Ravenscroft, US
Adrian Ravenscroft, Cohasset, MA US
Patent application number | Description | Published |
---|---|---|
20130046224 | METHOD AND APPARATUS FOR THE DIALYSIS OF BLOOD - Apparatus for use in dialyzing a patient comprising a hemodialysis catheter comprising an elongated body having a proximal and a distal end, wherein the distal end terminates in a substantially planar distal end surface; first and second lumens extending from the proximal end to the distal end, wherein the lumens terminate on the distal end surface in first and second mouths, arranged in side-by-side configuration, and further wherein the lumens are separated by a septum; and first and second longitudinal slots formed in the distal end of the elongated body and communicating with the interiors of the lumens, the slots opening on the distal end surface; wherein the slots each have a length and a width, relative to the dimensions of the lumens and the rate of blood flow to be passed through the hemodialysis catheter, so as to minimize undesirable recirculation of dialyzed blood. | 02-21-2013 |
Adrian Ravenscroft, Carver, MA US
Patent application number | Description | Published |
---|---|---|
20100076545 | MEDICAL DEVICE ANCHOR AND DELIVERY SYSTEM - A method and apparatus for anchoring a medical implant device after the device has been brought to rest at a desired position within a blood vessel or other body passageway. An anchor delivery system is provided which houses one or more uniquely configured expandable anchors which are connected to the medical implant device. The anchors remain housed in a non expanded configuration until after the medical implant device has come to rest in a desired position within the body, and then the anchors are positively propelled through a body wall from a first side to a second side where each anchor expands outwardly from an anchor shaft. In one configuration, the anchors are each formed in the shape of a compressible closed loop which extends outwardly from an anchor shaft and loops back to cross over and extend beyond the anchor shaft. To positively propel the anchors, a drive shaft for the anchor shafts extends back to a triggering unit which, when activated, causes the drive shaft to drive the anchor shafts in a direction which results in propulsion of the anchors through the body wall. | 03-25-2010 |
20100222772 | METHOD FOR ANCHORING A MEDICAL DEVICE - A method and apparatus for anchoring a medical implant device after the device has been brought to rest at a desired position within a blood vessel or other body passageway. An anchor delivery system is provided which houses one or more uniquely configured expandable anchors which are connected to the medical implant device. The anchors remain housed in a non expanded configuration until after the medical implant device has come to rest in a desired position within the body, and then the anchors are positively propelled through a body wall from a first side to a second side where each anchor expands outwardly from an anchor shaft. In one configuration, the anchors are each formed in the shape of a compressible closed loop which extends outwardly from an anchor shaft and loops back to cross over and extend beyond the anchor shaft. To positively propel the anchors, a drive shaft for the anchor shafts extends back to a triggering unit which, when activated, causes the drive shaft to drive the anchor shafts in a direction which results in propulsion of the anchors through the body wall. | 09-02-2010 |
Adrian C. Ravenscroft, Cohasset, MA US
Patent application number | Description | Published |
---|---|---|
20130218195 | MEDICAL DEVICE ANCHOR AND DELIVERY SYSTEM - A method and an apparatus for anchoring a medical implant device within a blood vessel or other body passageway are described herein. An anchor delivery system houses one or more expandable anchors connected to the medical implant device. The anchors remain housed in a non-expanded configuration until the medical implant device has been placed in a desired position within the body, and then the anchors are propelled through a body wall where each anchor expands outwardly from an anchor shaft. In one configuration, each anchor is formed as a compressible closed loop which extends outwardly from an anchor shaft and loops back to cross over and extend beyond the anchor shaft. To propel the anchors, a drive shaft is connected to a triggering unit which, when activated, causes the drive shaft to drive the anchor shafts in a direction such that the anchors are propelled through the body wall. | 08-22-2013 |
20130289527 | CATHETER DEVICE - A catheter assembly comprising an elongated tubular structure having a distal end and a proximal end; a septum disposed within the interior of the tubular structure so as to define a first lumen and a second lumen, and a valve element disposed at the distal end of the tubular structure and configured to move longitudinally relative to the tubular structure between (i) a closed position in which the distal end of the tubular structure is closed off by the valve element, and (ii) an open position in which the distal end of the tubular structure is not closed off by the valve element; wherein the tubular structure, septum and valve element are configured so as to provide fluid communication between the first and second lumen when the valve element is disposed in its closed position. | 10-31-2013 |
Adrian C. Ravenscroft, Milton, MA US
Patent application number | Description | Published |
---|---|---|
20090177264 | Stent Delivery System - A stent delivery system includes a catheter with an axially extending inner core and outer sheath. Axially spaced rings extending from a relatively narrow diameter portion of the inner core proximate the distal end thereof. The rings engage proximal portions of a compacted stent disposed within the sheath and over the core and rings. A proximal handle of the system has a first portion that supports the sheath and a second portion that supports the core for relative displacement of the core and the sheath. Retraction of the sheath relative to the core uncovers the stent engaged by the rings which tends to remain stationary relative to the core so that upon partial retraction of the sheath a distal end of the stent expands to its expanded form. Further retraction of the sheath deploys the stent, retracting the core returns the distal portion of the stent into the sheath. | 07-09-2009 |
20120184985 | Removeable Embolus Blood Clot Filter and Filter Delivery Unit - A blood clot filter is collapsible toward a longitudinal axis into a collapsed configuration for insertion into a blood vessel, and is radially expandable outwardly from the longitudinal axis to an expanded configuration for contact with the inner wall of the blood vessel at two longitudinal spaced locations. A first plurality of spaced, elongate arms, in the expanded configuration, curve outwardly away from the longitudinal axis toward the leading end of the filter to form a first filter basket and to center a hub at the trailing end of the filter within the vessel. A second plurality of spaced elongate legs angle outwardly away from the longitudinal axis toward the leading edge of the filter in the expanded configuration to form a second filter basket opening toward the leading end. The ends of these legs include hooks to bend and straighten in response to withdrawal force. | 07-19-2012 |
20140081316 | Removable Embolus Blood Clot Filter and Filter Delivery Unit - A blood filter includes a hub, a plurality of legs, and a plurality of arms. Each of the legs includes a hook at a distal end thereof, a first linear segment extending substantially parallel to a hub longitudinal axis, a second linear segment extending obliquely with respect to the longitudinal axis at a first angle, and an intermediate linear segment coupled to the first and second segments, the intermediate segment extending obliquely with respect to the longitudinal axis at a second angle less than the first angle. Each of the arms has a free end closer to the longitudinal axis than the hook of each of the legs. The free ends of the arms are spaced radially transverse to the longitudinal axis at substantially the same radial distance. | 03-20-2014 |
Adrian C. Ravenscroft, Duxbury, MA US
Patent application number | Description | Published |
---|---|---|
20080287888 | CATHETER DEVICE - A catheter includes an elongate body having first and second chambers extending within the elongate body from a proximal end to an intermediate section, the first chamber having a first opening and the second chamber having a second opening at the intermediate section. The catheter also includes a valve structure that may have first and second barrier elements to open or close the first and second openings, respectively. The first and the second barrier elements may be coupled by a connecting structure moving within an opening in a guide structure. Alternatively, the first and the second barrier elements may be coupled in a U-shaped structure that moves over the guide structure. To permit flushing of the chambers when the first and second openings are closed, the first and second chambers may also be connected by a connecting channel defined by an opening in a wall of the elongate body. | 11-20-2008 |
Christopher Francis Ravenscroft, Woodland Hills, CA US
Patent application number | Description | Published |
---|---|---|
20130077621 | SYSTEM AND METHOD FOR A VIRTUAL CHASSIS SYSTEM - A virtual chassis system includes a plurality of network nodes configured with a master virtual chassis address. The network nodes are connected by virtual fabric link (VFLs) that provide a connection for exchange of packets between the network nodes. The packets include source MAC addresses and associated hardware device information, such as source chassis ID, source network interface identifier and source port identifier information. The network nodes use this information to maintain synchronized MAC address tables for forwarding of packets in the virtual chassis system. | 03-28-2013 |
Colin Michael Ravenscroft, Saline, MI US
Patent application number | Description | Published |
---|---|---|
20130193709 | Tailgate Damping Systems - A tailgate damping system for controlling movement of a tailgate assembly of a vehicle includes a speed sensor that provides rotational speed information of the tailgate assembly. A controller receives the rotational speed information from the speed sensor. A damping control assembly receives a tailgate shaft of the tailgate assembly. The damping control assembly includes a housing comprising a rotor chamber including a rotor member located therein. The rotor member is connected to a rotor shaft that is coupled to the tailgate shaft. A valve chamber includes a control valve located therein. The controller closes the control valve to inhibit exit of a damping fluid from the rotor chamber based on the speed information received from the speed sensor. | 08-01-2013 |
Donald Ravenscroft, Colorado Springs, CO US
Patent application number | Description | Published |
---|---|---|
20090161858 | CONTACT SERVER FOR CALL CENTER - The present invention is a Contact server that enables customers to submit call-back requests to a call center via the Internet, or virtually any other communications technology available. A call-back to the customer can be placed via any communications technology available. In its preferred embodiment, the Contact Server enables a call-back request to be submitted by a customer directly from an HTML page on a Web site, and have that same HTML page be presented to the agent that receives the call-back request. The agent can then place a telephone call to the number provided by the customer who submitted the call-back request, and at the same time, establish a TCP/IP communications session with the customer. This TCP/IP session can proceed between the agent's Web browser and the customer's Web browser, and the visible actions performed by the agent are transferred to the customer and displayed on the customer's browser. The TCP/IP session proceeds simultaneous with the telephone call between the agent and the customer. | 06-25-2009 |
Donald L. Ravenscroft, Broomfield, CO US
Patent application number | Description | Published |
---|---|---|
20090285491 | SPATIAL SOURCE COLLECTION AND SERVICES SYSTEM - A method is provided for obtaining data about spatial objects. The data is received from a set of adaptable and programmable sensor units associated with a set of spatial objects in real time to form received data, wherein the data is generated in response to a change in a measurement or time of a sensor unit in the set of sensor units. A collection of data for spatial objects is updated with the received data. | 11-19-2009 |
20100092045 | System and method for airport mapping database automatic change detection - A method for automatically updating a graphical information system (GIS) type database using aerial imagery. The method may involve processing a new image to identify at least one target region therewithin; analyzing the target region to determine image invariant moments thereof; using feature vector data to generate a template of a target feature from an old image; analyzing the template to generate image invariant moments thereof; and comparing the image invariant moments of the target region with the image invariant moments of the template to identify a feature change between the target region and the template. | 04-15-2010 |
20100191450 | SYSTEM AND METHOD FOR DETECTING AND PREVENTING RUNWAY INCURSION, EXCURSION AND CONFUSION - A method for predicting the occurrence of an undesired operating event for a mobile platform operating within a designated area. The method may involve obtaining a plurality of parameters including a position of the mobile platform within the designated area for determining a kinematic motion of the mobile platform while the mobile platform is operating within the designated area. Information may also be obtained that relates to surface geometry of the designated area. The information related to surface geometry may be used to determine physical constraints within the designated area that limit operation of the mobile platform within the designated area. The plurality of parameters may be used to determine a kinematic motion of the mobile platform within the designated area. The kinematic motion of the mobile platform and the physical constraints may be used to predict if motion of the mobile platform will cause it to incur an undesired operating event. | 07-29-2010 |
20120158280 | COMPUTING ROUTE PLANS FOR ROUTING AROUND OBSTACLES HAVING SPATIAL AND TEMPORAL DIMENSIONS - This description provides tools and techniques for computing a route or flight plans for unmanned aerial vehicles (UAVs) or any vehicle while routing around obstacles having spatial and temporal dimensions. Methods provided by these tools may receive data representing destinations to be visited by the UAVs, and may receive data representing obstacles having spatial and temporal dimensions. These methods may also calculate trajectories spatial and temporal dimensions, by which the UAV may travel from one destination to another, and may at least attempt to compute flight plans for the UAVs that incorporate these trajectories. The methods may also determine whether these trajectories intersect any obstacles, and at least attempt to reroute the trajectories around the obstacles. These tools may also provide systems and computer-readable media containing software for performing any of the foregoing methods. | 06-21-2012 |
Donald Lewis Ravenscroft, Broomfield, CO US
Patent application number | Description | Published |
---|---|---|
20090210109 | Computing Flight Plans for UAVs While Routing Around Obstacles Having Spatial and Temporal Dimensions - This description provides tools and techniques for computing flight plans for unmanned aerial vehicles (UAVs) while routing around obstacles having spatial and temporal dimensions. Methods provided by these tools may receive data representing destinations to be visited by the UAVs, and may receive data representing obstacles having spatial and temporal dimensions. These methods may also calculate trajectories spatial and temporal dimensions, by which the UAV may travel from one destination to another, and may at least attempt to compute flight plans for the UAVs that incorporate these trajectories. The methods may also determine whether these trajectories intersect any obstacles, and at least attempt to reroute the trajectories around the obstacles. These tools may also provide systems and computer-readable media containing software for performing any of the foregoing methods. | 08-20-2009 |