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    • 2. 发明授权
    • Surgical probe apparatus
    • 手术探针仪
    • US06218669B1
    • 2001-04-17
    • US09167420
    • 1998-10-06
    • John D. Call
    • John D. Call
    • G01T1161
    • G01T1/161A61B6/4258
    • A surgical probe apparatus incorporates a probe structure with a handle component and forward crystal mount wherein a cadmium-telluride crystal is rigidly mounted against movement. A cup-shaped window assembly is provided having an internal cylindrical tungsten shield which extends forwardly from the front face of the crystal to define an air gap as well as to support an aluminum window. The window assembly is threadably mounted upon the handle at a transition region forming an outwardly extending ramp. This ramp is used in conjunction with a polymeric retainer component with legs containing dog structures which hold a cylindrical tungsten collimator in biased position against the window when attached.
    • 手术探针装置结合了具有手柄部件的探针结构和正向晶体安装座,其中刚性地安装碲化镉晶体以防止运动。 提供了一种杯形窗组件,其具有从晶体的前表面向前延伸的内圆柱形钨屏蔽,以限定气隙以及支撑铝窗。 窗组件在形成向外延伸的斜坡的过渡区域上螺纹安装在手柄上。 该斜坡与聚合物保持器组件一起使用,其中腿部包含狗结构,当附着时将圆柱形准直器保持在偏置的位置。
    • 3. 发明授权
    • Device and system for improved imaging in nuclear medicine and mammography
    • 用于改善核医学和乳腺摄影术成像的装置和系统
    • US06583420B1
    • 2003-06-24
    • US09590089
    • 2000-06-07
    • Robert S. NelsonWilliam Bert Nelson
    • Robert S. NelsonWilliam Bert Nelson
    • G01T1161
    • A61B6/502A61B6/037A61B6/4028A61B6/4233A61B6/4258A61B6/4291A61B6/4488A61B6/548G01T1/1644G01T1/243G01T1/244G01T1/2928
    • A method and apparatus for detecting radiation including x-ray, gamma ray, and particle radiation for radiographic imaging, and nuclear medicine and x-ray mammography in particular, and material composition analysis are described. A detection system employs fixed or configurable arrays of one or more detector modules comprising detector arrays which may be electronically manipulated through a computer system. The detection system, by providing the ability for electronic manipulation, permits adaptive imaging. Detector array configurations include familiar geometries, including slit, slot, plane, open box, and ring configurations, and customized configurations, including wearable detector arrays, that are customized to the shape of the patient. Conventional, such as attenuating, rigid geometry, and unconventional collimators, such as x-ray optic, configurable, Conpton scatter modules, can be selectively employed with detector modules and radiation sources. The components of the imaging chain can be calibrated or corrected using processes of the invention. X-ray mammography and scintimammography are enhanced by utilizing sectional compression and related imaging techniques.
    • 描述了用于检测放射线成像的X射线,γ射线和粒子辐射以及核医学和X射线乳腺摄影的辐射的方法和装置,以及材料成分分析。 检测系统采用一个或多个检测器模块的固定或可配置阵列,其包括可以通过计算机系统电子操作的检测器阵列。 检测系统通过提供电子操纵的能力,允许自适应成像。 检测器阵列配置包括熟悉的几何形状,包括狭缝,槽,平面,开箱和环形配置,以及根据患者形状定制的定制配置,包括可穿戴式检测器阵列。 常规的,例如衰减的刚性几何形状和非常规准直器,例如x射线光学器件,可配置的康普顿散射模块,可以选择性地与检测器模块和辐射源一起使用。 可以使用本发明的方法校准或校正成像链的部件。 通过利用截面压缩和相关成像技术增强X射线乳腺摄影和闪烁扫描。
    • 5. 发明授权
    • Dedicated apparatus and method emission mammography
    • 专用仪器和方法放射乳腺摄影术
    • US06229145B1
    • 2001-05-08
    • US09415979
    • 1999-10-12
    • Irving Weinberg
    • Irving Weinberg
    • G01T1161
    • A61B6/0414A61B6/4258A61B6/502A61B6/547G01T1/1642
    • The present invention is an apparatus for examining a body part. The apparatus comprises a mechanism for immobilizing and compressing the body part. The apparatus also comprises a mechanism for providing an internal anatomical image of the body part and a mechanism for detecting single gamma-rays emitted by a radiotracer infiltrated into the body part. The detecting mechanism is disposed in an adjacent relationship with the mechanism for providing an internal anatomic image so that the body part remains in the same position during and between anatomic and radiotracer imaging. In one embodiment, the detecting mechanism includes a detector module disposed on one side of the immobilizing mechanism. The detector module preferably has at least one array of gamma ray sensitive material in communication with a position detector. In another embodiment, the detecting mechanism includes a pair of detector modules disposed one on each side of the immobilizing mechanism. The present invention is also an apparatus for examining a body part which comprises a mechanism for immobilizing and compressing the body part and a mechanism for providing a stereotactic internal anatomical image of the body part. The apparatus also comprises a mechanism for providing a stereotactic physiological image of the body part in an adjacent relationship with the mechanism for providing an internal anatomic image such that the body part remains in the same position during and between stereotactic anatomic and radiotracer imaging.
    • 本发明是用于检查身体部位的装置。 该装置包括用于固定和压缩身体部分的机构。 该装置还包括用于提供身体部分的内部解剖图像的机构和用于检测由渗透入身体部位的放射性示踪器发射的单个γ射线的机构。 检测机构与用于提供内部解剖图像的机构相邻地设置,使得身体部分在解剖和放射性示踪器成像期间和之间保持在相同的位置。 在一个实施例中,检测机构包括设置在固定机构一侧的检测器模块。 检测器模块优选地具有与位置检测器连通的至少一个伽马射线敏感材料阵列。 在另一个实施例中,检测机构包括一对在固定机构的每一侧上设置的检测器模块。 本发明还是一种用于检查身体部位的装置,其包括用于固定和压缩身体部位的机构以及用于提供身体部位的立体定向内部解剖图像的机构。 该装置还包括用于提供与用于提供内部解剖图像的机构相邻关系的身体部位的立体定向生理图像的机构,使得身体部分在立体定向解剖和放射性示踪剂成像期间和之间保持在相同的位置。
    • 6. 发明授权
    • Gamma watermarking
    • 伽玛水印
    • US06740875B1
    • 2004-05-25
    • US09502859
    • 2000-02-11
    • Muriel Y. IshikawaLowell L. WoodRonald W. LougheedKenton J. MoodyTzu-Fang Wang
    • Muriel Y. IshikawaLowell L. WoodRonald W. LougheedKenton J. MoodyTzu-Fang Wang
    • G01T1161
    • B41M3/14
    • A covert, gamma-ray “signature” is used as a “watermark” for property identification. This new watermarking technology is based on a unique steganographic or “hidden writing” digital signature, implemented in tiny quantities of gamma-ray-emitting radioisotopic material combinations, generally covertly emplaced on or within an object. This digital signature may be readily recovered at distant future times, by placing a sensitive, high energy-resolution gamma-ray detecting instrument reasonably precisely over the location of the watermark, which location may be known only to the object's owner; however, the signature is concealed from all ordinary detection means because its exceedingly low level of activity is obscured by the natural radiation background (including the gamma radiation naturally emanating from the object itself, from cosmic radiation and material surroundings, from human bodies, etc.). The “watermark” is used in object-tagging for establishing object identity, history or ownership. It thus may serve as an aid to law enforcement officials in identifying stolen property and prosecuting theft thereof. Highly effective, potentially very low cost identification-on demand of items of most all types is thus made possible.
    • 隐蔽的伽马射线“签名”被用作属性识别的“水印”。 这种新的水印技术基于独特的隐写或“隐藏书写”数字签名,其实施在少量的伽马射线发射放射性同位素材料组合中,通常隐蔽地放置在物体上或物体内。 通过将敏感的高能量分辨率γ射线检测仪器合理地精确地放置在水印的位置上,该位置可能仅对物体的所有者可知,该数字签名可以在远距离的未来时间容易地恢复; 然而,由于其极低的活动水平被自然辐射背景遮蔽(包括自然辐射的物体本身,宇宙辐射和物质环境,人体等)的伽马辐射,所有这些标志都被隐藏起来。 )。 “水印”用于建立对象标识,历史或所有权的对象标签。 因此,这可能有助于执法人员查明被盗财产和起诉盗窃。 因此,大多数所有类型的物品的高效,可能非常低成本的识别都是可能的。