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Norihiro Shimomura,Miyuki Matsuda,Kunio Aryiyoshi,Teruyuki Matsumoto,Tadanori Aimi 한국버섯학회 2010 한국버섯학회지 Vol.8 No.4
Rhizopogon roseolus (Corda) Th. M. Fr. (=R. rubescens Tul. & Tul.), known as “shoro” in Japan, is a hypogeous basidiomycete that is an important ectomycorrhizal symbiont of Pinaceae. In order to cultivate this edible ectomycorrhizal mushroom, several researches have tried to promote mycorrhization of this mushroom on host Pinus thunbergii roots: Pine seedlings were inoculated with mycelium in vitro, or with crushed fruiting bodies in nature. However, successful cultivation of this mushroom has not been fully refined. We have developed the useful mycelial inoculum that enable to produced abundant ectomycorrhizas and then to form fruiting body under greenhouse nursery conditions. We selected the superior strain that rapidly colonized and produced a lot of ectomycorrhizas in root of P. thunbergii. The mycelial inoculum was composed of mineral solution and homogenate of mycelium that had been cultured in liquid medium. Addition of surfactant in the mycelial inoculum resulted in stimulation of mycorrhzal formations in host roots. When the mycelial inoculum containng surfactant were introduced to the mother plant system in which the colonized seedling had been planted into in the nursery, stimulatally effects were observed on not only mycorrhzation of the seedlings but also fruiting body formation. Genotype analysis using microsatellite markers for R. roseolus showed that fruiting bodies produced in the nursery were originated from the inoculated strain. These results suggest that the mycelial inoculum containg surfactant could be the model of mycelial spawn for “shoro”.
Hiroshi Yashima,Norihiro Matsuda,Yoshimi Kasugai,Hiroshi Nakashima,Yukio Sakamoto,Hiroshi Matsumura,Hiroshi Iwase,Norikazu Kinoshita,David Boehnlein,Gary Lautenschlager,Anthony Leveling,Nikolai Mokhov 한국물리학회 2011 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.59 No.23
The JASMIN Collaboration has performed an experiment to conduct measurements of nuclear reaction rates around the anti-proton production (Pbar) target at the Fermi National Accelerator Laboratory (FNAL). At the Pbar target station, the target, consisting an Inconel 600 cylinder, was irradiated by a 120 GeV/c proton beam from the FNAL Main Injector. The beam intensity was 3.6 X 10^(12) protons per second. Samples of Al, Nb, Cu, and Au were placed near the target to investigate the spatial and energy distribution of secondary particles emitted from it. After irradiation, the induced activities of the samples were measured by studying their gamma ray spectra using HPGe detectors. The production rates of 30 nuclides induced in Al, Nb, Cu, Au samples were obtained. These rates increase for samples placed in a forward (small angle) position relative to the target. The angular dependence of these reaction rates becomes larger for increasing threshold energy. These experimental results are compared with Monte Carlo calculations. The calculated results generally agree with the experimental results to within a factor of 2 to 3.
Saito, Kimiaki,Mikami, Satoshi,Andoh, Masaki,Matsuda, Norihiro,Kinase, Sakae,Tsuda, Shuichi,Sato, Tetsuro,Seki, Akiyuki,Sanada, Yukihisa,Wainwright-Murakami, Haruko,Yoshimura, Kazuya,Takemiya, Hiroshi The Korean Association for Radiation Protection 2019 방사선방어학회지 Vol.44 No.4
Massive environmental monitoring has been conducted continuously since the Fukushima Daiichi Nuclear Power accident in March of 2011 by different monitoring methods that have different features together with migration studies of radiocesium in diverse environments. These results have clarified the characteristics of radiological environments and their temporal change around the Fukushima site. At three months after the accident, multiple radionuclides including radiostrontium and plutonium were detected in many locations; and it was confirmed that radiocesium was most important from the viewpoint of long-term exposure. Radiation levels around the Fukushima site have decreased greatly over time. The decreasing trend was found to change variously according to local conditions. The air dose rates in environments related to human living have decreased faster than expected from radioactive decay by a factor of 2-3 on average; those in pure forest have decreased more closely to physical decay. The main causes of air dose rate reduction were judged to be radioactive decay, movement of radiocesium in vertical and horizontal directions, and decontamination. Land-use categories and human activities have significantly affected the reduction tendency. Difference in the air dose rate reduction trends can be explained qualitatively according to the knowledge obtained in radiocesium migration studies; whereas, the quantitative explanation for individual sites is an important future challenge. The ecological half-lives of air dose rates have been evaluated by several researchers, and a short-term half-life within 1 year was commonly observed in the studies. An empirical model for predicting air dose rate distribution was developed based on statistical analysis of an extensive car-borne survey dataset, which enabled the prediction with confidence intervals. Different types of contamination maps were integrated to better quantify the spatial data. The obtained data were used for extended studies such as for identifying the main reactor that caused the contamination of arbitrary regions and developing standard procedures for environmental measurement and sampling. Annual external exposure doses for residents who intended to return to their homes were estimated as within a few millisieverts. Different forms of environmental data and knowledge have been provided for wide spectrum of people. Diverse aspects of lessons learned from the Fukushima accident, including practical ones, must be passed on to future generations.
Hiroshi Matsumura,Norikazu Kinoshita,Hiroshi Iwase,Akihiro Toyoda,Yoshimi Kasugai,Norihiro Matsuda,Yukio Sakamoto,Hiroshi Nakashima,Hiroshi Yashima,Nikolai Mokhov,Anthony Leveling,David Boehnlein,Kamr 한국물리학회 2011 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.59 No.23
In an antiproton production (Pbar) target station of the Fermi National Accelerator Laboratory (FNAL), the secondary particles produced by bombarding a target with 120-GeV protons are shielded by a thick iron shield. In order to obtain experimental data on high-energy neutron transport at more than 100-GeV-proton accelerator facilities, we indirectly measured more than 100-MeV neutrons at the outside of the iron shield at an angle of 50˚ in the Pbar target station. The measurement was performed by using the Au activation method coupled with a low-background γ-ray counting system. As an indicator for the neutron flux, we determined the production rates of 8 spallation nuclides (^(196)Au, ^(188)Pt, ^(189)Ir, ^(185)Os, ^(175)Hf, ^(173)Lu, ^(171)Lu, and ^(169)Yb) in the Au activation detector. The measured production rates were compared with the theoretical production rates calculated using PHITS. We proved that the Au activation method can serve as a powerful tool for indirect measurements of more than100-MeV neutrons that play a vital role in neutron transport. These results will be important for clarifying the problems in theoretical calculations of high-energy neutron transport.
Fujibayashi Shunsuke,Takemoto Mitsuru,Ishii Ken,Funao Haruki,Isogai Norihiro,Otsuki Bungo,Shimizu Takayoshi,Nakamura Takashi,Matsuda Shuichi 대한척추외과학회 2022 Asian Spine Journal Vol.16 No.6
Study Design: Prospective multicenter clinical study.Purpose: To evaluate the efficacy of bioactive surface treatment for porous titanium spacers without bone graft for lateral lumbar interbody fusion (LLIF) through clinical and radiological examinations.Overview of Literature: LLIF is a minimally invasive spinal fusion procedure. To achieve bony union, a substantial volume of grafted bone is typically packed into the cage; however, this is related to donor site morbidities—one of the disadvantages of LLIF.Methods: For this prospective multicenter study, 40 patients were followed up through radiologic and clinical examinations for at least 1 year postoperatively. All surgical procedures were either single- or double-level LLIF using bioactive porous titanium spacers without bone grafts.Results: Four patients were excluded from the study owing to aggravation from other comorbidities. Another 36 patients, including 26 and 10 with single- and double-level LLIFs, respectively, participated in the follow-up. The mean age at the time of surgery was 63.7 years. The mean operating time was 50.5 minutes per level. The mean estimated intraoperative blood loss was 11.6 mL per level. Clinical scores improved in all cases and were maintained throughout the follow-up period. The intervertebral bony union rates were 67.4% and 84.8% at 6 and 12 months, respectively. Endplate cyst signs were observed in 13.0% and 8.7% of patients at 6 and 12 months, respectively. Fused segmental angles were maintained throughout the follow-up period, indicating no cage subsidence.Conclusions: Single- and double-level LLIFs using bioactive porous titanium spacers without bone grafts were found to be minimally invasive, resulting in clinical and imaging results comparable with conventional procedures. Therefore, this type of implant may be an option for minimally invasive spinal fusion surgery.
Atsushi Kuno,Masaharu Nomura,Hideki Matsuzaki,Tomoko Nakagawa,Atsushi Matsuda,Yoshitoshi Hirao,Masao Sasaki,Norihiro Ikeda,Toshitaka Nagao,Yuzuru Ikehara,Hisashi Narimatsu 한국당과학회 2012 한국당과학회 학술대회 Vol.2012 No.1
Cell glycome is defined by the glyco synthesis machinery regulated by harmonized expression of more than 100 glycogenes. The machinery-dependent glycome drastically shifts during cell progression and differentiation in association with tumorigenesis and malformation, and thus it motivates us to discover the disease-related alteration in glycosylation. Glycan-targeted histochemical approaches using lectin and anti-glycogene antibodies have provided some key information to characterize specific histological types of cells in pathology. However, this approach is not suitable for the comprehensive analysis targeting the cell glycome, and thus may fail to provide insight into glycome shift during the disease progression. Several years ago, we developed the methodology for rapid and systematic glycome shift analysis targeting formalin-fixed tissue specimens by means of lectin microarray. The resultant method enabled simultaneous observation of over 40 lectins interacted with glycoproteins in 1 mm2 of the tissue specimens. Recently, we sophisticated this methodology to be suitable for comparative analysis of a series of cells in specific groups isolated from a single tissue specimen by laser microdissection, and now our research has gained interest in the variability and distribution of cell glycome in the tissue, i.e., “tissue glycome mapping”. In this meeting, we will summarize the advantage of this new methodology and its application for glyco-biomarker discovery, as well as the construction of “tissue glycome atlas”.