Combining the radiosensitive Beta MicroProbe to Nuclear Magnetic Resonance: theoretical approach for in vivo studies in small animals.

Desbree A; Pain F; Gurden H; Zimmer L; Pinot L; Laniece P; Mastrippolito R

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Combining the radiosensitive Beta MicroProbe to Nuclear Magnetic Resonance: theoretical approach for in vivo studies in small animals.

机译：将放射敏感性Beta MicroProbe与核磁共振相结合：小动物体内研究的理论方法。

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In vivo small animal imaging with multiple modalities has become an important tool in modern biomedical research. Indeed, combining exploratory techniques allows simultaneous recording of complementary data, which is required to elucidate complex physiopathological mechanisms. In this field, because of strict technical constraints in vivo, an exciting challenge remains in the combination of Nuclear Magnetic Resonance (NMR) and Positron Emission Tomography (PET). Coupling NMR with a radiosensitive Beta MicroProbe offers therefore a very interesting technical alternative. Here, we assessed the feasibility of this new combination by theoretically evaluating the ability of the Beta MicroProbe to monitor radioactivity in a magnet. To that aim, we modelled with Geant4 the effect of an intense magnetic field on the probe field of view and showed that the field should not have an impact on the global efficiency of the probe.

机译：具有多种形式的体内小动物成像已成为现代生物医学研究的重要工具。实际上，结合探索技术可以同时记录补充数据，这是阐明复杂的生理病理机制所必需的。在这一领域，由于体内严格的技术限制，核磁共振（NMR）和正电子发射断层扫描（PET）的结合仍然是一个令人兴奋的挑战。因此，将NMR与辐射敏感的Beta MicroProbe耦合起来是一种非常有趣的技术选择。在这里，我们通过理论上评估Beta MicroProbe监测磁体放射性的能力，评估了这种新组合的可行性。为此，我们使用Geant4建模了强磁场对探头视场的影响，并表明该磁场不应对探头的整体效率产生影响。

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《Journal of Neuroscience Methods》 |2004年第2期|共6页
作者
Desbree A; Pain F; Gurden H; Zimmer L; Pinot L; Laniece P; Mastrippolito R;
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正文语种 eng
中图分类神经病学与精神病学;
关键词
Nuclear Magnetic Resonance; Beta; in vivo; Positron-Emission Tomography; 核磁共振;

机译：Nuclear Magnetic Resonance;Beta;in vivo;Positron-Emission Tomography;核磁共振;

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机译：将放射敏感性Beta MicroProbe与核磁共振相结合：小动物体内研究的理论方法。
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Combining the radiosensitive Beta MicroProbe to Nuclear Magnetic Resonance: theoretical approach for in vivo studies in small animals.

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