Patent application number | Description | Published |
20120004275 | SCELETIUM EXTRACT AND USES THEREOF - A composition including as an active ingredient an extract of a plant of the family Mesembryanthemaceae with mesembrenol and mesembrenone as the two major alkaloids present. The invention also relates to the use of the composition as a PDE4 inhibitor and as a serotonin-uptake inhibitor, preferably applied in formulations for the use of the composition as a dual serotonin-uptake inhibitor and PDE4 inhibitor. The invention extends to compositions, such as pharmaceutical compositions or compositions used as dietary supplements, the total alkaloid content of which includes at least 80% (w/w) combined content of mesembrenol and mesembrenone, less than 5% (w/w) mesembrine, and at least 7% (w/w) mesembranol. | 01-05-2012 |
20120041045 | USE OF PHARMACEUTICAL COMPOSITIONS CONTAINING MESEMBRENONE - The use of mesembrenone and medicaments and dietary supplements containing mesembrenone. The applicant has surprisingly found that mesembrenone exhibits potent PDE-4 inhibition properties and, in addition to being useful in treating conditions that respond to treatment with a PDE-4 inhibitor, has dual activity on account of its serotonin-uptake inhibition properties. Mesembrenone is extracted and isolated, for example as a pure compound, from plant material of the plant family Mesembryan-themaceae. Preferably a plant or plants from the genus | 02-16-2012 |
20150080447 | Sceletium Extract and Uses Thereof - A composition including as an active ingredient an extract of a plant of the family Mesembryanthemaceae with mesembrenol and mesembrenone as the two major alkaloids present. The invention also relates to the use of the composition as a PDE4 inhibitor and as a serotonin-uptake inhibitor, preferably applied in formulations for the use of the composition as a dual serotonin-uptake inhibitor and PDE4 inhibitor. The invention extends to compositions, such as pharmaceutical compositions or compositions used as dietary supplements, the total alkaloid content of which includes at least 80% (w/w) combined content of mesembrenol and mesembrenone, less than 5% (w/w) mesembrine, and at least 7% (w/w) mesembranol. | 03-19-2015 |
Patent application number | Description | Published |
20100274683 | METHOD AND APPARATUS FOR ORDERING GOODS, SERVICES AND CONTENT OVER AN INTERNETWORK USING A VIRTUAL PAYMENT ACCOUNT - A virtual payment system for paying for goods, services and content ordered over an internetwork comprising a commerce gateway component and a credit processing server component ( | 10-28-2010 |
20100306081 | METHOD AND APPARATUS FOR ORDERING GOODS, SERVICES AND CONTENT OVER AN INTERNETWORK USING A VIRTUAL PAYMENT ACCOUNT - A virtual payment system for paying for goods, services and content ordered over an internetwork comprising a commerce gateway component and a credit processing server component ( | 12-02-2010 |
20110137801 | METHOD AND APPARATUS FOR ORDERING GOODS, SERVICES AND CONTENT OVER AN INTERNETWORK USING A VIRTUAL PAYMENT ACCOUNT - A virtual payment system for paying for goods, services and content ordered over an internetwork is disclosed. The virtual payment system includes a commerce gateway. Buyers and sellers becomes registered participants by applying for virtual payment buyer and seller accounts. Once an account is established with the commerce gateway, a digital certificate is stored on the registered participant's computer. A buyer can then order a product, i.e., goods, services or content from a seller and charge it to the virtual payment account. When the product is shipped, the seller notifies the commerce gateway, which applies the charges to the buyer's virtual payment account. The buyer can settle the charges using a prepaid account, a credit account, or by using reward points earned through use of the virtual payment account. A buyer may create sub-accounts. | 06-09-2011 |
20110276494 | METHOD AND APPARATUS FOR ORDERING GOODS, SERVICES, AND CONTENT OVER AN INTERNETWORK USING A VIRTUAL PAYMENT ACCOUNT - A secure, closed virtual payment system comprising registered buyers and sellers for ordering and paying for goods, services, and content over an internetwork is disclosed. A buyer becomes registered by applying for a virtual payment account. A seller becomes registered by applying for a seller account. A credit processing component ( | 11-10-2011 |
20110289006 | METHOD AND APPARATUS FOR ORDERING GOODS, SERVICES, AND CONTENT OVER AN INTERNETWORK USING A VIRTUAL PAYMENT ACCOUNT - A secure, closed virtual payment system comprising registered buyers and sellers for ordering and paying for goods, services, and content over an internetwork is disclosed. A buyer becomes registered by applying for a virtual payment account. A seller becomes registered by applying for a seller account. A credit processing component ( | 11-24-2011 |
Patent application number | Description | Published |
20090025279 | Fuel for homogeneous charge compression ignition (hcci) systems and a process for production of said fuel - The invention provides a HCCI fuel or fuel component, which fuel includes at least n-paraffins and iso-paraffins having from 7 to 14 carbon atoms, and which fuel has an ignition delay of less than 7 ms, according to ASTM D6890. A process for preparing a HCCI fuel or fuel component. | 01-29-2009 |
20100264061 | SYNTHETIC AVIATION FUEL - The invention relates to a Fischer-Tropsch derived aviation fuel, which fuel is used either as a fuel on its own or as a component in an aviation fuel blend, said fuel having an iso:n paraffins mass ratio above 3, at least 0.1 mass % naphthenes, <0.01 mass % polyaromatics, and <0.5 mass % aromatics. | 10-21-2010 |
20120209037 | FULLY SYNTHETIC JET FUEL - A fully synthetic aviation fuel or aviation fuel component is provided, having a total naphthenic content of more than 30 mass %, a mass ratio of naphthenic to iso-paraffinic hydrocarbon species of more than 1 and less than 15, a density (at 15° C.) of greater than 0.775 g·cm | 08-16-2012 |
Patent application number | Description | Published |
20100288059 | SPECIMEN CONTAINER, SYSTEM, AND METHOD - This invention relates to the collection and handling of biological or chemical specimens. The invention provides a device and a method for collecting and preparing patient samples, such as sputum, to be used in downstream diagnostics tests. The invention reduces the handling and exposure of healthcare workers to the sample by the use of a bag in which hermetic seals are utilized to separate sample aliquots. | 11-18-2010 |
20100291536 | SAMPLE PROCESSING CASSETTE, SYSTEM, AND METHOD - The present invention provides a method and device for collecting treating and analysis of biological or chemical material by introducing a source material into a specimen container, transferring the source material to a processing device and thermally, chemically and/or mechanically treating the source material to alter at least one constitutive characteristic of the source material and to release or create a target material from the source material. | 11-18-2010 |
20110039305 | THERMOCYCLER AND SAMPLE VESSEL FOR RAPID AMPLIFICATION OF DNA - A thermocycler apparatus and method for rapidly performing the PCR process employs at least two thermoelectric modules which are in substantial spatial opposition with an interior space present between opposing modules. One or multiple sample vessels are placed in between the modules such that the vessels are subjected to temperature cycling by the modules. The sample vessels have a minimal internal dimension that is substantially perpendicular to the modules that facilitates rapid temperature cycling. In embodiments of the invention the sample vessels may be deformable between: a) a shape having a wide mouth to facilitate filling and removing of sample fluids from the vessel, and b) a shape which is thinner for conforming to the sample cavity or interior space between the thermoelectric modules of the thermocycler for more rapid heat transfer. | 02-17-2011 |
20120269703 | Sample Tube Having Particular Utility For Nucleic Acid Amplification - An improved tube including a closure portion, a strap integrally connected to the closure portion and being configured for defining a living hinge, a body portion having a longitudinal axis and an outer wall generally circumscribing the longitudinal axis, and being integrally and hingedly connected with the closure portion by way of the strap. The body portion including a sample portion being generally elongated along the longitudinal axis and being configured for elastic deformation along a portion of its length, including in a direction that is generally transverse to the longitudinal axis so that at least a portion of the wall structure compressively and resiliently deforms and engages a wall defining an opening in a sample block of a polymerase chain reaction amplification device, and the first outer wall dimension of the sample portion reduces to a smaller second outer wall dimension. | 10-25-2012 |
20120308990 | Rapid Thermocycler System for Rapid Amplification of Nucleic Acids and Related Methods - A thermocycling device and method of operating a thermocycler instrument, the instrument including a sample holder, at least one thermal cycling element, and at least one first and second temperature sensors, for causing the sample holder containing the at least one sample to undergo polymerase chain reaction amplification by repeated cycling between at least a denaturation heating stage and an annealing cooling stage. The first temperature corresponding with the temperature of the sample holder is monitored using the at least one first temperature sensor, and a second temperature corresponding with the temperature external of the sample holder is monitored using the at least one second temperature sensor. Based upon the first temperature and the second temperature, the power that is delivered to the at least one thermal cycling element of the instrument is dynamically controlled. | 12-06-2012 |
20130078641 | SAMPLE PROCESSING METHOD AND DEVICE - The present invention provides a method and device for treating and analyzing a biological specimen. The biological specimen is introduced into a processing device and treated thermally, mechanically, chemically or any combination thereof within the processing device to alter at least one constitutive characteristic of the biological specimen and to release or create one or more biological indicators from the biological specimen. The biological specimen is further contacted with a treated polymeric material so that at least a portion of the polymeric material binds to the one or more biological indicators. | 03-28-2013 |
Patent application number | Description | Published |
20140126367 | NETWORK APPLIANCE THAT DETERMINES WHAT PROCESSOR TO SEND A FUTURE PACKET TO BASED ON A PREDICTED FUTURE ARRIVAL TIME - A network appliance includes a network processor and several processing units. Packets a flow pair are received onto the network appliance. Without performing deep packet inspection on any packet of the flow pair, the network processor analyzes the flows, estimates therefrom the application protocol used, and determines a predicted future time when the next packet will likely be received. The network processor determines to send the next packet to a selected one of the processing units based in part on the predicted future time. In some cases, the network processor causes a cache of the selected processing unit to be preloaded shortly before the predicted future time. When the next packet is actually received, the packet is directed to the selected processing unit. In this way, packets are directed to processing units within the network appliance based on predicted future packet arrival times without the use of deep packet inspection. | 05-08-2014 |
20140133320 | INTER-PACKET INTERVAL PREDICTION LEARNING ALGORITHM - An appliance receives packets that are part of a flow pair, each packet sharing an application protocol. The appliance determines the application protocol of the packets by performing deep packet inspection (DPI) on the packets. Packet sizes are measured and converted into packet size states. Packet size states, packet sequence numbers, and packet flow directions are used to create an application protocol estimation table (APET). The APET is used during normal operation to estimate the application protocol of a flow pair without performing time consuming DPI. The appliance then determines inter-packet intervals between received packets. The inter-packet intervals are converted into inter-packet interval states. The inter-packet interval states and packet sequence numbers are used to create an inter-packet interval prediction table. The appliance then stores an inter-packet interval prediction table for each application protocol. The inter-packet interval prediction table is used during operation to predict the inter-packet interval between packets. | 05-15-2014 |
20140233394 | PACKET PREDICTION IN A MULTI-PROTOCOL LABEL SWITCHING NETWORK USING OPENFLOW MESSAGING - A first switch in a MPLS network receives a plurality of packets. The plurality of packets are part of a pair of flows. The first switch performs a packet prediction learning algorithm on the first plurality of packets and generates packet prediction information. The first switch communicates the packet prediction information to a Network Operation Center (NOC). In response, the NOC communicates the packet prediction information to a second switch within the MPLS network utilizing OpenFlow messaging. In a first example, the NOC communicates a packet prediction control signal to the second switch. In a second example, a packet prediction control signal is not communicated. In the first example, based on the packet prediction control signal, the second switch determines if it will utilize the packet prediction information. In the second example, the second switch independently determines if the packet prediction information is to be used. | 08-21-2014 |
20140236873 | PACKET PREDICTION IN A MULTI-PROTOCOL LABEL SWITCHING NETWORK USING OPERATION, ADMINISTRATION, AND MAINTENANCE (OAM) MESSAGING - A first switch in a MPLS network receives a plurality of packets that are part of a pair of flows. The first switch performs a packet prediction learning algorithm on the first plurality of packets and generates packet prediction information that is communicated to a second switch within the MPLS network utilizing an Operations, Administration, and Maintenance (OAM) packet (message). In a first example, the first switch communicates a packet prediction information notification to a Network Operations Center (NOC) that in response communicates a packet prediction control signal to the second switch. In a second example, the first switch does not communicate a packet prediction information notification. In the first example, the second switch utilizes the packet prediction control signal to determine if the packet prediction information is to be utilized. In the second example, second switch independently determines if the packet prediction information is to be used. | 08-21-2014 |
Patent application number | Description | Published |
20140126367 | NETWORK APPLIANCE THAT DETERMINES WHAT PROCESSOR TO SEND A FUTURE PACKET TO BASED ON A PREDICTED FUTURE ARRIVAL TIME - A network appliance includes a network processor and several processing units. Packets a flow pair are received onto the network appliance. Without performing deep packet inspection on any packet of the flow pair, the network processor analyzes the flows, estimates therefrom the application protocol used, and determines a predicted future time when the next packet will likely be received. The network processor determines to send the next packet to a selected one of the processing units based in part on the predicted future time. In some cases, the network processor causes a cache of the selected processing unit to be preloaded shortly before the predicted future time. When the next packet is actually received, the packet is directed to the selected processing unit. In this way, packets are directed to processing units within the network appliance based on predicted future packet arrival times without the use of deep packet inspection. | 05-08-2014 |
20140133320 | INTER-PACKET INTERVAL PREDICTION LEARNING ALGORITHM - An appliance receives packets that are part of a flow pair, each packet sharing an application protocol. The appliance determines the application protocol of the packets by performing deep packet inspection (DPI) on the packets. Packet sizes are measured and converted into packet size states. Packet size states, packet sequence numbers, and packet flow directions are used to create an application protocol estimation table (APET). The APET is used during normal operation to estimate the application protocol of a flow pair without performing time consuming DPI. The appliance then determines inter-packet intervals between received packets. The inter-packet intervals are converted into inter-packet interval states. The inter-packet interval states and packet sequence numbers are used to create an inter-packet interval prediction table. The appliance then stores an inter-packet interval prediction table for each application protocol. The inter-packet interval prediction table is used during operation to predict the inter-packet interval between packets. | 05-15-2014 |
20140136683 | INTER-PACKET INTERVAL PREDICTION OPERATING ALGORITHM - An appliance receives packets that are part of a flow pair, each packet sharing an application protocol. The appliance determines an estimated application protocol of the packets without performing deep packet inspection on any packets. The estimated application protocol may be determined by using an application protocol estimation table. The appliance then predicts the inter-packet interval between a packet previously received by the appliance and a next packet not yet received by the appliance. The inter-packet interval may be determined by using an inter-packet interval prediction table. The appliance then preloads packet flow data in a cache before the next packet is predicted to arrive at the appliance. Upon receiving the next packet, the packet flow data is preloaded in the cache. This reduces packet processing time by removing waiting periods previously required to cache packet flow data from an external memory after receiving the next packet. | 05-15-2014 |