The anesthesia systems have an integrated, extendable clinical center and clinician/anesthesia office that accommodates for a physical separation of clinical and clerical functions. The anesthesia system includes an alarm reversion system which enables a predefined alarm limit to be set and then to
The anesthesia systems have an integrated, extendable clinical center and clinician/anesthesia office that accommodates for a physical separation of clinical and clerical functions. The anesthesia system includes an alarm reversion system which enables a predefined alarm limit to be set and then to be automatically reverted back to an alarm limit existing just before the predefined alarm limit was set.
대표청구항▼
1. An anesthesia delivery system, wherein the anesthesia delivery system monitors a plurality of patient parameters, comprising: a first section comprising housing for at least one clinical control and at least one patient connection for providing therapy to a patient, wherein said at least one pati
1. An anesthesia delivery system, wherein the anesthesia delivery system monitors a plurality of patient parameters, comprising: a first section comprising housing for at least one clinical control and at least one patient connection for providing therapy to a patient, wherein said at least one patient connection includes a breathing circuit connection, comprising at least one limb;a second section, comprising a base portion for supporting the first section, a planar workspace surface, at least one pneumatic connection and at least one electrical connection, wherein the second section is pneumatically connected to the first section by a suction supply line and at least one anesthesia gas supply line and wherein the first section is movable relative to the second section;a self-activating auxiliary common gas outlet (ACGO) port, wherein said self-activating auxiliary common gas outlet (ACGO) port has a first position and a second position, wherein, in said first position, the self-activating auxiliary common gas outlet (ACGO) port is in an inactive state, wherein, in said second position, the self-activating auxiliary common gas outlet (ACGO) port is in an active state, wherein said self-activating auxiliary common gas outlet (ACGO) port is activated by a rotation of said auxiliary common gas outlet (ACGO) port from the first position to the second position, and wherein, in said active state, gas flows out of said self-activating auxiliary common gas outlet (ACGO) port; anda display comprising: an alarm;a first icon, wherein, when activated, said first icon causes the anesthesia delivery system to set a predefined alarm limit for at least one of said plurality of parameters and wherein said alarm is configured to be activated when a value of the at least one of said plurality of parameters is above or below a predefined threshold;a second icon, wherein, when activated, said second icon causes the anesthesia delivery system to revert from the predefined alarm limit to an alarm limit existing just before the predefined alarm limit was set for the at least one of said plurality of parameters and wherein said alarm is configured to be activated when a value of the at least one of said plurality of parameters is above or below a second threshold, said second threshold being different than the predefined threshold;a graphical user interface in data communication with said anesthesia delivery system; anda lighting strip provided on said graphical user interface and configured to communicate to a user when the alarm is active and a priority level of said alarm, further wherein a location and color of said lighting strip is indicative of said priority level of said alarm. 2. The anesthesia delivery system of claim 1, further comprising an emergency bypass valve system which enables a user to set a flow of oxygen in case of a mixer failure, wherein said emergency bypass valve system comprises a dual position knob, which, in a first position, corresponds to an active electronic mixing control and, in a second position, corresponds to an active emergency bypass valve, further wherein a pre-determined amount of oxygen flow is provided when said dual position knob is moved into said second position. 3. The anesthesia delivery system of claim 1, wherein said self-activating auxiliary common gas outlet (ACGO) port measures in a range of 17 to 27 mm in external diameter. 4. The anesthesia delivery system of claim 1, wherein said self-activating auxiliary common gas outlet (ACGO) port measures in a range of 10 to 20 mm in internal diameter. 5. The anesthesia delivery system of claim 1, wherein said self-activating auxiliary common gas outlet (AGCO) port is illuminated when said auxiliary common gas outlet (ACGO) port is in said second position. 6. An anesthesia delivery system, wherein the anesthesia delivery system monitors a plurality of patient parameters, comprising: a first section comprising a housing for at least one patient connection, wherein said at least one patient connection includes a breathing circuit connection, comprising at least one limb;a second section, comprising a planar workspace surface, at least one pneumatic connection and at least one electrical connection, wherein the second section is pneumatically connected to the first section by a suction supply line and at least one anesthesia gas supply line;a self-activating auxiliary common gas outlet (ACGO) port, wherein said self-activating auxiliary common gas outlet (ACGO) port has a first position and a second position, wherein, in said first position, the self-activating auxiliary common gas outlet (ACGO) port is in an inactive state, wherein, in said second position, the self-activating auxiliary common gas outlet (ACGO) port is in an active state, wherein said self-activating auxiliary common gas outlet (ACGO) port is activated by a rotation of said auxiliary common gas outlet (ACGO) port from the first position to the second position, and wherein, in said active state, gas flows out of said self-activating auxiliary common gas outlet (ACGO) port; anda display comprising: an alarm;a first icon, wherein, when activated, said first icon causes the anesthesia delivery system to set a predefined alarm limit for at least one of said plurality of parameters and wherein the alarm is configured to be activated when a value of the at least one of said plurality of parameters is above or below a predefined threshold; anda second icon, wherein, when activated, said second icon causes the anesthesia delivery system to revert from the predefined alarm limit to an alarm limit existing just before the predefined alarm was set for the at least one of said plurality of parameters and wherein the alarm is configured to be activated when a value of the at least one of said plurality of parameters is above or below a second threshold, said second threshold being different than the predefined threshold.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (164)
Pernetti Denise L. (Cottage Grove WI) Sullivan Terrance P. (Madison WI), Adjustable breathing circuit bag arm.
Gallant Stuart L. (Owings Mills MD) Caron Paul R. (Laurel MD) Palmer Walter E. (Catonsville MD), Ambulatory ECG triggered blood pressure monitoring system and method therefor.
Boone,Otho N.; St. Clair,Nancy; Richards,John H.; McDermott,Ian; Bagnell,Joseph P.; Strecker,Robert J., Apparatus and method for patient point-of-care data management.
Florence H. Phoon ; Christopher G. Ross ; Steven W. Chang ; Thomas E. Radziminski ; Paula A. Richter-Dycaico ; Michael Kurtz, Apparatus and method for storing, tracking and documenting usage of anesthesiology items.
Lanpher Ted W. (Atherton CA) Lanpher Gregory B. (York PA) Mishelevich David J. (Cupertino CA) Minar Steven H. (El Granada CA), Apparatus and visual display method for training in the power use of aerosol pharmaceutical inhalers.
Barone David (Sharon MA) Herrig Russell (Sharon MA) Medberry Joseph M. (Seekonk MA) Volpini Paul M. (Quincy MA) Plante Joseph R. (Ashland MA), Blood processing method and apparatus with disposable cassette.
Moberg, Sheldon B.; Hanson, Ian B., Coordination of control commands in a medical device system having at least one therapy delivery device and at least one wireless controller device.
Fidacaro, James; Thrower, James Patrick; Jawidzik, Geoffrey C.; Barker, Nicholas; Cameron, Allan; Stonecipher, Brian; Wilson, Jim; Chastain, David, Display units for use in monitoring patients and related systems and methods.
Braun Jeffrey C. ; Jacobus Charles J. ; Booth Scott ; Suarez Michael ; Smith Derek ; Hartnagle Jeff ; Leprell Glenn, General-purpose medical instrumentation.
Poulsen,Jens Ulrik; Christensen,Lars Hofmann; Aasmul,Soren, Method and a system for assisting a user in a medical self treatment, said self treatment comprising a plurality of actions.
Vachtesvanos, George J.; Dorrity, Lewis J.; Wang, Peng; Echauz, Javier; Mufti, Muid, Method and apparatus for analyzing an image to detect and identify patterns.
Craig ; Jr. Kenneth C. (Bellevue WA) Gauglitz Karl F. (Kirkland WA) Losh G. Michael (Mercer Island WA) Mason Lee R. (Issaquah WA) Nova Richard C. (Kirkland WA) Taylor James W. (Bothell WA) Prosser St, Method and apparatus for indicating perfusion and oxygen saturation trends in oximetry.
Fredley,David S.; Castaneda,Julio C.; Haidar,Abraham M., Method and apparatus for selectively backlighting a plurality of displays with a common light source.
Raj Rommel R. ; Portnuff Colin M. ; Glei Matthew S., Method and apparatus for synchronizing a continuous ECG waveform display with a display of superimposed heartbeats.
Smokoff Timothy L. (Renton WA) Marlin Tom (Edmonds WA) Uhrig Herbert J. (Duluth GA), Method and system for flexibly organizing, recording, and displaying medical patient care information using fields in a.
Smokoff Timothy L. (Renton WA) Horsley Erik R. (Redmond WA), Method and system for providing safe patient monitoring in an electronic medical device while serving as a general-purpo.
Lai Joseph ; Buyan Lawrence A. ; DuBore Renee S. ; Pate Brian Lewis ; Reuss James L., Method and system for remotely monitoring multiple medical parameters.
Vapola Mauri (Espoo FIX) Merilainen Pekka (Helsinki FIX), Method for recognizing and identifying emergency situations in an anesthesia system by means of a self-organizing map.
Schmidt Albert L. (Murrysville PA) McKinley Ellen K. (Monroeville PA) Hanes Lewis F. (Pittsburgh PA) Morris Michael R. (Finksburg MD) McKenzie Patrick J. (Sykesville MD) Haley Paul H. (Monroeville PA, Method for training material evaluation with method of EEG spectral estimation.
Weisner Steven J. (Lexington MA) Grady James M. (North Andover MA) Meier Wilhelm (Herrenberg DEX) Weber Frank (Plochingen DEX), Method for use of color and selective highlighting to indicate patient critical events in a centralized patient monitori.
Agrafiotis, Dimitris K.; Lobanov, Victor S.; Salemme, Francis R., Method, system and computer program product for non-linear mapping of multi-dimensional data.
Bartsch, Michael S.; Claudnic, Mark R.; Kim, Hanyoup; Patel, Kamlesh D.; Renzi, Ronald F.; Van De Vreugde, James L., Microfluidic hubs, systems, and methods for interface fluidic modules.
Per Karlsson SE; Gunilla Lundahl SE; Michael Oljemark SE; Johan Ubby SE; Bengt Arne Sioovist SE, Myocardial ischemia and infarction analysis and monitoring method and apparatus.
Kaikuranta,Terho; Stark,Marko; Eiden,Niko; Kostiainen,Pekka, Outer decorative cover for attachment to a wireless communication device including a printed circuit board and an associated light source mounted in an interior of the wireless device.
Halpern Arieh S. (Tarzana CA) Aldrich Anthony J. (Philadelphia PA), Patient monitoring system with chassis mounted or remotely operable modules and portable computer.
DeVries Douglas F. ; Cegielski Michael J. ; Graves ; Jr. Warner V. ; Williams Malcolm R. ; Holmes Michael B., Portable drag compressor powered mechanical ventilator.
Robinson, Scott W.; Slotty, Eric R.; Clapp, Alan E.; Van Ryzin, Patrick Allen; Frangesch, Richard J., Portable patient monitor with alarm light integrated into handle.
Merkle, Peter B.; Johnson, Curtis M.; Jones, Wendell B.; Yonas, Gerold; Doser, Adele B.; Warner, David J., Real-time human collaboration monitoring and intervention.
David Darby Hood ; David Sherrill ; Todd Douglas Kneale ; Louis Stephen Toth ; David Michael Stanley ; Gene Bruce Moore ; Mark Lane Berry ; Robert Michael Garcia ; William Richard Sobko ; Do, Self-contained transportable life support system.
Hood David Darby ; Sherrill David ; Kneale Todd Douglas ; Toth Louis Stephen ; Stanley David Michael ; Moore Gene Bruce ; Berry Mark Lane ; Garcia Robert Michael ; Sobko William Richard ; Hanks Donal, Self-contained transportable life support system.
Mark J. Buczek ; Kevin M. Creed ; David A. Eister ; Douglas M. Fanney ; Michael D. Morgan ; Argelio M. Olivera ; Robert H. Peterson ; David M. Weston, Surgical console.
Webb, James D.; Nelson, C. Gary; Thies, James G.; Stauffer, Ronald A., System and method for providing remote expert communications and video capabilities for use during a medical procedure.
Wallace Charles L. ; Sanborn Warren G. ; Arnett David ; Butterbrodt Jay ; Ferguson Howard L. ; Teel H. Clay, System and method for setting and displaying ventilator alarms.
Schlegel,Todd T.; Arenare,Brian, System for the diagnosis and monitoring of coronary artery disease, acute coronary syndromes, cardiomyopathy and other cardiac conditions.
Quedens Phillip J. (Berlin CT) Dutko ; Jr. Peter J. (Durham CT) Larson Raymond F. (Middlefield CT) Donarumo Ralph A. (Wallingford CT), Ultrasonic image display mounting.
Kenley Rodney S. ; Matthews Dawn ; Wilkerson Douglas L. ; DeJesus Joel ; Brose Tom L. ; Gebhardt Andrew ; Plummer Lori A. ; Peter ; Jr. Frederick H. ; Sage Russel L. ; Treu Dennis M. ; Wiklund Michae, User interface and method for control of medical instruments, such as dialysis machines.
Fathallah, Marwan A.; Barnes, Heather J.; Delano, Kristine T.; Magurno, Amy B.; Wald, Eric R.; Paine Proctor, Corinna S.; Roughton, Kevin O.; Barkan, Kevin; Huang, John W.; Silkaitis, Raymond P.; Cozmi, Mihaela; Davis, Glenn; Rubalcaba, Jr., Bernardino; Schroeder, Katalin M.; Willey, Suzanne, User interface improvements for medical devices.
Foster L. Dale (Brookville IN) Reeder Ryan A. (Brookville IN), Ventilator and care cart each capable of nesting within and docking with a hospital bed base.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.