Patent application number | Description | Published |
20090285045 | Area Efficient First-In First-Out circuit - A FIFO memory having an available capacity of no more than N words deep by M bits wide. A write port receives data to store in the FIFO memory, and a read port provides the data stored in the FIFO memory. X memories store the data, where each of the X memories has a size of N/X by M. Control logic receives the data from the write port, writes the data into at least one of the X memories in a serial write manner, reads the data from at least one of the X memories in a serial read manner, and provides the data to the read port. The control logic also disables power to selected ones of the X memories when they are not being written to or read from. The FIFO memory is configured to both read and write the data at a given time to a given one of the X memories. | 11-19-2009 |
20090323870 | Identification Circuit with Repeatable Output Code - A comparator receives a first read of voltage differentials from a series of bit cells, compares the first read to a positive voltage offset of a given magnitude, and set bits in a first bit stream to values that are dependent upon whether the voltage differential from a given bit cell is greater than the positive voltage offset. The first bit stream is then stored in a first register. The comparator also receives a second read of the voltage differentials from the series of bit cells, compares the second read to a negative voltage offset of the given magnitude, and sets bits in a second bit stream to values that are dependent upon whether the voltage differential from a given bit cell is greater than the positive voltage offset. The second bit stream is stored in a second register. The comparator then compares the first bit stream to the second bit stream, and set bits in a mask string dependent upon whether the bits in a given position of the first bit stream and the second bit stream are identical. A third register receives the mask string. The comparator additionally receives a subsequent read of the voltage differentials from the series of bit cells, compares the subsequent read to a zero voltage offset, and set bits in a subsequent bit stream to values that are dependent upon whether the voltage differential from a given bit cell is greater than the zero voltage offset. The subsequent bit stream is compared to the mask string, and bits of the subsequent bit stream that are disposed in positions set in the mask string are corrected. | 12-31-2009 |
20100046508 | TIME-SLOT INTERCHANGE CIRCUIT - A circuit and method are presented for signal processing and routing of digital voice telephony signals, using a specialized high-density integrated circuit voice processor. The voice processor performs several essential functions required for telephony processing, including echo cancellation, protocol conversion, and dynamic range compression/expansion. These functions are traditionally performed by multiple circuits or modules. By combining these capabilities in a single device, power and circuit board area requirements are reduced. The embodiment of the circuit and method disclosed herein include novel implementations of a time-slot interchange circuit and a telephony signaling circuit. Both of these circuits are designed to minimize demands on the signal processing engines incorporated within the voice processor, and account for very little of the on-chip circuitry. | 02-25-2010 |
Patent application number | Description | Published |
20120141379 | MICROSPHERES FOR ACTIVE EMBOLIZATION - The present invention relates to injectable compositions comprising biocompatible, swellable, substantially hydrophilic, non-toxic and substantially spherical polymeric material carriers which are capable of efficiently delivering bioactive therapeutic factor(s) for use in embolization drug therapy. The present invention further relates to methods of embolization gene therapy, particularly for the treatment of angiogenic and non-angiogenic-dependent diseases, using the injectable compositions. | 06-07-2012 |
20120213831 | MICROSPHERES FOR ACTIVE EMBOLIZATION - The present invention relates to injectable compositions comprising biocompatible, swellable, substantially hydrophilic, non-toxic and substantially spherical polymeric material carriers which are capable of efficiently delivering bioactive therapeutic factor(s) for use in embolization drug therapy. The present invention further relates to methods of embolization gene therapy, particularly for the treatment of angiogenic and non-angiogenic-dependent diseases, using the injectable compositions. | 08-23-2012 |
20130323316 | INJECTABLE MICROSPHERES FOR DERMAL AUGMENTATION AND TISSUE BULKING - The present invention relates to elastic, hydrophilic and substantially spherical microspheres useful for dermal augmentation and tissue bulking. The invention provides injectable compositions comprising the microspheres and a biocompatible carrier for use in dermal augmentation. The present invention further provides methods of dermal augmentation and tissue bulking, particularly for the treatment of skin contour deficiencies, Gastro-esophageal reflux disease, urinary incontinence, and urinary reflux disease, using the injectable compositions. | 12-05-2013 |
20130323317 | INJECTABLE AND SWELLABLE MICROSPHERES FOR TISSUE BULKING - The present invention relates to injectable compositions comprising biocompatible, swellable, hydrophilic, non-toxic and substantially spherical microspheres useful for tissue bulking. The invention also relates to methods of tissue bulking, particularly for the treatment of Gastro-esophageal reflux disease, urinary incontinence, or urinary reflux disease, using the injectable compositions. | 12-05-2013 |
20140065233 | INJECTABLE MICROSPHERES FOR DERMAL AUGMENTATION AND TISSUE BULKING - The present invention relates to elastic, hydrophilic and substantially spherical microspheres useful for dermal augmentation and tissue bulking. The invention provides injectable compositions comprising the microspheres and a biocompatible carrier for use in dermal augmentation. The present invention further provides methods of dermal augmentation and tissue bulking, particularly for the treatment of skin contour deficiencies, Gastro-esophageal reflux disease, urinary incontinence, and urinary reflux disease, using the injectable compositions. | 03-06-2014 |
Patent application number | Description | Published |
20080215036 | Atraumatic Occlusion Balloons and Skirts, and Methods of Use Thereof - One aspect of the present invention relates to catheters that can be placed in or around bodily conduits to occlude or widen a biological lumen without imparting significant trauma to the lumen. In certain embodiments, the invention particularly relates to the use of a polymer composition which can be made to gel upon insertion into said balloon or skirt. In certain embodiments, the inflating viscous polymer composition is a liquid at room temperature and a gel at mammalian physiological temperature. In certain embodiments, the inflating viscous polymer composition comprises an optionally purified inverse thermosensitive polymer. | 09-04-2008 |
20080220077 | MICROSPHERES FOR ACTIVE EMBOLIZATION - The present invention relates to injectable compositions comprising biocompatible, swellable, substantially hydrophilic, non-toxic and substantially spherical polymeric material carriers which are capable of efficiently delivering bioactive therapeutic factor(s) for use in embolization drug therapy. The present invention further relates to methods of embolization gene therapy, particularly for the treatment of angiogenic and non-angiogenic-dependent diseases, using the injectable compositions. | 09-11-2008 |
20090186094 | Injectable and Swellable Microspheres for Tissue Bulking - The present invention relates to injectable compositions comprising biocompatible, swellable, hydrophilic, non-toxic and substantially spherical microspheres useful for tissue bulking. The invention also relates to methods of tissue bulking, particularly for the treatment of Gastro-esophageal reflux disease, urinary incontinence, or urinary reflux disease, using the injectable compositions. | 07-23-2009 |
20110033508 | INJECTABLE MICROSPHERES FOR DERMAL AUGMENTATION AND TISSUE BULKING - The present invention relates to elastic, hydrophilic and substantially spherical microspheres useful for dermal augmentation and tissue bulking. The invention provides injectable compositions comprising the microspheres and a biocompatible carrier for use in dermal augmentation. The present invention further provides methods of dermal augmentation and tissue bulking, particularly for the treatment of skin contour deficiencies, Gastro-esophageal reflux disease, urinary incontinence, and urinary reflux disease, using the injectable compositions. | 02-10-2011 |
20110052490 | ENDOSCOPIC MUCOSAL RESECTIONING USING PURIFIED INVERSE THERMOSENSITIVE POLYMERS - One aspect of the invention relates to use of a composition comprising a purified inverse thermosensitive polymer in an endoscopic procedure for gastrointestinal mucosal resectioning in a mammal. Another aspect of the invention relates to a method of gastrointestinal mucosal resectioning, comprising administering submucosally to a region of a gastrointestinal mucosa in a mammal an effective amount of a composition comprising a purified inverse thermosensitive polymer; and surgically resecting said region of gastrointestinal mucosa. Yet another aspect of the invention relates to a kit for use in gastrointestinal endoscopic mucosal resectioning in a mammal, comprising a composition comprising a purified inverse thermosensitive polymer; a syringe; and instructions for use thereof. | 03-03-2011 |
20110087207 | LOCAL EMBOLIZATION USING THERMOSENSITIVE POLYMERS - Precision in thermotherapy is obtained by providing a reverse gelling polymer composition which gels when its temperature is raised towards body temperature. The composition is injected into the blood supply of the tissue being treated, at the beginning of thermotherapy. The temperature increase caused by the heating rapidly gels the composition, which temporarily blocks the flow of blood in the region being treated. This improves the predictability and stability of treatment. On cessation of heating, the composition gradually dissolves, removing the temporary embolization. The use of local heating can also expedite removal of tumors and the like from soft organs, even when the heating itself has no therapeutic effect. | 04-14-2011 |
20110201926 | LOCAL EMBOLIZATION VIA HEATING OF THERMOSENSITIVE POLYMERS - Precision in thermotherapy is obtained by providing a reverse gelling polymer composition which gels when its temperature is raised above body temperature. The composition is injected into the blood supply of the tissue being treated, at the beginning of thermotherapy. The temperature increase caused by the heating gels the composition, which temporarily blocks the flow of blood in the region being treated. This improves the predictability and stability of treatment. On cessation of heating, the composition liquefies, removing the temporary embolization. The use of local heating can also expedite removal of tumors and the like from soft organs, even when the heating itself has no therapeutic effect. | 08-18-2011 |
20120029558 | Methods and Kits for Treating Lacerations and Puncture Wounds Using Inverse Therosensitive Polymers - In certain embodiments, the present invention relates to methods and kits for treating wounds, comprising the step of introducing into said wound a composition comprising at least one optionally purified inverse thermosensitive polymer, wherein said at least one optionally purified inverse thermosensitive polymer forms a gel in said wound, thereby temporarily occluding said wound. In certain embodiments, the present invention relates to the aforementioned method wherein a wound to a blood vessel or a segment of the GI tract is occluded, thereby preventing exsanguination and/or septicemia. In other embodiments, the inventive methods and kits described herein may be used to ameliorate (e.g., fill) temporarily a defect in a biological lumen, thereby strengthening said defect, preventing rupture of, or maintaining, improving or optimizing fluid flow through said lumen. | 02-02-2012 |
20130158589 | Methods And Kits For Treating Lacerations And Puncture Wounds Using Inverse Thermosensitive Polymers - In certain embodiments, the present invention relates to methods and kits for treating wounds, comprising the step of introducing into said wound a composition comprising at least one optionally purified inverse thermosensitive polymer, wherein said at least one optionally purified inverse thermosensitive polymer forms a gel in said wound, thereby temporarily occluding said wound. In certain embodiments, the present invention relates to the aforementioned method wherein a wound to a blood vessel or a segment of the GI tract is occluded, thereby preventing exsanguination and/or septicemia. In other embodiments, the inventive methods and kits described herein may be used to ameliorate (e.g., fill) temporarily a defect in a biological lumen, thereby strengthening said defect, preventing rupture of, or maintaining, improving or optimizing fluid flow through said lumen. | 06-20-2013 |
20130289605 | Atraumatic Occlusion Balloons and Skirts, and Methods of Use Thereof - One aspect of the present invention relates to catheters that can be placed in or around bodily conduits to occlude or widen a biological lumen without imparting significant trauma to the lumen. In certain embodiments, the invention particularly relates to the use of a polymer composition which can be made to gel upon insertion into said balloon or skirt. In certain embodiments, the inflating viscous polymer composition is a liquid at room temperature and a gel at mammalian physiological temperature. In certain embodiments, the inflating viscous polymer composition comprises an optionally purified inverse thermosensitive polymer. | 10-31-2013 |
20140205542 | Perfusive Organ Hemostasis - Disclosed are compositions, methods and kits to control bleeding through the use of an internal occluder based on polymeric solutions, including use of reverse thermosensitive polymers in nephron-sparing surgeries, which produces a completely bloodless surgical field, allowing speedy resection. In certain embodiments, after a certain amount of time, the flow gradually resumes, with no apparent adverse consequences to the kidney. In certain embodiments, return of blood flow may be accelerated by cooling the kidney. The compositions, methods and kits for perfusive organ hemostasis can also be used to simplify or to enable other organ surgeries or interventional procedures, including liver surgery, prostate surgery, brain surgery, surgery of the uterus, spleen surgery and any surgery on any highly vascularized organs. | 07-24-2014 |