Patent application number | Description | Published |
20090092686 | PROCESS FOR THE RECOVERY OF A PHYTOLIPID COMPOSITION - Disclosed is a process for the recovery of a phytolipid composition from a vegetable oil by-product. The phytolipid composition produced comprises squalene, phytosterols, mixed tocopherols and tocotrieneols, and vegetable wax and is useful as an emollient. The phytochemical composition may be applied directly to the skin to provide emolliency. Alternatively, the phytolipid composition may be formulated in various aqueous or anhydrous cosmetic compositions such as creams, lotions, gels, ointments, lip balms, sticks, or pencils for treatment of the skin and lips. The phytolipid composition also may be incorporated into foods, beverages, and nutraceuticals to provide health benefits. | 04-09-2009 |
20120157720 | Process for Isolating Crystallized 2,2,4,4-Tetramethyl-1,3-Cyclobutanediol (TMCD) Particles Utilizing Pressure Filtration - A method for isolating 2,2,4,4-tetramethyl-1,3-cyclobutanediol (TMCD) solids from an isolated feed slurry formed in a TMCD process comprising TMCD, a liquid phase, and impurities by (a) treating the isolated feed slurry in a product isolation zone to produce an isolated TMCD product wet cake, a mother liquor, and impurities; wherein the product isolation zone can comprise at least one rotary pressure drum filter. | 06-21-2012 |
Patent application number | Description | Published |
20090058635 | Medical data transport over wireless life critical network - A portable patient communicator (PPC) includes a portable housing that supports a processor coupled to memory for storing medical firmware and wireless radio firmware, first and second radios, a processor, and a power source. Communications between a patient implantable medical device (PIMD) and the first radio of the PPC are effected in accordance with program instructions of the medical firmware, and communications between the second radio of the PPC and the wireless network are effected in accordance with program instructions of the wireless radio firmware. Data from the PIMD is received via the first radio to which a priority level is assigned, such as in a tiered manner. A data transport mechanism is selected among disparate data transport mechanisms based at least in part on the priority level. PIMD data is transmitted to the wireless network using the selected transport mechanism via the second radio. | 03-05-2009 |
20090058636 | Wireless patient communicator employing security information management - A portable patient communicator (PPC) includes a portable housing supporting a processor, memory for storing medical and wireless radio firmware, first and second radios, a processor, an identity module, and a power source. The PPC and a patient implantable medical device (PIMD) communicate via the first radio in accordance with the medical firmware. The PPC communicates with a wireless network via the second radio in accordance with the wireless radio firmware. Data stored in the identity module is used to authenticate the PPC by the remote server prior to permitting PPC access to the remote server, and may also be used to authenticate the remote server by the PPC prior to permitting access to the PPC or the PIMD by the remote server or other device communicatively coupled to the wireless network, after which PIMD and other medical data is exchanged between the PPC and remote server. | 03-05-2009 |
20090063187 | Medical data transport over wireless life critical network employing dynamic communication link mapping - A portable source medical device determines communication links of a network presently available to effect communications with a target component when the source medical device is at each of a multiplicity of geographical locations. A profile is generated comprising information about each available communication link and attributes associated with each available communication link for each geographical location. When the source medical device is at a particular geographical location, a profile associated with the particular geographical location is accessed and a network connection is established between the source medical device and the target component using a communication link associated with the particular profile. Medical information is transferred between the source medical device and the target component via the communication link associated with the particular profile. | 03-05-2009 |
20090063193 | Dashboard diagnostics for wireless patient communicator - Portable patient communicators (PPCs) comprise a first radio configured to communicate wirelessly with a patient implantable medical device (PIMD) associated with the PPC and a second radio configured to communicate wirelessly with a network. Memory is configured to store at least first information about wireless connectivity between the PPC and its associated PIMD. A processor is coupled to the memory and the first and second radios. A power source is configured to supply power to components of the PPC. The processor is configured to coordinate discontinuous communication between the PPC and its associated PIMD via the first radio and coordinate discontinuous communication between the PPC and the network via the second radio. The processor is configured to coordinate wireless transmission of the first information to a remote server via the network, and the remote server receives second information about wireless connectivity between each of the PPCs and the network. | 03-05-2009 |
20110273287 | Medical Data Transport over Wireless Life Critical Network - A portable patient communicator (PPC) includes a portable housing that supports a processor coupled to memory for storing medical firmware and wireless radio firmware, first and second radios, a processor, and a power source. Communications between a patient implantable medical device (PIMD) and the first radio of the PPC are effected in accordance with program instructions of the medical firmware, and communications between the second radio of the PPC and the wireless network are effected in accordance with program instructions of the wireless radio firmware. Data from the PIMD is received via the first radio to which a priority level is assigned, such as in a tiered manner. A data transport mechanism is selected among disparate data transport mechanisms based at least in part on the priority level. PIMD data is transmitted to the wireless network using the selected transport mechanism via the second radio. | 11-10-2011 |