Systems, devices, and methods including infection-fighting and monitoring shunts

What is claimed is: 1. A shunt assembly, comprising: a body structure defining one or more fluid-flow passageways configured to receive a biological fluid of a biological subject; a sensor component for detecting an infectious agent proximate to the body structure; a sterilizing energy emitter configured to emit a sterilizing energy stimulus to the biological fluid or to the infectious agent proximate to the body structure; and means for reflecting at least a portion of the emitted energy stimulus within an interior of at least one of the one or more fluid-flow passageways. 2. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes one or more energy emitters configured to emit the energy stimulus to an interior at least one of the one or more fluid-flow passageways, and an optical material that internally reflects at least a portion of an emitted energy stimulus present within an interior of at least one of the one or more fluid-flow passageways. 3. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes an optical material that internally reflects at least a portion of an emitted energy stimulus within an interior of at least one of the one or more fluid-flow passageways, without substantially permitting the transmission of the emitted energy stimulus through an exterior of the body structure. 4. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes an optical material that internally directs at least a portion of an emitted energy stimulus along a substantially lateral direction of at least one of the one or more fluid-flow passageways. 5. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes a reflective surface capable of reflecting at least about 50 percent of an energy stimulus emitted by the one or more energy emitters that impinges on the reflective surface. 6. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes a reflective surface that is reflective at a first wavelength and transmissive at a second wavelength different from the first wavelength. 7. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes one or more internally reflective components configured to manage a delivery of light to a biological fluid received within the one or more fluid-flow passageways, and to manage a collection of reflected light from the biological fluid. 8. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes an optical component that directs a first portion of an emitted energy stimulus along a substantially lateral direction in one or more regions of at least one of the one or more fluid-flow passageways and an optical component that directs a second portion of the emitted energy stimulus along a substantially longitudinal direction in one or more regions of at least one of the one or more fluid-flow passageways. 9. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes a first optical component configured to direct at least a portion of an emitted energy stimulus along a substantially lateral direction in a first region of at least one of the one or more fluid-flow passageways and a second optical component configured to direct at least a portion of the emitted energy stimulus along a substantially lateral direction in a second region of the one or more fluid-flow passageways, the second region different from the first region. 10. The shunt assembly of claim 1 , wherein the means for reflecting at least a portion of an emitted energy stimulus includes a first optical component that directs at least a portion of an emitted energy stimulus along a substantially longitudinal direction in a first region of at least one of the one or more fluid-flow passageways and a second optical component that directs at least a portion of the emitted energy stimulus along a substantially longitudinal direction in a second region of the one or more fluid-flow passageways, the second region different from the first region. 11. The shunt assembly of claim 1 , wherein at least a portion of the body structure is configured to sufficiently internally reflect at least a portion of an emitted energy stimulus to generate an evanescent electromagnetic field across one or more regions of the body structure. 12. The shunt assembly of claim 1 , wherein at least a portion of the body structure is configured to sufficiently internally reflect at least a portion of an emitted energy stimulus to cause an evanescent electromagnetic field to emanate from at least a portion of the body structure. 13. The shunt assembly of claim 1 , wherein at least a portion of the body structure is configured to internally reflect at least a portion of an emitted energy stimulus within an interior of at least one of the one or more fluid-flow passageways. 14. The shunt assembly of claim 1 , wherein at least a portion of the body structure is configured to totally internally reflect at least a portion of an emitted energy-stimulus propagated within an interior of at least one of the one or more fluid-flow passageways. 15. The shunt assembly of claim 1 , wherein the infectious agent is in a biofilm. 16. The shunt assembly of claim 1 , wherein the sensor component is configured to perform a real-time comparison of a measurand associated with a biological sample proximate one or more regions of at least one surface of the implantable device to stored reference data. 17. The shunt assembly of claim 1 , wherein the sensor component is configured to detect at least one physiological characteristic associated with an infectious agent. 18. The shunt assembly of claim 1 , further comprising a controller operably coupled to the sensor component and to the sterilizing energy emitter, the controller configured to automatically control at least one characteristic associated with sterilizing energy stimulus. 19. A shunt assembly, comprising: a body structure defining one or more fluid-flow passageways configured to receive a biological fluid of a biological subject; at least a portion of the body structure configured to reflecting at least a portion of an emitted energy stimulus within the interior of at least one of the one or more fluid-flow passageways; a sensor component for detecting an infectious agent proximate to the body structure; and one or more energy emitters configured to emit the energy stimulus to an interior at least one of the one or more fluid-flow passageways; wherein at least a portion of a body structure defining the one or more fluid-flow passageways includes a reflective surface capable of reflecting at least about 50 percent of an energy stimulus emitted by the one or more energy emitters that impinges on the reflective surface. 20. The shunt assembly of claim 19 , wherein the at least a portion of the body structure is configured to laterally internally reflect or longitudinally internally reflect electromagnetic radiation transmitted within the interior of at least one of the one or more fluid-flow passageways. 21. The shunt assembly of claim 19 , further comprising: one or more optical materials forming at least