Patents by Inventor Mark Trocki
Mark Trocki has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 9707342Abstract: A syringe shield useful for containing a syringe loaded with radioactive and/or light sensitive drugs is disclosed. The syringe shield may reduce a healthcare provider's exposure to radiation and/or may reduce or eliminate ambient light contamination to optically sensitive components in the syringe.Type: GrantFiled: September 3, 2015Date of Patent: July 18, 2017Assignee: BAYER HEALTHCAREInventors: Arthur E. Uber, III, Barry L. Tucker, Mark Trocki, Raymond C. Hoffman, Marc A. Mabie
-
Patent number: 9636452Abstract: A syringe for use with an injector includes a body having a rear end and a front end, a plunger movably disposed within the body, an attachment member associated with the body and adapted to releasably engage a syringe retaining mechanism of the injector regardless of the orientation of the syringe with respect to the injector, and an encoding device operable to provide syringe information to the injector.Type: GrantFiled: May 7, 2014Date of Patent: May 2, 2017Assignee: BAYER HEALTHCARE LLCInventors: Mark Trocki, Mark W. Hitchins, Kevin P. Cowan, Edward J. Rhinehart
-
Patent number: 9629780Abstract: A container adapted to store and transport an injectate is disclosed. The container includes a divider which extends from an open top end toward a closed bottom end, the divider spaced apart from the closed bottom end to define an opening and separating the container into a first fluid path on a first side of the divider through which fluid can enter the container through the inlet port and a second fluid path on a second side of the divider through which fluid can enter the opening and exit the container through the outlet port. The second fluid path includes at least one filter between the opening and the open top end through which fluid can pass from the first fluid path to the second fluid path but through which at least one component of the injectate cannot pass.Type: GrantFiled: March 18, 2013Date of Patent: April 25, 2017Assignee: BAYER HEALTHCARE LLCInventors: Arthur E Uber, III, Mark Trocki, Frederick W Trombley, III, Kevin P Cowan
-
Publication number: 20170087303Abstract: Systems and methods for intelligently delivering fluid to a targeted tissue are described. The systems and methods may include directing a pump to distribute fluid to a targeted tissue and receiving one or more signals from an intracorporeal sensing system, where the one or more signals correspond to one or more sensed feedback parameters at the targeted tissue. The systems and methods may also include determining whether the one or more sensed feedback parameters are within an acceptable range.Type: ApplicationFiled: December 12, 2016Publication date: March 30, 2017Inventors: MARTIN J. URAM, MICHAEL J. YANNIELLO, BARRY L. TUCKER, DAVID A. MISHLER, EDWARD J. RHINEHART, MARK TROCKI, ARTHUR E. UBER, III, KEVIN P. COWAN, JOHN A. BROSOVICH
-
Publication number: 20170035974Abstract: A syringe for a fluid delivery system includes a pressure jacket having a distal end, a proximal end, and a throughbore therebetween. The syringe further includes a rolling diaphragm having a proximal end with an end wall for engaging a plunger, a distal end received within the throughbore of the pressure jacket. A sidewall extends between the proximal end and the distal end of the rolling diaphragm along a longitudinal axis. At least a portion of one of the sidewall and the end wall has non-uniform thickness. At least a portion of the sidewall is flexible and rolls upon itself when acted upon by the plunger such that an outer surface of the sidewall at a folding region is folded in a radially inward direction as the plunger is advanced from the proximal end to the distal end of the rolling diaphragm.Type: ApplicationFiled: April 24, 2015Publication date: February 9, 2017Inventors: DAVE BERRY, BARRY L. TUCKER, EDWARD J. RHINEHART, MARK TROCKI, GERALD W. CALLAN, ARTHUR E. UBER, III, MARTIN J. URAM, DAVE CALLEN, KEVIN P. COWAN, RAYMOND C. HOFFMAN, BENJAMIN T. KRUPP, MARTIN J. GIBLER, MATTHEW MCGEE, MICHAEL A. SPOHN
-
Patent number: 9517305Abstract: Systems and methods for intelligently delivering fluid to a targeted tissue. The systems and methods may include directing a pump to distribute fluid to a targeted tissue and receiving one or more signals from an intracorporeal sensing system, where the one or more signals correspond to one or more sensed feedback parameters at the targeted tissue. The systems and methods may also include determining whether the one or more sensed feedback parameters are within an acceptable range. If the one or more sensed feedback parameters are not within the acceptable range, the systems and methods may include determining an adjusted velocity for the plunger necessary to adjust the pressure of the fluid in the pump so that the one or more sensed feedback parameters move within the acceptable range and directing the pump to distribute the fluid at the adjusted velocity.Type: GrantFiled: March 15, 2013Date of Patent: December 13, 2016Assignee: BAYER HEALTHCARE LLCInventors: Martin J. Uram, Michael J. Yanniello, Barry L. Tucker, David A. Mishler, Edward J. Rhinehart, Mark Trocki, Arthur E. Uber, III, Kevin P. Cowan, John A. Brosovich
-
Publication number: 20160303397Abstract: An integrated radiopharmaceutical patient treatment system is disclosed including a patient support platform with an associated patient stimulus apparatus, an imager proximate the patient support platform, a radiopharmaceutical fluid delivery system for infusing a radiopharmaceutical fluid into a patient, a patient monitor to be associated with a patient, and an integrated system controller operably associated with the patient stimulus apparatus, imager, radiopharmaceutical fluid delivery system, and patient monitor to control and coordinate their operations. Within the patient treatment system the radiopharmaceutical fluid delivery system may be included comprising a radionuclide supply module, a radiopharmaceutical processing module, a quality control module, a patient injection module, and a controller. A hazardous fluid handling system including a docking station and a hazardous fluid transport device adapted to detachably dock with the docking station is further disclosed.Type: ApplicationFiled: April 29, 2016Publication date: October 20, 2016Inventors: ALAN D. HIRSCHMAN, ARTHUR E. UBER, III, DAVID M. REILLY, JOHN F. KALAFUT, FREDERICK W. TROMBLEY, III, STEVEN J. REMIS, SCOTT GRIFFITH, DOUGLAS DESCALZI, RICHARD DEWIT, DAVID M. GRIFFITHS, MARC A. MABIE, MARK TROCKI
-
Publication number: 20160271330Abstract: A syringe for use in pressurized injection of a fluid is provided herein. The syringe includes a syringe barrel comprising a polymeric material having undergone expansion by stretch blow molding and by compression molding of an inner diameter of the barrel with a core member. In certain configurations of the syringe barrel, the stretch blow molding is provided through a nozzle of the syringe. Similarly, according to a further embodiment, a syringe for use in pressurized injection of a fluid is provided. The syringe includes a syringe barrel comprising a polymeric material having undergone expansion by stretch blow molding and by shrinking an inner diameter of the syringe barrel about a core member.Type: ApplicationFiled: October 31, 2014Publication date: September 22, 2016Inventors: EDWARD J. RHINEHART, KEVIN P. COWAN, MARK TROCKI, BARRY L. TUCKER
-
Publication number: 20160158519Abstract: A fluid delivery system includes a first container configured for storing a first fluid therein and a second container configured for storing a second fluid therein, wherein the second fluid is different from the first fluid. The fluid delivery system further includes at least one pump configured for delivering under pressure one or both of the first and second fluids. At least one valve is provided for selectively delivering one or both of the first and second fluids to the pump. The first and second containers, the pump, and the valve are contained within a cartridge that is removably insertable into a cartridge carrier of the fluid delivery system.Type: ApplicationFiled: June 13, 2014Publication date: June 9, 2016Inventors: EDWARD J. RHINEHART, DAVE BERRY, RAYMOND C. HOFFMAN, KEVIN P. COWAN, KATHY MCCOPPIN, DAVID M. REILLY, MARK TROCKI, FREDERICK W. TROMBLEY, BARRY L. TUCKER, ARTHUR E. UBER, III, DENNIS HACK
-
Publication number: 20160151570Abstract: A syringe interface between a piston and plunger is provided. The syringe interface includes a piston configured to be driven by an injector and a syringe. The syringe includes: a syringe barrel having a proximal end and a distal end; and a plunger having a proximal end, a distal end, and a sidewall extending therebetween. The plunger is slidably inserted in the syringe barrel such that the sidewall of the plunger forms a moveable seal against an inner surface of the syringe barrel. The piston is configured to form a removable suction engagement with the plunger for advancing or retracting the plunger through the syringe barrel as the piston is driven by the injector. A method for filling a syringe including a suction interface between a piston and plunger, as well as a filling station including a vacuum source, such as a vacuum pump, are also provided.Type: ApplicationFiled: July 9, 2014Publication date: June 2, 2016Inventors: EDWARD J. RHINEHART, KEVIN P. COWAN, BARRY L. TUCKER, MARK TROCKI
-
Patent number: 9326742Abstract: A hazardous fluid handling system which includes a housing having a radiation shielded internal chamber disposed therein which may accommodate a container holding a radioactive fluid, one or more radioactivity detectors positioned within the shielded internal chamber in operational proximity to the radioactive fluid in the container, and a dosimeter control device electronically coupled to the radioactivity detector(s) is disclosed. The dosimeter control device is operational for determining information regarding the radioactive fluid in the container based on individual measurements received from the one or more radioactivity detectors. The hazardous fluid handling system may be integrated into a patient support platform which includes a patient stimulus apparatus, an imager proximate the patient support platform, a radiopharmaceutical fluid delivery system for infusing a radiopharmaceutical fluid into a patient, a patient monitor to be associated with the patient, and an integrated system controller.Type: GrantFiled: December 28, 2007Date of Patent: May 3, 2016Assignee: Bayer Healthcare LLCInventors: Alan D. Hirschman, Arthur E. Uber, III, David M. Reilly, John Kalafut, Frederick W. Trombley, III, Steven J. Remis, Scott Griffith, Douglas Descalzi, Richard Dewit, David M. Griffiths, Marc A. Mabie, Mark Trocki
-
Publication number: 20160058946Abstract: A collapsible syringe assembly for a fluid delivery system is a multi-component device that includes a cylindrical pressure jacket and a collapsible syringe that is received within the pressure jacket. The collapsible syringe includes a cap member and a compressible or deformable sidewall member. The collapsible syringe in one embodiment is adapted to be secured to the pressure jacket by the cap member. The cap member is formed with a discharge port, which may be formed as conventional luer fitting. The discharge port is disposed coaxially within an annular wall on the outward facing side of the cap member and may be recessed within the annular wall.Type: ApplicationFiled: November 9, 2015Publication date: March 3, 2016Inventors: EUGENE A. GELBLUM, JILL DENESVICH, EDWARD J. RHINEHART, BARRY L. TUCKER, MARK TROCKI, JOHN PUSKAR-PASCEWICZ, MATTHEW BEALE, MATTHEW SASS
-
Publication number: 20160051761Abstract: A syringe system and components thereof are disclosed. The system may include a syringe body having a hollow lumen, a proximal open end, and a distal end. The syringe body may be configured to house a fluid therein. The syringe system may further include a plunger positioned in the hollow lumen of the syringe body, forming a seal with an inner wall of the syringe body. The plunger may include a removable piston having a shaft extending from the distal end towards the proximal open end, a stopper removably connected to a distal portion of the shaft, and at least one coupler attached to the distal portion of the shaft. The stopper may be configured to slidably move within the hollow lumen to facilitate movement of the fluid within the syringe body. The coupler may be configured to facilitate removal and attachment of the stopper from the piston.Type: ApplicationFiled: November 2, 2015Publication date: February 25, 2016Inventors: KEVIN P. COWAN, EDWARD J. RHINEHART, MARK TROCKI
-
Publication number: 20160030662Abstract: A configurable fluid delivery system and methods for its use are disclosed. The system may include one or more control units, fluid delivery units, fluid actuator units, and disposable units. Data sources and sensors on each of the delivery units, actuator units, and disposable units may provide data to the control unit, thereby identifying the components along with the manner in which they may be configured. The control unit may notify a user regarding the status of any one or more of the delivery, actuator, and disposable units to indicate their appropriateness for delivering a fluid according to one or more selected procedures and protocols. Also disclosed are methods by which the configurable fluid delivery system may provide data to a user to assist the user in assembling and testing a particular configuration of the fluid delivery system for a specific use.Type: ApplicationFiled: March 14, 2014Publication date: February 4, 2016Applicant: BAYER MEDICAL CARE INC.Inventors: ARTHUR E. UBER, III, MARK TROCKI
-
Publication number: 20150374914Abstract: A syringe shield used for containing radioactive drugs in order to reduce healthcare provider's exposure to radiation or to reduce or eliminate ambient light contamination to optically sensitive components in a syringe is described.Type: ApplicationFiled: September 3, 2015Publication date: December 31, 2015Inventors: ARTHUR E. UBER, III, BARRY L. TUCKER, MARK TROCKI, RAYMOND C. HOFFMAN, MARC A. MABIE
-
Patent number: 9180252Abstract: A bellows assembly for a fluid delivery system is a multi-component device that includes a cylindrical pressure jacket and a bellows syringe that is received within the pressure jacket. The bellows syringe includes a cap member and a bellows member. The bellows syringe in one embodiment is adapted to be secured to the pressure jacket by the cap member. The cap member is formed with a discharge port, which may be formed as conventional luer fitting. The discharge port is disposed coaxially within an annular wall on the outward facing side of the cap member and may be recessed within the annular wall. The bellows member is a hollow body that includes a series of bellows sections or rings. A distal end of the bellow member is formed with a discharge neck terminating in a discharge port, and the proximal end is formed with a closed end wall.Type: GrantFiled: March 15, 2013Date of Patent: November 10, 2015Assignee: Bayer Medical Care Inc.Inventors: Eugene A Gelblum, Jill Denesvich, Edward J Rhinehart, Barry L Tucker, Mark Trocki, John Puskar-Pascewicz, Matthew Beale, Matthew Sass
-
Patent number: 9174003Abstract: A syringe system and components thereof are disclosed. The system may include a syringe body having a hollow lumen, a proximal open end, and a distal end. The syringe body may be configured to house a fluid therein. The syringe system may further include a plunger positioned in the hollow lumen of the syringe body, forming a seal with an inner wall of the syringe body. The plunger may include a removable piston having a shaft extending from the distal end towards the proximal open end, a stopper removably connected to a distal portion of the shaft, and at least one coupler attached to the distal portion of the shaft. The stopper may be configured to slidably move within the hollow lumen to facilitate movement of the fluid within the syringe body. The coupler may be configured to facilitate removal and attachment of the stopper from the piston.Type: GrantFiled: March 10, 2013Date of Patent: November 3, 2015Assignee: Bayer Medical Care Inc.Inventors: Kevin P. Cowan, Edward J. Rhinehart, Mark Trocki
-
Patent number: 9125976Abstract: A syringe shield useful for containing a syringe loaded with radioactive and/or light sensitive drugs is disclosed. The syringe shield may reduce a healthcare provider's exposure to radiation and/or may reduce or eliminate ambient light contamination to optically sensitive components in the syringe.Type: GrantFiled: March 15, 2013Date of Patent: September 8, 2015Assignee: Bayer Medical Care Inc.Inventors: Arthur E. Uber, III, Barry L. Tucker, Mark Trocki, Raymond C. Hoffman, Marc. A. Mabie
-
Patent number: 9056200Abstract: A hazardous fluid transport container and a hazardous fluid delivery system are disclosed. The hazardous fluid transport container includes a housing enclosing an at least partially shielded enclosure. First and second fluid path elements are disposed within the housing, with the first fluid path element and second fluid path element fluidly coupled together. A pump unit may be provided for dispensing fluid from the first and second fluid path elements optionally into a third fluid path element. Also, methods for priming the hazardous fluid transport container and for mitigating laminar flow injection bolus spreading are disclosed. Additionally, disclosed is a radioactive fluid transport container for a syringe or other container. The radioactive fluid transport container allows the syringe or container to be used in an injection procedure without removal from the container.Type: GrantFiled: June 5, 2009Date of Patent: June 16, 2015Assignee: Bayer Medical Care Inc.Inventors: Arthur E. Uber, III, Mark Trocki, Marc A. Mabie, Larry McCutchan, L. George Siddoway, Kevin P. Cowan, Lisa M. Coates, John F. Kalafut, Aaron Hughes, David M. Griffiths, Peter Twichell, Julie Gulick, Frederick W. Trombley, III
-
Publication number: 20140336615Abstract: A system includes at least one pressurizing mechanism, a fluid path adapted to be placed in operative connection with the pressurizing mechanism to deliver an injectate to a patient, wherein the injectate includes cells, a control system operably associated with the at least one pressurizing mechanism; and at least one parameter generation system in operative connection with the control system. The parameter generation system includes an input system to receive data of a type of cells to be injected and is adapted to generate at least one parameter for the injection procedure at least in part on the basis of the data of the type of cells. The at least one parameter for the injection procedure may, for example, be a variable associated with the injectate, a variable associated with an injection protocol or a variable associated with at least one component of the fluid path.Type: ApplicationFiled: November 28, 2012Publication date: November 13, 2014Inventors: Martin J. Uram, Paul D. Levin, Frederick W. Trombley, III, Mark Trocki