Patent Number: 
Section: claims

1. A dynamic x-ray shielding device, comprising:a wearable garment having an x-ray source-side and a user protection side, the wearable garment includingat least a first flexible layer including a support structure having a plurality of interconnected interstitial spaces that provide a circulation network for an x-ray shielding fluid composition, the support structure configured to constrain the x-ray shielding fluid composition to move along one or more of the plurality of interconnected interstitial spaces;at least one x-ray shielding fluid reservoir assembly including one or more x-ray shielding fluid reservoirs, the x-ray shielding fluid reservoir assembly structured and arranged to hold the x-ray shielding fluid composition and to selectively enable fluid communication between one or more x-ray shielding fluid reservoirs and the plurality of interconnected interstitial spaces;a receiver configured to receive x-ray potential exposure event data from an x-ray radiation-emitting system; andan x-ray shielding fluid supply controller configured to manage fluid flow of the x-ray shielding fluid composition to or from the x-ray shielding agent reservoir assembly, and along one or more of the plurality of interconnected interstitial spaces, in response to the x-ray potential exposure event data. 2. The dynamic x-ray shielding garment of claim 1, the x-ray shielding fluid composition further comprising:a plurality of x-ray shielding particles each including one or more x-ray shielding agents; anda carrier fluid. 3. The dynamic x-ray shielding garment of claim 1, the x-ray shielding fluid composition further comprising:a plurality of x-ray shielding particles each having at least a first x-ray shielding agent and a second x-ray shielding agent, the second x-ray shielding agent having one or more absorption edges different from the first x-ray shielding agent; anda carrier fluid. 4. The dynamic x-ray shielding garment of claim 3, the x-ray shielding fluid composition further comprising:a plurality of x-ray shielding particles having at least a third x-ray shielding agent, the third x-ray shielding agent having one or more absorption edges different from the second x-ray shielding agent and the first x-ray shielding agent. 5. The dynamic x-ray shielding garment of claim 4, the x-ray shielding fluid composition further comprising:a plurality of x-ray shielding particles having at least a fourth x-ray shielding agent, the fourth x-ray shielding agent having one or more absorption edges different from the third x-ray shielding agent, the second x-ray shielding agent, and the first x-ray shielding agent. 6. The dynamic x-ray shielding garment of claim 4, the x-ray shielding fluid composition further comprising:a plurality of x-ray shielding particles having at least a fifth x-ray shielding agent, the fifth x-ray shielding agent having one or more absorption edges different from the fourth x-ray shielding agent, the third x-ray shielding agent, the second x-ray shielding agent, and the first x-ray shielding agent. 7. The dynamic x-ray shielding garment of claim 3, wherein the second x-ray shielding agent includes one or more characteristic x-ray absorption edges different from the first x-ray shielding agent. 8. The dynamic x-ray shielding garment of claim 3, wherein the second x-ray shielding agent includes at least one k-edge having an energy level lower than at least one k-edge of the first x-ray shielding agent. 9. The dynamic x-ray shielding garment of claim 3, wherein the plurality of x-ray shielding particles include a plurality of dopants within a material matrix comprising the second x-ray shielding agent. 10. The dynamic x-ray shielding garment of claim 2, wherein the plurality of x-ray shielding particles comprise one or more ferromagnetic materials. 11. The dynamic x-ray shielding garment of claim 2, wherein the plurality of x-ray shielding particles comprise one or more ferrimagnetic materials. 12. The dynamic x-ray shielding garment of claim 2, wherein the plurality of x-ray shielding particles comprise one or more paramagnetic materials. 13. The dynamic x-ray shielding garment of claim 2, wherein the plurality of x-ray shielding particles include glass beads having a plurality of x-ray shielding agents with a glass material matrix. 14. The dynamic x-ray shielding garment of claim 1, wherein the support structure defines one or more tubular structures forming part of the plurality of interconnected interstitial spaces that provide the circulation network for the x-ray shielding fluid composition. 15. The dynamic x-ray shielding garment of claim 1, wherein the support structure comprises one or more x-ray shielding agents. 16. The dynamic x-ray shielding garment of claim 1, wherein the support structure comprises one or more x-ray attenuating materials. 17. The dynamic x-ray shielding garment of claim 1, wherein the support structure comprises one or more x-ray attenuating ceramic materials. 18. The dynamic x-ray shielding garment of claim 1, further comprising:an x-ray radiation sensor device operably coupled to the x-ray shielding fluid supply controller, the x-ray radiation sensor device configured to detect an x-ray radiation stimulus associated with an x-ray radiation-emitting system and generate at least one measurand indicative of an x-ray radiation exposure event during an integration period of the x-ray radiation sensor device. 19. The dynamic x-ray shielding garment of claim 18, wherein the x-ray shielding fluid supply controller is operable to actuate fluid flow of an x-ray shielding fluid composition, received in the one or more x-ray shielding fluid reservoirs, to or from the one or more x-ray shielding fluid reservoirs and along one or more of the plurality of interconnected interstitial spaces responsive to an output from the x-ray radiation sensor device indicative of the x-ray radiation exposure event. 20. The dynamic x-ray shielding garment of claim 1, further comprising:one or more x-ray radiation sensor devices disposed on an x-ray source-side of the first flexible layer that acquire at least a portion of an incident x-ray radiation stimulus and transduce the incident x-ray radiation stimulus acquired by the x-ray radiation sensor device into at least one measurand indicative of an incident x-ray flux during an integration period of the one or more x-ray radiation sensor devices. 21. The dynamic x-ray shielding garment of claim 1, further comprising:one or more x-ray radiation sensor devices disposed on a user-side of the first flexible layer that acquire at least a portion of penetrating x-ray radiation stimulus and transduce the penetrating x-ray radiation stimulus acquired by the x-ray radiation sensor device into at least one measurand indicative of an x-ray flux throughput during an integration period of the one or more x-ray radiation sensor devices. 22. The dynamic x-ray shielding garment of claim 1, further comprising:one or more x-ray radiation sensor devices disposed on an x-ray source-side of the first flexible layer that detect an incident x-ray stimulus; andone or more x-ray radiation sensor devices disposed on user-side of the first flexible layer that detect a transmitted x-ray stimulus. 23. The dynamic x-ray shielding garment of claim 22, further comprising:at least one computing device that generates one or more parameters associated with a comparison between the incident x-ray stimulus and the transmitted x-ray stimulus. 24. The dynamic x-ray shielding garment of claim 18, wherein the first flexible layer includes an x-ray source side and a user protection side, and wherein the x-ray radiation sensor device is located on the user protection side so as to determine an x-ray flux through the dynamic x-ray shielding garment. 25. The dynamic x-ray shielding garment of claim 1, wherein then x-ray shielding fluid supply controller includes control logic arranged to determine an actuate flow condition and to actuate the flow of the x-ray shielding fluid composition to or from the x-ray shielding fluid reservoir assembly, and along one or more of the plurality of interconnected interstitial spaces, responsive to the actuate flow condition. 26. The dynamic x-ray shielding garment of claim 1, wherein the x-ray shielding fluid supply controller actuates the flow of the x-ray shielding fluid composition to or from the x-ray shielding fluid reservoir assembly, and along one or more of the plurality of interconnected interstitial spaces, responsive to at least one of an authorization protocol, an authentication protocol, or an activation protocol. 27. The dynamic x-ray shielding garment of claim 1, wherein the x-ray shielding fluid supply controller includes a speech recognition module that causes the x-ray shielding fluid supply controller to modulate the flow of the x-ray shielding fluid composition to or from the x-ray shielding fluid reservoir assembly, and along one or more of the plurality of interconnected interstitial spaces, responsive to one or more audio inputs. 28. The dynamic x-ray shielding garment of claim 1, further comprising:a power source wired, or wireless coupled, to an external source. 29. The dynamic x-ray shielding garment of claim 1, further comprising:a power source including at least one of a thermoelectric generator, a piezoelectric generator, a microelectromechanical system generator, or a biomechanical-energy harvesting generator. 30. The dynamic x-ray shielding garment of claim 1, further comprising:a power source electromagnetically, magnetically, ultrasonically, optically, inductively, electrically, or capacitively coupled to the x-ray shielding fluid supply controller. 31. The dynamic x-ray shielding garment of claim 1, further comprising:x-ray shielding fluid composition pump assembly that is in fluid communication with at least one of the x-ray shielding fluid reservoir assembly or the circulation network and that supplies and circulates the x-ray shielding fluid composition to or from the x-ray shielding agent reservoir assembly, and along one or more regions within the circulation network. 32. The dynamic x-ray shielding garment of claim 1, further comprising:one or more valves to selectively direct flow of the x-ray shielding fluid composition to or from the x-ray shielding agent reservoir. 33. The dynamic x-ray shielding garment of claim 1, further comprising:one or more valves to selectively direct flow of the x-ray shielding fluid composition within the circulation network. 34. The dynamic x-ray shielding garment of claim 1, further comprising:at least a second x-ray shielding fluid reservoir assembly including one or more x-ray shielding fluid reservoirs. 35. The dynamic x-ray shielding garment of claim 1, further comprising:one or more sensors to determine a presence of the x-ray shielding fluid composition within one or more locations within the dynamic x-ray shielding garment. 36. The dynamic x-ray shielding garment of claim 1, further comprising:an x-ray shielding status reporter device including one or more transceivers or transmitters that generate an output indicative of an x-ray shielding fluid composition presence within one or more regions of the plurality of interconnected interstitial spaces. 37. The dynamic x-ray shielding garment of claim 1, further comprising:an x-ray shielding status reporter device including one or more transceivers or transmitters that generate an output indicative of an authorization to an x-ray source to irradiate. 38. The dynamic x-ray shielding garment of claim 1, further comprising:an x-ray shielding status reporter device including an irradiation authorization component that generates one or more cryptographic keys that provide authorization to the external x-ray radiation-emitting system to initiate x-ray radiation delivery. 39. The dynamic x-ray shielding garment of claim 1, further comprising:an x-ray shielding status reporter device including an irradiation authorization component that generates one or more cryptographic keys that provide authorization to the external x-ray radiation-emitting system to initiate a spectrum-specific x-ray dose regimen. 40. The dynamic x-ray shielding garment of claim 1, further comprising:an x-ray shielding status reporter device including an irradiation authorization component that generates one or more cryptographic keys that provide authorization to the external x-ray radiation-emitting system to initiate an intensity-specific x-ray dose regimen. 41. The dynamic x-ray shielding garment of claim 1, further comprisingan x-ray shielding status reporter device including one or more receivers, transceivers, or transmitters that receive the x-ray potential exposure event data associated with delivery of an x-ray radiation stimulus from the x-ray radiation-emitting system. 42. A dynamic x-ray shielding method, comprising:receiving x-ray potential exposure event data associated with delivery of an x-ray radiation stimulus from an x-ray radiation-emitting system;directing fluid flow of an x-ray shielding fluid composition received in an x-ray shielding fluid reservoir assembly associated with a dynamic x-ray shielding garment, to or from the x-ray shielding agent reservoir, and along one or more of a plurality of interconnected interstitial spaces within the dynamic x-ray shielding garment, responsive to receiving the x-ray potential exposure event data; anddetermining whether the dynamic x-ray shielding garment is functional to shield a user from an x-ray radiation stimulus responsive to receiving the x-ray potential exposure event data. 43. The dynamic x-ray shielding method of claim 42, wherein receiving the potential x-ray exposure event data includes initiating a data transmission transfer between a dynamic x-ray shielding device and an x-ray radiation-emitting system. 44. The dynamic x-ray shielding method of claim 42, wherein receiving the potential x-ray exposure event data includes telemetrically receiving, via one or more receivers, transmitters, or transceivers, proposed dose data, radiation energy data, time to exposure data, or duration of exposure data. 45. The dynamic x-ray shielding method of claim 42, wherein directing the fluid flow of the x-ray shielding fluid composition includes directing a flow sufficient of the x-ray shielding fluid composition to modulate at least one of a penetration depth, intensity, or energy associated with the x-ray radiation stimulus. 46. The dynamic x-ray shielding method of claim 42, wherein directing the fluid flow of the x-ray shielding fluid composition includes directing a flow sufficient of the x-ray shielding fluid composition to cause at least a portion of the dynamic x-ray shielding garment to have an x-ray shielding lead equivalence of greater than about 0.25 millimeters. 47. An x-ray shielding method, comprising:actuating fluid flow of an x-ray shielding fluid composition received in one or more x-ray shielding fluid reservoirs associated with a dynamic x-ray shielding garment, to or from the x-ray shielding agent reservoir, and along one or more of a plurality of interconnected interstitial spaces within the dynamic x-ray shielding garment responsive to a determination that an x-ray radiation-emitting system is in operation; anddetermining whether the dynamic x-ray shielding garment is functional to shield a user from an x-ray radiation stimulus responsive to receiving x-ray potential exposure event data. 48. A method, comprising:receiving data corresponding to a potential level of radiation; andconfiguring a wearable radiation shield in response to the data before the radiation is transmitted; andinforming a radiation generator that the shield is configured. 49. The method of claim 48 wherein the data describes the potential level of the radiation. 50. The method of claim 48 wherein the data describes a potential dose of the radiation. 51. A method, comprising:receiving data corresponding to radiation;configuring a radiation shield in response to the data before the radiation is transmitted;enabling a radiation generator to transmit the radiation;wherein receiving the data includes receiving the data with a garment that includes the radiation shield; andwherein configuring the radiation shield includes configuring the radiation shield to protect a wearer of the garment from the radiation. 52. The method of claim 48 wherein configuring the radiation shield includes flowing a radiation-shielding fluid into a flow path of the radiation shield. 53. The method of claim 48 wherein configuring the radiation shield includes flowing a radiation-shielding fluid into interconnected interstitial spaces within the radiation shield. 54. The method of claim 48 wherein configuring the radiation shield includes flowing a radiation-shielding fluid into tubes of the radiation shield. 55. The method of claim 48 wherein configuring the radiation shield includes disposing a radiation-shielding fluid in the radiation shield. 56. The method of claim 48 wherein the radiation includes x-ray radiation. 57. The method of claim 48, further comprising determining whether the radiation shield is configured to attenuate the radiation to a degree. 58. The method of claim 48, further comprising determining whether the radiation shield is configured to attenuate the radiation to a degree in response to the data. 59. The method of claim 48, further comprising determining whether the radiation shield is configured to attenuate the radiation to a degree in response to the transmitted radiation. 60. An apparatus, comprising:a receiver configured to receive information regarding potential transmission of radiation from a device that is configured to transmit the radiation;a wearable radiation shield; anda controller configured to configure the radiation shield in response to the information and to inform the device that the radiation shield is configured. 61. The apparatus of claim 60 wherein the information includes an intensity of the radiation. 62. The apparatus of claim 60 wherein the information includes a duration of the radiation. 63. The apparatus of claim 60 wherein:the radiation shield includes a flow path; andthe controller is configured to configure the radiation shield by causing a radiation-shielding fluid to flow through the flow path. 64. The apparatus of claim 60 wherein:the radiation shield includes a space; andthe controller is configured to configure the radiation shield by disposing a radiation-shielding fluid in the space. 65. The apparatus of claim 60, further comprising:a reservoir configured to hold a radiation-shielding fluid;wherein the radiation shield includes a flow path; andwherein the controller is configured to configure the radiation shield by causing the radiation-shielding fluid to flow from the reservoir through the flow path. 66. The apparatus of claim 60, further comprising:a reservoir configured to hold a radiation-shielding fluid;wherein the radiation shield includes a space; andwherein the controller is configured to configure the radiation shield by transferring the radiation-shielding fluid from the reservoir to the space. 67. The apparatus of claim 60 wherein the radiation includes x-ray radiation. 68. The apparatus of claim 60 wherein the receiver is configured to receive the information from a device that is configured to transmit the radiation. 69. The apparatus of claim 60, further comprising:a transmitter configured to transmit to the device authorization to transmit the radiation. 70. The apparatus of claim 60, further comprising a determiner configured to determine whether the radiation shield is configured to attenuate radiation incident on the shield by at least a threshold amount. 71. The apparatus of claim 60, further comprising a determiner configured to determine whether the radiation shield is configured to attenuate radiation incident on the shield by at least a threshold amount in response to the information. 72. The apparatus of claim 60, further comprising:a sensor configured to sense radiation incident on the radiation shield; anda determiner configured to determine whether the radiation shield is configured to attenuate the incident radiation at least by a threshold amount. 73. A system, comprising:a device configured to transmit radiation and to transmit information regarding a potential intensity of the radiation before transmitting the radiation; andan apparatus, includinga wearable radiation shield, anda controller configured to configure the radiation shield in response to the information and to inform the device that the radiation shield is configured. 74. The system of claim 73 wherein the apparatus includes a receiver configured to receive the information. 75. A system, comprising:a device configured to transmit radiation and to transmit information regarding an intensity of the radiation before transmitting the radiation;an apparatus, includinga radiation shield, anda controller configured to configure the radiation shield in response to the information and to inform the device that the radiation shield is configured; andwherein the radiation shield forms part of a garment. 76. The system of claim 73 wherein:the apparatus includes a space; andthe controller is configured to configure the radiation shield by disposing a radiation-shielding fluid in the space. 77. The system of claim 73, further comprising:a reservoir configured to hold a radiation-shielding fluid;wherein the apparatus includes a space; andwherein the controller is configured to configure the radiation shield by transferring the radiation-shielding fluid from the reservoir to the space. 78. The system of claim 73 wherein the device includes an x-ray machine. 79. The system of claim 73, further comprising a transmitter configured to send to the device an indication that the radiation shield is configured in response to the information. 80. The system apparatus of claim 73, further comprising a determiner configured to determine whether the radiation shield is configured to attenuate radiation incident on the shield by at least a threshold amount. 81. The system of claim 73, wherein the apparatus includes a determiner configured to determine whether the radiation shield is configured to attenuate radiation incident on the shield by at least a threshold amount in response to the information. 82. The system of claim 73, wherein the apparatus includes:a sensor configured to sense radiation incident on the radiation shield; anda determiner configured to determine whether the radiation shield is configured to attenuate the incident radiation at least by a threshold amount. 83. A non-transitory computer-readable medium storing instructions that, when executed by one or more computing machines, cause the one or more computing machines, or one or more apparatuses under control of the one or more computing machines:to receive from a radiation generator data corresponding to a potential dose of radiation;to configure a wearable radiation shield in response to the data before the radiation is transmitted; andto allow the radiation generator to generate the radiation. 84. The computer-readable medium of claim 83 wherein the data describes a potential level of the radiation. 85. The computer-readable medium of claim 83 wherein the data describes the potential dose. 86. The computer-readable medium of claim 83 wherein the instructions, when executed, cause the one or more computing machines, or the one or more apparatuses under control of the one or more computing machines:to receive the data by receiving the data with a garment that includes the radiation shield; andto configure the radiation shield by configuring the radiation shield to protect a wearer of the garment from the radiation. 87. The computer-readable medium of claim 83 wherein the instructions, when executed, cause the one or more computing machines, or the one or more apparatuses under control of the one or more computing machines to configure the radiation shield by flowing a radiation-shielding fluid into a flow path of the radiation shield. 88. The computer-readable medium of claim 83 wherein the instructions, when executed, cause the one or more computing machines, or the one or more apparatuses under control of the one or more computing machines to configure the radiation shield by flowing a radiation-shielding fluid into interconnected interstitial spaces within the radiation shield. 89. The computer-readable medium of claim 83 wherein the instructions, when executed, cause the one or more computing machines, or the one or more apparatuses under control of the one or more computing machines to configure the radiation shield by flowing a radiation-shielding fluid into tubes of the radiation shield. 90. The computer-readable medium of claim 83 wherein the instructions, when executed, cause the one or more computing machines, or the one or more apparatuses under control of the one or more computing machines to configure the radiation shield by disposing a radiation-shielding fluid in the radiation shield. 91. The computer-readable medium of claim 83 wherein the radiation includes x-ray radiation. 92. The computer-readable medium of claim 83 wherein the instructions, when executed, cause the one or more computing machines, or the one or more apparatuses under control of the one or more computing machines: to determine whether the radiation shield is configured to attenuate the radiation to a degree. 93. The computer-readable medium of claim 83 wherein the instructions, when executed, cause the one or more computing machines, or the one or more apparatuses under control of the one or more computing machines to determine whether the radiation shield is configured to attenuate the radiation to a degree in response to the data. 94. The computer-readable medium of claim 83 wherein the instructions, when executed, cause the one or more computing machines, or the one or more apparatuses under control of the one or more computing machines to determine whether the radiation shield is configured to attenuate the radiation to a degree in response to the transmitted radiation.