| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 输注系统配置 | CN201310079059.X | 2009-06-11 | CN103203071B | 2016-01-20 | C·R·奎里科; E·巴莱斯特拉奇; R·E·斯文森; D·D·达尔斯特; E·J·克劳斯; V·N·洛克汉德; J·S·蔡尔兹 |
| 一种便于排布输注路径管道线的输注系统配置和组件。管道线在防止纠结和/或碾压这些管道线的位置上被排布进出输注系统的屏蔽组件的隔间,和/或提供装配路径过程中的简易性。多个管道线可以通过支撑框保持在一起,形成一次性输注路径子组件,其可以进一步便于排布这些管道线。 | ||||||
| 2 | 输注系统配置 | CN200980122066.5 | 2009-06-11 | CN102065927B | 2014-09-24 | C·R·奎里科; E·巴莱斯特拉奇; R·E·斯文森; D·D·达尔斯特; E·J·克劳斯; V·N·洛克汉德; J·S·蔡尔兹 |
| 一种便于排布输注路径管道线的输注系统配置和组件。管道线在防止纠结和/或碾压这些管道线的位置上被排布进出输注系统的屏蔽组件的隔间,和/或提供装配路径过程中的简易性。多个管道线可以通过支撑框保持在一起,形成一次性输注路径子组件,其可以进一步便于排布这些管道线。 | ||||||
| 3 | 输注系统的屏蔽组件 | CN200980121815.2 | 2009-06-11 | CN102083484B | 2014-09-17 | C·R·奎里科; E·巴莱斯特拉奇; D·D·达尔斯特; E·J·克劳斯; V·N·洛克汉德; J·S·蔡尔兹; P·B·马德森; D·V·克莱门茨 |
| 一种输注系统的屏蔽组件,其包括多个隔间和用于每个隔间的门,并且为隔间提供放射性辐射线屏障。其中一个隔间包含输注系统的一个或多个放射性同位素发生器,另一个隔间可以包含输注系统的废液瓶。分别进入发生器和废液瓶隔间的开口可以被向上定向,并且进入废液瓶隔间的开口可以比进入发生器隔间的开口位于更高的高度,以便于这两者的单独拆除和替换。除发生器隔间外,至少一个隔间的门,当关闭时,可以防止发生器隔间的门打开。用于输注系统的柜式结构可以封闭屏蔽组件并紧固发生器。 | ||||||
| 4 | 输注系统配置 | CN201310079059.X | 2009-06-11 | CN103203071A | 2013-07-17 | C·R·奎里科; E·巴莱斯特拉奇; R·E·斯文森; D·D·达尔斯特; E·J·克劳斯; V·N·洛克汉德; J·S·蔡尔兹 |
| 一种便于排布输注路径管道线的输注系统配置和组件。管道线在防止纠结和/或碾压这些管道线的位置上被排布进出输注系统的屏蔽组件的隔间,和/或提供装配路径过程中的简易性。多个管道线可以通过支撑框保持在一起,形成一次性输注路径子组件,其可以进一步便于排布这些管道线。 | ||||||
| 5 | 输注系统的柜式结构配置 | CN200980121957.9 | 2009-06-11 | CN102056640B | 2013-07-17 | C·R·奎里科; E·巴莱斯特拉奇; J·L·盖尔博; J·S·蔡尔兹; P·B·马德森; D·V·克莱门茨 |
| 一种输注系统的柜式结构,包括系统安装于其上的平台,和包围内部空间的外壳,外壳包含该系统的至少一部分。外壳优选包括开口,其尺寸和定向设置成允许该系统的放射性同位素发生器降低至该内部空间内,并且将发生器从该内部空间内提升出来。外壳可以还包括与前述开口相比位于更高高度的另一开口,以提供通向输注系统的废液瓶的通道。 | ||||||
| 6 | 输注系统的屏蔽组件 | CN200980121815.2 | 2009-06-11 | CN102083484A | 2011-06-01 | C·R·奎里科; E·巴莱斯特拉奇; D·D·达尔斯特; E·J·克劳斯; V·N·洛克汉德; J·S·蔡尔兹; P·B·马德森; D·V·克莱门茨 |
| 一种输注系统的屏蔽组件,其包括多个隔间和用于每个隔间的门,并且为隔间提供放射性辐射线屏障。其中一个隔间包含输注系统的一个或多个放射性同位素发生器,另一个隔间可以包含输注系统的废液瓶。分别进入发生器和废液瓶隔间的开口可以被向上定向,并且进入废液瓶隔间的开口可以比进入发生器隔间的开口位于更高的高度,以便于这两者的单独拆除和替换。除发生器隔间外,至少一个隔间的门,当关闭时,可以防止发生器隔间的门打开。用于输注系统的柜式结构可以封闭屏蔽组件并紧固发生器。 | ||||||
| 7 | 包括计算机辅助维护和/或操作的输注系统 | CN200980121946.0 | 2009-06-11 | CN102056638B | 2015-04-29 | J·P·佐达; K·M·亨特; R·E·斯文森; A·M·丰泰内; S·E·海德姆; P·M·麦克唐纳德; J·L·盖尔博 |
| 一种设置、维护和操作包括放射性同位素发生器的放射性药剂输注系统的方法通过系统的计算机变得更加便利。计算机包括预先编程的指导和计算机界面,与系统的用户交互作用,例如,用于跟踪所包含的洗脱液和/或洗出液体积,和/或用于跟踪系统执行的洗脱完成后经过的时间,和/或用于计算一个或多个系统和/或注射参数用于质量控制,和/或用于进行系统冲洗,和/或便于诊断成像。 | ||||||
| 8 | 输注系统配置 | CN200980122066.5 | 2009-06-11 | CN102065927A | 2011-05-18 | C·R·奎里科; E·巴莱斯特拉奇; R·E·斯文森; D·D·达尔斯特; E·J·克劳斯; V·N·洛克汉德; J·S·蔡尔兹 |
| 一种便于排布输注路径管道线的输注系统配置和组件。管道线在防止纠结和/或碾压这些管道线的位置上被排布进出输注系统的屏蔽组件的隔间,和/或提供装配路径过程中的简易性。多个管道线可以通过支撑框保持在一起,形成一次性输注路径子组件,其可以进一步便于排布这些管道线。 | ||||||
| 9 | 输注系统的柜式结构配置 | CN200980121957.9 | 2009-06-11 | CN102056640A | 2011-05-11 | C·R·奎里科; E·巴莱斯特拉奇; J·L·盖尔博; J·S·蔡尔兹; P·B·马德森; D·V·克莱门茨 |
| 一种输注系统的柜式结构,包括系统安装于其上的平台,和包围内部空间的外壳,外壳包含该系统的至少一部分。外壳优选包括开口,其尺寸和定向设置成允许该系统的放射性同位素发生器降低至该内部空间内,并且将发生器从该内部空间内提升出来。外壳可以还包括与前述开口相比位于更高高度的另一开口,以提供通向输注系统的废液瓶的通道。 | ||||||
| 10 | 包括计算机辅助维护和/或操作的输注系统 | CN200980121946.0 | 2009-06-11 | CN102056638A | 2011-05-11 | J·P·佐达; K·M·亨特; R·E·斯文森; A·M·丰泰内; S·E·海德姆; P·M·麦克唐纳德; J·L·盖尔博 |
| 一种设置、维护和操作包括放射性同位素发生器的放射性药剂输注系统的方法通过系统的计算机变得更加便利。计算机包括预先编程的指导和计算机界面,与系统的用户交互作用,例如,用于跟踪所包含的洗脱液和/或洗出液体积,和/或用于跟踪系统执行的洗脱完成后经过的时间,和/或用于计算一个或多个系统和/或注射参数用于质量控制,和/或用于进行系统冲洗,和/或便于诊断成像。 | ||||||
| 11 | Storontium-rubidium injection system | JP9532485 | 1985-05-01 | JPS60241454A | 1985-11-30 | BURAIAN SHII BAAGUNAA |
| This novel strontium-rubidium infusion system includes means for generating a solution containing Rubidium-82, measuring the radioactivity in the solution, and infusing it into a patient in order to perform various studies on the patient's heart. The new system includes a wash syringe which can be used by a physician to manually inject a bolus containing a large amount of radioactivity directly into a patient in order to perform first pass ventriculography studies. | ||||||
| 12 | Strontium over ruby gym injection system | JP9532485 | 1985-05-01 | JP2568169B2 | 1996-12-25 | BURAIAN SHII BAAGUNAA |
| This novel strontium-rubidium infusion system includes means for generating a solution containing Rubidium-82, measuring the radioactivity in the solution, and infusing it into a patient in order to perform various studies on the patient's heart. The new system includes a wash syringe which can be used by a physician to manually inject a bolus containing a large amount of radioactivity directly into a patient in order to perform first pass ventriculography studies. | ||||||
| 13 | INTEGRATED STRONTIUM-RUBIDIUM RADIOISOTOPE INFUSION SYSTEMS | US15809103 | 2017-11-10 | US20180093035A1 | 2018-04-05 | Stephen E. Hidem; Aaron M. Fontaine; Janet L. Gelbach; Patrick M. McDonald; Kathryn M. Hunter; Rolf E. Swenson; Julius P. Zodda |
| Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer may include pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging. | ||||||
| 14 | Integrated strontium-rubidium radioisotope infusion systems | US15490484 | 2017-04-18 | US09750870B2 | 2017-09-05 | Stephen E. Hidem; Aaron M. Fontaine; Janet L. Gelbach; Patrick M. McDonald; Kathryn M. Hunter; Rolf E. Swenson; Julius P. Zodda |
| Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer may include pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging. | ||||||
| 15 | MEDICAL UNIT FOR INJECTING A PATIENT WITH RUBIDIUM 82 | US14428644 | 2013-09-17 | US20150209504A1 | 2015-07-30 | Pierre-Marie Lemer |
| A medical unit for injecting a patient with an elution solution containing rubidium 82, includes, elements for receiving a strontium/rubidium generator capable of producing an elution solution that contains the rubidium 82 and that is capable of being contaminated by strontium 82 and/or strontium 85. This medical unit includes: —own elements thereof for acquiring a value related to at least one safety parameter that is associated with a maximum threshold value corresponding to a potentially excessive contamination of the elution solution with strontium 82 and/or strontium 85, and —control elements including safety elements that are controlled in an active configuration when the acquired value reaches the maximum threshold value of the safety parameter, the safety elements being capable, in the active configuration, of operating the infusion elements to the stop position in order to prevent an injection of the elution solution into the patient. | ||||||
| 16 | METHOD OF PRE-TREATING AN ADSORBENT FOR A CHROMATOGRAPHIC SEPARATION | US13707824 | 2012-12-07 | US20130220928A1 | 2013-08-29 | Steve OELSNER |
| A method of treating an adsorbent for a chromatographic separation. The method involves sonicating particles of an inorganic metal oxide having fragile edges in the absence of any alkylating or acylating agent to form smoothened particles of the inorganic metal oxide and washing the smoothened particles of the inorganic metal oxide to remove fine particulate matter to produce a treated adsorbent. The treated adsorbent can be used in a method of isolating a daughter radioisotope from a daughter radioisotope that is produced from the parent radioisotope by radioactive decay. | ||||||
| 17 | Integrated strontium-rubidium radioisotope infusion systems | US15620320 | 2017-06-12 | US09814826B2 | 2017-11-14 | Stephen E. Hidem; Aaron M. Fontaine; Janet L. Gelbach; Patrick M. McDonald; Kathryn M. Hunter; Rolf E. Swenson; Julius P. Zodda |
| Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer may include pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging. | ||||||
| 18 | Infusion systems including computer-facilitated maintenance and/or operation and methods of use | US12808467 | 2009-06-11 | US09607722B2 | 2017-03-28 | Stephen E. Hidem; Aaron M. Fontaine; Janet L. Gelbach; Patrick M. McDonald; Kathryn M. Hunter; Rolf E. Swenson; Julius P. Zodda |
| Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer includes pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging. | ||||||
| 19 | Radioisotope generator system including activity measurement and dose calibration | US14455631 | 2014-08-08 | US09299468B2 | 2016-03-29 | Stephen E. Hidem; Aaron M. Fontaine; Janet L. Gelbach; Patrick M. McDonald; Kathryn M. Hunter; Rolf E. Swenson; Julius P. Zodda |
| Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer includes pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging. | ||||||
| 20 | Infusion system with radioisotope detector | US14455623 | 2014-08-08 | US09299467B2 | 2016-03-29 | Stephen E. Hidem; Aaron M. Fontaine; Janet L. Gelbach; Patrick M. McDonald; Kathryn M. Hunter; Rolf E. Swenson; Julius P. Zodda |
| Methods for setting up, maintaining and operating a radiopharmaceutical infusion system, that includes a radioisotope generator, are facilitated by a computer of the system. The computer includes pre-programmed instructions and a computer interface, for interaction with a user of the system, for example, in order to track contained volumes of eluant and/or eluate, and/or to track time from completion of an elution performed by the system, and/or to calculate one or more system and/or injection parameters for quality control, and/or to perform purges of the system, and/or to facilitate diagnostic imaging. | ||||||
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