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    • 1. 发明授权
    • Biochemical analysis data producing method and scanner used therefor
    • 生化分析数据生成方法和扫描仪用于此
    • US07170078B2
    • 2007-01-30
    • US10141555
    • 2002-05-09
    • Hitoshi ShimizuKeiko NeriishiNobuhiko Ogura
    • Hitoshi ShimizuKeiko NeriishiNobuhiko Ogura
    • G03B42/08
    • G01N21/6452G01N21/253G01N33/54373
    • A biochemical analysis data producing method includes the steps of selectively storing one of radiation energy and light energy in a plurality of stimulable phosphor layer regions two-dimensionally formed in a support of a stimulable phosphor sheet and spaced apart from each other, moving the stimulable phosphor sheet and a stimulating ray relative to each other in a main scanning direction and a sub-scanning direction, sequentially irradiating the plurality of stimulable phosphor layer regions so that energy of the stimulating ray projected onto the plurality of stimulable phosphor layer regions per unit area is higher than that projected on regions other than the plurality of stimulable phosphor layer regions, thereby exciting stimulable phosphor contained in the plurality of stimulable phosphor layer regions, and photoelectrically detecting stimulated emission released from the stimulable phosphor layer to produce biochemical analysis data. According to this method, it is possible to effectively prevent the stimulating ray from entering a neighboring stimulable phosphor layer region to be next stimulated as the stimulating ray is scanned and thus prevent stimulable phosphor contained in the neighboring stimulable phosphor layer region from being excited to release radiation energy or light energy stored therein, and, therefore, biochemical analysis data having an excellent quantitative characteristic can be produced in a desired manner.
    • 生物化学分析数据生成方法包括以下步骤:将辐射能量和光能中的一种选择性地存储在可激发的荧光体片的支撑体中二维地形成并且彼此间隔开的多个可刺激的荧光体层区域中,将可刺激的荧光体 并且在主扫描方向和副扫描方向上相对于彼此产生刺激光线,顺序地照射多个可刺激的荧光体层区域,使得投影到每单位面积的多个可激发荧光体层区域上的刺激光线的能量为 高于在多个可刺激的荧光体层区域以外的区域上投影的激光荧光体层,从而激发包含在多个可刺激的荧光体层区域中的可激发的荧光体,以及光电检测从可刺激的荧光体层释放的受激发射以产生生化分析数据。 根据该方法,可以有效地防止刺激光线随着刺激射线被扫描而进入下一个被刺激的刺激性射线区域,从而防止相邻可刺激荧光体层区域中包含的可刺激的荧光体被激发释放 辐射能量或光能存储在其中,因此可以以期望的方式产生具有优异定量特性的生化分析数据。
    • 5. 发明授权
    • Radiation image storage panel
    • 辐射图像存储面板
    • US5877503A
    • 1999-03-02
    • US545531
    • 1995-10-19
    • Keiko Neriishi
    • Keiko Neriishi
    • G21K4/00
    • G21K4/00G21K2004/06G21K2004/08
    • An improvement of a radiation image storage panel comprising a stimulable phosphor layer which comprises stimulable phosphor particles, a binder and a colorant resides in that a weight ratio of binder to phosphor particles and concentration of coloring are varied along the depth of the phosphor layer in such manner that a mean value of a weight ratio of binder to phosphor particles within 1/4 of the depth of the phosphor layer from one surface thereof is larger than a mean value of a weight ratio of binder to phosphor particles between 1/4 and 3/4 of the depth of the phosphor layer, and a mean value of a weight ratio of colorant to phosphor particles within 1/4 of the depth of the phosphor layer from the surface is smaller than a mean value of the weight ratio of colorant to phosphor particles between 1/4 and 4/4 of the depth of the phosphor layer from the surface.
    • 包括可刺激的荧光体颗粒,粘合剂和着色剂的可激发的荧光体层的改进在于粘合剂与荧光体颗粒的重量比和着色浓度沿着荧光体层的深度在其中变化 粘合剂与磷光体颗粒的重量比的平均值在+ E内,荧光体层的一个表面的深度的1/4 + EE比粘合剂与荧光体颗粒的重量比的平均值大 荧光体层深度的+ E,fra 1/4 + EE和+ E,fra 3/4 + EE,以及着色剂与荧光体颗粒在+ E内的重量比的平均值,1/4 + 来自表面的荧光体层的深度的EE小于着色剂与磷光体颗粒在+ E,fra 1/4 + EE和+ E之间的重量比的平均值,fra 4/4 + EE的深度 荧光层从表面。
    • 9. 发明申请
    • BIOCHEMICAL ANALYSIS DATA PRODUCING METHOD AND SCANNER USED THEREFOR
    • 生物化学分析数据生成方法及其使用的扫描仪
    • US20060266958A1
    • 2006-11-30
    • US10141555
    • 2002-05-09
    • Hitoshi ShimizuKeiko NeriishiNobuhiko Ogura
    • Hitoshi ShimizuKeiko NeriishiNobuhiko Ogura
    • G03B42/08
    • G01N21/6452G01N21/253G01N33/54373
    • A biochemical analysis data producing method includes the steps of selectively storing one of radiation energy and light energy in a plurality of stimulable phosphor layer regions two-dimensionally formed in a support of a stimulable phosphor sheet and spaced apart from each other, moving the stimulable phosphor sheet and a stimulating ray relative to each other in a main scanning direction and a sub-scanning direction, sequentially irradiating the plurality of stimulable phosphor layer regions so that energy of the stimulating ray projected onto the plurality of stimulable phosphor layer regions per unit area is higher than that projected on regions other than the plurality of stimulable phosphor layer regions, thereby exciting stimulable phosphor contained in the plurality of stimulable phosphor layer regions, and photoelectrically detecting stimulated emission released from the stimulable phosphor layer to produce biochemical analysis data. According to this method, it is possible to effectively prevent the stimulating ray from entering a neighboring stimulable phosphor layer region to be next stimulated as the stimulating ray is scanned and thus prevent stimulable phosphor contained in the neighboring stimulable phosphor layer region from being excited to release radiation energy or light energy stored therein, and, therefore, biochemical analysis data having an excellent quantitative characteristic can be produced in a desired manner.
    • 生物化学分析数据生成方法包括以下步骤:将辐射能量和光能中的一种选择性地存储在可激发的荧光体片的支撑体中二维地形成并且彼此间隔开的多个可刺激的荧光体层区域中,将可刺激的荧光体 并且在主扫描方向和副扫描方向上相对于彼此产生刺激光线,顺序地照射多个可刺激的荧光体层区域,使得投影到每单位面积的多个可激发荧光体层区域上的刺激光线的能量为 高于在多个可刺激的荧光体层区域以外的区域上投影的激光荧光体层,从而激发包含在多个可刺激的荧光体层区域中的可激发的荧光体,以及光电检测从可刺激的荧光体层释放的受激发射以产生生化分析数据。 根据该方法,可以有效地防止刺激光线随着刺激射线被扫描而进入下一个被刺激的刺激性射线区域,从而防止相邻可刺激荧光体层区域中包含的可刺激的荧光体被激发释放 辐射能量或光能存储在其中,因此可以以期望的方式产生具有优异定量特性的生化分析数据。