| Patent application number | Description | Published |
|---|
| 20080200835 | Energy Biopsy Device for Tissue Penetration and Hemostasis - A biopsy system having a lateral tissue access port includes an energy based tissue penetration system that can advantageously penetrate hard tumors, improve hemostasis, and provide greater tissue access. The energy based tissue penetration system has a vibrational member removeably disposed within the biopsy system, and a distal tip of the vibrational member extending from the biopsy system for tissue penetration. A sleeve is located between the vibrational member and the lateral access port to prevent tissue contact with the vibrational member through the lateral access port. | 08-21-2008 |
| 20080214955 | Presentation of Biopsy Sample By Biopsy Device - A biopsy device includes a cutter defining a cutter lumen and a tissue sample holder for collecting tissue samples. In one example, the tissue sample holder includes a rotatable manifold, and has a plurality of chambers that are each configured to separately hold tissue samples. A tissue sample holder rotation mechanism is operable to rotate the manifold to successively align each of the chambers with the cutter lumen. A controller in communication with the rotation mechanism is configured to rotate the manifold to a presentation position to present a collected tissue sample within a chamber to a user (e.g., at an angular position approximately 90 degrees from the cutter lumen). The controller is further configured to rotate the manifold align the next, empty chamber with the cutter lumen in response to a user input instructing the biopsy device to obtain another tissue sample. | 09-04-2008 |
| 20080221444 | Integrated Imaging and Biopsy System with Integrated Surgical, Therapy, and Diagnostic Devices - A diagnostic station integrates patient support, imaging, biopsy, and treatment. An illustrative version of a prone mammography table localizes a breast with an imaging modality (e.g., X-ray, etc.) based upon a rotating C-arm that may encircle the localized breast. A biopsy system is integrated into the controls and displays or user interface of the diagnostic station, sharing integrated utilities (e.g., vacuum, power, data communication, etc.). Ancillary devices may be identified and authenticated by the integrated system, such as to base available functionality on the identification and/or authentication of an ancillary device. Ancillary devices that may be integrated with the system may include devices that are operable to perform surgical, therapeutic, diagnostic, or other functions. | 09-11-2008 |
| 20080221478 | Integrated Imaging and Biopsy System with Integrated Control Interface - A diagnostic station integrates patient support, imaging, biopsy, and treatment. An illustrative version of a prone mammography table localizes a breast with an imaging modality (e.g., X-ray, etc.) based upon a rotating C-arm that may encircle the localized breast. A biopsy system is integrated into the controls and displays or user interface of the diagnostic station, sharing integrated utilities (e.g., vacuum, power, data communication, etc.). Ancillary devices may be identified and authenticated by the integrated system, such as to base available functionality on the identification and/or authentication of an ancillary device. Ancillary devices that may be integrated with the system may include devices that are operable to perform surgical, therapeutic, diagnostic, or other functions. | 09-11-2008 |
| 20080221479 | Integrated Imaging and Biopsy System with Integrated Utilities - A diagnostic station integrates patient support, imaging, biopsy, and treatment. An illustrative version of a prone mammography table localizes a breast with an imaging modality (e.g., X-ray, etc.) based upon a rotating C-arm that may encircle the localized breast. A biopsy system is integrated into the controls and displays or user interface of the diagnostic station, sharing integrated utilities (e.g., vacuum, power, data communication, etc.). Ancillary devices may be identified and authenticated by the integrated system, such as to base available functionality on the identification and/or authentication of an ancillary device. Ancillary devices that may be integrated with the system may include devices that are operable to perform surgical, therapeutic, diagnostic, or other functions. | 09-11-2008 |
| 20080221480 | Biopsy Sample Storage - A biopsy device may be used to obtain and store multiple tissue samples. The device permits the tissue samples to be stored in a sequenced fashion within a generally transparent tissue storage chamber disposed at a proximal end of the biopsy device. The tissue samples can be stored on flexible tissue sample strips arranged around the circumference of a rotating vacuum manifold disposed within the chamber. | 09-11-2008 |
| 20080228103 | Vacuum Timing Algorithm For Biopsy Device - A biopsy system has a cutter defining a cutter lumen along an axis. One conduit in the system is configured to provide fluid communication along the cutter lumen axis; while another conduit in the system is configured to provide fluid communication lateral to the cutter lumen axis. The system may be operated in a variety of modes, including a sample cycle, a clear probe cycle, a cutter positioning cycle, an aspirate cycle, and a maintenance vacuum pulse cycle. The operational modes are selectable by a user. Depending on the mode selected by the user, the communication of vacuum, saline, or atmospheric air through the conduits, or the sealing of the conduits, will vary as a function of the axial position of the cutter. | 09-18-2008 |
| 20090105609 | BIOPSY DEVICE WITH VARIABLE SPEED CUTTER ADVANCE - A biopsy device having a translating and rotating cutter is disclosed. The translational speed of the cutter is varied using a variable pitch member. The variable pitch member can include a shaft having a relatively coarse threaded portion for rapid cutter advance and a relatively finer threaded portion for cutter advance during tissue severing. | 04-23-2009 |
| 20090131816 | Engagement Interface For Biopsy System Vacuum Module - A biopsy system includes a biopsy device, a vacuum canister, a vacuum control module, and a plurality of tubes. A first tube is configured to provide an axial vacuum to the biopsy device, while a second tube is configured to provide a lateral vacuum. A third tube is configured to communicate atmospheric air to the second tube. A fourth tube is configured to communicate saline to the second tube. The vacuum canister is configured to collect fluids drawn through the first tube and the second tube. The canister has a lid with trenches formed in it for retaining the first, second, third, and fourth tubes. The lid also has engagement regions for selectively pinching each of the tubes against to prevent fluid communication through selected tubes. The canister can be removably inserted into the vacuum control module, which includes components for selectively pinching the tubes against the engagement regions. | 05-21-2009 |
| 20090131817 | DEPLOYMENT DEVICE INTERFACE FOR BIOPSY DEVICE - A biopsy device includes a tissue sample holder and a cutter defining a cutter lumen. In one example, the tissue sample holder has a manifold, a plurality of chambers that are configured to separately hold tissue samples, and a cup configured to cover the manifold and chambers. The tissue sample holder is rotatable to successively align the chambers with the cutter lumen. A longitudinal passage extends along the manifold, and is positioned between two of the chambers. The manifold may be rotated to align the passage with the cutter lumen and with an opening in the cup. The passage of the manifold and the opening in the cup are configured to permit a portion of an instrument to be inserted through the opening and passage and into the cutter lumen. The instrument may be used to introduce one or more markers or medicine, etc., to a biopsy site. | 05-21-2009 |
| 20090131818 | Biopsy Device Tissue Sample Holder Rotation Control - A biopsy device includes a cutter defining a cutter lumen and a tissue sample holder for collecting tissue samples. In one example, the tissue sample holder includes a rotatable manifold, and has a plurality of chambers that are each configured to separately hold tissue samples. A tissue sample holder rotation mechanism is operable to rotate the manifold to successively index each of the chambers with the cutter lumen. A sensing system is configured to sense the rotational position of the manifold. A controller in communication with both the sensing system and the rotation mechanism is operable to control the rotation mechanism based at least in part on the position of the manifold as sensed by the sensing system. The sensing system may include a sensor in a fixed position and a rotating encoder wheel on a shaft that is used to rotate the manifold. | 05-21-2009 |
| 20090131822 | Biopsy Device With Sharps Reduction Feature - A biopsy device includes a cannula, a cutter disposed within the cannula, a needle hub having a gear for rotating the cannula, a mechanism for rotating and translating the cutter within the cannula, and a body portion. The cutter rotation and translation mechanism includes a first component that is secured to the cutter and a second component that is secured to the body portion. The body portion includes a tab that is configured to retain the axial position of the cannula and needle hub relative to the body until the tab is depressed or removed. The body is configured to permit the cannula and the needle hub to be pulled axially from the body only after the tab has been depressed or removed. The cutter can then be pulled axially from the body by unscrewing the first component of the cutter rotation and translation mechanism from the second component. | 05-21-2009 |
| 20090171242 | CLUTCH AND VALVING SYSTEM FOR TETHERLESS BIOPSY DEVICE - A biopsy device may include a needle, a cutter, and a handpiece. A vacuum pump may be provided in the handpiece for providing a vacuum to the needle and/or to the cutter. A motor may be provided in the handpiece to drive the vacuum pump and/or the cutter. A biopsy device may also include a valving mechanism within the handpiece for selectively communicating a vacuum and/or atmospheric air to the needle. A clutching mechanism may selectively provide communication between a motor and the cutter. Portions of a valving mechanism and a clutching mechanism may be integrally formed. A clutching and valving mechanism may be driven by a first motor; and a cutter and vacuum pump by a second motor. A biopsy device may include batteries for powering motors. A biopsy device may thus provide vacuum and power from within a handpiece, such that the biopsy device is tetherless. | 07-02-2009 |
| 20090171243 | Vacuum Sensor And Pressure Pump For Tetherless Biopsy Device - A biopsy device may include a needle, a cutter, and a handpiece. A vacuum pump in the handpiece may provide a vacuum to the needle and/or to the cutter. A pressure pump in the handpiece may also provide pressurized air to the needle and/or to the cutter. A motor in the handpiece may drive the vacuum pump, the pressure pump, and/or the cutter. A vacuum sensor may sense a vacuum level within the biopsy device, and cause initiation of operational cycles in response to sensed vacuum levels. Portions of a valving mechanism and a clutching mechanism may be integrally formed. A clutching and valving mechanism may be driven by a first battery-powered motor; and a cutter, pressure pump, and vacuum pump by a second battery-powered motor. A biopsy device may thus provide vacuum, pressurized air, and power from within a handpiece, such that the biopsy device is tetherless. | 07-02-2009 |
| 20090198149 | SURGICAL DEVICE FOR THE COLLECTION OF SOFT TISSUE - A handheld biopsy device is provided for the collection of soft tissue samples from a surgical patient. In a preferred embodiment, the biopsy device comprises a handpiece, a fluid collection system, and a power transmission source. The handpiece is configured for grasping by a single hand, and being independentyl manipulatable by hand for movement of the instrument toward and away from the patient. An elongated piercer extends from the distal end of the handpiece. The piercer has a sharpened distal end for entering the tissue and a port located proximal to the sharpened distal end for receiving a portion of tissue mass. An elongated cutter is disposed coaxially relative to a piercer lumen of the piercer. A distal blade of the cutter slides distally past the port of the piercer to severe the tissue portion drawn into the port by vacuum. The cutter is retracted to a most proximal position for removal of the tissue portion from a cutter lumen of the cutter. The handpiece further comprises a holster for detachably connecting a cutter rotational transmission and a cutter axial transmission to the power transmission source. | 08-06-2009 |
| 20090198150 | Biopsy Device - A method is provided for calibrating a surgical biopsy system. The biopsy system includes a biopsy instrument and control unit. The biopsy instrument includes a piercer, rotatable cutter, and a port for receiving tissue samples. The method comprises the steps of translating the cutter distally until the translation of the cutter is stopped at an extended position and recording the extended position. The cutter is then translated from the extended position proximally until the translation of the cutter is stopped at a retracted position proximal to the extended position. The retracted position is recorded. The method further comprises the step of rotating the cutter to a rotation speed while the cutter is located at the retracted position and, if determined that the rotation speed is within a predetermined rotation speed range, a feedback signal is provided on the display allowing the operator to progress to the next procedural step. | 08-06-2009 |
| 20090216152 | Needle Tip For Biopsy Device - A biopsy device includes a body portion, a tip, at least one blade, and a cutter. The cannula defines at least one lumen. The cannula has a transverse aperture configured to receive tissue. The tip is located at the distal end of the cannula, and may include at least two concave surfaces. The blade extends longitudinally from the tip. A second blade may also extend longitudinally from the tip. Blades may be axially staggered relative to the cannula. Blades may also have lengths that differ from one another. In addition, a blade may have a pointed distal end, or may have a curved distal edge. The configuration of the blade and tip may provide reduced force to penetrate tissue. The blade and tip may produce a cut length that is greater than or equal to the length of the outer perimeter of the cannula. | 08-27-2009 |
| 20090281453 | MRI Biopsy Apparatus Incorporating a Sleeve and Multi-Function Obturator - A localization mechanism, or fixture, is used in conjunction with a breast coil for breast compression and for guiding a core biopsy instrument during prone biopsy procedures in both open and closed Magnetic Resonance Imaging (MRI) machines. The localization fixture includes a three-dimensional Cartesian positionable guide for supporting and orienting an MRI-compatible biopsy instrument, and in particular a sleeve, to a biopsy site of suspicious tissues or lesions. A depth stop enhances accurate insertion, and prevents over-insertion or inadvertent retraction of the sleeve. The sleeve receives a probe of the MRI-compatible biopsy instrument and may contain various features to enhance its imageability, to enhance vacuum and pressure assist therethrough, and marker deployment etc. | 11-12-2009 |
| 20090318832 | Biopsy Devices with Universal Probe - A biopsy device comprises a probe that is configured to couple with a holster. The probe comprises a needle, a cutter, and a body portion. The needle is rotatable and translatable relative to the body portion. The holster has a locking feature that is configured to prevent the needle from rotating relative to the body portion upon coupling of the probe with the holster. The locking feature may also be configured to prevent the needle from translating relative to the body portion upon coupling of the probe with the holster. The same probe may thus be used with a holster intended for use in a fixture-based, stereotactic setting, in which rotation and translation of the needle may be desired; and with a holster intended for use in a handheld, ultrasound-guided setting, in which rotation and translation of the needle may be less desired if not undesirable. | 12-24-2009 |
| 20100049086 | Biopsy Device - A biopsy device such as a core sampling biopsy device compatible with use in a Magnetic Resonance Imaging (MRI) environment by being driven by either a pneumatic rotary motor or a piezoelectric drive motor is disclosed. The core sampling biopsy device obtains a tissue sample, such as a breast tissue biopsy sample, for diagnostic or therapeutic purposes. The biopsy device may include an outer cannula having a distal piercing tip, a cutter lumen, a side tissue port communicating with the cutter lumen, and at least one fluid passageway disposed distally of the side tissue port. The inner cutter may be advanced in the cutter lumen past the side tissue port to sever a tissue sample. | 02-25-2010 |
| 20100113971 | Biopsy Device with Translating Valve Mechanism - A biopsy device comprises a cannula having a transverse tissue receiving aperture and a cutter that is movable relative to the cannula to sever tissue protruding through the aperture. A first valve assembly comprises a first valve body and a first actuator. The first valve body has a first port, a second port, and a third port. The first port is in fluid communication with either atmospheric air or a pressurized medium. The second port is in fluid communication with the cannula. The third port is in fluid communication with a vacuum source. The first actuator is translatable relative to the first valve body to selectively couple either the first port or the third port with the second port. An optional second valve assembly is operable to selectively couple the cannula with either a source of saline or the first valve assembly. | 05-06-2010 |
| 20100113973 | Biopsy Device with Rotatable Tissue Sample Holder - A biopsy device comprises a probe body, a cannula extending distally from the probe body, a cutter moveable relative to the cannula to sever tissue, and a tissue sample holder coupled with the probe body. The tissue sample holder comprises a rotatable member and at least one removable member secured about the exterior of the rotatable member. The at least one removable member defines a plurality of tissue sample compartments. Each tissue sample compartment is configured to receive one or more tissue samples captured by the cutter. In some versions, the at least one removable member comprises a belt and a plurality of vials. | 05-06-2010 |
| 20100160817 | Control Module Interface for MRI Biopsy Device - A biopsy system includes a first external device, a second external device and a control module interface. The control module interface is in electrical communication with both the first and second external devices, and the control module interface is in mechanical communication with the second external device. The control module interface is configured to be positioned remotely from at least one of the first and second external devices. The control module interface comprises a motor, operational electronics, a shaft connector assembly, an electrical connector and a cabinet configured to house the motor and operational electronics. The motor is in mechanical communication with the second external device via a mechanical cable. The operational electronics are configured to permit control of the motor and a motorized component of the second external device. In some embodiments, the mechanical cable comprises a flexible shaft cable, such as a speedometer cable. | 06-24-2010 |
| 20100160818 | MRI Biopsy Device - A magnetic resonance imaging (MRI) compatible core biopsy system uses a biopsy device having intuitive graphical displays and a detachable remote keypad that advantageously allows convenient control even within the close confines afforded by a localization fixture installed within a breast coil that localizes a patient's breast and guides a probe of the biopsy device relative to the localized breast. A control module for interactive control and power generation are remotely positioned and communicate and transmit rotational mechanical energy via sheathed cable. | 06-24-2010 |
| 20100160819 | Biopsy Device with Central Thumbwheel - A biopsy device comprises a probe and a holster. The probe has a distally extending needle and a central thumbwheel coupled with the needle. The needle has a transverse tissue receiving aperture. A cutter is translatable relative to the needle to sever tissue protruding through the aperture. The central thumbwheel is manually operable to rotate the needle to reorient the angular position of the aperture about the longitudinal axis defined by the needle. The central thumbwheel is positioned coaxially with the longitudinal axis. An elongate sleeve unitarily couples the needle with the central thumbwheel. A cable driven mechanism in the holster drives the cutter. A rotatable tissue sample holder is coupled with the probe, and has chambers configured to receive tissue samples communicated proximally through a lumen defined by the cutter. A piezoelectric motor in the holster drives the tissue sample holder. | 06-24-2010 |
| 20100160820 | Biopsy Device with Variable Side Aperture - A biopsy device and method are provided for obtaining a tissue sample, such as a breast tissue biopsy sample. The biopsy device may include an outer cannula having a distal piercing tip, a cutter lumen, a side tissue port communicating with the cutter lumen, and at least one fluid passageway disposed distally of the side tissue port. The inner cutter may be advanced in the cutter lumen past the side tissue port to sever a tissue sample. After the tissue sample is severed, and before the inner cutter is retracted proximally of the side tissue port, the cutter may be used to alternately cover and uncover the fluid passageway disposed distally of the side tissue. | 06-24-2010 |
| 20100160822 | Biopsy Device with Detachable Needle - A biopsy device comprises a targeting set assembly, a probe assembly, and a holster assembly, which are detachable from one another. The targeting set assembly comprises a needle assembly having a tissue piercing tip and tissue receiving aperture. The needle assembly further comprises a needle portion, a needle hub, and a connecting member. The connecting member permits attachment of the needle assembly to the probe assembly. The needle portion may include one or more ceramic inserts, and further is provided with a dual lumen structure. The needle hub comprises features to permit access to the dual lumen structure of the needle portion, while managing fluid and vacuum within the device. | 06-24-2010 |
| 20100160824 | Biopsy Device with Discrete Tissue Chambers - A biopsy device includes a probe, a holster, and a tissue sample holder for collecting tissue samples. The probe includes a needle and a hollow cutter. The tissue sample holder includes a housing having a plurality of chambers that are respectively configured to receive a tray. The housing is releasably engageable with the probe. Each tray is configured to receive a tissue sample communicated through the cutter lumen. Each tray is removable from the housing, such as along an axial direction. The tissue sample holder is rotatable to successively index each chamber to the cutter lumen. A tray retainer is operable to selectively secure the trays relative to the housing. The trays may be flexible, resilient, or rigid. | 06-24-2010 |
| 20100222700 | BIOPSY Device With Sample Storage - A biopsy device and method are provided for obtaining and storing multiple tissue samples. The device permits the tissue samples to be stored in an end to end configuration. The device can include a sample tube having a sample lumen and a generally parallel vacuum lumen. A movable member, such as rod, can be advanced to uncover a predetermined number of fluid passageways between the sample lumen and the vacuum lumen as each sample is severed. | 09-02-2010 |
| 20100228146 | Biopsy Device With Integral vacuum Assist And Tissue Sample And Fluid Capturing Canister - A biopsy device is provided for obtaining a tissue sample, such as a breast tissue biopsy sample. The biopsy device includes a disposable probe assembly with an outer cannula having a distal piercing tip, a cutter lumen, and a cutter tube that rotates and translates past a side aperture in the outer cannula to sever a tissue sample. The biopsy device also includes a reusable handpiece with an integral motor and power source to make a convenient, untethered control for use with ultrasonic imaging. The reusable handpiece incorporates a probe oscillation mode to assist when inserting the distal piercing tip into tissue. An integral vacuum motor assists prolapsing tissue for effective severing as well as facilitating withdrawal of the tissue samples and bodily fluids from the biopsy site into a detachable, self-contained canister for transporting the separated biopsy samples and fluid for pathology assessment, avoiding biohazards in a clinical setting. | 09-09-2010 |
| 20100317995 | Method of Tetherless Biopsy Device Operation - A method of biopsy device operation comprises rotating a first rotating member at a first rotational speed to rotate a cutter. A second rotating member is rotated at a second rotational speed to translate the cutter. The first and second members are rotated simultaneously and in the same direction. The first rotating member rotates with the cutter, while the second rotating member rotates about the first rotating member. The difference between the first and second rotational speeds, as well as threaded engagement between the first and second rotating members, provides the translation of the cutter. A method of biopsy device operation also comprises moving a shuttle valve slider to selectively vent or seal the second lumen of a needle. The shuttle valve slider is responsive to translation of the cutter, though some degree of lost motion is provided between the shuttle valve slider and the cutter. | 12-16-2010 |
| 20100317997 | Tetherless Biopsy Device with Reusable Portion - A biopsy device comprises a body, a needle, and a cutter actuation mechanism. The needle extends distally from the body. The cutter actuation mechanism rotates and translates the cutter relative to the body and relative to the needle. The cutter has an overmold presenting a lead screw and a hex portion. The cutter actuation mechanism comprises a first gear disposed about the hex portion of the overmold and a second gear engaged with the lead screw of the overmold by a nut that is integral with the second gear. The cutter actuation mechanism is operable to simultaneously rotate the first gear relative to the body at a first rotational speed and the second gear relative to the body at a second rotational speed. With the lead screw and the nut rotating at different rotational speeds, the lead screw rotates relative to the nut at a third rotational speed. | 12-16-2010 |
| 20100317998 | Valve Mechanism for Tetherless Biopsy Device - A biopsy device comprises a body, a needle, a cutter, and a shuttle valve slider. The needle has a first lumen and a second lumen. The cutter translates relative to the needle. The shuttle valve slider translates in response to translation of the cutter. The shuttle valve slider vents the second lumen when the shuttle valve slider is in a first longitudinal position and substantially seals the second lumen relative to atmospheric air when the shuttle valve slider is in a second longitudinal position. A degree of lost motion is provided between the cutter and the shuttle valve slider, such that the cutter moves the shuttle valve slider only when the cutter moves through a first part of the cutter's range of motion; and such that the cutter does not move the shuttle valve slider when the cutter moves through a second part of the cutter's range of motion. | 12-16-2010 |
| 20110046513 | Multi-Button Biopsy Device - A handheld biopsy device comprises a needle, cutter, and body. The cutter is movable relative to the needle to sever tissue protruding into a transverse aperture of the needle. The body includes a cutter actuation mechanism, at least two trigger buttons, and a control module. The biopsy device is configured such that the at least two trigger buttons are selectively enabled and disabled. A selectively enabled trigger button is operable to activate the cutter actuation mechanism. A selectively disabled trigger button is not operable to activate the cutter activation mechanism. The enabled trigger button may be selected electronically, such that the control module receives a user's button selection input and enables or disables the trigger buttons accordingly. Alternatively, the body may include movable covers to selectively cover or expose trigger buttons in accordance with the user's preference. The biopsy device may thus accommodate different operators having different gripping styles. | 02-24-2011 |
| 20110054349 | CLUTCH AND VALVING SYSTEM FOR TETHERLESS BIOPSY DEVICE - A biopsy device may include a needle, a cutter, and a handpiece. A vacuum pump may be provided in the handpiece for providing a vacuum to the needle and/or to the cutter. A motor may be provided in the handpiece to drive the vacuum pump and/or the cutter. A biopsy device may also include a valving mechanism within the handpiece for selectively communicating a vacuum and/or atmospheric air to the needle. A clutching mechanism may selectively provide communication between a motor and the cutter. Portions of a valving mechanism and a clutching mechanism may be integrally formed. A clutching and valving mechanism may be driven by a first motor; and a cutter and vacuum pump by a second motor. A biopsy device may include batteries for powering motors. A biopsy device may thus provide vacuum and power from within a handpiece, such that the biopsy device is tetherless. | 03-03-2011 |
| 20110071433 | BIOPSY DEVICE WITH TRANSLATING VALVE MEMBER - A biopsy device includes a needle extending distally from a body. The needle includes a transverse aperture, a first lumen, and a second lumen. A cutter is movable within the first lumen to sever tissue protruding through the transverse aperture. A valve assembly is operable to change the pneumatic state of the second lumen. The valve assembly includes a valve body and a translating member slidably disposed in a bore of the valve body. The valve body includes a first port and a second port. The first port is in fluid communication with the second lumen of the needle. The second port is in fluid communication with atmospheric air. The translating member selectively couples the first port with the second port based on the longitudinal position of the translating member within the bore. The translating member translates relative to the valve body based on the position of the cutter. | 03-24-2011 |
| 20110077552 | BIOPSY DEVICE WITH VARIABLE SPEED CUTTER ADVANCE - A biopsy device having a translating and rotating cutter is disclosed. The translational speed of the cutter is varied using a variable pitch member. The variable pitch member can include a shaft having a relatively coarse threaded portion for rapid cutter advance and a relatively finer threaded portion for cutter advance during tissue severing. | 03-31-2011 |
| 20110082364 | MRI Biopsy Targeting Cube with Retention Wiper - A biopsy system comprises a localization assembly, a biopsy device, and a targeting cube. At least a portion of the biopsy device is insertable through a targeting cube, which is insertable into a selected aperture of a grid plate. The targeting cube comprises a body defined by faces, with guide passageways that originate and terminate at the faces and pass through the body of the targeting cube to accommodate insertion of a part of the biopsy device. An exterior wiper retainer of the targeting cube engages the grid plate to permit insertion of the targeting cube into a selected aperture of the grid plate while resisting withdrawal of the targeting cube from the grid plate. Internal wiper retainers in the guide passageways permit insertion of part of the biopsy device through a selected guide passageway while resisting withdrawal of the inserted part from the targeting cube. | 04-07-2011 |
| 20110092847 | MRI Biopsy Targeting Cube with Snap Corners - A biopsy system comprises a control module, a localization assembly, a biopsy device, and a targeting cube. The biopsy device and/or other associated components are configured to selectively couple with a targeting cube that selectively couples with a grid plate having apertures for receiving the cube. The targeting cube comprises a body defined by faces. The targeting cube further comprises guide holes that originate and terminate at the faces and pass through the body of the targeting cube to provide passageways through the cube. To securely and removably fit the targeting cube within a grid plate aperture, the targeting cube also comprises deflectable projections positioned at the corners of the cube or extending from the faces of the cube. The projections are resiliently biased to extend outwardly, and are inwardly deflectable by the walls of a grid plate aperture to secure the targeting cube in position within the aperture. | 04-21-2011 |
| 20110092848 | MRI Biopsy Targeting Cube with Eccentric Lock - A biopsy system comprises a control module, a localization assembly, a biopsy device, and a targeting cube. A probe and/or other associated components of the biopsy device are configured to selectively couple with the targeting cube, which is configured to selectively couple with a grid plate. The targeting cube may comprise an eccentric lock for securing the targeting cube within the grid plate. The targeting cube may further comprise an elastomeric insert positioned within guide holes of the targeting cube for securing the probe and/or other associated components within the guide hole of the targeting cube. The guide holes of the targeting cube may alternatively, or in addition, include an elastomeric retaining ring within the passageway of the guide hole. | 04-21-2011 |
| 20110098595 | Biopsy Marker Delivery Configured to Retain Marker Prior to Intended Deployment. - A biopsy marker delivery device is described. The delivery device can include a relatively flexible hollow tube, a pushing member such as a push rod disposed for sliding with the tube, and at least one marker disposed in the tube. The inner surface of the tube can be configured to engage the marker at spaced apart locations on the outer surface of the marker. | 04-28-2011 |
| 20110125055 | SURGICAL DEVICE FOR THE COLLECTION OF SOFT TISSUE - A biopsy device comprises a handpiece, a fluid collection system, and a power transmission source. The handpiece is configured for grasping by a single hand, and is independently manipulatable by hand for movement of the instrument toward and away from the patient. An elongated piercer extends from the distal end of the handpiece. The piercer has a sharpened distal end for entering the tissue and a port located proximal to the sharpened distal end for receiving a portion of tissue mass. An elongated cutter is disposed coaxially relative to a piercer lumen of the piercer. A distal blade of the cutter slides distally past the port of the piercer to sever the tissue portion drawn into the port by vacuum. The handpiece further comprises a holster for detachably connecting a cutter rotational transmission and a cutter axial transmission to the power transmission source. | 05-26-2011 |
| 20110144532 | BIOPSY DEVICE WITH VACUUM ASSISTED BLEEDING CONTROL - A biopsy device and method are provided for obtaining a tissue sample, such as a breast tissue biopsy sample. The biopsy device includes a disposable probe assembly with an outer cannula having a distal piercing tip, a cutter lumen, and a cutter tube that rotates and translates past a side aperture in the outer cannula to sever a tissue sample. The biopsy device also includes a reusable hand piece with an integral motor and power source to make a convenient, untethered control for use with ultrasonic imaging. External vacuum holes along the outer cannula (probe) that communicate with a vacuum and cutter lumen withdraw bodily fluids while a hemostatic disk-shaped ring pad around the probe applies compression to an external hole in the skin and absorbs fluids. | 06-16-2011 |
| 20110160610 | SURGICAL BIOPSY SYSTEM WITH REMOTE CONTROL FOR SELECTING AN OPERATIONAL MODE - A surgical biopsy system is provided for removing at least one tissue sample from a surgical patient. The surgical biopsy system comprises an elongated, hollow piercer and a cutter rotatably and axially positionable relative to the piercer. The piercer has a lateral port for receiving the tissue sample into the piercer. The surgical biopsy system further comprises a power transmission source operatively connected to the cutter for rotating and translating the cutter, a control unit, and a display mounted in a display frame for showing an operator a plurality of operational modes of the surgical biopsy system. The surgical biopsy system further comprises at least one control button operatively connected to the control unit by a circuit and remotely located from the control unit. The operator may actuate the control button(s) to select any one of the operational modes and the selected operational mode is visually identifiable on the display. | 06-30-2011 |
