• Title/Summary/Keyword: KOTRON-13

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Development and optimization of C-11 gas target system in KOTRON-13 cyclotron (KOTRON-13 사이클로트론의 고효율C-11 가스 표적장치)

  • Lee, Hong-Jin;Lee, Won-Kyeong;Park, Jun-Hyung;Moon, Byung-Seok;Lee, In-Won;Chae, Sung-Ki;Lee, Byung-Chul;Kim, Sang-Eun
    • The Korean Journal of Nuclear Medicine Technology
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    • v.15 no.1
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    • pp.86-89
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    • 2011
  • Purpose: The KOTRON-13 cyclotron was developed in South Korea and was introduced to regional cyclotron centers to produce short-lifetime medical radioisotopes. However, this cyclotron has limited capacity to produce carbon-11 isotope so far. We herein study how to develop and optimize an effective carbon-11 target system in the KOTRON-13 cyclotron by changing cooling system, combing with fluorine-18 target and evaluating beam currents. Materials and Method: To develop the optimal carbon-11 target and an effective cooling system, we designed the carbon-11 target system by Stopping and Range of Ions in Matter (SRIM) simulation program and considered the cavity pressure during irradiation at target grid. In this investigation, we evaluated the yield of carbon-11 production at different beam currents and the stability of the operation of the KOTRON-13 cyclotron. Results: The production of carbon-11 was enhanced from about 1.700 mCi ($50{\mu}A$) to 2,000 mCi ($60{\mu}A$) on the carbon-11 target which developed by seoul national university bundang hospital (SNUBH) and Samyoung Unitech. Additionally, the cooling condition was showed stable to produce carbon-11 under high beam current. Conclude: The carbon-11 target system of the KOTRON-13 cyclotron was successfully developed and improved carbon-11 production. Consequently, the operation of carbon-11 target system was highly effective and stable compare with other commercial cyclotrons. Our results are believed that this optimal carbon-11 target system will be helpful for the routine carbon-11 production in the KOTRON-13 cyclotron.

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Recent Status of Commercial PET Cyclotron and KOTRON-13 (KOTRON-13과 상용 PET 사이클로트론의 최근 기술 동향)

  • Chai, Jong-Seo
    • The Korean Journal of Nuclear Medicine
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    • v.39 no.1
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    • pp.1-8
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    • 2005
  • This paper is described on the development of KOTRON-13 and recent status of PET cyclotron by commercial cyclotron companies. KIRAMS has developed medical cyclotron which is KIRAMS-13. Samyoung Unitech produces KOTRON-13 with transfered technology by KIRAMS. As a part of Regional Cyclotron Installation Protect, KOTRON-13 cyclotrons and $[18F]FDG$ production modules are being installed at regional cyclotron centers in Korea. The medical concern with radiation technology has been growing for the last several years. Early cancer diagnosis through the cyclotron and PET-CT have been brought to public attention by commercial cyclotron models in the world. The new commercial cyclotron models are introduced compact low energy cyclotrons developed by CTI, GE, Sumitomo in recent. It produces different short-lived radioisotopes, such as $[^{18}F],\;[^{11}C],\;[^{13}N]\;and\;[^{15}O]$. For the better reliability acceleration particle is proton only. The characteristics of new model cyclotrons are changed to lower energy corresponding to less 13 MeV. New models have self-shielding and low power consumption. Design criteria for the different types of commercial cyclotrons are described with reference to hospital demands.

Improvement, operation and management status of the KOTRON-13 cyclotron

  • Lee, Hong Jin;Moon, Byung Seok;Lee, Byung Chul;Kim, Sang Eun
    • Journal of Radiopharmaceuticals and Molecular Probes
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    • v.1 no.2
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    • pp.88-94
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    • 2015
  • The KOTRON-13 cyclotron was manufactured by Samyoung Unitech as the second generation of the KIRAMS-13 cyclotron after its technology was transferred from the Korea Institute of Radiological and Medical Sciences in South Korea. Its prototype was installed at Seoul National University Bundang Hospital as part of a distributed network of regional cyclotrons with the support of a grant from the National Research Foundation of Korea. However, its initial condition has limited capacity to extract a relatively low beam current and to produce carbon-11. In this review, we provide an introduction and overview of the current state of the KOTRON-13 cyclotron, which was successfully upgraded by carrying out various modifications and optimizing the carbon-11 target system.

Production of $^{11}C$ labeled Radiopharmaceuticals using $[^{11}C]CO_2$ Produced in the KOTRON-13 (한국형 사이클로트론(KOTRON-13)을 이용한 $[^{11}C]CO_2$ 생산과 다양한 $^{11}C$-표지 방사성의약품 생산 적용)

  • Lee, Hong Jin;Park, Jun Hyung;Moon, Byung Seok;Lee, In Won;Lee, Byung Chul;Kim, Sang Eun
    • The Korean Journal of Nuclear Medicine Technology
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    • v.16 no.2
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    • pp.106-109
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    • 2012
  • Purpose : The KOTRON-13 cyclotron was developed and installed in regional cyclotron centers to produce short-lifetime medical radioisotopes. However, this cyclotron has limited capacity to produce $^{11}C$ so far. In present study, we developed an effective $^{11}C$ target system combining with fluorine-18 target and applied to the production of various $^{11}C$ radiopharmaceuticals. Materials and Methods : To develop the optimal $^{11}C$ target system and effective its cooling system, we designed the $^{11}C$ target system by Stopping and Range of Ions in Matter (SRIM) simulation program and considered the cavity pressure during irradiation at target grid. In this investigation, we modified target materials, cavity shapes and the position of cooling system in $^{11}C$ target and then evaluated $[^{11}C]CO_2$ production at different beam currents, thickness of the target foil, oxygen content of nitrogen gas and target gas loading pressure. Also, we evaluate the production of several $^{11}C$ radiopharmaceuticals such as [$^{11}C$]PIB, [$^{11}C$]DASB, and [$^{11}C$]Clozapine. Results : $[^{11}C]CO_2$ was produced about 74 GBq for 30min irradiation at 60 ${\mu}A$ of beam current as following conditions: thickness of the target foil: 19 nm HAVAR, oxygen content of nitrogen: under 50 ppb, target gas loading pressure: 24 bar. Additionally, the cooling system was stable to produce $[^{11}C]CO_2$ at high beam current. The radiochemical yields of [$^{11}C$]PIB, [$^{11}C$]DASB, and [$^{11}C$]Clozapine showed about 26-38% with over 127 GBq/umol of specific activity. Conclusion : The carbon-11 target system in the KOTRON-13 cyclotron was successfully developed and showed stable production of $[^{11}C]CO_2$. These results showed that our $^{11}C$ target system will be compatible with other commercial system for the routine $^{11}C$ radiopharmaceuticals production in the KOTRON-13 cyclotron.

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