Abstract: The present disclosure provides a system and method for using widely available ultrasound imaging to overcome the limitations of imaging guidewires and other small objects that may be subwavelength in size relative to an ultrasound wavelength. The system and method can reduce the use of X-rays and exposure to the dangerous effects of radiation and avoids the expense of MRI technology. The subwavelength object, such as a guidewire, can be detected using several methods and associated systems described herein, including the object changing positions at a frequency that creates a brighter ultrasound image of the object as the object progresses across a scanned region of the ultrasound detector. In some embodiments, the movement of the small object causes a different speckle signature than the object itself would otherwise generate. Analysis of changes in speckle patterns due to progressive movement of an object can yield a detectable object.

Abstract: The present disclosure provides a system and method for using widely available ultrasound imaging to overcome the limitations of imaging guidewires and other small objects that may be subwavelength in size relative to an ultrasound wavelength. The system and method can reduce the use of X-rays and exposure to the dangerous effects of radiation and avoids the expense of MRI technology. The subwavelength object, such as a guidewire, can be detected using several methods and associated systems described herein, including the object changing positions at a frequency that creates a brighter ultrasound image of the object as the object progresses across a scanned region of the ultrasound detector. In some embodiments, the movement of the small object causes a different speckle signature than the object itself would otherwise generate. Analysis of changes in speckle patterns due to progressive movement of an object can yield a detectable object.

Abstract: A programmable medical wire system includes a programmable wire assembly that includes: a core conductor; at least one actuator conductor electrically coupled to the core conductor, the actuator conductor being programmed to move toward a predetermined shape based on actuation; at least one selective conductor electrically coupled to the actuator conductor and configured to be electrically energized to actuate the actuator conductor to move toward the predetermined shape; at least one emitter configured to produce electromagnetic radiation of a given wavelength coupled to the programmable wire assembly; and at least one detector configured to receive emissions of the emitter and communicate signals of the emission remotely from the emitter. One or more of the selective conductors can be energized to activate the actuator conductors and/or core conductor and cause the actuator conductors and/or core conductor to bend or twist in a preprogrammed manner and return to original shape when deenergized.

Abstract: The disclosure provides a system and method for a programmable medical wire that can be preprogrammed, and controlled and reshaped upon command. The system can include a power supply, a controller, and a multilayered wire assembly. The wire assembly includes a core conductor, actuator conductors coupled to the core conductor, selective conductors formed adjacent the core conductor and the actuator conductors, and a protective biocompatible shield around the layers. The selective conductors can be energized to activate the actuator conductors and cause the actuator conductors to bend or twist in a preprogrammed manner. By selectively controlling the direction of movement of the actuator conductors, the wire assembly can be remotely guided through body passageways to the target. Auxiliary equipment such as sensors, micro cameras, detectors, cutters, and other equipment can also be coupled to the wire assembly, and controlled and communicated with through one or more of the selective conductors.

Abstract: Models for simulating traumatic brain injury provide analogues for studying similar occurrences in humans. Such models may include inserting a subject into a sheath. While in the sheath, the subject may be placed on a pad beneath an impactor. The head of the subject may be impacted by the impactor, whereby the head of the subject moves into the pad. Methods may further include attaching a helmet to the head of the subject. An arm of an impact device may be connected to a handle of the helmet, such that the head of the subject is restrained relative to the impact device. While advancing the impactor, the arm may be disconnected from the handle, such that the head of the subject becomes unrestrained relative to the impact device and moves into the pad in response to the impacting.