Patents Assigned to Thoratec Corporation
-
Patent number: 8827661Abstract: A blood pump apparatus includes a housing having a blood inlet port and blood outlet port, a pump unit including an impeller that rotates within the housing, and an impeller rotational torque generation section. The housing includes a plurality of magnetic members embedded between the impeller and the impeller rotational torque generation section for transmitting a magnetically attractive force generated by the impeller rotational torque generation section to an impeller body. The pump device includes a non-contact bearing mechanism for rotating the impeller without contacting with the inner surface of the housing when the impeller is rotated by the impeller rotational torque generation section.Type: GrantFiled: December 22, 2010Date of Patent: September 9, 2014Assignee: Thoratec CorporationInventor: Takehisa Mori
-
Patent number: 8827887Abstract: A needle guard is used when suturing the cuff of an attachment ring to the heart. The needle guard is disposed in the attachment ring to prevent other parts of the attachment ring from being punctured by a suturing needle. The needle guard can include one or more grooves to inhibit relative movement between the needle guard and the attachment ring during suturing. The needle guard is removed upon completion of suturing and to allow insertion into attachment ring of an inflow conduit of a heart assist device. An articulated clamp is used to compress the attachment ring into engagement with the inflow conduit. The attachment include an annular rib that grabs the inflow conduit.Type: GrantFiled: May 17, 2012Date of Patent: September 9, 2014Assignee: Thoratec CorporationInventors: Donald Curtis, Alicia Baumberger, John Mark Di Paola, Carine Hoarau, Nathan Harold, Fabian Franco
-
Patent number: 8821365Abstract: A centrifugal blood pump apparatus includes an impeller provided in a blood chamber, a plurality of permanent magnets provided in the impeller, and a plurality of sets of magnetic materials and coils provided in a motor chamber for driving the impeller to rotate with a diaphragm interposed therebetween. The plurality of permanent magnets are aligned with a gap therebetween in a rotation direction of the impeller. Accordingly, if the weight of the permanent magnets is maintained at a constant value, a magnetic field can be strengthened even with a wide motor gap due to the diaphragm, as compared to an example where there is no gap between the permanent magnets.Type: GrantFiled: July 6, 2010Date of Patent: September 2, 2014Assignee: Thoratec CorporationInventors: Takayoshi Ozaki, Hiroyuki Yamada, Kenichi Suzuki, Ken Sugiura
-
Publication number: 20140243970Abstract: Upon failure of a primary control unit for controlling an implanted pump in a ventricle assist system enhancing blood flow in a patient, an initial backup control unit is substituted for the failed unit. An interface device is connected to one of the initial backup control unit or the primary control unit. Patient-unique data is downloaded to the interface device to create a transfer data set. The initial backup control unit is connected to the implanted pump as a new primary control unit. The interface device is connected to a replacement backup control unit. The transfer data set is uploaded from the interface device to the replacement backup control unit. The transfer data set on the interface device is modified after uploading to prevent a subsequent uploading from the interface device to another control unit.Type: ApplicationFiled: February 25, 2013Publication date: August 28, 2014Applicant: THORATEC CORPORATIONInventor: Masamichi Yanai
-
Publication number: 20140241904Abstract: A centrifugal pump system having an impeller rotating with first and second magnetic structures on opposite surfaces. A levitation magnetic structure is disposed at a first end of a pump housing having a levitating magnetic field for axially attracting the first magnetic structure. A multiphase magnetic stator at a second end of the pump housing generates a rotating magnetic field for axially and rotationally attracting the second magnetic structure. A commutator circuit provides a plurality of phase voltages to the stator. A sensing circuit determines respective phase currents. A controller calculates successive commanded values for the phase voltages during a running state in response to a desired impeller speed and an actual impeller phase. The controller has a startup interval during which the commanded values of the phase voltages are determined in response to a pseudo impeller phase and in response to a ramping gain factor.Type: ApplicationFiled: February 27, 2013Publication date: August 28, 2014Applicant: THORATEC CORPORATIONInventors: Masamichi Yanai, Jeffrey H. Campau, Russel J. Corvese, Jason C. Nanna
-
Publication number: 20140235930Abstract: A blood pump assembly includes a blood pump configured for implantation and a cable assembly for providing power and control signals to the blood pump. The cable assembly includes a strain relief assembly and a driveline. The strain relief assembly secures the cable assembly to the blood pump and has an outer surface that is curved along a longitudinal extent of the strain relief assembly at least along an outer peripheral side of the outer surface. The strain relief assembly defines a compartment and an internal passage that leads to the compartment. The driveline houses a plurality of conductors that extend from the driveline through the internal passage and into the compartment.Type: ApplicationFiled: February 4, 2014Publication date: August 21, 2014Applicant: Thoratec CorporationInventors: Justin Aron Callaway, Matthew Wagers, James H. Baker
-
Publication number: 20140235931Abstract: In order to produce a pulsatile blood flow pattern that includes time periods of relatively high blood flow rates and time periods of relatively low blood flow rates, the operating speed of a blood pump can be selectively controlled to produce an operating speed pattern that includes time periods of relatively high rotation speeds and periods of relatively low rotation speeds. For example, the blood pump is rotated at a first speed for a first period of time. The speed of the blood pump is then decreased from the first speed to a second speed and is operated at the second speed for a second amount of time. The speed of the blood pump is then decreased to a third speed for a third amount of time. If desired, the operating speed pattern can be repeated to continue the pulsatile blood flow pattern.Type: ApplicationFiled: April 25, 2014Publication date: August 21, 2014Applicant: Thoratec CorporationInventor: Kevin Bourque
-
Patent number: 8807968Abstract: Various “contactless” bearing mechanisms including hydrodynamic and magnetic bearings are provided for a rotary pump as alternatives to mechanical contact bearings. In one embodiment, a pump apparatus includes a pump housing defining a pumping chamber. The housing has a spindle extending into the pumping chamber. A spindle magnet assembly includes first and second magnets disposed within the spindle. The first and second magnets are arranged proximate each other with their respective magnetic vectors opposing each other. The lack of mechanical contact bearings enables longer life pump operation and less damage to working fluids such as blood.Type: GrantFiled: October 7, 2013Date of Patent: August 19, 2014Assignee: Thoratec CorporationInventors: Richard K. Wampler, David M. Lancisi
-
Patent number: 8807412Abstract: A carrier system for carrying medical device accessories includes a first battery pouch to enclose at least a portion of a first battery and a garment to be worn about a torso. The garment including a plurality of accessory connection features adapted to allow for adjustable attachment of at least the first battery pouch and for adjustable attachment of a medical device controller that is electrically connected to a medical device.Type: GrantFiled: November 17, 2009Date of Patent: August 19, 2014Assignee: Thoratec CorporationInventors: Ralph Thomas, Thomas Orduna, Maximillian Gubbins, Edward Geiselhart, David C. Brown
-
Patent number: 8794989Abstract: A modular driveline includes a modular portion including a cable and a connector, the cable having terminations, and a percutaneous portion including a cable and a connector, the cable having terminations. The percutaneous portion connector couples to the modular portion connector, and cable terminations at the connectors are captured in the connectors by potting. The cable can include an inner member, conductors disposed about the inner member, a covering about the conductors, a layer extruded onto the covering, an armor braid over the extruded layer, and an outer jacket extruded over the armor braid.Type: GrantFiled: December 8, 2011Date of Patent: August 5, 2014Assignee: Thoratec CorporationInventors: Keith Hamilton Kearsley, Christopher James Cotter, Justin Aron Callaway, Maria Dominika Kulinski, John C. Layton, Ramesh Babu Jayaraman
-
Publication number: 20140205467Abstract: A centrifugal pump system having an impeller rotating with first and second magnetic structures on opposite surfaces. A levitation magnetic structure is disposed at a first end of a pump housing having a levitating magnetic field for axially attracting the first magnetic structure. A multiphase magnetic stator at a second end of the pump housing generates a rotating magnetic field for axially and rotationally attracting the second magnetic structure. A commutator circuit provides a plurality of phase voltages to the stator. A sensing circuit determines respective phase currents. A controller calculates successive commanded values for the phase voltages in response to the determined phase currents and a variable commutation angle. The angle is selected to correspond to an axial attractive force of the stator that maintains a levitation of the impeller at a centered position within the pumping chamber.Type: ApplicationFiled: January 24, 2013Publication date: July 24, 2014Applicant: THORATEC CORPORATIONInventors: Masamichi Yanai, Jeffrey H. Campau, Jason C. Nanna
-
Publication number: 20140200390Abstract: A centrifugal pump system for a cardiac assist device employs a disc-shaped impeller having an outer circumference adapted to be rotatably driven in a pumping direction. A pump housing has a pumping chamber receiving the impeller, wherein the pumping chamber defines an outlet volute having a separation edge spaced from the outer circumference to provide a limited backflow path coinciding with the pumping direction. A motor drives the impeller in response to a voltage provided to the motor. A current sensor measures current flow within the motor in response to the voltage. A controller estimates a pump flow rate in response to a predetermined relation between the measured current and the pump flow rate, wherein the predetermined relation includes a positive slope from a predetermined backflow rate to a zero pump flow rate.Type: ApplicationFiled: January 16, 2013Publication date: July 17, 2014Applicant: THORATEC CORPORATIONInventors: Masamichi Yanai, Tao Zhang, Jeffrey G. Houdek
-
Publication number: 20140200389Abstract: A implantable pump system comprises an implantable pump motor and an external unit. An inverter comprises respective phases couple to the motor via a cable with redundant conductors for each phase. A controller receives power measurements for all the redundant conductors, which are combined and compared in order to detect failures in the non-redundant components within the motor and windings.Type: ApplicationFiled: January 16, 2013Publication date: July 17, 2014Applicant: Thoratec CorporationInventors: Masamichi Yanai, Tao Zhang
-
Patent number: 8770945Abstract: In this centrifugal blood pump apparatus, one permanent magnet is provided in one surface of an impeller, a second permanent magnet is provided in an inner wall of a blood chamber, a third permanent magnet is provided in the other surface of the impeller, and a fourth permanent magnet and a rotor for driving the impeller to rotate are provided, with an diaphragm being interposed. An amount of change in attractive force between the first permanent magnet and the second permanent magnet and an amount of change in attractive force between the third and fourth permanent magnets when the impeller is eccentric are made substantially equal to each other. Therefore, a levitation position of the impeller can always be maintained at a substantially central position in a housing.Type: GrantFiled: March 1, 2010Date of Patent: July 8, 2014Assignee: Thoratec CorporationInventors: Takayoshi Ozaki, Hiroyuki Yamada, Kenichi Suzuki, Ken Sugiura
-
Publication number: 20140155682Abstract: An apical ring for coupling a conduit of a ventricular assist device to a heart has an annular disk with a central aperture for receiving the conduit. A collar is axially aligned with the central aperture and has a cylindrical shape interrupted by a gap between first and second ends of the collar. The collar has a fixed section joined to the annular disk and has a cantilever section extending from the fixed section to the first end of the collar. A tightener selectively drives the first end toward the second end to close the gap in order to retain the conduit within the collar. The cantilever section includes a relief slot that is expandable for extending a circumferential length of the cantilever section in response to interacting with the conduit when the gap is closed.Type: ApplicationFiled: October 8, 2013Publication date: June 5, 2014Applicant: Thoratec CorporationInventors: Brian D. Jeffery, Sunil K. Dasara
-
Publication number: 20140142367Abstract: The present invention generally relates to is control system for a rotary Wood pump adapted to move blood in a patient. The control system comprises a means for measuring and varying the speed of the pump and a means for measuring the pulsatility index of a patient, and the control system is adapted to maintain the pulsatility index at or near a predetermined vitae by varying the speed of the pump. The pulsatility index is derived from the amplitude of the actual pump speed over a predetermined time period. Optionally, also, the control system can calculate the second derivative of instantaneous speed of the rotary blood pomp and use the calculation of the second derivative of instantaneous speed to detect a suction event, and help prevent it.Type: ApplicationFiled: January 23, 2014Publication date: May 22, 2014Applicant: Thoratec CorporationInventors: Peter Joseph AYRE, Lee Thomas GLANZMANN, Nicholas Oliver VON HUBEN
-
Patent number: 8721517Abstract: An impeller for a pump is disclosed herein. The impeller can include a hub having a fixed end and a free end. The impeller can also have a plurality of blades supported by the hub. Each blade can have a fixed end coupled to the hub and a free end. The impeller can have a stored configuration and a deployed configuration, the blades in the deployed configuration extending away from the hub, and the blades in the stored configuration being compressed against the hub.Type: GrantFiled: March 13, 2013Date of Patent: May 13, 2014Assignee: Thoratec CorporationInventors: Zijing Zeng, Phyllis Yuen, Michael R. Butler
-
Patent number: 8721719Abstract: A blood pump controller includes a microcontroller and a communication interface. The microcontroller is configured to communicate with various types of blood pump communication modules. The microcontroller is further configured to determine, based on communication with a particular type of blood pump communication module, the particular type of blood pump communication module communicated with. The microcontroller is further configured to select, based on the determination of the particular type of blood pump communication module, control logic used to control the particular type of blood pump communication module. The microcontroller is further configured to generate, based on the selected control logic, commands for controlling the blood pump communication module. The communication interface is configured to connect the microcontroller to the particular type of blood pump communication module.Type: GrantFiled: July 22, 2011Date of Patent: May 13, 2014Assignee: Thoratec CorporationInventor: David J. Burke
-
Patent number: 8715151Abstract: Materials and methods related to blood pump systems are described. These can be used in patients to, for example, monitor arterial pressure, measure blood flow, maintain left ventricular pressure within a particular range, avoid left ventricular collapse, prevent fusion of the aortic valve in a subject having a blood pump, and provide a means to wean a patient from a blood pump.Type: GrantFiled: April 19, 2013Date of Patent: May 6, 2014Assignee: Thoratec CorporationInventor: Victor Poirier
-
Patent number: 8684902Abstract: Various “contactless” bearing mechanisms including hydrodynamic and magnetic bearings are provided for a rotary pump as alternatives to mechanical contact bearings. In one embodiment, a pump apparatus includes a pump housing defining a pumping chamber. The housing has a spindle extending into the pumping chamber. A spindle magnet assembly includes first and second magnets disposed within the spindle. The first and second magnets are arranged proximate each other with their respective magnetic vectors opposing each other. The lack of mechanical contact bearings enables longer life pump operation and less damage to working fluids such as blood.Type: GrantFiled: December 4, 2007Date of Patent: April 1, 2014Assignee: Thoratec CorporationInventors: Richard K. Wampler, David M. Lancisi