Abstract: The invention provides lenses in which peak pressure under the lens wearer's eyelids is reduced. The invention provides lens designs that reduce or eliminate mechanical chaffing of the cornea even in lenses made of high modulus materials.

Abstract: A device and method for on-line correction of patient motion in three-dimensional positron emission tomography. The devices encompass an on-line hardware pipelining architecture to support 3D translation, normalization, and weighted histogramming as required. Five stages of processing for the PET event stream are utilized in the present invention. Each stage feeds the next with progressively modified event packets proceeding at a processing speed of at least 10M packets/sec. Stage 1 calculates an event correction factor (ECF) for each incoming detector-pair event packet. This ECF is incorporated into the event packet for use later in Stage 5. Stage 2 converts the detector-index-pair content of each packet into (x,y,z) pair content. Specifically, the representation of each detector element is converted from a discrete crystal index into a 3-D coordinate index. Stage 3 transforms the (x,y,z) pair into an (x?,y?,z?) pair. Stage 4 converts the (x?,y?,z?) pair into a bin address.

Abstract: A device and method for on-line correction of patient motion in three-dimensional positron emission tomography. The devices encompass an on-line hardware pipelining architecture to support 3D translation, normalization, and weighted histogramming as required. For the 3D translation circuit, a first digital pipeline latch is provided for receiving data as it is collected by the PET scanner. A bank of multiplier circuits receives the PET scan data. Each multiplier circuit receives and multiplies a portion of the entire scan data simultaneous with each other multiplier circuit. The product of each multiplier circuit is output to a second digital pipeline latch. The data is then passed to a bank of adders, each of which supports four input variables. While a specific LOR and a current object orientation are input to the first digital pipeline latch, processing for a different LOR and an earlier object orientation are stored in the second digital pipeline latch.

Abstract: A method and apparatus for on-line DOI rebinning for LSO PET/SPECT to improve spatial resolution, for use in a hybrid Positron Emission Tomography (PET)/Single Photon Emission Computed Tomography (SPECT) system running in PET-mode. Data acquisition hardware is used to feed a detector pair coincidence event stream to an on-line rebinner. Gamma centroid location measurements are made by rastering assumed transaxial and radial head positions and the corresponding rebinning maps for optimal back-projected image resolution. Optimal positions are found by collecting a 64-bit list mode file, assuming a crystal position as the centroid for each of the heads, defining a sequence for varying the assumed positions, making the rebinning look-up tables, rebinning the list mode data, histogramming and reconstructing the image, assessing the image resolution, recording the best resolution number and the associated trial position variables, repeating these on the next trial variable set.

Abstract: A shared redundancy prefetch scheme to provide a reduced number of fuses. DDR SDRAMs allow burst addressing at various burst lengths. DDR SDRAMs generally implement LEFT and RIGHT segment column addressing. In DDR SDRAMs which implement redundant memory arrays, fuses may be used to provide access to the redundant columns. Because burst addressing may begin with a RIGHT segment address, two different columns may be accessed on the same clock cycle. By providing a compare scheme which implements separate compare logic for the lower bits of the LEFT and RIGHT segments and compares these bits to a common fuse set used for both the LEFT and RIGHT segments, the number of fuses in the redundant DDR SDRAM scheme can be reduced.

Abstract: A method and apparatus for on-line DOI rebinning for LSO PET/SPECT to improve spatial resolution, for use in a hybrid Positron Emission Tomography (PET)/Single Photon Emission Computed Tomography (SPECT) system running in PET-mode. Data acquisition hardware is used to feed a detector pair coincidence event stream to an online rebinner. Gamma centroid location measurements are made by rastering assumed transaxial and radial head positions and the corresponding rebinning maps for optimal back-projected image resolution. Optimal positions are found by collecting a 64-bit list mode file, assuming a crystal position as the centroid for each of the heads, defining a sequence for varying the assumed positions, making the rebinning look-up tables, rebinning the list mode data, histogramming and reconstructing the image, assessing the image resolution, recording the best resolution number and the associated trial position variables, repeating these on the next trial variable set.

Abstract: A coincidence transmission source serves to detect coincident activity from a radiation source. The coincidence transmission source includes a detector dedicated to collecting attenuation data. A collimated radiation source and a detector are positioned with respect to a tomography device such that only a selected strip of the imaging detector of the tomograph is illuminated such that events unrelated to the attenuation are eliminated. The coincidence transmission source includes a collimator in which is disposed a radiation source. Fiber optics are interconnected between a plurality of dedicated gamma radiation detectors and a plurality of photomultiplier tubes. The arrangement of fiber optics is designed such that the address of a particular gamma radiation detector is readily discernable while minimizing the number of PMT's required to process data accumulated by the gamma radiation detectors.

Abstract: A shared redundancy prefetch scheme to provide a reduced number of fuses. DDR SDRAMs allow burst addressing at various burst lengths. DDR SDRAMs generally implement LEFT and RIGHT segment column addressing. In DDR SDRAMs which implement redundant memory arrays, fuses may be used to provide access to the redundant columns. Because burst addressing may begin with a RIGHT segment address, two different columns may be accessed on the same clock cycle. By providing a compare scheme which implements separate compare logic for the lower bits of the LEFT and RIGHT segments and compares these bits to a common fuse set used for both the LEFT and RIGHT segments, the number of fuses in the redundant DDR SDRAM scheme can be reduced.

Abstract: A coincidence transmission source serves to detect coincident activity from a radiation source. The coincidence transmission source includes a detector dedicated to collecting attenuation data. A collimated radiation source and a detector are positioned with respect to a tomography device such that only a selected strip of the imaging detector of the tomograph is illuminated such that events unrelated to the attenuation are eliminated. The coincidence transmission source includes a collimator in which is disposed a radiation source. An opening is defined by the collimator for exposing a selected portion of the imaging detectors of the tomograph device. Positioned behind the radiation source, relative to the imaging detectors, is the dedicated attenuation detector. The attenuation detector and collimator are designed to illuminate only a strip of the imaging detector, thereby eliminating events not of interest in the attenuation measurement.

Abstract: A shared redundancy prefetch scheme to provide a reduced number of fuses. DDR SDRAMs allow burst addressing at various burst lengths. DDR SDRAMs generally implement LEFT and RIGHT segment column addressing. In DDR SDRAMs which implement redundant memory arrays, fuses may be used to provide access to the redundant columns. Because burst addressing may begin with a RIGHT segment address, two different columns may be accessed on the same clock cycle. By providing a compare scheme which implements separate compare logic for the lower bits of the LEFT and RIGHT segments and compares these bits to a common fuse set used for both the LEFT and RIGHT segments, the number of fuses in the redundant DDR SDRAM scheme can be reduced.

Abstract: A device and method for on-line correction of patient motion in three-dimensional positron emission tomography. The devices encompass an on-line hardware pipelining architecture to support 3D translation, normalization, and weighted histogramming as required. Five stages of processing for the PET event stream are utilized in the present invention. Each stage feeds the next with progressively modified event packets proceeding at a processing speed of at least 10M packets/sec. Stage 1 calculates an event correction factor (ECF) for each incoming detector-pair event packet. This ECF is incorporated into the event packet for use later in Stage 5. Stage 2 converts the detector-index-pair content of each packet into (x,y,z) pair content. Specifically, the representation of each detector element is converted from a discrete crystal index into a 3-D coordinate index. Stage 3 transforms the (x,y,z) pair into an (x′,y′,z′) pair.

Abstract: A shared redundancy prefetch scheme to provide a reduced number of fuses. DDR SDRAMs allow burst addressing at various burst lengths. DDR SDRAMs generally implement LEFT and RIGHT segment column addressing. In DDR SDRAMs which implement redundant memory arrays, fuses may be used to provide access to the redundant columns. Because burst addressing may begin with a RIGHT segment address, two different columns may be accessed on the same clock cycle. By providing a compare scheme which implements separate compare logic for the lower bits of the LEFT and RIGHT segments and compares these bits to a common fuse set used for both the LEFT and RIGHT segments, the number of fuses in the redundant DDR SDRAM scheme can be reduced.

Abstract: A coincidence transmission source serves to detect coincident activity from a radiation source. The coincidence transmission source includes a detector dedicated to collecting attenuation data. A collimated radiation source and a detector are positioned with respect to a tomography device such that only a selected strip of the imaging detector of the tomograph is illuminated such that events unrelated to the attenuation are eliminated. The coincidence transmission source includes a collimator in which is disposed a radiation source. An opening is defined by the collimator for exposing a selected portion of the imaging detectors of the tomograph device. Positioned behind the radiation source, relative to the imaging detectors, is the dedicated attenuation detector. The attenuation detector and collimator are designed to illuminate only a strip of the imaging detector, thereby eliminating events not of interest in the attenuation measurement.

Abstract: A method and apparatus for producing radioactive transmission measurements to form multi-dimensional attenuation correction data with a point source of radiation, such as required in positron emission tomography applications. This involves the passing of the point source proximate the face of each of the tomograph units for the formation of a 3-D image, or a selected portion of the tomograph units for a 2-D image. As such, attenuation data, transmission data, detector performance data, etc., can be obtained. This point source of radiation, in one embodiment, is rapidly circulated through a conduit that passes across each detector face under the influence of a transport fluid in, for example, an oscillatory motion to achieve a selected radiation field whereby calculation of transmission measurements within a body positioned within the tomograph scanner is achieved. When not being circulated, the radiation source is held within a shield. In another embodiment, the point source is a CT device.

Abstract: A method and apparatus for producing radioactive transmission measurements to form multi-dimensional attenuation correction data with a point source of radiation, such as required in positron emission tomography applications. This involves the passing of the point source proximate the face of a selected each of the tomograph units for the formation of a 3-D image, or a selected portion of the tomograph units for a 2-D image. As such, attenuation data, transmission data, detector performance data, etc., can be obtained. This point source of radiation, in one embodiment, is rapidly circulated through a conduit that passes across each detector face under the influence of a transport fluid in, for example, an oscillatory motion to achieve a selected radiation field whereby calculation of transmission measurements within a body positioned within the tomograph scanner is achieved. When not being circulated, the radiation source is held within a shield.

Abstract: A veneer lathe is disclosed having a nose bar and drive assembly in place thereon. A nose bar shaft is splined lengthwise and supported by lathe mounted bearing assemblies. Rolls include splined inserts for shaft engagement. Roll surfaces are grooved for biased engagement with a wooden article installed in the lathe. Drive members are insertably engaged with ends of the nose bar shaft and with power transmission units in place on the veneer lathe. The drive members are disengaged from the nose bar shaft upon positioning of retainer caps on each power transmission unit.

Abstract: A method and apparatus for producing radioactive transmission measurements to form a 2-D or a 3-D image with a point source of radiation, such as required in positron emission tomography applications. This involves the passing of the point source proximate the face of a selected each of the tomograph units for the formation of a 3-D image, or a selected portion of the tomograph units for a 2-D image. As such, attenuation data, transmission data, detector performance data, etc., can be obtained. This point source of radiation is rapidly circulated through a conduit that passes across each detector face under the influence of a transport fluid in, for example, an oscillatory motion to achieve a selected radiation field whereby calculation of transmission measurements within a body positioned within the tomograph scanner is achieved. When not being circulated, the radiation source is held within a shield.

Abstract: A method for inducing cylinder power into an optical surface which comprises the steps of providing a corneal surface to an apparatus capable of indexing the position of said target to the beam path of a laser capable of photoablating the material of said target, passing said corneal surface through the domain of said laser along at least one axis and controlling the product of the intensity of said laser with time in order to control the amount of ablation of said corneal surface along at least one axis of said corneal surface.

Abstract: A method for modifying a target optical surface which comprises the steps of providing a target optical surface to an apparatus capable of indexing the position of said target to the beam path of a laser capable of photoablating the material of said target, passing said target through the domain of said laser along at least one axis, rotating said target optical surface or said energy beam along said axis x relative to said optical surface and controlling the product of the intensity of said laser with time in order to control the amount of ablation of said target.

Abstract: A 3-dimensional projection system (10) for the rapid back projection of multi-ring Positron Emission Tomography (PET) scan data composed of planes (44) of two-dimensional data defining individual Lines Of Response (LOR) (42) into a plurality of image voxels for three-dimensional display on a video screen. The projection system (10) of the preferred embodiment is a Very Large Scale Integration (VLSI) based architecture which will support forward and back projection for a 3-dimensional image detected by a multi-ring PET scanner. A selected number of processing engines (20) are included for forward projection and back projection, the number of engines (20) being inversely proportional to the projection time.