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    • 6. 发明授权
    • Meted hyperpolarized noble gas dispensing methods and associated devices
    • Meted超极化惰性气体分配方法及相关设备
    • US06286319B1
    • 2001-09-11
    • US09528750
    • 2000-03-20
    • Kenton C. HassonPaul L. BogoradDavid L. ZollingerGeri T. K. Zollinger
    • Kenton C. HassonPaul L. BogoradDavid L. ZollingerGeri T. K. Zollinger
    • F17C1302
    • G01R33/282A61K49/1815
    • Methods of extracting and removing hyperpolarized gas from a container include introducing an extraction fluid into the container to force the hyperpolarized gas out of an exit port. The hyperpolarized gas is forced out of the container separate and apart from the extraction fluid. Alternatively, if the fluid is a gas, a portion of the gas is mixed with the hyperpolarized gas to form a sterile mixed fluid product suitable for introduction to a patient. An additional method includes engaging a gas transfer source such as a syringe to a transport container and pulling a quantity of the hyperpolarized gas out of the container in a controlled manner. Alternatively, one or more gas syringes can be employed to mete out predictable quantities of hyperpolarized gas or gas mixtures including quantities of buffer gases. Another method includes introducing a quantity of liquid into a container and covering at least one predetermined internal surface or component with the liquid to mask the surfaces and keep the hyperpolarized gas away from the predetermined internal surface, thereby inhibiting any depolarizing affect from same. Examples of surfaces or components suitable for masking include valves, seals, and the like. Yet another extraction method includes expanding a resilient member inside the container to force the hyperpolarized gas to exit therefrom. Containers include a resilient member positioned in fluid communication with the hyperpolarized gas in the container. An additional container includes inlet and outlet ports in fluid communication with the chamber and positioned on opposing sides or end portions of the container. Another container includes a port configured to receive a portion of a syringe therein. An additional aspect of the disclosure relates to calibration methods and apparatus for identifying the hyperpolarization status of the gas.
    • 从容器中提取和去除超极化气体的方法包括将提取流体引入容器以迫使超极化气体离开出口。 超极化气体被从容器中分离出并与提取液分开。 或者,如果流体是气体,则将一部分气体与超极化气体混合以形成适于引入患者的无菌混合流体产品。 附加方法包括将诸如注射器的气体输送源接合到运输容器,并以受控的方式将一定量的超极化气体从容器中拉出。 或者,可以使用一个或多个气体注射器来消除可预测量的超极化气体或气体混合物,包括缓冲气体的量。 另一种方法包括将一定量的液体引入容器并用液体覆盖至少一个预定的内表面或部件以掩蔽表面,并使超极化气体远离预定的内表面,由此抑制任何去极化的影响。 适于掩蔽的表面或部件的实例包括阀,密封件等。 另一种提取方法包括在容器内膨胀弹性构件以迫使超极化气体从其中排出。 容器包括与容器中的超极化气体流体连通的弹性构件。 另外的容器包括与腔室流体连通并定位在容器的相对侧或端部上的入口和出口。 另一容器包括构造成在其中容纳一部分注射器的端口。 本公开的另一方面涉及用于识别气体的超极化状态的校准方法和装置。
    • 7. 发明授权
    • Hyperpolarized noble gas extraction methods masking methods and associated transport containers
    • 超极化惰性气体提取方法掩蔽方法和相关运输容器
    • US06237363B1
    • 2001-05-29
    • US09163721
    • 1998-09-30
    • David L. ZollingerGeri T. K. ZollingerKenton C. HassonPaul L. BogoradBastiaan Driehuys
    • David L. ZollingerGeri T. K. ZollingerKenton C. HassonPaul L. BogoradBastiaan Driehuys
    • F25J100
    • G01R33/282A61K49/1815Y10T436/11Y10T436/24Y10T436/25
    • Methods of extracting and removing hyperpolarized gas from a container include introducing an extraction fluid into the container to force the hyperpolarized gas out of an exit port. The hyperpolarized gas is forced out of the container separate and apart from the extraction fluid. Alternatively, if the fluid is a gas, a portion of the gas is mixed with the hyperpolarized gas to form a sterile mixed fluid product suitable for introduction to a patient. An additional method includes engaging a gas transfer source such as a syringe to a transport container and pulling a quantity of the hyperpolarized gas out of the container in a controlled manner. Another method includes introducing a quantity of liquid into a container and covering at least one predetermined internal surface or component with the liquid to mask the surfaces and keep the hyperpolarized gas away from the predetermined internal surface, thereby inhibiting any depolarizing affect from same. Examples of surfaces or components suitable for masking include valves, seals, and the like. Yet another extraction method includes expanding a resilient member inside the container to force the hyperpolarized gas to exit therefrom. Containers include a resilient member positioned in fluid communication with the hyperpolarized gas in the container. An additional container includes inlet and outlet ports in fluid communication with the chamber and positioned on opposing sides or end portions of the container. Another container includes a port configured to receive a portion of a syringe therein. An additional aspect of the disclosure relates to calibration methods and apparatus for identifying the hyperpolarization status of the gas.
    • 从容器中提取和去除超极化气体的方法包括将提取流体引入容器以迫使超极化气体离开出口。 超极化气体被从容器中分离出并与提取液分开。 或者,如果流体是气体,则将一部分气体与超极化气体混合以形成适于引入患者的无菌混合流体产品。 附加方法包括将诸如注射器的气体输送源接合到运输容器,并以受控的方式将一定量的超极化气体从容器中拉出。 另一种方法包括将一定量的液体引入容器并用液体覆盖至少一个预定的内表面或部件以掩蔽表面,并使超极化气体远离预定的内表面,由此抑制任何去极化的影响。 适于掩蔽的表面或部件的实例包括阀,密封件等。 另一种提取方法包括在容器内膨胀弹性构件以迫使超极化气体从其中排出。 容器包括与容器中的超极化气体流体连通的弹性构件。 另外的容器包括与腔室流体连通并定位在容器的相对侧或端部上的入口和出口。 另一容器包括构造成在其中容纳一部分注射器的端口。 本公开的另一方面涉及用于识别气体的超极化状态的校准方法和装置。
    • 8. 发明授权
    • Hyperpolarized noble gas extraction methods, masking methods, and associated transport containers
    • 超极化惰性气体提取方法,掩蔽方法和相关运输容器
    • US06427452B2
    • 2002-08-06
    • US09828636
    • 2001-04-06
    • David L. ZollingerKenton C. HassonPaul L. BogoradBastiaan Driehuys
    • David L. ZollingerKenton C. HassonPaul L. BogoradBastiaan Driehuys
    • F25B1900
    • G01R33/282A61K49/1815Y10T436/11Y10T436/24Y10T436/25
    • Methods of extracting and removing hyperpolarized gas from a container include introducing an extraction fluid into the container to force the hyperpolarized gas out of an exit port. The hyperpolarized gas is forced out of the container separate and apart from the extraction fluid. Alternatively, if the fluid is a gas, a portion of the gas is mixed with the hyperpolarized gas to form a sterile mixed fluid product suitable for introduction to a patient. An additional method includes engaging a gas transfer source such as a syringe to a transport container and pulling a quantity of the hyperpolarized gas out of the container in a controlled manner. Another method includes introducing a quantity of liquid into a container and covering at least one predetermined internal surface or component with the liquid to mask the surfaces and keep the hyperpolarized gas away from the predetermined internal surface, thereby inhibiting any depolarizing affect from same. Examples of surfaces or components suitable for masking include valves, seals, and the like. Yet another extraction method includes expanding a resilient member inside the container to force the hyperpolarized gas to exit therefrom. Containers include a resilient member positioned in fluid communication with the hyperpolarized gas in the container. An additional container includes inlet and outlet ports in fluid communication with the chamber and positioned on opposing sides or end portions of the container. Another container includes a port configured to receive a portion of a syringe therein. An additional aspect of the disclosure relates to calibration methods and apparatus for identifying the hyperpolarization status of the gas.
    • 从容器中提取和去除超极化气体的方法包括将提取流体引入容器以迫使超极化气体离开出口。 超极化气体被从容器中分离出并与提取液分开。 或者,如果流体是气体,则将一部分气体与超极化气体混合以形成适于引入患者的无菌混合流体产品。 附加方法包括将诸如注射器的气体输送源接合到运输容器,并以受控的方式将一定量的超极化气体从容器中拉出。 另一种方法包括将一定量的液体引入容器并用液体覆盖至少一个预定的内表面或部件以掩蔽表面,并使超极化气体远离预定的内表面,由此抑制任何去极化的影响。 适于掩蔽的表面或部件的实例包括阀,密封件等。 另一种提取方法包括在容器内膨胀弹性构件以迫使超极化气体从其中排出。 容器包括与容器中的超极化气体流体连通的弹性构件。 另外的容器包括与腔室流体连通并定位在容器的相对侧或端部上的入口和出口。 另一容器包括构造成在其中容纳一部分注射器的端口。 本公开的另一方面涉及用于识别气体的超极化状态的校准方法和装置。
    • 9. 发明授权
    • Hyperpolarized noble gas extraction methods, masking methods, and associated transport containers
    • US06667008B2
    • 2003-12-23
    • US10348418
    • 2003-01-21
    • David L. ZollingerKenton C. HassonBastiaan Driehuys
    • David L. ZollingerKenton C. HassonBastiaan Driehuys
    • G01N700
    • G01R33/282A61K49/1815Y10T436/11Y10T436/24Y10T436/25
    • Methods of extracting and removing hyperpolarized gas from a container include introducing an extraction fluid into the container to force the hyperpolarized gas out of an exit port. The hyperpolarized gas is forced out of the container separate and apart from the extraction fluid. Alternatively, if the fluid is a gas, a portion of the gas is mixed with the hyperpolarized gas to form a sterile mixed fluid product suitable for introduction to a patient. An additional method includes engaging a gas transfer source such as a syringe to a transport container and pulling a quantity of the hyperpolarized gas out of the container in a controlled manner. Another method includes introducing a quantity of liquid into a container and covering at least one predetermined internal surface or component with the liquid to mask the surfaces and keep the hyperpolarized gas away from the predetermined internal surface, thereby inhibiting any depolarizing affect from same. Examples of surfaces or components suitable for masking include valves, seals, and the like. Yet another extraction method includes expanding a resilient member inside the container to force the hyperpolarized gas to exit therefrom. Containers include a resilient member positioned in fluid communication with the hyperpolarized gas in the container. An additional container includes inlet and outlet ports in fluid communication with the chamber and positioned on opposing sides or end portions of the container. Another container includes a port configured to receive a portion of a syringe therein. An additional aspect of the disclosure relates to calibration methods and apparatus for identifying the hyperpolarization status of the gas.
    • 10. 发明授权
    • Hyperpolarized noble gas extraction methods, masking methods, and associated transport containers
    • US06537825B1
    • 2003-03-25
    • US09568859
    • 2000-05-09
    • David L. ZollingerKenton C. HassonBastiaan Driehuys
    • David L. ZollingerKenton C. HassonBastiaan Driehuys
    • G01N2400
    • G01R33/282A61K49/1815Y10T436/11Y10T436/24Y10T436/25
    • Methods of extracting and removing hyperpolarized gas from a container include introducing an extraction fluid into the container to force the hyperpolarized gas out of an exit port. The hyperpolarized gas is forced out of the container separate and apart from the extraction fluid. Alternatively, if the fluid is a gas, a portion of the gas is mixed with the hyperpolarized gas to form a sterile mixed fluid product suitable for introduction to a patient. An additional method includes engaging a gas transfer source such as a syringe to a transport container and pulling a quantity of the hyperpolarized gas out of the container in a controlled manner. Another method includes introducing a quantity of liquid into a container and covering at least one predetermined internal surface or component with the liquid to mask the surfaces and keep the hyperpolarized gas away from the predetermined internal surface, thereby inhibiting any depolarizing affect from same. Examples of surfaces or components suitable for masking include valves, seals, and the like. Yet another extraction method includes expanding a resilient member inside the container to force the hyperpolarized gas to exit therefrom. Containers include a resilient member positioned in fluid communication with the hyperpolarized gas in the container. An additional container includes inlet and outlet ports in fluid communication with the chamber and positioned on opposing sides or end portions of the container. Another container includes a port configured to receive a portion of a syringe therein. An additional aspect of the disclosure relates to calibration methods and apparatus for identifying the hyperpolarization status of the gas.