirov, V, Schulte, R.W, Hoyle, B, Johnson, R, Schulte, R, Weller, J, Cotterill, J.V, Waltham, C, Allport, P.P, Taylor, M, Rogers, J, Evans, P.M, Allinson, N.M, Henry, T, Ardenfors, O, Gudowska, I, Poludniowski, G, Dasu, A, Lai, Y, Yuncheng, Z, Yiping, S, Mingwu, J, Xun, J, Yujie, C, Meric, I, Mattingly, J, Moustafa, A, Skjerdal, K, Moteabbed, M, Harisinghani, M, Efstathiou, J.A, Lu, H.M, Kabuki, S, Mizowaki, T, Ofierzynski, R, Paysan, P, Strzelecki, A, Lucca, R, Patch, S, Mustapha, B, Santiago-Gonzalez, D, Pettersen, H.E.S, Sølie, J, Levegrün, S, Pöttgen, C, Meyer, E, Collins-Fekete, C.A, Bashkirov, V.A, Wang, Y.M, Sung, K.C, Wang, C.J, Wu, H.Y, Winter, M, Bauer, U, Hansmann, T, Naumann, J, Peters, A, Pilz, K, Troost, E, Yan, S, Greenhalgh, J, Li, S, Bortfeld, T, Flanz, J, Ytre-Hauge, K, Zhang, L, Sharp, G.C, Cascio, E.W, Flanz, J.B, Tang, J, Zhu, J, Zhang, J, Uh, J, Sarosiek, C, Ricci, J, Coutrakon, G, Ozoemelam, I, van der Graaf, E.R, Maciej, K, Zhang, N, Brandenburg, S, Dendooven, P, Niepel, K, Yohannes, I, Dietrich, O, Ertl-Wagner, B, Pappas, E, Sølie, J.R, Odland, O.H, Ghesquiere-Dierickx, L.M.H, Felix Bautista, R, Gehrke, T, Jakubek, J, Turecek, D, Martisikova, M, Malekzadeh, E, Rajabi, H, Kalantari Mahmoudabadi, F, Meschini, G, d’Arenzo, D, Comini, D, Huynh, M.T, Paganelli, C, Fontana, G, Mancin, A, Preda, L, Su, Z, Henderson, R, Nichols, C, Bryant, C, Mendenhall, W, Boyer, B, Geerebaert, Y, Gevin, O, Koumeir, C, Magniette, F, Manigot, P, Poirier, F, Servagent, N, Thiebaux, C, Verderi, M, Chen, Y.R, Anderle, K, Jeraj, R, Chuter, R, Allan, I, Patel, I, MacKay, R, Harrison, K, Hoole, A, Thomas, S, Jena, R, Liao, Z, Zhu, R.X, Freeman, M, Espy, M, Aulwes, E, Magnelind, P, Merrill, F, Neukirch, L, Sidebottom, R, Tang, Z, Tupa, D, Wilde, C, Shusharina, N, Fullerton, B, Adams, J, Sharp, G, Chan, A, Dolde, K, Naumann, P, Dávid, C, Kachelrieß, M, Saito, N, Pfaffenberger, A, Wolf, M, Lis, M, Moreau, J, Buttion, M, Molitoris, J.K, Simone-, C.B, Regele, H, Bula, C, Danuser, S, Kang, M, Lin, H, Ribeiro, C. O, Dumont, D, Terpstra, J, Knopf, A, Wagenaar, D, Kierkels, R, van der Schaaf, A, Scandurra, D, Sijtsema, M, Korevaar, E, van den Hoek, A, O’Neil, M, Chung, H, Sala, I, Ramirez, H, Guerrero, T, Mondlane, G, Butkus, M.B, Stewart, R.D, Carlson, D.J, Ingram, S, Ytre-Hauge, K. Smeland, Rørvik, E, Perales, A, Carabe, A, Baratto-Roldan, A, Kimstrand, P, Cortes-Giraldo, M, Bertolet, A, Barato-Roldan, A, Baiocco, G, Barbieri, S, Mei, Z, Fan, K, Tang, K, Wang, J, Zhu, H, Sung, W, McNamara, A, Tran, L.T, Qi, Y, Xu, X, Pei, X, Chiang, Y, Chien-Hau, C, Chung-Chi, L, Chuan-Jong, T, Tsi-Chian, C, Wang, L, Cao, J, Wang, X, Lin, E, Minami, K, Kondo, R, Khoei, S, Shirvalilou, S, Khoee, S, Jamali Raoufi, N, Karimi, M.R, Shakeri-Zadeh, A, Patera, V, Rinaldi, I, Sas-Korczynska, B, Deng, W, Karagounis, I, Huynh, K, Maity, A, Abel, E, Santa Cruz, G, Monti Hughes, A, Herrera, M, Trivillin, V, Portu, A, Garabalino, M, Schwint, A, Gonzalez, S, Saint Martin, G, Santa Cruz, I, Tamari, Y, Watanabe, T, Masunaga, S.I, Wittig, A, Nigg, D, Stecher-Rasmussen, F, Moss, R, Igawa, K, Akita, K, Akabori, K, Hattori, K.J, Arima, H, Motoyama, K, Higashi, T, Trivillin, V.A, Pozzi, E.C.C, Thorp1, S.I, Curotto1, P, Garabalino1, M.A, Itoiz, M.E, Santa Cruz, I.S, Ramos, P.S, Palmieri, M.A, Schwint, A.E, Gadan, M.A, Thorp, S.I, Curotto, P, Portu, A.M, Thorp, S, Trivillin, V. A, Schwint, A. E, Fukuo, Y, Kanemitsu, T, Fukumura, M, Kosaka, T, Hiramatsu, R, Kuroiwa, T, Miyatake, S, Kawabata, S, Kirihata, M, Goldfinger, J.A, Garabalino, M.A, Pozzi, E.C, Ramos, P, De Leo, L.N, Yu, Q, Engelbrecht, M, Sioen, S, Miles, X, Nair, S, Ndimba, R, Baeyens, A, Vandevoorde, C, Buizza, G, Meng, J, Takai, N, Ogami, M, Nakamura, S, Ohba, Y, Liu, R.F, Zhang, Q.N, Wang, X.H, Luo, H.T, Kong, Y.R, Jansen, J, Tirinato, L, Marafioti, M.G, Hanley, R, Yao, X.Q, Pagliari, F, Huang, C.Y, Wong, W.K.R, Ho, Y.W, Nam, P.H, Koryakin, S.N, Troshina, M.V, Koryakina, E.V, Potetnya, V.I, Baykuzina, R.M, Lychagin, A.A, Ulyanenko, S.E, Molinelli, S, Giuseppe, M, Tran, L, Bolst, D, James, B, Steinsberger, T, Alliger, C, Dahle, T.J, Rusten, E, Wright, P, Forsback, S, Silvoniemi, A, Minn, H, Andersson, S, Buti, G, Barragán Montero, A.M, Vasquez-Osario, E, Sabouri, P, Nkenge, K, Yi, B, Burigo, L, Greilich, S, Thomas, R, Clark, C, Lourenco, A, Oancea, C, Granja, C, Kodaira, S, Coplan, M, Graybill, J, Lutz, L, Shahi, C, Su, J.J, Thompson, A, Romano, F, Shipley, D, Hong, T.S, Labarbe, R, Wolfgang, J.A, Meyer, S, Bortfeldt, J, Lämmer, P, Schnürle, K, Peters, N, Möhler, C, Hofmann, C, Koschik, A, Bryce-Atkinson, A, Van Nugteren, J, De Rijk, G, Kirby, G, Dutoit, B, Vignati, A, Ahmadi Ganjeh, Z, Fausti, F, Giordanengo, S, Hammad Ali, O, Sacchi, R, Shakarami, Z, Cirio, R, Inoue, J, Tachibana, M, Shimizu, Y, Ochi, T, Amano, D, Miyashita, T, Cooley, J, Nyamane, S, Zwart, T, Wagner, M, Lu, M, Rosenthal, S, Hashimoto, T, Katoh, N, Tamura, H, Emert, F, Missimer, J, Eichenberger, P, Gmuer, C, Spengler, C, Kamp, F, Hofmaier, J, Reiner, M, Belka, C, Van Ooteghem, G, Dasnoy-Sumell, D, Geets, X, Chen, C.C, Galbreath, G, Shmulenson, R, Pinheiro de Almeida, I, van Elmpt, W, Vilches Freixas, G, Unipan, M, Verhaegen, F, Bosmans, G, Garcia, G, Cevallos Robalino, L, Guzman-Garcia, K, Vega-Carrillo, H.R, Gomez-Ros, J.M, Gallego, E, Hintenlang, K, Martin, M, Gupta, N, Meissner, J, Smathers, J, Ainsley, C, Yin, L, Jagt, T, Breedveld, S, van Haveren, R, Nout, R, Astreinidou, E, Staring, M, Heijmen, B, Hoogeman, M, Stokes, W, Matter, M, Nenoff, L, Toramatsu, C, Wakizaka, H, Nitta, M, Nishikido, F, Hirano, Y, Yoshida, E, Miller, J, Maris, A, Kalle, R, Franco, G, Kierkels, R.G.J, van den Hoek, J.G.M, Bijl, H.P, Dieters, M, Steenbakkers, R.J.H.M, Dejongh, F, DeJongh, E, Rykalin, V, Karonis, N, Ordonez, C, Duffin, K, Winans, J, Neph, R, Sanchez-Parcerisa, D, Lopez-Aguirre, M, Dolcet Llerena, A, Udias, J, Oxley, D, Besson, R, Meier, G, Nanz, A, Schorta, M, Fleury, E, Trnková, P, Erdal, E, Hassan, K, Beenakker, J.W, Pignol, J.P, Matysiak, W, Tian, L, Zepter, S, Winterhalter, C, Shim, S, Gouldstone, C, Trnkova, P, Vatnitsky, S, Liu, K, Li, E, Zhuangming, S, Lowenstein, J, De Wilde, O, Bossier, V, Lerot, X, Pouppez, A, Xx, X, Verburg, J, Hueso-Gonzalez, F, Ruggieri, T, Amato, C, Ghesquiere-Dierickx, L, Felix-Bautista, R, Deville, C, Barsky, A, Vapiwala, N, Mohamad, O, Tabuchi, T, Nitta, Y, Nomoto, A, Kasuya, G, Choy, H, Miyashiro, I, Bush, D, Chuong, M, Kozarek, J, Rubens, M, Larson, G, Vargas, C, Hung, S.P, Hsieh, C.E, Huang, B.S, Tsang, N.M, Smith, N, Viehman, J, Harmsen, W, Elswick, S, Boughey, J, Harless, C, Jimenez, R, Hickey, S, DePauw, N, Ho, A, Taghian, A, MacDonald, S, Meek, A, Hedrick, S, Baliga, S, Gallotto, S, Lewy, J, Patteson, B, Speroni, S, Omsberg, A, Tarbell, N, Musolino, P, Yock, T, Indelicato, D, Rotondo, R, Mailhot, R, Uezono, H, Bradfield, S, Agarwal, V, Gillies, C, Gosling, A, Casares-Magaz, O, Eskildsen, S.F, Lassen, Y, Hasle, H, Tofting-Olesen, K, Alapetite, C, Puget, S, Nauraye, C, Beccaria, K, Bolle, S, Doz, F, Sainte-Rose, C, Bouffet, E, Zerah, M, Wu, J, Qiu, X, Hua, W, Mao, Y, Frakulli, R, Kramer, P.H, Glas, M, Blase, C, Tippelt, S, Konrath, L, Gruber, N, Schallerbauer-Peter, A, Mock, U, Niyazi, M, Niemierko, A, Schapira, E, Kim, V, Oh, K.S, Hwang, W.L, Busse, P.M, Loeffler, J.S, Shih, H.A, Appel, H, Tseng, Y.D, Tsai, H, Sinesi, C, Rossi, C, Badiyan, S, Kotecha, R, Pike, L, Horick, N, Yeap, B, Franck, K, Wang, I, Loeffler, J, McKenna, M, Shih, H, Kountouri, M, Kole, A.J, Murray, F.R, Kliebsch, U, Combescure, C, iannalfi, A, Riva, G, Dougherty, J, Kruse, J, Iott, M, Brown, P, Olivier, K, Brodin, P, Kabarriti, R, Schechter, C, Kalnicki, S, Garg, M, Tomé, W, Lu, J.J, Chen, P.J, Dhanireddy, B, Severo, C, Lee, C.H, Lin, C.R, Rosier, L, Mathis, T, DeLaney, T, Lin, S, O’Meara, E, Powell, T, Hong, T, Hall, D, Liu, A, Ntentas, G, Dedeckova, K, Darby, S, Cutter, D, Zapletalova, S, Chen, Y.L, Miao, R, Lee, H, Hsiao-Ming, L, Choy, E, Cote, G, Eulitz, J, Lutz, B, Enghardt, W, Lühr, A, Mcmahon, S, Prise, K, Sung Hyun, L, Tansho, R, Mizushima, K, Warmenhoven, J.W, Hufnagl, A, Friedrich, T, Deycmar, S, Gruber, S, Dörr, W, Pruschy, M, Waissi, W, Burckel, H, Nicol, A, Noel, G, Yousef, I, Koizumi, M, Santa Cruz, G.A, González, S.J, Longhino, J, Provenzano, L, Oña, P, Rao, M, Cantarelli, M.D.L.Á, Leiras, A, Olivera, M.S, Alessandrini, P, Brollo, F, Boggio, E, Costa, H, Ventimiglia, R, Binia, S, Nievas, S.I, Langle, Y, Eijan, A.M, Colombo, L.L, Kawai, K, Nakamura, H, Natsuko, K, Masaki, H, Nakada, M, Furuse, M, Miyatake, S.I, Koivunoro, H, Kankaanranta, L, González, S, Joensuu, H, Sokol, O, Hild, S, Wiedemann, J, Köthe, A, Perry, D, Batie, M, Mascia, A, Sertorio, M, Luhr, A, Suckert, T, Müller, J, Beyreuther, E, Gotz, M, Haase, R, Schürer, M, Tillner, F, von Neubeck, C, Davis, A, Sishc, B, Saha, J, Ding, L, Story, M, Wagner, S, Kim, S.Y, Geary, S, Woodruff, T, Xu, T, Meng, Q, Gilchrist, S, Perentesis, J.P, Zheng, Y, Wells, S.I, Kong, Y, Liu, Y, Geng, Y, Knoll, M, Schwager, C, Schlegel, J, Schnölzer, M, Ding, L.H, Aroumougame, A, Chen, B, Saha, D, Pompos, A, Carter, R, Nickson, C, Thomson, J, Hill, M, Rodrigues, D, Snider, J, Sharma, A, Zakhary, M, Kara, L, Vujaskovic, Z, Dykstra, M, Best, T, Keane, F, Khandekar, M, Fintelmann, F, Willers, H, Singh, P, Eley, J, Malyapa, R, Mahmood, J, Hårdemark, B, Sandison, G.A, Wootton, L.S, Miyoaka, R.S, Laramore, G.E, Yang, P, van der Weide, H, Maduro, J, Heesters, M, Gawryszuk, A, Davila-Fajardo, R, Langendijk, H, Eckhard, M, Maxwell, A, VanNamen, K, Cashin, M, Jacovic, A, Dunn, M, kim, T, Jung, J, Kim, J, Swerdloff, S, Saunders, A, Thomas, J, Kidani, T, Okada, A, Tomida, K, Pennington, H, Xiaoqiang, L, Weigang, H, An, Q, Di, Y, Craig, S, Inga, G, Peyman, K, Xuanfeng, D, Cunningham, C, de Kock, M, Slabbert, J, Panaino, C.M, Phoenix, B, Regan, P.H, Shearman, R, Collins, S.M, Taylor, M.J, Grayson, M, Kato, K, Choi, H, Jang, J.W, Shin, W.G, Min, C.H, McMahon, S, Padilla Cabal, F, Fragoso, J.A, Resch, A.F, Katsis, A, Girdhani, S, Marshall, A, Jackson, I, Bentzen, S, Parry, R, Gantz, S, Schellhammer, S, Hoffmann, A, Delorme, R, Dos Santos, M, Salmon, R, Öden, J, Bullivant, K, Rucksdashal, R, Ferret, E, Covington, F, Rice, S, Decesaris, C, Siddiqui, O, Kowalski, E, Samanta, S, and Rothwell, B

Subjects

Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0642, Physics: Absolute and Relative DosimetryPTC58-0180, Biology: Biology and Clinical InterfacePTC58-0685, Physics: Commissioning New FacilitiesPTC58-0385, Physics: 4D Treatment and DeliveryPTC58-0546, Clinics: EyePTC58-0714, Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0528, Physics: Quality Assurance and VerificationPTC58-0507, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0661, Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0221, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0531, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0653, Biology: Drug and Immunotherapy CombinationsPTC58-0163, Clinics: Sarcoma - LymphomaPTC58-0055, Biology: Drug and Immunotherapy CombinationsPTC58-0166, Clinics: CNS / Skull BasePTC58-0198, Physics: Treatment PlanningPTC58-0421, Clinics: PediatricsPTC58-0560, General: New HorizonsPTC58-0709, Physics: Treatment PlanningPTC58-0664, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0286, Physics: Treatment PlanningPTC58-0666, Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0346, Physics: Treatment PlanningPTC58-0547, Physics: Treatment PlanningPTC58-0308, Physics: Treatment PlanningPTC58-0549, Physics: Beam Delivery and Nozzle Design Poster Discussion SessionsPTC58-0111, Physics: Absolute and Relative DosimetryPTC58-0050, Biology: Enhanced Biology in Treatment Planning Poster Discussion SessionsPTC58-0587, Biology: Biology and Clinical InterfacePTC58-0454, Physics: Absolute and Relative DosimetryPTC58-0052, Physics: Commissioning New FacilitiesPTC58-0395, Physics: 4D Treatment and DeliveryPTC58-0534, Physics: Dose Calculation and OptimisationPTC58-0072, Physics: 4D Treatment and DeliveryPTC58-0533, Physics: 4D Treatment and DeliveryPTC58-0538, Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0113, Physics: Quality Assurance and VerificationPTC58-0633, Physics: Treatment PlanningPTC58-0431, Physics: Beam Delivery and Nozzle DesignPTC58-0230, Biology: Mathematical Modelling SimulationPTC58-0179, Clinics: Head and Neck / EyePTC58-0365, Physics: Treatment PlanningPTC58-0319, Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0697, Biology: Biology and Clinical InterfacePTC58-0663, Physics: Commissioning New FacilitiesPTC58-0240, Physics: Adaptive TherapyPTC58-0177, Physics: Commissioning New FacilitiesPTC58-0363, Physics: Commissioning New FacilitiesPTC58-0487, Physics: 4D Treatment and DeliveryPTC58-0209, Physics: 4D Treatment and DeliveryPTC58-0206, Clinics: CNS / Skull BasePTC58-0294, Physics: Commissioning New FacilitiesPTC58-0127, Biology: Mathematical Modelling SimulationPTC58-0068, Physics: Treatment Planning Poster Discussion SessionsPTC58-0062, Physics: 4D Treatment and DeliveryPTC58-0692, Physics: Quality Assurance and VerificationPTC58-0723, Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0494, Physics: Treatment PlanningPTC58-0643, Physics: Treatment PlanningPTC58-0521, Physics: Treatment PlanningPTC58-0402, Physics: Treatment PlanningPTC58-0405, Clinics: Head and Neck / EyePTC58-0273, Clinics: GIPTC58-0397, Physics: Treatment PlanningPTC58-0648, Biology: Enhanced Biology in Treatment Planning Poster Discussion SessionsPTC58-0489, Physics: Quality Assurance and VerificationPTC58-0617, Physics: Quality Assurance and VerificationPTC58-0616, Physics: Dose Calculation and Optimisation Poster Discussion SessionsPTC58-0668, Clinics: CNS / Skull BasePTC58-0188, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0625, Physics: Treatment PlanningPTC58-0654, Physics: Treatment PlanningPTC58-0655, Biology: Drug and Immunotherapy Combinations Poster Discussion SessionsPTC58-0133, Clinics: PediatricsPTC58-0313, Physics: Treatment PlanningPTC58-0659, Poster AbstractsClinics: CNSPTC58-0290, Physics: Commissioning New FacilitiesPTC58-0064, Physics: Adaptive TherapyPTC58-0396, Physics: Dose Calculation and OptimisationPTC58-0281, Physics: Quality Assurance and VerificationPTC58-0427, Physics: Quality Assurance and VerificationPTC58-0669, General: New Horizons SessionPTC58-0191, Physics: Dose Calculation and Optimisation Poster Discussion SessionsPTC58-0217, Physics: Quality Assurance and VerificationPTC58-0303, Physics: Quality Assurance and VerificationPTC58-0665, Clinics: Sarcoma - LymphomaPTC58-0495, Physics: Dose Calculation and OptimisationPTC58-0398, Physics: Quality Assurance and VerificationPTC58-0667, Physics: Quality Assurance and VerificationPTC58-0425, Physics: Quality Assurance and VerificationPTC58-0541, Physics: Treatment PlanningPTC58-0584, Physics: Quality Assurance and VerificationPTC58-0540, Biology: Drug and Immunotherapy Combinations Poster Discussion SessionsPTC58-0163, Physics: Treatment PlanningPTC58-0224, Physics: Treatment PlanningPTC58-0229, Clinics: PediatricsPTC58-0249, Physics: Beam Delivery and Nozzle Design Poster Discussion SessionsPTC58-0555, Clinics: PediatricPTC58-0463, Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0556, Physics: Absolute and Relative DosimetryPTC58-0498, Physics: Commissioning New FacilitiesPTC58-0078, Physics: Dose Calculation and OptimisationPTC58-0270, Physics: Dose Calculation and OptimisationPTC58-0032, Physics: Dose Calculation and OptimisationPTC58-0274, Physics: 4D Treatment and DeliveryPTC58-0614, Physics: Dose Calculation and OptimisationPTC58-0026, Clinics: Head and Neck / EyePTC58-0280, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0091, Physics: Treatment PlanningPTC58-0593, Biology: Drug and Immunotherapy CombinationsPTC58-0012, Physics: Dose Calculation and OptimisationPTC58-0025, Physics: Dose Calculation and OptimisationPTC58-0146, Clinics: Sarcoma - LymphomaPTC58-0261, Physics: Treatment PlanningPTC58-0110, Clinics: Lung / Sarcoma / LymphomaPTC58-0733, Physics: Quality Assurance and VerificationPTC58-0554, Physics: Treatment PlanningPTC58-0597, Physics: Dose Calculation and Optimisation Poster Discussion SessionsPTC58-0330, Physics: Treatment PlanningPTC58-0115, Physics: Treatment PlanningPTC58-0598, Physics: Absolute and Relative DosimetryPTC58-0040, Physics: Absolute and Relative DosimetryPTC58-0282, Biology: Enhanced Biology in Treatment Planning Poster Discussion SessionsPTC58-0399, Physics: Absolute and Relative DosimetryPTC58-0283, Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0569, Clinics: GUPTC58-0647, Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0506, Physics: Commissioning New FacilitiesPTC58-0047, Physics: Dose Calculation and OptimisationPTC58-0067, Clinics: GUPTC58-0409, Physics: Dose Calculation and OptimisationPTC58-0065, Biology: BNCT Poster Discussion SessionsPTC58-0586, Physics: Absolute and Relative Dosimetry PTC58-0393, Physics: Image GuidancePTC58-0712, Physics: Quality Assurance and VerificationPTC58-0645, Physics: Treatment PlanningPTC58-0683, Biology: BNCT Poster Discussion SessionsPTC58-0107, Physics: Treatment Planning Poster Discussion SessionsPTC58-0266, Physics: Monitoring and Modelling MotionPTC58-0530, Biology: BNCT Poster Discussion SessionsPTC58-0341, Physics: Commissioning New FacilitiesPTC58-0172, Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0456, Physics: Dose Calculation and OptimisationPTC58-0170, Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0458, Physics: Absolute and Relative DosimetryPTC58-0034, Physics: Quality Assurance and VerificationPTC58-0417, Physics: Quality Assurance and VerificationPTC58-0413, Physics: Treatment Planning Poster Discussion SessionsPTC58-0492, Physics: Dose Calculation and OptimisationPTC58-0168, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0724, Physics: Treatment PlanningPTC58-0694, Physics: Adaptive TherapyPTC58-0005, Physics: Treatment PlanningPTC58-0696, Physics: Treatment PlanningPTC58-0453, Physics: Adaptive TherapyPTC58-0366, Clinics: BreastPTC58-0197, Physics: Beam Delivery and Nozzle DesignPTC58-0652, Physics: Treatment Planning Poster Discussion SessionsPTC58-0017, Physics: Treatment PlanningPTC58-0338, Clinics: Head and Neck / EyePTC58-0539, General: New Horizons SessionPTC58-0390, Physics: Image Guidance Poster Discussion SessionsPTC58-0651, General: New HorizonsPTC58-0660, Physics: Dose Calculation and OptimisationPTC58-0360, Physics: Image GuidancePTC58-0297, Physics: 4D Treatment and DeliveryPTC58-0147, Scientific: RTTPTC58-0388, Physics: Dose Calculation and OptimisationPTC58-0484, General: New HorizonsPTC58-0301, Physics: Dose Calculation and OptimisationPTC58-0485, General: New HorizonsPTC58-0304, Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0532, Clinics: GIPTC58-0575, General: New HorizonsPTC58-0306, Physics: Quality Assurance and VerificationPTC58-0589, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0344, Physics: Quality Assurance and VerificationPTC58-0225, Physics: Treatment PlanningPTC58-0381, Physics: Quality Assurance and VerificationPTC58-0467, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0585, Physics: Commissioning New FacilitiesPTC58-0416, Physics: Quality Assurance and VerificationPTC58-0228, Physics: Quality Assurance and VerificationPTC58-0348, Physics: Dose Calculation and OptimisationPTC58-0234, Physics: Quality Assurance and VerificationPTC58-0101, Physics: Treatment PlanningPTC58-0386, Physics: Dose Calculation and OptimisationPTC58-0118, Physics: Treatment PlanningPTC58-0265, Physics: Dose Calculation and OptimisationPTC58-0119, Clinics: GIPTC58-0218, Physics: Treatment PlanningPTC58-0267, Physics: Treatment PlanningPTC58-0387, Clinics: BreastPTC58-0142, Physics: Treatment PlanningPTC58-0269, Physics: Beam Delivery and Nozzle DesignPTC58-0620, Clinics: PediatricsPTC58-0048, Physics: Quality Assurance and VerificationPTC58-0220, Physics: Quality Assurance and VerificationPTC58-0461, Physics: Treatment PlanningPTC58-0029, Physics: Absolute and Relative DosimetryPTC58-0571, Physics: Image GuidancePTC58-0046, Clinics: GUPTC58-0557, Physics: Absolute and Relative DosimetryPTC58-0211, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0131, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0373, General: New HorizonsPTC58-0411, Physics: Dose Calculation and OptimisationPTC58-0595, Clinics: CNS / Skull BasePTC58-0361, General: New HorizonsPTC58-0414, General: New HorizonsPTC58-0537, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0628, Physics: Treatment PlanningPTC58-0271, Physics: Commissioning New FacilitiesPTC58-0307, Physics: Quality Assurance and VerificationPTC58-0359, Physics: Quality Assurance and VerificationPTC58-0354, General: New HorizonsPTC58-0419, Physics: Treatment PlanningPTC58-0035, Biology: BNCTPTC58-0474, Clinics: GIPTC58-0460, Biology: BNCTPTC58-0596, Clinics: GIPTC58-0222, Physics: Image GuidancePTC58-0193, Clinics: PediatricPTC58-0312, Clinics: GUPTC58-0441, Clinics: LungPTC58-0701, Clinics: EyePTC58-0536, Clinics: GUPTC58-0205, Physics: Dose Calculation and OptimisationPTC58-0140, Clinics: GUPTC58-0208, Physics: Dose Calculation and OptimisationPTC58-0020, Physics: Image GuidancePTC58-0195, Poster AbstractsClinics: CNSPTC58-0717, Physics: Quality Assurance and VerificationPTC58-0325, Physics: Dose Calculation and OptimisationPTC58-0015, Physics: Commissioning New FacilitiesPTC58-0634, General: New HorizonsPTC58-0646, Physics: Quality Assurance and VerificationPTC58-0566, Physics: Dose Calculation and OptimisationPTC58-0134, Physics: Dose Calculation and OptimisationPTC58-0376, Biology: Mathematical Modelling SimulationPTC58-0462, Biology: BNCTPTC58-0567, General: New HorizonsPTC58-0527, Physics: Treatment PlanningPTC58-0482, Clinics: GI, GU, BreastPTC58-0693, Physics: Commissioning New FacilitiesPTC58-0518, Physics: Quality Assurance and VerificationPTC58-0686, Physics: Quality Assurance and VerificationPTC58-0202, Physics: Quality Assurance and VerificationPTC58-0322, Physics: Quality Assurance and VerificationPTC58-0564, Physics: Quality Assurance and VerificationPTC58-0680, Physics: Treatment PlanningPTC58-0247, Physics: Quality Assurance and VerificationPTC58-0682, Physics: Quality Assurance and VerificationPTC58-0440, Biology: Translational and BiomarkersPTC58-0514, Physics: Beam Delivery and Nozzle Design Poster Discussion SessionsPTC58-0178, Clinics: EyePTC58-0520, Physics: Absolute and Relative DosimetryPTC58-0231, Clinics: Head and Neck / EyePTC58-0424, Physics: Absolute and Relative DosimetryPTC58-0471, Physics: Absolute and Relative DosimetryPTC58-0356, Physics: Dose Calculation and OptimisationPTC58-0491, Physics: Dose Calculation and OptimisationPTC58-0250, Physics: Commissioning New FacilitiesPTC58-0650, Biology: Biology and Clinical InterfacePTC58-0719, Physics: Absolute and Relative DosimetryPTC58-0232, Physics: Absolute and Relative DosimetryPTC58-0353, General: New HorizonsPTC58-0511, Physics: Quality Assurance and VerificationPTC58-0219, Physics: Absolute and Relative DosimetryPTC58-0238, General: New HorizonsPTC58-0512, Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0401, Clinics: PediatricPTC58-0688, Physics: Quality Assurance and VerificationPTC58-0457, Physics: Quality Assurance and VerificationPTC58-0214, Physics: Quality Assurance and VerificationPTC58-0459, General: New HorizonsPTC58-0516, Physics: Treatment PlanningPTC58-0372, Physics: Treatment PlanningPTC58-0011, Physics: Treatment PlanningPTC58-0254, Physics: Quality Assurance and VerificationPTC58-0332, Clinics: CNS / Skull BasePTC58-0468, Biology: Mathematical Modelling SimulationPTC58-0357, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0649, Physics: Dose Calculation and OptimisationPTC58-0006, Physics: Quality Assurance and VerificationPTC58-0212, Physics: Image Guidance Poster Discussion SessionsPTC58-0565, Physics: Treatment PlanningPTC58-0018, Physics: Treatment PlanningPTC58-0019, Clinics: BreastPTC58-0576, Clinics: Head and Neck / EyePTC58-0335, Clinics: Head and Neck / EyePTC58-0577, General: New HorizonsPTC58-0621, Physics: Absolute and Relative DosimetryPTC58-0426, Physics: Commissioning New Facilities Poster Discussion SessionsPTC58-0268, Physics: Absolute and Relative DosimetryPTC58-0423, Physics: Treatment PlanningPTC58-0184, Physics: Quality Assurance and VerificationPTC58-0149, Clinics: GIPTC58-0378, Clinics: GIPTC58-0257, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0662, General: New HorizonsPTC58-0627, Physics: Treatment PlanningPTC58-0186, Physics: Treatment PlanningPTC58-0185, Physics: Quality Assurance and VerificationPTC58-0144, Biology: BNCT Poster Discussion SessionsPTC58-0602, Physics: Treatment PlanningPTC58-0189, Physics: Dose Calculation and OptimisationPTC58-0315, Clinics: Head and neckPTC58-0300, General: New Horizons SessionPTC58-0347, Physics: Image GuidancePTC58-0082, Clinics: BreastPTC58-0443, Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0629, Physics: Adaptive Therapy Poster Discussion SessionsPTC58-0007, Physics: Commissioning New FacilitiesPTC58-0472, Clinics: GI, GU, BreastPTC58-0515, Physics: Dose Calculation and Optimisation Poster Discussion SessionsPTC58-0606, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0450, Physics: Absolute and Relative DosimetryPTC58-0657, Physics: Dose Calculation and OptimisationPTC58-0551, Physics: Treatment PlanningPTC58-0192, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0675, Physics: Treatment PlanningPTC58-0194, Physics: Dose Calculation and OptimisationPTC58-0544, Physics: Treatment PlanningPTC58-0199, Physics: Quality Assurance and VerificationPTC58-0037, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0207, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0434, Physics: Quality Assurance and VerificationPTC58-0036, Physics: Quality Assurance and VerificationPTC58-0278, Physics: Quality Assurance and VerificationPTC58-0394, Physics: Quality Assurance and VerificationPTC58-0151, Physics: Quality Assurance and VerificationPTC58-0154, Physics: Dose Calculation and OptimisationPTC58-0428, Clinics: BreastPTC58-0116, Biology: Enhanced Biology in Treatment Planning Poster Discussion SessionsPTC58-0435, Physics: Commissioning New FacilitiesPTC58-0681, Physics: Absolute and Relative DosimetryPTC58-0323, Physics: Dose Calculation and OptimisationPTC58-0583, Physics: Absolute and Relative DosimetryPTC58-0448, Clinics: CNS / Skull BasePTC58-0251, General: New HorizonsPTC58-0721, Physics: Absolute and Relative DosimetryPTC58-0203, Physics: Dose Calculation and OptimisationPTC58-0455, Physics: 4D Treatment and DeliveryPTC58-0130, Physics: Commissioning New FacilitiesPTC58-0679, Physics: Absolute and Relative DosimetryPTC58-0329, General: New HorizonsPTC58-0604, Physics: Absolute and Relative DosimetryPTC58-0449, Clinics: CNS / Skull BasePTC58-0132, General: New HorizonsPTC58-0607, Physics: Quality Assurance and VerificationPTC58-0122, Physics: Quality Assurance and VerificationPTC58-0243, Physics: Treatment PlanningPTC58-0165, Oral AbstractsPhysics: Dose Calculation and OptimisationPTC58-0437, Physics: 4D Treatment and DeliveryPTC58-0377, Physics: Quality Assurance and VerificationPTC58-0125, Physics: Quality Assurance and VerificationPTC58-0245, Physics: Dose Calculation and OptimisationPTC58-0337, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0334, Physics: Quality Assurance and VerificationPTC58-0121, General: New Horizons SessionPTC58-0563, General: New Horizons SessionPTC58-0321, Clinics: Head and Neck / EyePTC58-0477, Physics: Quality Assurance and VerificationPTC58-0480, Clinics: GUPTC58-0010, Clinics: EyePTC58-0684, Clinics: GUPTC58-0496, Clinics: Head and neckPTC58-0676, Clinics: GUPTC58-0137, Physics: Beam Delivery and Nozzle Design Poster Discussion SessionsPTC58-0256, Physics: 4D Treatment and DeliveryPTC58-0117, Physics: Absolute and Relative DosimetryPTC58-0552, Physics: Absolute and Relative DosimetryPTC58-0310, Physics: Absolute and Relative DosimetryPTC58-0672, Physics: Absolute and Relative DosimetryPTC58-0436, Physics: Dose Calculation and OptimisationPTC58-0452, Physics: Dose Calculation and OptimisationPTC58-0331, Physics: Commissioning New FacilitiesPTC58-0213, Biology: Mathematical Modelling SimulationPTC58-0272, Clinics: EyePTC58-0326, Physics: Commissioning New FacilitiesPTC58-0568, Physics: Dose Calculation and OptimisationPTC58-0444, Physics: Quality Assurance and VerificationPTC58-0379, Physics: Treatment Planning Poster Discussion SessionsPTC58-0095, Physics: Treatment PlanningPTC58-0053, Physics: Absolute and Relative DosimetryPTC58-0438, Physics: Absolute and Relative DosimetryPTC58-0317, Physics: Quality Assurance and VerificationPTC58-0497, Physics: Quality Assurance and VerificationPTC58-0375, Physics: Treatment PlanningPTC58-0056, Physics: 4D Treatment and DeliveryPTC58-0124, Clinics: GIPTC58-0009, Physics: Quality Assurance and VerificationPTC58-0014, Physics: Quality Assurance and VerificationPTC58-0374, Clinics: LungPTC58-0727, General: New Horizons SessionPTC58-0578, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0470, Clinics: LungPTC58-0204, Clinics: Head and neckPTC58-0227, Clinics: LungPTC58-0446, Physics: Quality Assurance and VerificationPTC58-0190, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0609, Clinics: LungPTC58-0689, General: New HorizonsPTC58-0021, General: New HorizonsPTC58-0262, Biology: BNCT Poster Discussion SessionsPTC58-0081, Clinics: GIPTC58-0726, General: New HorizonsPTC58-0145, Physics: Image GuidancePTC58-0573, General: New HorizonsPTC58-0027, General: New HorizonsPTC58-0028, Biology: Mathematical Modelling and SimulationPTC58-0148, Physics: Dose Calculation and OptimisationPTC58-0635, Physics: Image GuidancePTC58-0215, Physics: Image GuidancePTC58-0336, Poster AbstractsClinics: CNSPTC58-0535, Physics: Quality Assurance and VerificationPTC58-0187, Biology: BNCT Poster Discussion SessionsPTC58-0084, General: New Investigator SessionPTC58-0339, General: New Horizons SessionPTC58-0420, Physics: Treatment Planning Poster Discussion SessionsPTC58-0523, Biology: BNCT Poster Discussion SessionsPTC58-0088, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0112, Physics: Quality Assurance and VerificationPTC58-0182, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0615, Physics: Quality Assurance and VerificationPTC58-0080, Biology: BNCTPTC58-0085, Physics: Adaptive Therapy Poster Discussion SessionsPTC58-0722, General: New HorizonsPTC58-0253, General: New HorizonsPTC58-0255, Clinics: PediatricPTC58-0703, General: New HorizonsPTC58-0499, Physics: Image Guidance Poster Discussion SessionsPTC58-0380, General: New HorizonsPTC58-0259, Clinics: GI, GU, BreastPTC58-0288, Clinics: GI, GU, BreastPTC58-0045, Physics: Absolute and Relative DosimetryPTC58-0619, Clinics: PediatricPTC58-0707, Physics: Quality Assurance and VerificationPTC58-0196, Physics: Quality Assurance and VerificationPTC58-0074, Physics: Quality Assurance and VerificationPTC58-0077, Biology: BNCT Poster Discussion SessionsPTC58-0073, Biology: BNCTPTC58-0075, Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0093, Clinics: GUPTC58-0161, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0371, Physics: Monitoring and Modelling MotionPTC58-0181, General: New HorizonsPTC58-0120, General: New HorizonsPTC58-0362, General: New HorizonsPTC58-0364, Physics: Image GuidancePTC58-0473, Scientific: RTTPTC58-0641, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0296, General: New HorizonsPTC58-0004, General: New HorizonsPTC58-0128, Clinics: BreastPTC58-0316, Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0236, General: New HorizonsPTC58-0008, General: New Investigator SessionPTC58-0673, Physics: Quality Assurance and VerificationPTC58-0167, Physics: Quality Assurance and VerificationPTC58-0289, Physics: Quality Assurance and VerificationPTC58-0284, General: New Horizons SessionPTC58-0522, Physics: Quality Assurance and VerificationPTC58-0164, Physics: Quality Assurance and VerificationPTC58-0285, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0623, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0502, Clinics: GUPTC58-0293, Biology: Translational and BiomarkersPTC58-0599, Biology: BNCTPTC58-0063, Clinics: LungPTC58-0656, General: New HorizonsPTC58-0592, Biology: BNCT Poster Discussion SessionsPTC58-0092, Poster AbstractsClinics: CNSPTC58-0302, Physics: Image GuidancePTC58-0464, General: New HorizonsPTC58-0352, Physics: Image GuidancePTC58-0465, General: New HorizonsPTC58-0476, Physics: Image GuidancePTC58-0100, General: New HorizonsPTC58-0235, Biology: Mathematical Modelling and SimulationPTC58-0349, Physics: Treatment PlanningPTC58-0094, Physics: 4D Treatment and Delivery Poster Discussion SessionsPTC58-0367, Physics: Dose Calculation and OptimisationPTC58-0400, Biology: Translational and BiomarkersPTC58-0244, Physics: Dose Calculation and OptimisationPTC58-0640, Biology: Mathematical Modelling and SimulationPTC58-0355, General: New Investigator SessionPTC58-0320, Physics: Quality Assurance and VerificationPTC58-0057, Physics: Quality Assurance and VerificationPTC58-0174, Physics: Quality Assurance and VerificationPTC58-0295, Physics: Dose Calculation and OptimisationPTC58-0529, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0123, Physics: Quality Assurance and VerificationPTC58-0171, Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0049, Clinics: BreastPTC58-0731, General: New HorizonsPTC58-0223, General: New HorizonsPTC58-0102, General: New HorizonsPTC58-0466, Scientific: RTTPTC58-0503, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0389, General: New HorizonsPTC58-0108, General: New HorizonsPTC58-0109, Physics: Commissioning New FacilitiesPTC58-0736, Biology: Mathematical Modelling and SimulationPTC58-0343, Biology: Mathematical Modelling and SimulationPTC58-0342, Clinics: GI, GU, BreastPTC58-0237, Physics: Dose Calculation and OptimisationPTC58-0711, Biology: Mathematical Modelling and SimulationPTC58-0581, Clinics: GI, GU, BreastPTC58-0114, Clinics: Base of SkullPTC58-0730, Clinics: Head and neckPTC58-0383, Clinics: CNS / Skull BasePTC58-0559, Clinics: Base of SkullPTC58-0613, General: New HorizonsPTC58-0691, Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0054, General: New HorizonsPTC58-0210, Clinics: BreastPTC58-0729, General: New HorizonsPTC58-0574, Clinics: GI, GU, BreastPTC58-0239, Scientific: RTTPTC58-0637, General: New HorizonsPTC58-0579, Clinics: Lung / Sarcoma / LymphomaPTC58-0176, General: New HorizonsPTC58-0699, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0156, Biology: Mathematical Modelling and SimulationPTC58-0333, Biology: Translational and BiomarkersPTC58-0345, Physics: Image GuidancePTC58-0369, Physics: Commissioning New FacilitiesPTC58-0509, Biology: Mathematical Modelling SimulationPTC58-0658, Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0051, General: New Investigator SessionPTC58-0548, Clinics: GI, GU, BreastPTC58-0241, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0412, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0024, Clinics: LungPTC58-0226, Biology: Biological Differences between Carbon, Proton and Photons Poster Discussion SessionsPTC58-0069, General: New HorizonsPTC58-0562, General: New HorizonsPTC58-0561, General: New HorizonsPTC58-0201, Biology: Mathematical Modelling and SimulationPTC58-0439, General: New HorizonsPTC58-0445, General: New HorizonsPTC58-0324, Physics: Image GuidancePTC58-0031, Biology: Mathematical Modelling and SimulationPTC58-0558, Physics: Image GuidancePTC58-0392, Biology: Mathematical Modelling and SimulationPTC58-0678, Physics: Beam Delivery and Nozzle DesignPTC58-0090, General: New Investigator SessionPTC58-0630, Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0524, Physics: Commissioning New FacilitiesPTC58-0713, Clinics: GI, GU, BreastPTC58-0139, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0248, Clinics: CNS / Pediatrics / Lung Poster Discussion SessionsPTC58-0368, Biology: Enhanced Biology in Treatment PlanningPTC58-0519, General: New Horizons SessionPTC58-0720, Physics: Quality Assurance and VerificationPTC58-0083, General: New HorizonsPTC58-0311, General: New HorizonsPTC58-0674, General: New HorizonsPTC58-0553, Physics: Image GuidancePTC58-0023, Scientific: RTTPTC58-0612, General: New HorizonsPTC58-0677, Biology: Mathematical Modelling and SimulationPTC58-0545, Physics: Dose Calculation and OptimisationPTC58-0601, Physics: Dose Calculation and OptimisationPTC58-0725, Physics: Quality Assurance and VerificationPTC58-0098, Physics: Dose Calculation and OptimisationPTC58-0605, Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0517, Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0618, Physics: Monitoring and Modelling MotionPTC58-0481, Clinics: GI / Sarcoma Poster Discussion SessionsPTC58-0071, Physics: Adaptive TherapyPTC58-0351, Physics: 4D Treatment and DeliveryPTC58-0702, Physics: Image GuidancePTC58-0734, Physics: Image GuidancePTC58-0611, Physics: Treatment Planning Poster Discussion SessionsPTC58-0486, Physics: Absolute and Relative Dosimetry Poster Discussion SessionsPTC58-0442, Biology: Drug and Immunotherapy CombinationsPTC58-0327, Clinics: Head and Neck / EyePTC58-0096, Clinics: LungPTC58-0159, Physics: Treatment PlanningPTC58-0708, General: New HorizonsPTC58-0097, Physics: Treatment Planning Poster Discussion SessionsPTC58-0350, Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0016, Physics: Adaptive TherapyPTC58-0104, Physics: Absolute and Relative Dosimetry Poster Discussion SessionsPTC58-0433, Physics: Image GuidancePTC58-0608, Biology: Translational and Biomarkers Poster Discussion SessionsPTC58-0610, Clinics: Head and neckPTC58-0058, Physics: Treatment PlanningPTC58-0715, Clinics: Head and neckPTC58-0298, Clinics: EyePTC58-0099, General: New HorizonsPTC58-0086, General: New HorizonsPTC58-0089, Clinics: Lung / Sarcoma / LymphomaPTC58-0200, Poster AbstractsClinics: CNSPTC58-0157, Clinics: LungPTC58-0141, Clinics: LungPTC58-0260, Clinics: LungPTC58-0264, Physics: Image GuidancePTC58-0513, Physics: Image GuidancePTC58-0631, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0469, Biology: BNCT Poster Discussion SessionsPTC58-0384, Physics: Image GuidancePTC58-0639, Clinics: PediatricsPTC58-0700, Clinics: LungPTC58-0136, Clinics: BreastPTC58-0706, General: New HorizonsPTC58-0079, Biology: Drug and Immunotherapy Combinations Poster Discussion SessionsPTC58-0406, Clinics: Base of SkullPTC58-0382, Physics: Image GuidancePTC58-0624, Physics: Beam Delivery and Nozzle DesignPTC58-0173, Biology: Drug and Immunotherapy CombinationsPTC58-0358, Poster AbstractsClinics: CNSPTC58-0690, General: New HorizonsPTC58-0061, Clinics: Lung / Sarcoma / LymphomaPTC58-0580, Physics: Monitoring and Modelling MotionPTC58-0162, Physics: Adaptive TherapyPTC58-0550, Physics: Adaptive TherapyPTC58-0430, Clinics: Lung / Sarcoma / LymphomaPTC58-0103, General: New Investigator SessionPTC58-0252, Physics: Quality Assurance and VerificationPTC58-0704, Physics: Image GuidancePTC58-0418, Clinics: Base of SkullPTC58-0572, Clinics: Lung / Sarcoma / LymphomaPTC58-0106, Physics: Beam Delivery and Nozzle DesignPTC58-0022, Physics: Monitoring and Modelling MotionPTC58-0279, Physics: Treatment Planning Poster Discussion SessionsPTC58-0447, Physics: Treatment PlanningPTC58-0622, Clinics: PediatricsPTC58-0644, Biology: Biology and Clinical InterfacePTC58-0490, Clinics: CNS / Skull BasePTC58-0716, General: New HorizonsPTC58-0292, Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0570, General: New HorizonsPTC58-0059, Physics: Quality Assurance and VerificationPTC58-0710, Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0216, Physics: Image GuidancePTC58-0404, Physics: Image GuidancePTC58-0525, Physics: Image GuidancePTC58-0526, Poster AbstractsClinics: CNSPTC58-0328, Clinics: LungPTC58-0070, Clinics: Eye / Breast / Pelvis Poster Discussion SessionsPTC58-0135, Biology: BNCT Poster Discussion SessionsPTC58-0391, Physics: Treatment PlanningPTC58-0510, Physics: Treatment PlanningPTC58-0636, Physics: Treatment PlanningPTC58-0638, Physics: Image GuidancePTC58-0408, Physics: Absolute and Relative Dosimetry Poster Discussion SessionsPTC58-0632, Physics: Treatment Planning Poster Discussion SessionsPTC58-0318, Biology: Enhanced Biology in Treatment PlanningPTC58-0246, Clinics: PediatricsPTC58-0504, General: New HorizonsPTC58-0160, Physics: Image Guidance Poster Discussion SessionsPTC58-0076, Physics: Monitoring and Modelling MotionPTC58-0143, Biology: Mathematical Modelling and SimulationPTC58-0718, Physics: Image GuidancePTC58-0671, Clinics: LungPTC58-0183, Physics: Image GuidancePTC58-0670, Report, Physics: Treatment Planning Poster Discussion SessionsPTC58-0422, Biology: Biological Differences between Carbon / Proton and Photons Carbons / Proton and PhotonPTC58-0129, Physics: Adaptive Therapy Poster Discussion SessionsPTC58-0705, Biology: Enhanced Biology in Treatment PlanningPTC58-0258, General: New HorizonsPTC58-0030, General: New HorizonsPTC58-0150, Biology: Biology and Clinical InterfacePTC58-0479, General: New HorizonsPTC58-0153, Clinics: PediatricPTC58-0087, General: New HorizonsPTC58-0152, General: New HorizonsPTC58-0155, General: New HorizonsPTC58-0033, General: New HorizonsPTC58-0158, Physics: Image GuidancePTC58-0429, Biology: Translational and BiomarkersPTC58-0287, Physics: Adaptive TherapyPTC58-0403, Physics: Image GuidancePTC58-0309

Published

2020

38. Comparison of the effects of radiotherapy doses of 50.4 Gy and 60 Gy on outcomes of chemoradiotherapy for thoracic esophageal cancer: subgroup analysis based on the Comprehensive Registry of Esophageal Cancer in Japan from 2009 to 2011 by the Japan Esophageal Society

Author

Hisahiro Matsubara, Kenji Nemoto, Shohei Kawashiro, Yasushi Toh, Takashi Uno, Yuji Tachimori, Keiichi Jingu, and Hodaka Numasaki

Subjects

Adult, Male, medicine.medical_specialty, Esophageal Neoplasms, medicine.medical_treatment, Esophageal cancer, Thoracic Cavity, Subgroup analysis, Radiotherapy dose, Gastroenterology, 03 medical and health sciences, Esophagus, 0302 clinical medicine, Japan, Surgical oncology, Internal medicine, Humans, Medicine, Registries, Aged, Data Management, Neoplasm Staging, Aged, 80 and over, business.industry, Significant difference, Radiotherapy Dosage, Chemoradiotherapy, Middle Aged, medicine.disease, Combined Modality Therapy, Concurrent chemoradiotherapy, Survival Rate, Radiation therapy, Cardiothoracic surgery, 030220 oncology & carcinogenesis, Female, Original Article, 030211 gastroenterology & hepatology, business, Nationwide survey, Thoracic esophageal cancer

Abstract

Background In definitive chemoradiotherapy (CRTx) for esophageal cancer, a radiotherapy (RT) dose of 50.4 Gy in 28 fractions has been the standard in many countries, while 60 Gy in 30 fractions has been frequently used in Japan. To clarify the optimal RT dose in CRTx for esophageal cancer, we compared clinical outcomes with the two doses using data from the Comprehensive Registry of Esophageal Cancer in Japan by the Japan Esophageal Society (JES). Methods Of the patients enrolled in the registry for 2015–2017 surveys (patients treated between 2009 and 2011), 996 patients who received definitive CRTx with 50.4 Gy or 60 Gy for thoracic esophageal cancer were eligible for analysis. Results The complete response (CR) rates in the 50.4 Gy and 60 Gy groups were 49.1% and 46.4%, respectively (p = 0.5851). The 5-year overall survival (OS) rates in the 50.4 Gy group and 60 Gy group for stages I, II/III and IV were 64.2% and 57.2%, 35.0% and 27.0%, and 18.0% and 15.3%, respectively. Since no significant difference was found between the two groups, the 50.4 Gy group was not inferior to the 60 Gy group with regard to OS. Conclusions The analysis revealed that the 50.4 Gy group had a non-inferior outcome in comparison with the 60 Gy group for stages I, II/III and IV thoracic esophageal cancer. These results were obtained from a large database for the first time in Japan.

Published

2020

39. Clinical Implications of Midventricular Obstruction in Patients With Hypertrophic Cardiomyopathy

Author

Minami, Yuichiro, Kajimoto, Katsuya, Terajima, Yutaka, Yashiro, Bun, Okayama, Dai, Haruki, Shintaro, Nakajima, Takatomo, Kawashiro, Naomi, Kawana, Masatoshi, and Hagiwara, Nobuhisa

Published

2011

40. Implementation Rate and Effects of Multidisciplinary Team Meetings on Decision Making about Radiotherapy : An Observational Study at a Single Japanese Institution

Author

Ichikawa, Mayumi, primary, Uematsu, Ken, additional, Yano, Natsuko, additional, Yamada, Masayoshi, additional, Ono, Takashi, additional, Kawashiro, Shohei, additional, Akamatsu, Hiroko, additional, Hagiwara, Yasuhito, additional, Sato, Hiraku, additional, and Nemoto, Kenji, additional

Published

2022

41. Effect of Aluminum Clad Cu Wire Bonds on Power Cycle Lifetime for High Current Density Power Module Packages

Author

KAWASHIRO, Fumiyoshi, primary, YOSHIKAWA, Masaaki, additional, MIYAKE, Eitaro, additional, ENDO, Yoshiki, additional, TONEDACHI, Tatsuo, additional, and NISHIKAWA, Hiroshi, additional

Published

2022

42. Regulation of Blood Flow in Pulmonary Microcirculation by Vasoactive Arachidonic Acid Metabolites – Analysis in Acute Lung Injury

Author

Yamaguchi, Kazuhiro, Mori, Masaaki, Kawai, Akira, Asano, Koichiro, Takasugi, Tomoaki, Umeda, Akira, Kawashiro, Takeo, Yokoyama, Tetsuro, Vaupel, Peter, editor, Zander, Rolf, editor, and Bruley, Duane F., editor

Published

1994

43. Roles of Antioxidant Enzymes in Erythrocytes on Hypoxic Pulmonary Vasoconstriction

Author

Yamaguchi, Kazuhiro, Asano, Koichiro, Takasugi, Tomoaki, Kawai, Akira, Mori, Masaaki, Umeda, Akira, Kawashiro, Takeo, Yokoyama, Tetsuro, Vaupel, Peter, editor, Zander, Rolf, editor, and Bruley, Duane F., editor

Published

1994

44. Effects of 5-Hydroxytryptamine Inhibition on Gas Exchange and Pulmonary Hemodynamics in Acute Canine Pulmonary Embolism

Author

Kawai, A., Umeda, A., Mori, M., Takasugi, T., Yamaguchi, K., Kawashiro, T., Vaupel, Peter, editor, Zander, Rolf, editor, and Bruley, Duane F., editor

Published

1994

45. Constriction and Dilatation of Pulmonary Arterial Ring by Hydrogen Peroxide - Importance of Prostanoids -

Author

Yamaguchi, Kazuhiro, Asano, Koichiro, Mori, Masaaki, Takasugi, Tomoaki, Fujita, Hirofumi, Suzuki, Yukio, Kawashiro, Takeo, Hogan, Michael C., editor, Mathieu-Costello, Odile, editor, Poole, David C., editor, and Wagner, Peter D., editor

Published

1994

46. Polychlorinated biphenyl levels in the blood of Japanese individuals ranging from infants to over 80 years of age

Author

Mori, Chisato, Kakuta, Kazuhiko, Matsuno, Yoshiharu, Todaka, Emiko, Watanabe, Masahiro, Hanazato, Masamichi, Kawashiro, Yukiko, and Fukata, Hideki

Published

2014

47. Wild ciliates differ in susceptibility to Legionella pneumophila JR32

Author

Shinji Nakamura, Torahiko Okubo, Airi Kawashiro, Masaki Miyake, Hiroyuki Yamaguchi, and Jeewan Thapa

Subjects

Ciliate, biology, Strain (chemistry), Tetrahymena, Virulence, Legionella pneumophila JR32, Vacuole, biology.organism_classification, co-culture, Microbiology, Legionella pneumophila, Colpoda E6, infection, susceptibility, Anteglaucoma CS11A, Colpoda, Extracellular

Abstract

We investigated how Legionella pneumophila (Lp) JR32 interacts with Anteglaucoma CS11A and Colpoda E6, two ciliates that we isolated from sewage and sink trap sludge, respectively, using a handmade maze device containing a 96-well crafting plate. Our 18S rDNA-based phylogenetic analysis showed that Anteglaucoma CS11A and Colpoda E6 formed distinct clades. Scanning electron microscopy showed that Anteglaucoma CS11A had a bigger-sized body than Colpoda E6 and, unlike Tetrahymena IB (the reference strain), neither ciliate produced pellets, which are extracellular vacuoles. Fluorescence microscopic observations revealed that although the intake amounts differed, all three ciliates rapidly ingested LpJR32 regardless of the presence or absence of the icm/dot virulence genes, indicating that they all interacted with LpJR32. In co-cultures with Anteglaucoma CS11A, the LpJR32 levels were maintained but fell dramatically when the co-culture contained the LpJR32 icm/dot deletion mutant instead. Anteglaucoma CS11A died within 2 days of co-culture with LpJR32, but survived co-culture with the deletion mutant. In co-cultures with Colpoda E6, LpJR32 levels were maintained but temporarily decreased independently of the virulence gene. Concurrently, the Colpoda E6 ciliates survived by forming cysts, which may enable them to resist harsh environments, and by diminishing the sensitivity of trophozoites to Lp. In the Tetrahymena IB co-cultures with LpJR32 or Δicm/dot, the Lp levels were maintained, albeit with temporal decreases, and the Tetrahymena IB levels were also maintained. We conclude that unlike Tetrahymena IB with pellet production, Anteglaucoma CS11A can be killed by LpJR32 infection, and Colpoda E6 can resist LpJR32 infection through cyst formation and the low sensitivity of trophozoites to Lp. Thus, the two ciliates that we isolated had different susceptibilities to LpJR32 infection.

Published

2021

48. Wild ciliates differ in susceptibility to

Author

Airi, Kawashiro, Torahiko, Okubo, Shinji, Nakamura, Jeewan, Thapa, Masaki, Miyake, and Hiroyuki, Yamaguchi

Subjects

Bacterial Proteins, Virulence, Tetrahymena, Vacuoles, Phylogeny, Legionella pneumophila

Abstract

We investigated how

Published

2021

49. Effect of copper over-pad metallization on reliability of aluminum wire bonds

Author

Kentaro Takao, Eitaro Miyake, Tatsuya Kobayashi, Fumiyoshi Kawashiro, Masaaki Yoshikawa, Hiroshi Nishikawa, Yoshiki Endo, and Tatsuo Tonedachi

Subjects

Wire bonding, Materials science, Schottky diode, Condensed Matter Physics, Atomic and Molecular Physics, and Optics, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials, Thermal conductivity, Power module, Junction temperature, Power semiconductor device, Electrical and Electronic Engineering, Composite material, Safety, Risk, Reliability and Quality, Joule heating, Current density

Abstract

Recently, there have been moves to replace Si power devices with SiC ones, which will require new materials with higher thermal conductivity for power module assemblies owing to their higher operating temperatures. Al wire bond interconnections suffer from a mismatch in the coefficient of thermal expansion (CTE) between the SiC chip and the wire material, leading to a degradation of the power module reliability owing to the higher junction temperature (Tj) operation caused by the current density increase. Various studies have been conducted to improve the reliability of such interconnections. In this study, Al wires were bonded on a thick Cu over-pad metallization (OPM) layer that was formed on an Al pad of a SiC Schottky barrier diode, and active power cycling tests were performed while changing Tjmax to investigate the contribution of such a thick Cu-OPM layer on the reliability of Al wire bonds. Compared with the case of Al wire bonds on an Al pad, in active power cycling tests, the lifetime of Al wire bonds on a 25 μm-thick Cu-OPM layer was 1.3-times longer at ΔTj = 75 °C, and 1.5-times longer at ΔTj = 100 °C. The results of Joule heating analysis and elastic thermal-stress analysis showed that the lifetime prolongation effect of Al wire bonds on Cu-OPM was not derived from the heat dissipation effect of the thick Cu-OPM layer, but from a stress-reduction effect obtained by keeping the Al wire bonds away from the SiC diode chip, with which the CTE mismatch is large.

Published

2019

50. Carbon-ion radiotherapy for locally recurrent rectal cancer: Japan Carbon-ion Radiation Oncology Study Group (J-CROS) Study 1404 Rectum

Author

Makoto Shinoto, Shigeru Yamada, Hiroshi Tsuji, Yoshiyuki Shioyama, Yuka Isozaki, Takashi Nakano, Masahiko Okamoto, Kenji Nemoto, Shohei Kawashiro, Tadashi Kamada, and Tatsuya Ohno

Subjects

Adult, Male, medicine.medical_specialty, medicine.medical_treatment, Rectum, Heavy Ion Radiotherapy, Gastroenterology, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Internal medicine, Relative biological effectiveness, medicine, Humans, Radiology, Nuclear Medicine and imaging, Radiation Injuries, Aged, Retrospective Studies, Aged, 80 and over, Rectal Neoplasms, business.industry, Hematology, Middle Aged, Acute toxicity, Confidence interval, Gastrointestinal Tract, Survival Rate, Radiation therapy, Clinical trial, medicine.anatomical_structure, Oncology, 030220 oncology & carcinogenesis, Carbon Ion Radiotherapy, Female, Neoplasm Recurrence, Local, business, Pelvic Infection, Relative Biological Effectiveness

Abstract

Purpose We investigated the efficacy and safety of carbon-ion radiotherapy (C-ion RT) for locally recurrent rectal cancer (LRRC). Patients and methods Data from patients with LRRC treated with C-ion RT from November 2003 to December 2014 at three institutions were retrospectively analyzed. The endpoints of this clinical trial were overall survival (OS), local control (LC), and acute/late toxicity. Results A total of 224 patients' data were collected. The prescribed dose was 70.4 Gy (relative biological effectiveness [RBE]-weighted absorbed dose) or 73.6 Gy (RBE) in 16 fractions. The median follow-up period from the initiation of C-ion RT was 62 months (range 6–169 months). The OS rates were 73% (95% confidence interval [CI], 67%–79%) at 3 years and 51% (95%CI 44%–58%) at 5 years. The LC rates were 93% (95%CI 88%–96%) at 3 years, and 88% (95%CI 82%–93%) at 5 years. Grade 3 acute toxicity was observed in three patients: gastrointestinal toxicity (n = 1) and pelvic infection (n = 2). Grade 3 late toxicity was observed in 12 patients: skin reaction (n = 2), gastrointestinal toxicity (n = 2), neuropathy (n = 1), and pelvic infection (n = 7). There was no grade 4 or 5 acute or late toxicity. Conclusions This first multi-institutional analysis of C-ion RT for LRRC indicated relatively favorable outcomes with limited toxicities.

Published

2019