Patent application number | Description | Published |
20110213296 | Blower Instrument, Apparatus and Methods of Using - A surgical blower for providing a directed stream to clear a surgical site, that can be used in multiple different use modes. In one use mode, the surgical blower is handheld by a user during operation. In another mode, a distal end portion of the blower is fixed to a foot of a stabilizer instrument and the handle of the blower is handheld. In another mode, a distal end portion of the blower is fixed to a foot of a stabilizer instrument and the handle of the blower is fixed to a stationary object such as a sternal retractor. In another mode, the distal end of the blower is free and the handle of the blower is fixed to a stationary object. An apparatus including a blower and a stabilizer is provided. Methods of using the blower as well as the apparatus are also provided. | 09-01-2011 |
20130190678 | PERSONALIZABLE SYSTEM AND METHOD FOR ANESTHETIZING THE TYMPANIC MEMBRANE - Systems and methods are provided for anesthetizing a tympanic membrane of an ear. The systems are personalizable to ensure proper anesthetizing solution administration. The systems and methods may also be useful for administering a solution to the ear canal of a human patient and for maintaining the solution therein. | 07-25-2013 |
20140102461 | Adhesive Earplugs Useful for Sealing the Ear Canal - Systems and methods are provided for sealing an ear canal for retaining a solution in the ear canal. Adhesive earplugs are provided through which the solution can be delivered, and which, following delivery, retain the fluid in the ear canal. The systems and methods may also be useful for delivering an anesthetizing solution to the ear canal of a human patient and for maintaining the solution therein for use with an iontophoresis system for anesthetizing the tympanic membrane. | 04-17-2014 |
Patent application number | Description | Published |
20080275437 | CONNECTOR DEVICE FOR ELECTROPHYSIOLOGY PROBE - A flexible connector for securing an ablation probe in a looped configuration around the pulmonary veins of a heart includes a flexible base member having first and second apertures dimensioned to receive the ablation probe and wherein the flexible base member is slidable along a length of the ablation probe when the ablation probe is positioned within the first and second apertures. The flexible base member further includes a third aperture dimensioned to receive a looped portion of the ablation probe. The flexible connector is advanced along the length of the ablation probe to form a crossover point with the returning portion of the ablation probe. A tether is secured to the flexible base member and is used to withdraw or remove the flexible connector. | 11-06-2008 |
20080275479 | ANASTOMOTIC SEAL LOADING TOOL - Described herein are methods and devices for loading an anastomotic seal into a delivery lumen. A loading device can fold the seal into a configuration for insertion into the delivery lumen. For example, the loading device can fold the seal into a prolate spheroidal shape. The delivery lumen can then be inserted into the loading device and mated with the folded seal. | 11-06-2008 |
20080275501 | MEDICAL DEVICE LOADING AND DELIVERY SYSTEMS AND METHODS - Described herein are systems and methods for inserting a hemostatic seal into a delivery device. One such system can include a loading tool and a delivery device configured to detachably mate with one another. The loading tool can house a hemostatic seal in its unfolded configuration and can fold the seal for delivery into the delivery device. The delivery device can then be advanced into the loading tool to insert the seal into the delivery device. | 11-06-2008 |
20090043243 | METHODS AND DEVICES FOR LOADING TEMPORARY HEMOSTATIC SEALS - Disclosed herein are methods, devices, and systems for folding a sealing element. A loader can receive a substantially unfolded sealing element, which when moved through the loader is configured for receipt in an insertion instrument. For example, the sealing element can be folded into a substantially prolate spheroidal shape. The folded sealing element can then be inserted into the insertion instrument. In one aspect, the loader is adapted to allow insertion of the folded sealing element into the insertion instrument when the folded sealing element is within a channel of the loader. | 02-12-2009 |
20090093809 | DEVICES AND METHODS FOR MINIMALLY-INVASIVE SURGICAL PROCEDURES - Devices, instruments and tools for minimally invasive surgical procedures. Port devices and methods for hemostatically sealing and providing a port through a tissue wall that interfaces with a fluid containing chamber, by minimally invasive techniques. Assemblies, instruments and methods for minimally invasive access to and through a tissue wall that interfaces with a fluid containing chamber, and for visualizing same. Instruments, assemblies and methods for minimally invasive surgical procedures, including ablation. | 04-09-2009 |
20130178849 | DEVICES AND METHODS FOR MINIMALLY-INVASIVE SURGICAL PROCEDURES - Devices, instruments and tools for minimally invasive surgical procedures. Port devices and methods for hemostatically sealing and providing a port through a tissue wall that interfaces with a fluid containing chamber, by minimally invasive techniques. Assemblies, instruments and methods for minimally invasive access to and through a tissue wall that interfaces with a fluid containing chamber, and for visualizing same. Instruments, assemblies and methods for minimally invasive surgical procedures, including ablation. | 07-11-2013 |
20150142041 | APPARATUS AND METHODS FOR PERFORMING MINIMALLY-INVASIVE SURGICAL PROCEDURES - Devices, tools and methods for performing minimally invasive surgical procedures. Methods of performing minimally invasive ablation procedures. Methods of performing rapid exchange of tools in a device while the device remains in a reduced-access surgical space. | 05-21-2015 |
Patent application number | Description | Published |
20130114612 | Distributed Network Flow Exporter - A network appliance that is part of a distributed virtual switch collects network flow information for network flows passing through the network appliance. The network flow information is encapsulated into packets as a data record for transport. Network flow exporter type information is added to the network flow records configured to indicate that the packets are from a distributed exporter. An option template is sent to the network flow data collectors that includes a device identifier that is configured to uniquely identify the network appliance. The packets are exported to the network flow data collector. The network flow data collector uses the network flow exporter type information and the device identifier to associate the network flow information with the distributed virtual switch. | 05-09-2013 |
20130262703 | SYSTEM AND METHOD FOR REDUCING NETFLOW TRAFFIC IN A NETWORK ENVIRONMENT - A an example method includes building a dictionary between an exporter and a collector by encoding a first data record of a flow according to a dictionary template and exporting the first data record to the collector via a network communication. The method can also include compressing a second data record of the flow using the dictionary, where the compressing comprises encoding the second data record according to an encoding template; and exporting the second data record to the collector to be decompressed using the dictionary. | 10-03-2013 |
20140036675 | SYSTEM AND METHOD FOR VIRTUAL ETHERNET INTERFACE BINDING - A method and network device (e.g., a switch) is described for assigning virtual Ethernet bindings. The method may comprise accessing the network device to obtain information related to hardware (e.g., switching hardware) of the network device. Thereafter, an uplink binding from a plurality of physical uplinks is selected based on the information. A virtual network interface of a virtual machine is then mapped to the selected uplink binding. | 02-06-2014 |
20140075108 | EFFICIENT TCAM RESOURCE SHARING - Various systems and methods for implementing efficient TCAM resource sharing are described herein. Entries are allocated across a plurality of ternary content addressable memories (TCAMs), with the plurality of TCAMs including a primary TCAM and a secondary TCAM, where the entries are allocated by sequentially accessing a plurality of groups of value-mask-result (VMR) entries, with each group having at least one VMR entry associated with the group, and iteratively analyzing the VMR entries associated with each group to determine a result set of VMR entries, with the result set being a subset of VMR entries from the plurality of groups of VMR entries, and the result set to be stored in the primary TCAM. | 03-13-2014 |
20140098822 | Port Mirroring at a Network Interface Device - A notification from a source host is received at a network interface device that indicates that a data packet is ready for transmission to a destination host. The data packet may be transmitted to the destination host via the network interface device, and a first completion queue event is generated. The first completion queue event may be used as a trigger to re-transmit the data packet to a port mirroring destination via the network interface device. In another example, a network interface device receives a data packet transmitted from a source host to a destination host. A first completion queue event is generated based on the receipt of the packet, and is used as a trigger to re-transmit the data packet to a port mirroring destination via the network interface device. | 04-10-2014 |
20140219086 | SYSTEM AND METHOD FOR DISTRIBUTED NETFLOW EXPORTER WITH A SINGLE IP ENDPOINT IN A NETWORK ENVIRONMENT - An example method for a distributed NetFlow exporter with a single IP endpoint in a network environment is provided and includes configuring a network protocol stack of an exporter with switched virtual interface (SVI) state information of an SVI associated with a switch in a network, retrieving flow data from a NetFlow cache, and communicating the flow data to a collector according to the configured network protocol stack. Although the communication bypasses the SVI, the collector perceives the flow records as being communicated by the SVI. The SVI state information includes a public Internet Protocol (IP) address and a Media Access Control (MAC) address of the SVI, where the exporter executes on an adaptor of a server in the network. The method also includes configuring a destination IP address and a destination MAC address on the exporter according to a NetFlow policy. | 08-07-2014 |
20140297785 | Offload Operations for Overlay Networks - Techniques are presented herein for receipt/transmission of packets to/from a host via a connected input/output (IO) device. In general, a packet is associated with a payload, an inner packet header, and an outer overlay header. The IO device is configured to perform independent offload operations on the inner packet header and the outer overlay header. | 10-02-2014 |
20140307544 | METHODS AND DEVICES FOR PROVIDING A SELF-STRETCHING POLICER - An example method for providing a self-stretching policer in a Quality of Service (QoS) community including a root node and one or more agent nodes can include maintaining and enforcing a policer policy in the root node. The policer policy can include at least one packet classification rule and corresponding police action, and the policer policy can be enforced by taking the corresponding police action if a traffic flow violates the packet classification rule. The method can include collecting policer statistics and determining if the traffic flow violates the packet classification rule by greater than a predetermined threshold using the policer statistics. If the traffic flow violates the packet classification rule by greater than the predetermined threshold, the method can include transmitting the policer policy to one or more of the agent nodes. | 10-16-2014 |
20140310704 | Network Interface Card Device Pass-Through with Multiple Nested Hypervisors - In a data center computing system, multiple nested hypervisors are run, including an outer hypervisor and at least one inner hypervisor running as a virtual machine on top of the outer hypervisor. A guest operating system is run as a virtual machine in the innermost hypervisor. An emulated network interface card device is executed in all hypervisors. An extender component is executed in the outer hypervisor and an extender component is executed in the inner hypervisors such that the extender components in the outer hypervisor and in the inner hypervisors are architecturally cascaded. An interface for the guest operating system is assigned to the emulated network interface card device in each of the outer hypervisor and the inner hypervisors to enable network communications to bypass the outer hypervisor and the inner hypervisors. | 10-16-2014 |