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Govil, CA
Amit Govil, Irvine, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100082102 | Porous bioabsorbable implant - The bioabsorbable implant described has a porous body formed of bioabsorbable materials that have an in vivo life span of at least 2 weeks, preferably at least three weeks and not greater than 20 weeks, preferably no greater than ten weeks. The implant has a scaffolding structure which facilitates tissue in-growth and ultimately tissue replacement of the scaffolding structure. The implant has a radiopaque imaging agent at least at the exterior margins and an orientation plurality of radiopaque elements in the interior of implant. The implant preferably has three radiopaque elements within the interior that form a plane within the implant interior. | 04-01-2010 |
Amit Govil, Ladera Ranch, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100155282 | METHODS AND SYSTEMS FOR STORING MEDICAL IMPLANTS UNDER SUSTAINED VACUUM - Methods and systems for improving the shelf life of a medical graft generally comprising a medical implant container having at least one graft cavity configured to hold at least one graft under a first vacuum and a needle entry port in fluid communication with the at least one graft cavity, the needle entry port being configured to receive and communicate a material to the at least one graft cavity and an outer chamber configured to hold the medical implant container under a second vacuum. | 06-24-2010 |
Amit Govil, San Diego, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20080234822 | Method and Apparatus for Stabilization and Fusion of Adjacent Bone Segments - Disclosed are systems and methods for stabilization and fusion of adjacent bone segments. Also disclosed are methods for manufacturing a surgical bone implant. Surgical bone implants constructed in accordance with the invention receive improved structural stability and accurate sizing, particularly under expansion and shrinkage caused by hydration and dehydration of the implant. | 09-25-2008 |
| 20090098184 | PROCESSES AND SYSTEMS FOR LOADING MEDICAL IMPLANTS WITH SIMULATIVE GROWTH AGENTS - Methods and systems for providing an improved apparatus and packaging system to more expeditiously hydrate or reconstitute medical grafts and to effectively and uniformly seed the medical grafts with biological components and cells. The systems generally comprise a container comprising entry port, at least one substrate cavity, and top, side and bottom walls defining an inner surface. The entry port is configured to receive the biological solution. The cavity is in communication with the entry port and includes the porous substrate maintained under negative pressure. The container volume is substantially the same as a volume of the porous substrate. The side and bottom walls are configured to promote a laminar flow of the biological solution received through the entry port. | 04-16-2009 |
| 20090137042 | PROCESSES AND SYSTEMS FOR HYDRATING AND SEEDING MEDICAL IMPLANTS WITH BIOLOGICAL COMPONENTS - Methods and systems for providing an improved apparatus and packaging system to more expeditiously hydrate or reconstitute medical grafts and to effectively and uniformly seed the medical grafts with biological components and cultured cells. The systems generally comprise a container comprising entry port, at least one substrate cavity, and top, side and bottom walls defining an inner surface. The entry port is configured to receive the biological solution. The cavity is in communication with the entry port and includes the porous substrate maintained under negative pressure. The container volume is substantially the same as a volume of the porous substrate. The side and bottom walls are configured to promote a laminar flow of the biological solution received through the entry port. | 05-28-2009 |
Amit Prakash Govil, Ladera Ranch, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110118850 | Bioactive Grafts and Composites - Disclosed are various bioactive grafts and/or biocompatible materials and methods of making the same. In one embodiment, bone material is harvested from a donor. The harvested bone material is exposed to a lysing agent, the lysing agent configured to release growth factors and bioactive materials from cellular material of the harvested bone material. The harvested bone material is then rinsed with a rinsing agent. The pH of the harvested bone material is substantially neutralized. In another embodiment, an orthopaedic implant includes an antibacterial polysaccharide. The implant may also include an osteostimulative agent. | 05-19-2011 |
Amit Prakash Govil, Irvine, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100152863 | Bioactive Grafts and Composites - Disclosed are various bioactive grafts and methods of making the same. In one embodiment, bone material is harvested from a donor. The harvested bone material is exposed to a lysing agent, the lysing agent configured to release growth factors and bioactive materials from cellular material of the harvested bone material. The harvested bone material is then rinsed with a rinsing agent. The pH of the harvested bone material is substantially neutralized. | 06-17-2010 |
Kinshuk Govil, Los Altos, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100161863 | COMMUNICATING WITH USB DEVICES AFTER A COMPUTER SYSTEM CRASH - One embodiment is a method of transferring data from a computer system to a Universal Serial Bus (USB) device after a computer system crash where interrupts are masked, the method comprising: (a) detecting the computer system crash; (b) transferring at least a portion of the data to a USB driver for the USB device; (c) the USB driver transferring the portion of the data to a USB controller driver for a USB controller for the USB device; (d) the USB controller driver causing the USB controller to transfer the portion of the data to the USB device; (e) polling the USB controller to determine whether the data transfer was completed; and (f) if the data transfer was completed, providing a notification to the computer system. Another embodiment is a method of transferring data from a Universal Serial Bus (USB) device to a computer system after a computer system crash where interrupts are masked, the method comprising: (a) detecting the computer system crash; (b) identifying a USB device used to communicate data to the computer system; (c) polling a USB controller for the identified USB device to determine whether new input has been received; (d) if so, obtaining the new input; and (e) transferring the new output to the computer system for further processing. | 06-24-2010 |
| 20110023030 | On-Line Replacement and Changing of Virtualization Software - In a virtualized system running one or more virtual machines on a first hypervisor, a second hypervisor is installed and control of the hardware resources of the physical computer supporting the virtualized system is migrated from the first hypervisor to the second hypervisor without interrupting the operation of the first hypervisor and the virtual machines. Initially a minimal set of hardware resources is hot-removed from control by the first hypervisor, and the second hypervisor is launched on the minimal set of hardware resources. Both the remaining hardware resources and the virtual machines are then migrated from the first hypervisor to the second hypervisor until all the virtual machines have been migrated over to the second hypervisor, while the virtual machines and the first hypervisor continue running largely unaffected by the migration process. | 01-27-2011 |
| 20110060832 | Fast Determination of Compatibility of Virtual Machines and Hosts - A method of determining compatibility of a virtual machine or virtual machine disk file with a host, including a storage host, is disclosed. A lookup matrix is created to provide a fast compatibility lookup for a group of computing objects and a group of hosts. To create the lookup matrix, computing object properties are retrieved from each of the plurality of computing objects. The computing object properties include resource requirements of each of the plurality of computing objects. Further, host properties are retrieved from each of the plurality of hosts. The method further includes creating a plurality of host logical groups of a subset of the plurality of hosts having substantially same host properties and creating a plurality of computing object logical groups of a subject of the plurality of computing objects having substantially same computing object properties. The lookup matrix provides answers whether each member of a selected computing object logical group can be transferred to each member of a selected host logical group. | 03-10-2011 |
Piyush Govil, Redwood City, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090299942 | METHOD FOR IMPLEMENTING A RULES-BASED ENGINE - Embodiments of the invention provide an RBE that uses a logical abstraction for a set of application rules that allows the rules to be implemented, presented and modified efficiently. For one embodiment, rules logic for implementing a set of application rules is stored. The rules logic is specified by a processing sequence using one or more application factors, each of which has one or more application factor values. A plurality of entries corresponding to each application factor is separately stored. Each entry contains a data point set having one or more data points and a result corresponding to the data point set. Each of the one or more data points of a data point set corresponds to a distinct factor value. | 12-03-2009 |