| Patent application number | Description | Published |
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| 20110211666 | CT SCANNING SYSTEMS AND METHODS USING MULTI-PIXEL X-RAY SOURCES - A CT scanning system may include a multi-pixel x-ray source, and a detector array. The multi-pixel x-ray source may have a plurality of pixels that are disposed along a z-axis, and that are sequentially activated so as to controllably emit x-rays in response to incident electrons. The detector array may have one or more rows of x-ray detectors that detect the x-rays that are emitted from the pixels and have traversed an object, and generate data for CT image reconstruction system. In third generation CT scanning systems, the number of detector rows may be reduced. Multi-pixel x-ray source implementation of saddle curve geometry may render a single rotation single organ scan feasible. Using a multi-pixel x-ray source in stationary CT scanning systems may allow x-ray beam design with a minimal coverage to satisfy mathematical requirements for reconstruction. | 09-01-2011 |
| 20110235774 | METHOD OF AND APPARATUS FOR CONTINUOUS WAVE TOMOSYNTHESIS USING PHOTON COUNTING - Tomosynthesis data may be acquired from a radiation source that substantially continuously emits radiation while its position is varied relative to a photon counting x-ray detector. The detector detects photons comprised within the radiation and photon data indicative of the detected photons is generated. The photon data may comprise data related to a detected photon's detection time, detection location on the detector, energy level, and/or trajectory from the radiation source, for example. The photon data of various photons may be compiled into a plurality of bins and, through reconstruction and tomosynthesis techniques, produce synthesized images of various tomography planes of an object under examination. In this way, the tomosynthesis techniques rely on counting photons rather than measuring their energy to create synthesized images. | 09-29-2011 |
| 20120025981 | ITEM DISPENSER AND TRACKER - An item tracking apparatus includes a tag interrogator that transmits an interrogation signal and receives a signal emitted by a tag affixed to an item in response to the tag receiving the interrogation signal, wherein the tag and item are part of a bio-compatible consumable dosage delivery unit and a controller that determines a state of the item based on the received signal. A consumable dosage delivery unit includes a dosage form and a bio-compatible wireless communications tag. | 02-02-2012 |
| 20120193548 | OVERLAPPING DETECTOR ELEMENTS OF A RADIOGRAPHIC DETECTOR ARRAY - One or more techniques and/or systems described herein provide for creating detector elements that are configured to be overlaid, such that at least a portion of gap between two detector elements is situated in a plane that is not parallel to a plane through which primary radiation travels. That is, a first detector element comprises a portion that is configured to overlap a portion of a second detector element. The detector element(s) may be direct conversion or indirect conversion detector elements. Moreover, one or more electrodes may be placed within the gap and/or along an edge of the detector element to assist in the movement of charge generated by a charge producing portion of the detector element. | 08-02-2012 |
| 20120195410 | CLEANING APPARATUS AND/OR CLEANING TECHNIQUES FOR USE WITH A RADIOGRAPHIC EXAMINATION DEVICE - One or more techniques and/or systems are described herein for cleaning a portion of a radiographic examination apparatus whereon debris may accumulate. Typically, the portion being cleaned is within a scanning field of the radiographic examination device (e.g., within a portion of the radiographic examination device through which radiation traverses). Activation of a cleaning mechanism, or a portion thereof, may be timed to miss radiation emitted during a scan, and thus not interfere with a scan. Also, the cleaning mechanism, or a portion thereof, may be located so as to not attenuate radiation. If radiation is attenuated by the cleaning mechanism corrective techniques can be implemented to account for such attenuation. | 08-02-2012 |
| 20130214170 | FLAT PANEL DETECTOR INCORPORATING SILK LAYER(S) - One or more techniques and/or systems described herein implement, among other things, a flat panel detector component for detecting actinic and non-actinic radiation, or the formation thereof. The flat panel detector component comprises a plurality of layers, where at least one of the layers comprises silk. Further, a silk layer may be in direct physical contact with a radiation detection layer. | 08-22-2013 |
| 20130237814 | MULTI-MODALITY IMAGE ACQUISITION - One or more techniques and/or systems described herein provide for generating a radiographic image and ultrasound image depicting parallel planes of an object under examination and may be used in conjunction with radiographic or ultrasound techniques known to those in the field (e.g., x-ray tomosynthesis, computed tomography ultrasound imaging, etc.). An ultrasound frontend component is configured to transmit ultrasound waves in a direction substantially parallel to a trajectory of radiation. In one example, one or more radiographic images of an object are spatially coincident to one or more ultrasound images of the object in the same position and/or geometric shape/volume, and the images may be combined to generate a combined image depicting features of the ultrasound image (e.g., the sensitivity of the ultrasound image) and features of the radiographic image (e.g., the morphological details of the radiographic image). | 09-12-2013 |
| 20130294573 | METHOD OF AND APPARATUS FOR CONTINUOUS WAVE TOMOSYNTHESIS USING PHOTON COUNTING - Tomosynthesis data may be acquired from an ionizing radiation source that substantially continuously emits radiation while its position is varied relative to a photon counting detector. The detector detects photons comprised within the radiation and photon data indicative of the detected photons is generated. The photon data may comprise data related to a detected photon's detection time, detection location on the detector, energy level, and/or trajectory from the radiation source, for example. The photon data of various photons may be compiled into a plurality of bins and, through reconstruction and tomosynthesis techniques, produce synthesized images of various tomography planes of an object under examination. In this way, the tomosynthesis techniques rely on counting photons rather than measuring their energy to create synthesized images. | 11-07-2013 |
