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Status of a Carbon-Ion Therapy Facility and Development for Advanced Treatment
Atsushi Kitagawa,Takashi Fujita,Akifumi Fukumura,Takuji Furukawa,Taku Inaniwa,Yoshiyuki Iwata,Tatsuaki Kanai,Mitsutaka Kanazawa,Nobuyuki Kanematsu,Yuki Kase,Masataka Komori,Koji Noda,Yumiko Ohno,Shinj 한국물리학회 2008 THE JOURNAL OF THE KOREAN PHYSICAL SOCIETY Vol.53 No.6
Over 3000 cancer patients have already been treated with 140- to 400-MeV/n carbon beams produced by the heavy ion medical accelerator in Chiba (HIMAC) at the National Institute of Radiological Sciences (NIRS) since 1994. These clinical results have clearly verified the advantages of carbon ions. Based on our experience at HIMAC, a hospital-specific facility optimized for carbon-ion therapy has been designed. The prototype developments of an electron cyclotron resonance (ECR) ion source, a radio frequency quadruple (RFQ) linac, an inter digital H (IH) linac, an acceleration system of synchrotron, a beam-delivery system and other key-technology parts have been successfully finished. Thus, in co-operation with NIRS, Gunma University has been constructing a carbon-therapy facility since April, 2006. If the present clinical results are to be improved, it is necessary to create a more accurate dose distribution on tumors without an undesired dose being deposited in normal tissue. Beam-scanning methods with respiration-gated irradiation are especially important to treat a cancer tumor located in the trunk of a patient. Over 3000 cancer patients have already been treated with 140- to 400-MeV/n carbon beams produced by the heavy ion medical accelerator in Chiba (HIMAC) at the National Institute of Radiological Sciences (NIRS) since 1994. These clinical results have clearly verified the advantages of carbon ions. Based on our experience at HIMAC, a hospital-specific facility optimized for carbon-ion therapy has been designed. The prototype developments of an electron cyclotron resonance (ECR) ion source, a radio frequency quadruple (RFQ) linac, an inter digital H (IH) linac, an acceleration system of synchrotron, a beam-delivery system and other key-technology parts have been successfully finished. Thus, in co-operation with NIRS, Gunma University has been constructing a carbon-therapy facility since April, 2006. If the present clinical results are to be improved, it is necessary to create a more accurate dose distribution on tumors without an undesired dose being deposited in normal tissue. Beam-scanning methods with respiration-gated irradiation are especially important to treat a cancer tumor located in the trunk of a patient.
Takako Enokida,Takamasa Noda,Takashi Usami,Naoko Satake,Kazuyuki Nakagome 대한정신약물학회 2022 CLINICAL PSYCHOPHARMACOLOGY AND NEUROSCIENCE Vol.20 No.1
Pharmacotherapy is generally the first choice for the treatment of acute mania in bipolar disorder. Electroconvulsive therapy (ECT) is reported to be an effective treatment modality for mania; however, it is usually used as the “last resort.” Herein, we report a case of a patient with treatment-resistant severe mania in bipolar disorder who recovered with ECT without concurrent antipsychotics and mood stabilizers. Our case report showed that ECT monotherapy can be an effective treatment modality for manic state in bipolar disorder, which may lead to a shorter hospital stay and better social outcomes.
Song, Bong-Shik,Nagashima, Takuji,Asano, Takashi,Noda, Susumu The Optical Society 2009 Applied Optics Vol.48 No.26
<P>We demonstrate fine tuning of the resonant wavelength of a nanocavity in a two-dimensional silicon-based photonic crystal slab structure by subnanometer control of the airhole diameter and slab thickness. Theoretical investigation shows that the resonant wavelength depends linearly on the latter two parameters. To experimentally demonstrate the fine tuning of the resonant wavelength, we control these parameters through chemical processes. The resonant-wavelength shift is tuned to 3.25 and 0.36 nm by use of two oxidizing processes. The latter shift, which corresponds to a 0.14 nm thick silicon layer, is considerably smaller than shifts achieved in previous studies.</P>
Experimental investigation of thermo-optic effects in SiC and Si photonic crystal nanocavities.
Yamada, Shota,Song, Bong-Shik,Asano, Takashi,Noda, Susumu Optical Society of America 2011 Optics letters Vol.36 No.20
<P>We experimentally investigate and compare the thermo-optic effects of silicon carbide (SiC) and silicon (Si) photonic crystal nanocavities on their resonant wavelengths over a temperature range of 25?C to nearly 200?C by using a laser source with a wavelength close to the telecommunication wavelength range of 1550?nm. The measured results clearly show that the shift in the resonant wavelength of the SiC cavity is significantly (by a factor of 3) less than that of the Si cavity for the same ambient temperature changes. In addition, the measured results provide direct estimates of the thermo-optic coefficients (dn/dT) for thin SiC and Si as 3.8710(-5)/C and 1.6010(-4)/C, respectively, for this temperature range.</P>