Front-loading medical injector and syringes, syringe interfaces, syringe adapters and syringe plungers for use therewith
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-037/00
A61M-025/16
A61M-025/18
A61M-005/00
출원번호
US-0777020
(2001-02-05)
발명자
/ 주소
Trocki, Mark
Hitchins, Mark W.
Cowan, Kevin P.
Dedig, James A.
Sciulli, Francis J.
Rygg, Steven C.
Fuchs, Larry J.
Rhinehart, Edward J.
Parks, Robert D.
출원인 / 주소
Medrad, Inc.
대리인 / 주소
Bradley, Gregory LBartony, Jr., Henry E.
인용정보
피인용 횟수 :
138인용 특허 :
132
초록▼
Embodiments of an injector, syringe, syringe interface, and piston/plunger assembly for an injector (of contrast medium, for example) are described. Preferably, the syringe is adapted to engage a syringe interface mechanism such that the syringe may be connected to an injector without regard to any
Embodiments of an injector, syringe, syringe interface, and piston/plunger assembly for an injector (of contrast medium, for example) are described. Preferably, the syringe is adapted to engage a syringe interface mechanism such that the syringe may be connected to an injector without regard to any particular orientation of the syringe to the injector or to the piston/plunger assembly.
대표청구항▼
Embodiments of an injector, syringe, syringe interface, and piston/plunger assembly for an injector (of contrast medium, for example) are described. Preferably, the syringe is adapted to engage a syringe interface mechanism such that the syringe may be connected to an injector without regard to any
Embodiments of an injector, syringe, syringe interface, and piston/plunger assembly for an injector (of contrast medium, for example) are described. Preferably, the syringe is adapted to engage a syringe interface mechanism such that the syringe may be connected to an injector without regard to any particular orientation of the syringe to the injector or to the piston/plunger assembly. e eight member is formed by a first strap member and a second strap member, the first strap member having a first end and a second end, the first end of the first strap member secured to the first side of the boot-like member and positioned over the top of the boot-like member and under the foot and extending back up the first side of the boot-like member where the second end of the first strap is releasably secured thereto, the second strap member having a first end and a second end, the first end of the second strap member secured to the second side of the boot-like member and positioned over the top of the boot-like member and being adapted and configured to be positioned under the foot and extending back up the second side of the boot-like member where the second end of the second strap is releasably secured thereto. 8. The support of claim 7, further comprising a first tab and a second tab operatively connected to the first and second strap members' second ends respectively, wherein the tabs may be pulled upward to provide tension to the strap members before the strap members are secured to the boot-like member. 9. The support of claim 7, wherein the first ends of the first and second straps are permanently secured to the boot-like member. 10. The support of claim 7, wherein either of the second ends of the first and second straps may be secured to the boot-like member to protect for inversion or eversion. 11. An ankle support for use in supporting an ankle bone and an ankle joint, comprising: a) a boot-like member having a sleeve portion for receiving a foot and an ankle, the boot-like member securable about the foot and the ankle, the boot-like member having a first side, a second side, a top, and a back portion; b) a pre-configured figure eight member having a first end and a second end; c) the first end releasably secured to the first side of the boot-like member and the pre-configured figure eight member adapted and configured to be extending under the foot and over the top of the boot-like member where it wraps around the ankle proximate the back portion and continues over the top of the boot-like member and adapted and configured to be positioned under the foot and then along the second side where the second end is releasably secured thereto; and d) an outer member secured to the boot-like member, the outer member forming a cover to hold the pre-configured figure eight member in place and prevent misalignment of the figure eight member prior to being secured around the ankle bone and joint, the preconfigured figure eight member remains in a preconfigured figure eight configuration during application of the ankle support. 12. The ankle support of claim 11, further comprising a plurality of eyelets formed in the boot proximate the first and second sides and laces operatively connected to the eyelets to secure the boot-like member to the foot. 13. The ankle support of claim 11, further comprising slots formed in the boot-like member and the pre-configured figure eight member extending through the slots, and guides, each having a slot, positioned over the slots of the boot-like member. 14. The ankle support of claim 11, wherein the pre-configured figure eight member is formed by a single strap member having first and second ends. 15. The ankle support of claim 14, further comprising a first tab and a second tab operatively connected to the ends of the strap member, wherein the tabs may be pulled upward to provide tension to the strap member before the strap member is secured to the boot-like member. hnique, each of which are individually calibrated in relation to a predetermined off-line yield determination technique. The predetermined yield prediction and monitoring techniques each provide the yield for the harvested blood components and each is then utilized to provide a determined yield. Consequently, when the harvested blood components are packaged the determined yield my be associated therewith, thereby providing a blood component product. the outer surface and the lumen, the elongated tubular member further comprising a proximal end and a distal end, a torque enhancing mandrel received in the lumen, the torque enhancing mandrel further comprising a proximal end and a distal end, at least one of the proximal ends or the distal ends of the torque enhancing mandrel and elongated tubular member being detachably connected by a detachable connection mechanism selected from the group consisting of: the proximal end of the torque enhancing mandrel comprising an enlarged wedge that is frictionally received in the proximal end of the elongated tubular member; the proximal ends of the elongated tubular member and torque enhancing member being detachably fused; the proximal ends of the elongated tubular member and torque enhancing member being clamped together; the proximal ends of the elongated tubular member and torque enhancing member are threadably connected; the distal ends of the elongated tubular member and torque enhancing member being threadably connected; the distal end of the torque enhancing mandrel comprising an enlarged wedge that is frictionally received in the distal end of the elongated tubular member; and the distal ends of the elongated tubular member and torque enhancing member being detachably fused. 2. The guidewire assembly of claim 1 wherein the proximal ends of the torque enhancing member and tubular member are detachably connected. 3. The guidewire assembly of claim 1 wherein the distal ends of the elongated tubular member and torque enhancing member being detachably connected. 4. The guidewire assembly of claim 1 wherein the torque enhancing mandrel is solid. 5. The guidewire assembly of claim 1 wherein the torque enhancing mandrel is made from stainless steel. 6. The guidewire assembly of claim 1 wherein the torque enhancing member is made from solid stainless steel. 7. The guidewire assembly of claim 1 wherein the torque enhancing member is tubular. 8. The guidewire assembly of claim 1 wherein the elongated tubular member is made from an alloy comprising nickel and titanium. 9. A guidewire assembly for use with a pressure-sensing device comprising: an elongated tubular member having a lumen extending through the elongated tubular member, the elongated tubular member further comprising an outer surface, an inner surface and at least one opening extending between the inner and outer surfaces and providing communication between the outer surface and the lumen, the elongated tubular member being fabricated from Nitinol, a torque enhancing mandrel received in the lumen, the torque enhancing mandrel being fabricated from stainless steel, the elongated tubular member further comprising a proximal end and a distal end, the torque enhancing mandrel further comprising a proximal end and a distal end, and the proximal ends of the elongated tubular member and torque enhancing member being detachably connected by a detachable connection mechanism selected from the group consisting of: the proximal end of the torque enhancing mandrel comprising an enlarged wedge that is frictionally received in the proximal end of the elongated tubular member; the proximal ends of the elongated tubular member and torque enhancing member being detachably fused; the proximal ends of the elongated tubular member and torque enhancing member being clamped together; and the proximal ends of the elongated tubular member and torque enhancing member are threadably connected. 10. The guidewire assembly of claim 9 wherein the distal ends of the elongated tubular member and torque enhancing member being detachably connected by a detachable connection mechanism selected from the group consisting of: the proximal ends of the elongated tubular member and torque enhancing member are threadably connected; the distal ends of the elongated tubular member and torque enhancing member being threadably connected; the distal end of the torque enhancing mandrel compris
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (132)
Leslie James E. (Moundsview MN) Anderson Everett D. (Maplewood MN), Ambulatory infusion pump having programmable parameters.
Coutr James E. (Concord MA) Griffin Wayne P. (Dracut MA) Crisler Charles M. (Windham NH), An infusion management and pumping system having an alarm handling system.
Kranys Rudolph J. (Allison Park PA) Heilman Marlin S. (Gibsonia PA) Zdrojkowski Ronald J. (Pittsburgh PA) Swann George R. (Pittsburgh PA), Angiographic injector.
Neer Charles (Milford OH) Fago Frank M. (Mason OH) Dieterlen Paul E. (Covington KY) Goethel James H. (Cincinnati OH), Apparatus for injecting fluid into animals and disposable front loadable syringe therefor.
Michaels Mary B. (Sunnyvale CA) Robinson Janine C. (Half Moon Bay CA) Claude John P. (San Carlos CA) Alden Donald L. (Sunnyvale CA), Automated fluid pressure control system.
Pastrone Giovanni (Los Gatos CA) Poli Robert G. (Campbell CA) Yung Anthony C. (San Jose CA) Holst Peter A. (Castro Valley CA), Cassette identification system for use with a multi-program drug infusion pump.
Lacour Bernard (16 Chemin de Brulefoin 25000 Besancon FRX) Euvrard Hubert (Chemin du Moulin ; Auxon Dessus 25870 Geneuille FRX) Gaillard Roger (Busy 25320 Montferrand le Chateau FRX) Boinot Jean C. (, Device for fixing a transmission assembly in the body of an angled dental tool.
Neer Charles (Milford OH) Fago Frank M. (Mason OH) Dieterlen Paul E. (Covington KY) Goethel James H. (Cincinnati OH), Disposable front loadable syringe.
Neer Charles (Milford OH) Fago Frank M. (Mason OH) Dieterlen Paul E. (Covington KY) Goethel James H. (Cincinnati OH), Disposable front loadable syringe for power injector for injecting fluid into animals.
Bishko Jay R. (4204 Allistair Rd. Winston-Salem NC 27104) Single Thomas G. (3504 Joel Ct. Stone Mountain GA 30087) Stone Dennis (3908 State Road 13 North Jacksonville FL 32259), Electronic fluid flow rate controller for controlling the infusion of intravenous drugs into a patient.
Nolan ; Jr. William J. ; Cowan Kevin P. ; Hirschman Alan D. ; Reilly David M. ; Trombley ; III Frederick W. ; Griffiths David M., Fluid pressure measurement devices.
Neer Charles (Milford OH) Fago Frank M. (Mason OH) Dieterlen Paul E. (Covington KY) Goethel James H. (Cincinnati OH), Front loading apparatus for insecting fluid into animals.
Reilly David M. (Glenshaw PA) Havrilla Joseph B. (Pittsburgh PA) Gelblum Eugene A. (Pittsburgh PA) Kazousky Daniel (Trafford PA), Front-loading medical injector and syringe for use therewith.
Fenton ; Jr. Paul V. (Marblehead MA) Young Thomas M. (North Andover MA) Adaniya George (Swampscott MA) Denis Richard E. (Beverly MA) Miller Robert L. (New Providence NJ) Santin Ernest M. (Salem MA), Infusion device.
Ford Alan D. (Concord NH) Sims Nathaniel M. (Wellesley Hills MA) Mandro Marc A. (Bow NH), Infusion pump with an electronically loadable drug library and a user interface for loading the library.
Ghwiler Hermann (Zurich CHX) Lorenz Adrian (Zurich CHX), Injection syringe for the successive injection of two liquids into the blood vessels of living bodies.
Moulding ; Jr. Thomas S. (1954 Glencoe St. Denver CO 80220) Ellis Donald G. (Geneva Park Boulder CO 80302), Medicine package, method of opening the package, and machine for performing the method.
Jhuboo Nasser (St. Etienne de St. Geoirs FRX) Rondelet Jean-Claude (St. Etienne de Crossey FRX), Method and apparatus for determining pressure and detecting occlusions in a syringe pump.
Smith Carol (6 Walley St. Bristol RI 02809) Pezzullo Denise (40 Lawnacre Dr. Cranston RI 02920), Method and apparatus for the injection of pharmaceuticals.
Colin Laurence (Box 301 Cross River NY 10518) Spehar Edward R. (40 Orion Way Neshanic Station NJ 08853) Harkins Bernard F. (2000 Woodland Ave. S. Plainfield NJ 07080), Multiple barrel dispensing device.
Neer Charles (Milford OH) Fago Frank M. (Mason OH) Dieterlen Paul E. (Covington KY) Goethel James H. (Cincinnati OH), Power injector for injecting fluid into animals.
Hirschman Alan D. (Glenshaw PA) Reilly David M. (Glenshaw PA) Potter Ross H. (Oakmont PA) Stulen John (Pittsburgh PA) Toft Eric M. (Pittsburgh PA) Clark John G. (Pittsburgh PA), Processor-controlled angiographic injector device.
Sancoff Gregory E. (Leucadia CA) McWilliams Mark (San Diego CA) Barr Howard S. (Escondido CA) Cordner ; Jr. Edward T. (Carlsbad CA) Barton Russell C. (Monrovia CA), Programmable infusion system.
Stiles Donald E. (5860 McCoin Dr. Dryden MI 48428) Brakeman Randall M. (27390 Wellington Franklin MI 48025) Sherwin Dewayne J. (378 S. Sommers Rd. Imlay City MI 48444), Self-sheathing hypodermic syringe.
Bakaitis Teresa L. (1007 Sycamore St. Washington PA 15301) Bakaitis Brian S. (1007 Sycamore St. Washington PA 15301), Sterilization apparatus and related process.
Porat Michael (4 Hirschenberg Street Tel-Aviv ILX) Porat Amir (4 Hirschenberg Street Tel-Aviv ILX) Lachish Doron (11 Ester Hamalka Street Tel-Aviv ILX), Syringe.
Larkin Mark E. (Lindenhurst IL) Ogden John E. (Libertyville IL) Moeller Dale V. (Wadsworth IL), Syringe, adaptor, and check valve combination for parenteral infuser.
Claeys Ronald W. (1462 “I”St. Springfield OR 97477) Decamp Gary S. (2595 Elysium Eugene OR 97401), System for verifying and recording drug administration to a patient.
Capone, Christopher D.; Heller, Ronald; Haury, John A.; Seman, Richard A.; Mator, Joseph C., Assembly method for a fluid pump device for a continuous multi-fluid delivery system.
Cowan, Kevin P.; Hoffman, Raymond C.; Uber, III, Arthur E.; Hobi, Bernard J.; Rossitto, Vincent S.; Wlodarczyk, Jaroslaw; Schrauder, Matthew, Bladder syringe fluid delivery system.
Capone, Christopher D.; Seman, Richard A.; Haury, John A.; Prem, Edward K.; Heller, Ronald; Bazala, Jason L., Continuous multi-fluid pump device, drive and actuating system and method.
Uber, III, Arthur E.; Hirschman, Alan D.; Griffiths, David M.; Reilly, David M.; Cowan, Kevin P.; Tucker, Barry L.; Mishler, David, Delivery of agents such as cells to tissue.
Kalafut, John F.; Kemper, Corey, Devices and systems for determination of parameters for a procedure, for estimation of cardiopulmonary function and for fluid delivery.
Trombley, III, Frederick W.; Reilly, David M.; Hirschman, Alan D.; Griffiths, David M.; Callan, Gerald W.; Pedraza, Luis A.; Kwo, Jennie; Zirps, Christopher T.; Beaulieu, Roderick H., Fluid path containing a pressure isolation valve.
Hitchins, Mark W.; Cowan, Kevin P.; Sciulli, Francis J.; Parks, Robert D., Front-loading medical injector adapted to releasably engage a syringe regardless of the orientation of the syringe with respect to the injector.
Trocki, Mark; Hitchins, Mark W.; Cowan, Kevin P.; Rhinehart, Edward J., Front-loading medical injector adapted to releasably engage a syringe regardless of the orientation of the syringe with respect to the injector.
Trocki, Mark; Hitchins, Mark W.; Cowan, Kevin P.; Rhinehart, Edward J., Front-loading syringe adapted to releasably engage a medical injector regardless of the orientation of the syringe with respect to the injector.
Rousso, Benny; Ben-Haim, Shlomo; Melman, Haim; Bronshtine, Zohar; Zilberstien, Yoel; Nagler, Michael; Dickman, Dalia; Omer, Einav, Imaging system customization using data from radiopharmaceutical-associated data carrier.
Trombley, III, Frederick W.; Schmidt, Robert M.; Reilly, David M.; Hirschman, Alan D.; Griffiths, David M.; Callan, Gerald W.; Pedraza, Luis A.; Kwo, Jennie; Zirps, Christopher T.; Beaulieu, Roderick H., Injector system with a manual control device.
Wilson, Robert F.; Duchon, Douglas J.; Gabbard, Mark; Mohiuddin, Khader; McPeak, Thomas, Low pressure measurement devices in high pressure environments.
Kalafut, John F.; Kemper, Corey, Methods for determination of parameters for a procedure, for estimation of cardiopulmonary function and for fluid delivery.
Kalafut, John F.; Hirschman, Alan D.; Griffiths, David M.; Joyce, Thomas P.; Stokes, Jerry A.; Callan, Gerald W.; Hack, Dennis P.; Gulick, Julie; Maihoefer, Andreas R.; Uber, III, Arthur E., Mitigation of contrast-induced nephropathy.
Callan, Gerald W.; Pedraza, Luis A.; Kwo, Jennie; Zirps, Christopher T.; Beaulieu, Roderick H., Pressure isolation mechanisms, method of use thereof and fluid delivery systems including pressure isolation mechanisms.
Ben-David, Gal; Zilberstien, Yoel; Kimchy, Yoav, Radioactive emission detector equipped with a position tracking system and utilization thereof with medical systems and in medical procedures.
Kimchy, Yoav; Amrami, Roni; Bouskila, Yona; Antebi, Udi; Sidorenko, Nick; Ben-David, Gal; Zilberstein, Yoel, Radioactive emission detector equipped with a position tracking system and utilization thereof with medical systems and in medical procedures.
Liscio, Edward P.; Castillo, Luis; McNeill, Michael; Hitchins, Mark W., Syringe assemblies, methods of forming syringe assemblies and adapters for forming syringe assemblies.
Duchon, Douglas J.; Smith, James P.; Anderson, Katherine H.; Wilson, Robert F.; Liu, Jiyan, System and method for multiple injection procedures on heart vessels.
Agamaite, James A.; Griffith, Scott R.; Descalzi, Douglas; Marsh, Charles, System and method for planning and monitoring multi-dose radiopharmaceutical usage on radiopharmaceutical injectors.
Griffith, Scott R.; Agamaite, James A.; Descalzi, Douglas; Marsh, Charles, System and method for planning and monitoring multi-dose radiopharmaceutical usage on radiopharmaceutical injectors.
Cowan, Kevin P.; Spohn, Michael A.; McDermott, Michael, System and method for syringe fluid fill verification and image recognition of power injector system features.
Swantner, Michael J.; Seman, Richard A.; Tucker, Barry L.; Uber, III, Arthur E.; Cowan, Kevin P.; Dedig, James A.; Capone, Christopher D., System and method for syringe plunger engagement with an injector.
Uber, III, Arthur E.; Trombley, III, Frederick W.; Cowan, Kevin P.; Trocki, Mark, System for washing and processing of cells for delivery thereof to tissue.
Uber, III, Arthur E.; Griffiths, David M.; Reilly, David M.; Hirschman, Alan D.; Cowan, Kevin P.; Trocki, Mark, Systems and methods of delivering a dilated slurry to a patient.
Uber, III, Arthur E; Griffiths, David M; Reilly, David M; Hirschman, Alan D; Cowan, Kevin P; Trocki, Mark, Systems and methods of delivering a dilated slurry to a patient.
Kalafut, John F.; Uber, III, Arthur E., Systems and methods of determining patient transfer functions and modeling patient response to a pharmaceutical injection.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.