DOCSLIB.ORG

Departments of Gastroenterology and Surgery, Kurume University School of Medicine, Kurume 830, Japan the Incidence of Gastric Ca

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Departments of Gastroenterology and Surgery, Kurume University School of Medicine, Kurume 830, Japan the Incidence of Gastric Ca THE KURUMEMEDICAL JOURNAL Vol.44, p.157-164,1997 ORIGINAL ARTICLE Early Gastric Cancer and Lymph Node Metastasis KIKUO KOUFUJI, JINRYO TAKEDA, ATSUSHI TOYONAGA, SHINO YOSHIHARA, YUICHI TANAKA, JUNJI OHTA, KEISHIRO AOYAGI, SHOJIRO YANG, ISSEI KODAMA AND KAZUO SHIROUZU Departments of Gastroenterology and Surgery, Kurume University School of Medicine, Kurume 830, Japan Received for publication April 2, 1997 Summary: A total of 1,845 cases of gastric cancer have been resected in our hospital during the past 18 years. Of these, 764 cases (41.5%) were early gastric cancer. The rate of lymph node metastasis was 2% in early mucosal cancer and 19.4% in early submucosal cancer (p<0.001). In the cases of early mucosal cancer, the rate of lymph node metastasis was 0.9% for the elevated type and 2.4% for the depressed type. In the cases of early submucosal cancer, the rate of lymph node metastasis was 25.3% for the elevated type and 17.3% for the depressed type. In the mucosal cancers the rate of lymph node metastasis was high in the 0-IIc and IIc+III macroscopic type, and in the poorly differentiated microscopic type. In the submucosal cancers the rate of lymph node metastasis was 40% in mucinous adenocarcinoma and 33% in papillary adenocarcinoma. There was no lymph node metastasis in any case of early gastric cancer smaller than 1cm surface diameter. Key words adenocarcinoma, mucosal cancer, lymph node metastasis, tumor size, immunohistochemical study, prognosis Introduction the stomach, with or without lymph node metastasis. Death has been thought The incidence of gastric cancer has to be more likely to occur in EGC with been perceived to be declining world- lymph node metastasis than in EGC with wide (Launois et al. 1991). The incidence no metastasis. Therefore, when EGC of death as a result of gastric cancer has without lymph node metastasis could be recently begun to decrease in Japan. diagnosed preoperatively, then minimal- This decrease has been attributed to ly invasive surgery can be selected to advances in diagnostic and therapeutic ensure a postoperative better quality of procedures, especially to the increased life. frequency of early gastric cancer (EGC) The purpose of this study was to detection in Japan (Iriyama and Suzuki, evaluate the independent influences of 1992). clinical and pathological variables on the EGC is defined as an adenocarci- incidence of lymph node metastasis and noma confined to the mucosa (m- on the prognosis in EGC. cancer) or submucosa (sm-cancer) of 157 158 KOUFUJI ET AL. Materials and Methods Immunohistochemical studies of epidermal growth factor (EGF), epider- During the 18 years between 1976 mal growth factor receptor (EGFR) and and 1993, a total of 1,845 patients with transforming growth factor-ƒ¿ (TGFƒ¿) primary gastric cancer underwent were performed to investigate the gastrectomy in the First Department of characteristics of the EGC with or Surgery, Kurume University Hospital. Of without lymph node metastasis through these, 764 (41.5%) cases were classified ABC staining using Anti-EGF polyclonal as early cancers on the basis of the antibody, Anti-EGFR polyclonal anti- pathology data. body and Anti-TGFƒ¿ monoclonal anti- These early gastric cancers included body in 75 cases of EGC. 77 (10.1%) cases of multiple EGC, 9 The 5-year-survival rate of patients (1.2%) cases of remnant-stump EGC, and with gastric cancer was assessed using 678 (88.7%) cases of a single EGC. the Kaplan-Meier method, and statistical Double EGC, such as m-cancer+ sm- analysis was made using the Generalized cancer, was classified as the sm-cancer Wilcoxon test. Other statistical analysis of the deeper infiltration. Cases of was performed using the X2 test. multiple gastric cancer, involving a combination of early gastric cancer with an advanced cancer were excluded from Results this study. Malignant lymphomas and leiomyosarcomas were also excluded. Of the 764 patients with EGC, 520 The macroscopic and microscopic were men and 244 were women (a ratio classifications of gastric cancer, cancer of 2.1:1). The age distribution and cancer location, and pathological cancer stage depth in EGC are shown in Table 1. were determined according to the EGC can be divided into three Guidelines of the Japanese Research fundamental macroscopic types, ele- Society for Gastric Cancer (1995). vated (0-I: protruded, 0-II: superficial TABLE 1. The incidence of early gastric cancer by age ( ): Number of female patients EARLY GASTRIC CANCER 159 TABLE 2. elevated), flat type (0-IIb), and depressed Macroscopic classification of early cancer type (0-IIc: superficial depressed, 0-III: and lymph node metastasis excavated). The details of this macro- scopic classification of EGC, and details of lymph node metastasis are summarized in Table 2. A mixed-pattern of these fundamental types, such as IIa+IIc, or IIc+III, was fairly common, and so we classified all the mixed-patterns as a fourth fundamental type. The four macroscopic types and the rate of lymph node metastasis are summarized in Table 3. The rate of lymph node metastasis was highest in this mixed- pattern type. Correlation of the tumor size in the 3 fundamental types with the rate of lymph node metastasis is summarized in Table 4. In EGC smaller than 10mm in diameter, there was no lymph node metastasis. The incidence rate of lymph node metastasis in both m- and sm-cancer and the longitudinal cancer location are summarized in Table 5. The rate of lymph node metastasis was 2.0% in m- cancer and was 19.4% in sm-cancer (p< 0.001). The rate of lymph node metas- tasis according to the cross-sectional TABLE 3. cancer location is summarized in Fig. 1. Macroscopic classification and rate of The correlation of the macroscopical lymph node metastasis and pathological details to the rate of lymph node metastasis in both m-and sm-cancer is summarized in Table 6. According to pathological classification, the incidence of node metastasis was higher in cases of poorly differentiated adenocarcinoma (7.3%) and of signet ring cell carcinoma (2.1%) in m-cancer, and was higher in cases of mucinous adenocarcinoma (40%) and of papillary adenocarcinoma (33%) in sm-cancer. Seven (87.5%) of the 8 m-cancers with positive lymph node metastasis n(+) 160 KOUFUJI ET AL. TABLE 4. Size of tumor and rate of lymph node metastasis TABLE 5. Lymph node metastasis according to the longitudinal cancer location Nine remnant-stump early cancers were included as being in C region, while multiple *:p<0.001 cancers were included in the dominant tumor location. The immunohistochemical studies and any correlation with lymph node metastasis are summarized in Table 7. The positivity of EGF was 57.1% in lymph node positive (n(+)) cases, and was 11.8% in node negative (n(-)) cases (p<0.001). The positivity of EGFR was 85.7% in n(+) cases and 35.5% in n(-) Fig. 1. Lymph node metastasis rates cases (p<0.05). according to the cross-sectional cancer The incidence of EGC and histo- location. logical cancer stage are summarized in Table 8. Two positive synchronous were 0-IIc or 0-IIc+III type associated hepatic metastasis and two n3 were with an ulcer or an ulcer scar. When the included in stage IV. EGC were classified into 5 types The postoperative prognosis of the according to the depth of cancer EGC according to the cancer depth is invasion as shown in Fig. 2, then the shown in Fig. 3. The prognosis of the lymph node metastasis rate was 1.3% in EGC according to the absence or m-cancer and 11.2% in sml cancer (p< presence of lymph node metastasis is 0.001). shown in Fig. 4. EARLY GASTRIC CANCER 161 TABLE 6. Lymph node metastasis rates according to macro- and microscopic type Mucosal (m) cancer pap: papillary adenocarcinoma, tub 1: well differentiated tubular adeno. ca., tub2: moderately diff. adeno., por: poorly diff. adeno., muc: mucinous adeno., sig: signet-ring cell ca., others: carcinoid TABLE 7. Immunohistochemical studies and n factor in early gastric cancer EGF: epidermal growth factor, EGFR: epidermal growth factor receptor, TGF ƒ¿: transforming growth factor-ƒ¿, *: p<0.001, **: p<0.05 TABLE 8. Incidence of early gastric cancer according to histological stage Fig. 2. Lymph node metastasis rate according to the depth of cancer invasion in early gastric cancer. n1=stage II, n2=stage III, m: mucosa, mm: mucosal membrane, sm: stage IV=H(+): 2, n3: 2 submucosa, mp: muscularis propria *: p<0 .001, **: p<0.01, ***: p<0.05 162 KOUEUJI ET AL. Fig. 3. Prognosis of early gastric Fig. 4. Prognosis of early gastric cancer according to the cancer depth. cancer according to n-factor. Discussion should be considered during endoscopic examination. These accompanying lesions The incidence of EGC continues to were mainly a superficial type m-cancer increase in Japan, due mainly to of less than 10 mm in diameter (Koufuji improved detection through mass et al. 1995). screening in addition to advances in Metastasis from the EGC to the radiographic, endoscopic and biopsy regional lymph nodes of the stomach techniques. The frequency of EGC was was found to be the most important 41.5% of the total number of resected factor in selecting the surgical man- gastric cancers in the present study. agement because such lymph node Macroscopically, EGC of depressed type metastasis is recognized as a high-risk was more frequent than EGC of elevated factor for hematogenous recurrence. type. In the abstracts from the 63rd The rate of lymph node metastasis was Meeting of the Japanese Research 0.9% in elevated and was 2.4% in Society for Gastric Cancer (1994), we depressed macroscopic type in m- counted 533 (2.5%) cases of m-cancer cancer.
Load more

Recommended publications
  • Open Heart Operation in a Patient with Hereditary Spherocytosis: a Case Report
    Case Open Heart Operation in a Patient Report with Hereditary Spherocytosis: A Case Report Shigeaki Aoyagi, MD, Hiroshi Kawano, MD, Hiroshi Tomoeda, MD, Ryoichi Hiratsuka, MD, and Takemi Kawara, MD A 9-year-old girl who had ostium secundum atrial septal defect (ASD) and hereditary sphero- cytosis (HS) is described. The patient had a history of splenectomy for HS and underwent repair of the ASD under cardiopulmonary bypass (CPB), however, no significant or persis- tent hemolysis was observed during and after CPB. Only 10 patients with HS who under- went cardiac operations using CPB have been reported. The case is presented due to its rarity. (Ann Thorac Cardiovasc Surg 2001; 7: 375–7) Key words: hereditary spherocytosis, hemolysis, splenectomy, open heart operation Introduction Case Report Open-heart surgery for congenital or acquired cardiac A 9-year-old girl was admitted to our hospital for treat- lesions in patients with hematologic diseases such as in- ment of anemia. At 3 months after birth, the patient was herited hemoglobinopathies, red cell dyscrasias, and found to have a heart murmur by her family physician. coagulopathies, although infrequent, presents potential Based on the findings of cardiac catheterization and he- management problems during the perioperative period. matologic examination, the diagnoses of ostium secun- Among these disorders, hereditary spherocytosis (HS) is dum atrial septal defect (ASD) and HS were made at the an intrinsic, red blood cell defect resulting in hemolytic age of one year. At that time, the peripheral blood smear anemia. In HS, the red blood cells are spheroidal in shape revealed spherocytosis, and the red blood cells showed and have an increased osmotic and mechanical fragility.
    [Show full text]
  • Identification of Biomarkers for Personalized Peptide Vaccination in 2,588 Cancer Patients
    INTERNATIONAL JOURNAL OF ONCOLOGY 56: 1479-1489, 2020 Identification of biomarkers for personalized peptide vaccination in 2,588 cancer patients SHIGETAKA SUEKANE1, SHIGERU YUTANI2, AKIRA YAMADA3, TETSURO SASADA4, SATOKO MATSUEDA5, SHINZO TAKAMORI6, UHI TOH6, KOUICHIRO KAWANO7, KOICHI YOSHIYAMA6, SHINJIRO SAKAMOTO8, SHUNICHI SUGAWARA9, NOBUKAZU KOMATSU10, TEPPEI YAMADA11, MASAYASU NAITO2, MIZUHIKO TERASAKI12, TAKASHI MINE13, KYOGO ITOH2, SHIGEKI SHICHIJO2 and MASANORI NOGUCHI2 1Department of Urology, Kurume University School of Medicine, Kurume, Fukuoka 830-0011; 2Cancer Vaccine Center, Kurume University, Kurume, Fukuoka 839-0863; 3Research Center for Innovative Cancer Therapy, Kurume University, Kurume, Fukuoka 830-0011; 4Cancer Vaccine Center, Kanagawa Cancer Center, Yokohama, Kanagawa 241-8515, Japan; 5Center for Immunotherapy, Roswell Park Cancer Institute, Buffalo, NY 14263, USA; Departments of 6Surgery, and 7Obstetrics and Gynecology, Kurume University, Kurume, Fukuoka 830-0011; 8Department of Molecular and Internal Medicine School of Medicine, Hiroshima University, Hiroshima, Hiroshima 734-8551; 9Department of Pulmonary Medicine, Sendai Kousei Hospital, Sendai, Miyagi 980-0873; 10Department of Immunology, Kurume University School of Medicine, Kurume, Fukuoka 830-0011; 11Department of Gastroenterological Surgery, Fukuoka University School of Medicine, Fukuoka, Fukuoka 814-0180; 12Terasaki Neurosurgery Clinic, Chikugo, Fukuoka 833-0031; 13Department of Clinical Oncology, Nagasaki Harbor Medical Center, Nagasaki, Nagasaki 850-8555,
    [Show full text]
  • Accuracy of the Simplified Nutritional Appetite Questionnaire For
    nutrients Article Accuracy of the Simplified Nutritional Appetite Questionnaire for Malnutrition and Sarcopenia Screening among Older Patients Requiring Rehabilitation Akio Shimizu 1,2,3 , Ichiro Fujishima 4, Keisuke Maeda 2,3,* , Kenta Murotani 5 , Tatsuro Inoue 3,6 , Tomohisa Ohno 7 , Akiko Nomoto 7, Junko Ueshima 2,8 , Yuria Ishida 2,9, Ayano Nagano 2,10 , Jun Kayashita 11 and Naoharu Mori 2 1 Department of Nutrition, Hamamatsu City Rehabilitation Hospital, Hamamatsu 433-8127, Japan; [email protected] 2 Department of Palliative and Supportive Medicine, Graduate School of Medicine, Aichi Medical University, Nagakute 480-1195, Japan; [email protected] (J.U.); [email protected] (Y.I.); [email protected] (A.N.); [email protected] (N.M.) 3 Department of Geriatric Medicine, Hospital, National Center for Geriatrics and Gerontology, Obu 474-8511, Japan; [email protected] 4 Department of Rehabilitation Medicine, Hamamatsu City Rehabilitation Hospital, Hamamatsu 433-8127, Japan; [email protected] 5 Biostatistics Center, Kurume University, Kurume 830-0011, Japan; [email protected] 6 Department of Physical Therapy, Niigata University of Health and Welfare, Niigata 950-3198, Japan 7 Department of Dentistry, Hamamatsu City Rehabilitation Hospital, Hamamatsu 433-8127, Japan; [email protected] (T.O.); [email protected] (A.N.) Citation: Shimizu, A.; Fujishima, I.; 8 Department of Clinical Nutrition and Food Service, NTT Medical Center Tokyo, Tokyo 141-8625, Japan Maeda, K.; Murotani, K.; Inoue, T.; 9 Department of Nutrition, Aichi Medical University, Nagakute 480-1195, Japan Ohno, T.; Nomoto, A.; Ueshima, J.; 10 Department of Nursing, Nishinomiya Kyoritsu Neurosurgical Hospital, Nishinomiya 663-8211, Japan Ishida, Y.; Nagano, A.; et al.
    [Show full text]
  • Company Profile/Sales Trend/Sales Breakdown
    Company Profile/Sales Trend/Sales Breakdown Company Profile Sales Trend (billion yen) Consolidated Non-consolidated 250 225 213.5 201.3 Name 200 191.1 Topre Corporation 175 163.3 145.3 150 Established 125 127.2 April 30, 1935 109.9 112.0 100 100.2 Capital 75 72.4 5,610 million yen (as of end of March 2020) 50 Annual Sales 25 Consolidated: 213,591 million yen (as of FY ended March 2020) 0 2015 2016 2017 2018 2019 Non-Consolidated: 127,203 million yen (as of FY ended March 2020) (ended Mar 2016) (ended Mar 2017) (ended Mar 2018) (ended Mar 2019) (ended Mar 2020) Stock Listed on the First Section of Tokyo Stock Exchange Sales Breakdown Head Office Asahi Bldg., 12-2 Nihonbashi 3-chome, Consolidated Non-consolidated Chuo-ku, Tokyo, 103-0027, Japan Other Press-Related Other Press-Related Businesses Products Businesses Businesses Products Businesses Representative 4.4% 73.7% 7.1% 69.8% Shinichiro Uchigasaki, President Offices and Plants Temperature controlled Plants: Sagamihara, Hiroshima, Tochigi, Gifu, and Saitama Logistics-Related Businesses 21.9% Employees Temperature Consolidated: 5,546 (as of end of March 2020) controlled Logistics-Related Non-Consolidated: 1,535 (as of end of March 2020) Businesses 23.1% Offices & Plants Head Office Sagamihara Plant Hiroshima Plant Tochigi Plant Gifu Plant Saitama Plant Asahi Bldg., 12-2, Nihonbashi 2-25, Minami Hashimoto 3-chome, 128-50 Hachihonmatsu-cho Hara, 3777 Kaminokawa, Kaminokawa-machi, 372-7 Shimo Kawabe, Kawabe-cho, 874-1 Tamagawa Tokigawa-machi, 3-chome, Chuo-ku, Tokyo, Chuo-ku, Sagamihara-shi, Higashi Hiroshima-shi, Hiroshima, Kawachi-gun, Tochigi, 329-0611, Japan Kamo-gun, Gifu, 509-0306, Japan Hiki-gun, Saitama, 355-0342, Japan 103-0027, Japan Kanagawa, 252-5287, Japan 739-0151, Japan Tel: +81-285-56-3652 Tel: +81-574-53-2180 Tel: +81-493-66-1211 Tel: +81-3-3271-0711 Tel: +81-42-772-0111 Tel: +81-82-428-2611 Fax: +81-285-56-0162 Fax: +81-574-53-4533 Fax: +81-493-66-1214 Fax: +81-3-3271-7045 Fax: +81-42-774-2161 Fax: +81-82-429-0034 Affiliated Companies [Japan] [Overseas] Toho Transportation Co., Ltd.
    [Show full text]
  • By Municipality) (As of March 31, 2020)
    The fiber optic broadband service coverage rate in Japan as of March 2020 (by municipality) (As of March 31, 2020) Municipal Coverage rate of fiber optic Prefecture Municipality broadband service code for households (%) 11011 Hokkaido Chuo Ward, Sapporo City 100.00 11029 Hokkaido Kita Ward, Sapporo City 100.00 11037 Hokkaido Higashi Ward, Sapporo City 100.00 11045 Hokkaido Shiraishi Ward, Sapporo City 100.00 11053 Hokkaido Toyohira Ward, Sapporo City 100.00 11061 Hokkaido Minami Ward, Sapporo City 99.94 11070 Hokkaido Nishi Ward, Sapporo City 100.00 11088 Hokkaido Atsubetsu Ward, Sapporo City 100.00 11096 Hokkaido Teine Ward, Sapporo City 100.00 11100 Hokkaido Kiyota Ward, Sapporo City 100.00 12025 Hokkaido Hakodate City 99.62 12033 Hokkaido Otaru City 100.00 12041 Hokkaido Asahikawa City 99.96 12050 Hokkaido Muroran City 100.00 12068 Hokkaido Kushiro City 99.31 12076 Hokkaido Obihiro City 99.47 12084 Hokkaido Kitami City 98.84 12092 Hokkaido Yubari City 90.24 12106 Hokkaido Iwamizawa City 93.24 12114 Hokkaido Abashiri City 97.29 12122 Hokkaido Rumoi City 97.57 12131 Hokkaido Tomakomai City 100.00 12149 Hokkaido Wakkanai City 99.99 12157 Hokkaido Bibai City 97.86 12165 Hokkaido Ashibetsu City 91.41 12173 Hokkaido Ebetsu City 100.00 12181 Hokkaido Akabira City 97.97 12190 Hokkaido Monbetsu City 94.60 12203 Hokkaido Shibetsu City 90.22 12211 Hokkaido Nayoro City 95.76 12220 Hokkaido Mikasa City 97.08 12238 Hokkaido Nemuro City 100.00 12246 Hokkaido Chitose City 99.32 12254 Hokkaido Takikawa City 100.00 12262 Hokkaido Sunagawa City 99.13
    [Show full text]
  • National Institute of Technology, Kurume College
    6 Campus Map 7 Access Map From Fukuoka Airport Route A: By train + bus 1. Fukuoka Airport to JR Kurume Sta. (60 min by subway and train) 2. JR Kurume Sta. to Kurume College (12 min by bus) Route B: By highway bus + bus 1. Fukuoka Airport to Nishitetsu Kurume Sta. (45 min by highway bus) 2. Nishitetsu Kurume Sta. to Kurume College (20 min by bus) National Institute of Technology, Kurume College From Fukuoka ● Kitakyushu Route A To Tosu To Fukuoka Fukuoka Airport Kurume Saga● ● Oita 3 National Institute of Technology, Kurume College Nagasaki● ●Kumamoto From Fukuoka Route B Nishitetsu Tenjin Omuta Line JR Kagoshima Line Kagoshima JR Kyushu Shinkansen Kyushu Kurume University, School of Medicine ①管理棟 Administration Building ⑯ 熱・材 力 実 験 棟 Thermal Engineering and Chikugo River Strength of Materials Building ②一般共通棟 General Education Building Lodging House for Extracurricular Activities ③一般教室棟 Classroom General Education Building ⑰練心館 Male Dormitory 3 ④ 一 般 文 科・理 科 棟 Laboratory and Office General Education Faculty Building ⑱ 学 生 寄 宿 舎( 筑 水 寮 ) ⑲ 学 生 寄 宿 舎( つ つ じ 寮 ) Female Dormitory Kurume City Hall ⑤ 機 械・材 料 シ ステム 工 学 科 棟 Dept. of Mechanical Engineering and Materials System 210 Engineering Building ⑳ウェーブホール Cafeteria / Store (Wave Hall) ⑥ 電 気 電 子・制 御 情 報 工 学 科 棟 Dept. of Electrical and Electronic Engineering ㉑学生部室 Extracurricular Activities House JR Kurume Sta. and Control and Information Systems Engineering Building ㉒武道場 Martial Arts Gymnasium Research Center for Technology ⑦総合試作技術教育センター ㉓第一体育館 Gymnasium Ⅰ Kurume Interchange ⑧ も の づくり 教 育 センター Manufacturing Education Center ㉔第二体育館 Gymnasium Ⅱ 322 Dept.
    [Show full text]
  • Opportunities for Cooperation Between EU and Japan On
    EU-Japan Centre for Industrial Cooperation Opportunities for Cooperation between EU and Japan on Biotechnology in Healthcare: Japan Bioventures Landscape Tokyo, April 2018 Esther RODERGAS 1 Disclaimer The information contained in this publication reflects the views of the author and not necessarily the views of the EU-Japan Centre for Industrial Cooperation, the European Commission or Japan authorities. The author believes that this paper is reliable and reasonably clear. While utmost care was taken to check and translate all information used in this study, the author and the EU-Japan Centre may not be held responsible for any errors that might appear. This report does not constitute legal advice in terms of business development cases. The author can be contacted at [email protected] 2 Executive Summary Japan is one of the major countries that European biotech companies target in their expansion when it comes to internationalisation. This report intends to be a useful source of information for European SMEs and clusters considering potential cooperation with Japan. In the healthcare sector, and more specifically in the therapeutics development field, partnerships between European and Japanese pharmaceutical companies well established in their respective local markets has typically involved License agreements on co-development and commercialisation rights. The Japanese inlicensor would typically get the rights on a product of European origin to pursue its clinical development in Japan, obtain the local regulatory approval, and commercialise it in the domestic Japanese market. The reverse situation was possible as well, when products developed in Japanese companies pipelines were licensed-out to European based companies.
    [Show full text]
  • Ionizing Irradiation Induces Vascular Damage in the Aorta of Wild-Type Mice
    cancers Article Ionizing Irradiation Induces Vascular Damage in the Aorta of Wild-Type Mice Nobuyuki Hamada 1,* , Ki-ichiro Kawano 2 , Farina Mohamad Yusoff 2 , Kyoji Furukawa 3 , Ayumu Nakashima 4 , Makoto Maeda 5 , Hiroshi Yasuda 6 , Tatsuya Maruhashi 2 and Yukihito Higashi 2,7 1 Radiation Safety Research Center, Nuclear Technology Research Laboratory, Central Research Institute of Electric Power Industry (CRIEPI), Tokyo 201-8511, Japan 2 Department of Cardiovascular Regeneration and Medicine, Research Institute for Radiation Biology and Medicine, Hiroshima University, Hiroshima 734-8551, Japan; [email protected] (K.-i.K.); drfarinamyusoff@hiroshima-u.ac.jp (F.M.Y.); [email protected] (T.M.); [email protected] (Y.H.) 3 Biostatistics Center, Kurume University, Kurume 830-0011, Japan; [email protected] 4 Department of Stem Cell Biology and Medicine, Graduate School of Biomedical and Health Sciences, Hiroshima University, Hiroshima 734-8551, Japan; [email protected] 5 Natural Science Center for Basic Research and Development, Hiroshima 739-8526, Japan; [email protected] 6 Department of Radiation Biophysics, Research Institute for Radiation Biology and Medicine, Hiroshima University, Hiroshima 734-8551, Japan; [email protected] 7 Division of Regeneration and Medicine, Medical Center for Translational and Clinical Research, Hiroshima University Hospital, Hiroshima 734-8551, Japan * Correspondence: [email protected] Received: 1 October 2020; Accepted: 16 October 2020; Published: 18 October 2020 Simple Summary: There has been renewed interest in radiation effects on the circulatory system. Here, we analyzed prelesional changes in the descending thoracic aorta of wild-type mice up to six months after a single acute exposure to 0 or 5 Gy of 137Cs γ-rays.
    [Show full text]
  • The Japanese Society of Hypertension Committee for Guidelines for the Management of Hypertension
    Hypertension Research (2014) 37, 254–255 & 2014 The Japanese Society of Hypertension All rights reserved 0916-9636/14 www.nature.com/hr The Japanese Society of Hypertension Committee for Guidelines for the Management of Hypertension CHAIRPERSON Kazuaki SHIMAMOTO (Sapporo Medical University) WRITING COMMITTEE Katsuyuki ANDO (University of Tokyo) Ikuo SAITO (Keio University) Toshihiko ISHIMITSU (Dokkyo Medical University) Shigeyuki SAITOH (Sapporo Medical University) Sadayoshi ITO (Tohoku University) Kazuyuki SHIMADA (Jichi Medical University) Masaaki ITO (Mie University) Kazuaki SHIMAMOTO (Sapporo Medical University) Hiroshi ITOH (Keio University) Tatsuo SHIMOSAWA (University of Tokyo) Yutaka IMAI (Tohoku University) Hiromichi SUZUKI (Saitama Medical University) Tsutomu IMAIZUMI (Kurume University) Norio TANAHASHI (Saitama Medical University) Hiroshi IWAO (Osaka City University) Kouichi TAMURA (Yokohama City University) Shinichiro UEDA (University of the Ryukyus) Takuya TSUCHIHASHI (Steel Memorial Yahata Hospital) Makoto UCHIYAMA (Uonuma Kikan Hospital) Mitsuhide NARUSE (NHO Kyoto Medical Center) Satoshi UMEMURA (Yokohama City University) Koichi NODE (Saga University) Yusuke OHYA (University of the Ryukyus) Jitsuo HIGAKI (Ehime University) Katsuhiko KOHARA (Ehime University) Naoyuki HASEBE (Asahikawa Medical College) Hisashi KAI (Kurume University) Toshiro FUJITA (University of Tokyo) Naoki KASHIHARA (Kawasaki Medical School) Masatsugu HORIUCHI (Ehime University) Kazuomi KARIO (Jichi Medical University) Hideo MATSUURA (Saiseikai Kure Hospital)
    [Show full text]
  • Japan Evangelical Lutheran Church (JELC) Congregations in Kumamoto Rev
    NEWSLETTER March 1, 2020 Japan Evangelical Lutheran Church (JELC) Congregations in Kumamoto Rev. Hitoshi and Satoko Adachi ELCA Missionary and Associate LOVE GOD AND LOVE YOUR NEIGHBORS ited Kumamoto from Saturday, January 18th till IN THE MIDST OF COVID 19: Monday, January 20th, as a part of their Janu- Thank you for your continued thoughts, pray- ary Term class, led by Rev. Dr. Martin ers, and support to the ministry in Japan. Up Lohrmann, the seminary professor, and Rev. until now, as recently as February 28, five Coro- Dr. Toshihiro Takamura, the JELC seminary navirus patients have been confirmed in Kuma- professor. They moto. Although Hitoshi and Satoko do not know wanted to experi- why, many possible patients have not been ence Japanese cul- tested quickly enough. For example, one patient ture, of course, but in Hokkaido prefecture was confirmed as having in addition, they the virus after his death on Wednesday, Feb wanted to learn 26th. Therefore, it is a huge concern that the and experience number of patients in Japan might be much how Japanese higher than currently reported. churches are thriv- Even in that situation, Hitoshi and Satoko are ing in Japan where continuing God’s work carefully with the help of the Christian popu- the Holy Spirit…. Some services, meetings, and lation is so low, less than 1% of the population. visits to Nursing Homes have been mandatorily Also, they were interested in sustainability, an canceled or temporarily suspended. For exam- important environmental issue in Japan. ple, on Ash Wednesday, which was supposed Pastor Hitoshi arranged that they would attend to be one of the busiest days in their ministries; Sunday service at Kengun Lutheran Church there were 7 services/meetings Hitoshi was which was planted as a mission congregation planning to preside/chair.
    [Show full text]
  • Scientific Lectures and Seminars Presented at RERF 1 April 2015-31 March 2016
    List of Scientific Lectures, Seminars, Colloquia and Workshops Scientific Lectures and Seminars Presented at RERF 1 April 2015-31 March 2016 The following presentations were made during the fiscal year by researchers internal and external to RERF at the Hiroshima Laboratory. They appear in chronological order. 2 April 2015, Masaharu Tsubokura, Researcher, The Institute of Medical Science, The University of Tokyo, Visiting physician, Minamisoma Municipal General Hospital: “Medical Assistance for the 23 km Zone after the Fukushima Dai-ichi Nuclear Disaster” 17 April 2015, Harry M. Cullings, Chief, Department of Statistics, Radiation Effects Research Foundation, The 290th Hiroshima Statistics Study Group Meeting: “Dose Estimates Resulting from Improved Location and Terrain Shielding Data for the Japanese Atomic Bomb Survivors” 15 May 2015, Akihiro Fujimoto, Senior Scientist, Laboratory for Medical Science Mathematics RIKEN, Center for Integrative Medical Sciences(IMS): “Development of a method to identify microsatellite mutations and its application to cancer genome data” 20 May 2015, Jolyon H. Hendry, Formerly, Gray Institute for Radiation Oncology and Biology, University of Oxford, UK: "A new ICRP report: Stem cell biology with respect to carcinogenesis aspects of radiological protection" 21 May 2015, Nancy R. Manley, Professor, Department of Genetics, Chair, Developmental Biology Alliance, Director, Integrated Life Sciences Graduate Program, University of Georgia: “The Rise and Fall of the Thymic Microenvironment” 5 June 2015, Yasunori
    [Show full text]
  • An Unexpected Outbreak of Japanese Encephalitis in the Chugoku District of Japan, 2002
    Jpn. J. Infect. Dis., 57, 63-66, 2004 Short Communication An Unexpected Outbreak of Japanese Encephalitis in the Chugoku District of Japan, 2002 Ryusuke Ayukawa, Hiroshi Fujimoto, Mitsuyoshi Ayabe, Hiroshi Shoji*, Ryukichi Matsui1, Yuko Iwata2, Hitoshi Fukuda2, Kazuhide Ochi3, Koichi Noda3, Yoichi Ono4, Kenichi Sakai4, Yasushi Takehisa5 and Kotaro Yasui6 The First Department (Neurology) of Internal Medicine, Kurume University School of Medicine, Fukuoka 830-0011, 1Department of Internal Medicine, Tsuwanokyouzon Hospital, Shimane 699-5604, 2Department of Neurology, Masuda Red Cross Hospital, Shimane 698-0003, 3Department of Neurology, Hiroshima National Hospital, Hiroshima 739-0041, 4Department of Neurology, National Okayama Medical Center, Okayama 701-1192, 5Department of Neurology, Tottori Municipal Hospital, Tottori 680-8501 and 6Department of Microbiology, Tokyo Metropolitan Institute for Neurosciences, Tokyo 183-8526, Japan (Received December 12, 2003. Accepted March 8, 2004) SUMMARY: Six patients unexpectedly presented with Japanese encephalitis (JE) from early August to mid- September 2002 in the Chugoku district of Japan. The mean age was 67.5 years (range 42-89 years); the onset period in two patients shifted to the middle of September. The JE virus was isolated from the cerebrospinal fluid samples from two patients, and the strain isolated in the one was identified as genotype III. Neurologically, consciousness impairment, meningeal signs, rigidity, hemiparesis, tetraparesis, and convulsive seizures were commonly observed. Magnetic resonance imaging uniformly revealed high signal intensities in the bilateral thalami, brainstem (substantia nigra), hippocampi, and brain cortices. In all patients, acyclovir was used, due to the unexpected outbreak of JE. Five patients, except for one without sequelae, had a severe outcome, including one death.
    [Show full text]