An alarm system (52) for a medical pump (50) associated with delivering a fluid (54) to a patient in connection with treatment of the patient is provided. The alarm system (52) comprises an alarm (60) associated with at least one treatment parameter. The alarm (60) includes a first alarm state (1) a
An alarm system (52) for a medical pump (50) associated with delivering a fluid (54) to a patient in connection with treatment of the patient is provided. The alarm system (52) comprises an alarm (60) associated with at least one treatment parameter. The alarm (60) includes a first alarm state (1) associated with a first event relating to the treatment parameter and a second alarm state (2) associated with a second event. The second alarm state (2) is discernable from the first alarm state (1), which will allow each of the events to be treated differently by a caregiver.
대표청구항▼
1. An alarm system for a medical pump associated with delivering a medicament to a patient, the alarm system comprising: at least one computer programmed to operate (i) an alarm associated with at least one treatment parameter, the alarm having a first alarm state associated with a first event relat
1. An alarm system for a medical pump associated with delivering a medicament to a patient, the alarm system comprising: at least one computer programmed to operate (i) an alarm associated with at least one treatment parameter, the alarm having a first alarm state associated with a first event relating to the at least one treatment parameter and a first alarm signal, and (ii) a snooze element deactivating the first alarm state after the first event has occurred and enabling a second alarm state to be activated when a predefined amount of time has expired from an occurrence of the first event, the second alarm state associated with a second alarm signal discernable from the first alarm signal, and wherein the snooze element does not deactivate the delivery of the medicament to the patient. 2. An alarm system for a medical pump associated with delivering a medicament to a patient, the alarm system comprising: at least one computer programmed to operate (i) an alarm associated with at least one treatment parameter, the alarm having a first alarm state associated with a first event relating to the at least one treatment parameter and a first alarm signal, and (ii) a snooze element that deactivates the first alarm state and at the same time sets a second alarm state associated with a second event and a second alarm signal, the second event activating the second alarm state when a predefined amount of time has expired from an occurrence of the first event, the second alarm signal discernable from the first alarm signal. 3. The alarm system of claim 1, wherein the second alarm signal is visual text that is different from visual text associated with the first alarm signal. 4. The alarm system of claim 1, wherein the second alarm signal is an escalation of a tone associated with the first alarm signal. 5. The alarm system of claim 1, wherein the second alarm signal is an escalation of a volume associated with the first alarm signal. 6. The alarm system of claim 1, wherein the second alarm signal is an escalation of a frequency associated with the first alarm signal. 7. The alarm system of claim 1, wherein the at least one treatment parameter is associated with the pump. 8. The alarm system of claim 1, wherein the at least one treatment parameter is associated with a source external to the pump. 9. The alarm system of claim 1, wherein the alarm signals associated with the alarm states are routed to a device external to the pump. 10. The alarm system of claim 1, wherein the alarm is audible. 11. The alarm system of claim 10, wherein the second alarm signal has a volume level that is discernable from the first alarm signal. 12. The alarm system of claim 10, wherein the second alarm signal has a tone that is discernable from the first alarm signal. 13. The alarm system of claim 10, wherein the second alarm signal has a frequency that is discernable from the first alarm signal. 14. The alarm system of claim 1, wherein the alarm is visual. 15. The alarm system of claim 14, wherein the second alarm signal has an appearance that is discernable from the first alarm signal. 16. The alarm system of claim 1, wherein the alarm has an audible component and a visual component. 17. The alarm system of claim 2, wherein the second event is associated with a life-threatening situation for the patient. 18. The alarm system of claim 1, wherein the pump is adapted to shut off when the alarm is in the second alarm state. 19. The alarm system of claim 2, wherein the events can be set by a user. 20. The alarm system of claim 1, wherein the second alarm state is operational with a particular medicament. 21. The alarm system of claim 20, wherein identification of the particular medicament is adapted to be stored in a memory associated with the pump. 22. The alarm system of claim 2, wherein the second event relates to the at least one treatment parameter. 23. The alarm system of claim 2, wherein the alarm is perceptive to an operator. 24. The alarm system of claim 2, wherein the at least one treatment parameter is associated with a source external to the pump. 25. The alarm of claim 2, wherein the alarm signals associated with the alarm states are routed to a device external to the pump. 26. An alarm system for a medical pump for delivering a therapeutic fluid to a patient, the alarm system comprising: at least one computer programmed to operate (i) an alarm associated with at least one operating parameter, the alarm having a first alarm state and a second alarm state, the first alarm state associated with a first alarm signal indicating a non-critical deviation from an original value of the at least one operating parameter, the second alarm state associated with a second alarm signal discernable from the first alarm signal and indicating a critical deviation from the original value of the at least one operating parameter, and (ii) a snooze element that when activated deactivates the first alarm state, enables the second alarm state to be activated upon an occurrence of the critical deviation, and allows the medical pump to continue delivering the medicament to the patient at least until the critical deviation occurs. 27. An alarm system for a medical pump associated with delivering a fluid to a patient in connection with treatment of the patient, the alarm system comprising: at least one computer programmed to operate (i) an alarm associated with at least one treatment parameter, the alarm having a first alarm state associated with a first event relating to the at least one treatment parameter, and a second alarm state associated with a second event relating to the at least one treatment parameter, the first alarm state associated with a first alarm signal, the second alarm state associated with a second alarm signal discernable from the first alarm signal; and(ii) a snooze element that when activated deactivates the first alarm state, enables the second alarm state to be activated upon an occurrence of the second event, and allows the medical pump to continue delivering the medicament to the patient at least until the second event occurs. 28. The alarm system of claim 27, wherein the second event is preprogrammed into a memory of the system. 29. The alarm system of claim 27, wherein the second event is programmed into a memory of the system at a point of care of the patient. 30. The alarm system of claim 27, the alarm further including a third alarm state associated with a third event. 31. The alarm system of claim 27, wherein the second event is a value associated with the at least one treatment parameter. 32. The alarm system of claim 31, wherein the value is a unit of time. 33. The alarm system of claim 31, wherein one of the first and second alarm signals comprises an escalating alarm that escalates relative to a change in the at least one treatment parameter. 34. The alarm system of claim 31, wherein the value is related to a volume parameter of the fluid. 35. The alarm of claim 31, wherein the value is a unit of time remaining until a predetermined volume level of fluid is reached during operation of the pump. 36. An alarm system for a medical device used in connection with treatment of a patient, the alarm system comprising: at least one computer programmed to operate (i) an alarm associated with at least one treatment parameter, the alarm having a first alarm state associated with a first event relating to the at least one treatment parameter, and a second alarm state associated with a second event relating to the at least one treatment parameter, the first alarm state associated with a first alarm signal, the second alarm state associated with a second alarm signal discernable from the first alarm signal; and(ii) a snooze element that when activated deactivates the first alarm state, enables the second alarm state to be activated upon an occurrence of the second event, and allows a medical pump to continue delivering a medicament to the patient at least until the second event occurs. 37. A pump assembly associated with delivering a medicament to a patient comprising: a MEMS pump having an alarm system including at least one computer programmed to operate (i) an alarm associated with at least one treatment parameter, the alarm having a first alarm state associated with a first event relating to the at least one treatment parameter, the first alarm state associated with a first alarm signal, and (ii) a snooze element deactivating the first alarm state after the first event has occurred and enabling a second alarm state to be activated upon occurrence of a predefined amount of time expiring from an occurrence of the first event, the second alarm state associated with a second alarm signal discernable from the first alarm signal, and wherein the snooze element does not deactivate the delivery of the medicament to the patient. 38. The pump assembly of claim 37, wherein the MEMS pump has a controller and the alarm system residing in the controller, the controller communicating with the MEMS pump via a wireless connection. 39. A pump assembly associated with delivery of a medicament to a patient comprising: a MEMS pump having an alarm system including at least one computer programmed to operate (i) an alarm associated with at least one treatment parameter, the alarm having a first alarm state associated with a first event relating to the at least one treatment parameter, and a second alarm state associated with a second event relating to the at least one treatment parameter, the first alarm state associated with a first alarm signal, the second alarm state associated with a second alarm signal discernable from the first alarm signal; and(ii) a snooze element that when activated deactivates the first alarm state, enables the second alarm state to be activated upon an occurrence of the second event, and allows the MEMS pump to continue delivering the medicament to the patient at least until the second event occurs.
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Leslie James E. (Moundsview MN) Anderson Everett D. (Maplewood MN), Ambulatory infusion pump having programmable parameters.
Peterson Bruce A. (Milwaukie OR) Connell Mark E. (Sandy OR) Bedient Robert A. (Portland OR) Elsen Raymond (Antwerp OR BEX) Hogard Michael E. (Oregon City OR) Johnson Harley D. (Portland OR) Kelly Tho, Apparatus for performing a self-test of kidney dialysis membrane.
Epstein Paul (Brookline MA) Petschek Harry (Lexington MA) LaWhite Eric (South Royalton VT) Strohl Clair (Norfolk MA) Coyne Henry (Framingham MA) Kaleskas Edward (Jefferson MA) Adaniya George (Swampsc, Cassette for programable multiple input infusion system.
Johnson Noel L. (San Jose CA) Huang Jyh-yi T. (Sunnyvale CA) Chang Tao (Saratoga CA), Control of a multi-channel drug infusion pump using a pharmacokinetic model.
Poli Robert G. (Campbell CA) Johnson Noel L. (San Jose CA) Burnside Robert R. (Mountain View CA) Chamness Leland D. (Mountain View CA) Huang J. Terry (Sunnyvale CA) Thomas V. Stanton (Palo Alto CA), Drug identification and security apparatus for infusion and pumping systems.
Kriesel Marshall S ; Kazemzadeh Farhad ; Kriesel Matthew B. ; Feng William W ; Thompson Thomas N, Fluid delivery device with conformable ullage and fill assembly.
Kriesel Marshall S. ; Kazemzadeh Farhad ; Kriesel Matthew B. ; Feng William W. ; Thompson Thomas, Fluid delivery device with conformable ullage and fill assembly.
Kenley Rodney S. (Libertyville IL) Treu Dennis M. (Gurnee IL) Peter ; Jr. Frederick H. (Barrington IL) Feldsein Thomas M. (Palatine IL) Pawlak Kenneth E. (Vernon Hills IL) Adolf Wayne F. (Mt. Prospec, Hot water disinfection of dialysis machines, including the extracorporeal circuit thereof.
Simons Tad D. (Menlo Park CA) Stawitcke Frederick A. (Sunnyvale CA) Reed William M. (Carlisle MA) Tessier Paul A. (Hudson MA), IV pump and disposable flow chamber with flow control.
Van Den Enden Gijsbert J.,NLX ; Spruit Johannes H. M.,NLX, Information carrier, reading/writing device and reading device for writing and/or reading information blocks.
Gargano Diane A. ; Flachbart Eric J. ; Cowen Barry ; Duh Monica ; Rudser ; Jr. John L. ; Zhen Ken ; Noble Lynn ; Warhurst Julian ; Pedraza Luis, Infusion pump for at least one syringe.
Coutre James E. (114 Stone Root La. Concord MA 01742) Griffin Wayne P. (55 Surrey La. Dracut MA 01826) Crisler Charles M. (10 Sunridge Rd. Windham NH 03087), Infusion pump management system for suggesting an adapted course of therapy.
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.
Ford Alan D. ; Sims Nathaniel M. ; Mandro Marc A., Infusion pump with an electronically loadable drug library and a user interface for loading the library.
Epstein Paul (Brookline MA) Petschek Harry (Lexington MA) LaWhite Eric (South Royalton VT) Strohl Clair (Norfolk MA) Coyne Henry (Framingham MA) Kaleskas Edward (Jefferson MA) Adaniva George (Swampsc, Infusion system having plural fluid flow lines.
Epstein Paul (Brookline MA) Petschek Harry (Lexington MA) LaWhite Eric (South Royalton VT) Strohl Clair (Norfolk MA) Coyne Henry (Framingham MA) Kaleskas Edward (Jefferson MA) Adaniva George (Swampsc, Infusion system having plural fluid input ports and at least one patient output port.
Epstein Paul (Brookline MA) Petschek Harry (Lexington MA) LaWhite Eric (South Royalton VT) Strohl Clair (Norfolk MA) Coyne Henry (Framingham MA) Kaleskas Edward (Jefferson MA) Adaniya George (Swampsc, Infusion system having plural fluid input ports and at least one patient output port.
Schneider Philip H. (2939A Cowley Way San Diego CA 92117) Weber William J. (520 W. Ellis Ave. Inglewood CA 90302) Massaro Thomas A. (1339 Hill Top Rd. Charlottesville VA 22903), Insulin infusion pump.
Scott Charles Evans ; John Erik Hershey ; David Michael Davenport ; Harold Woodruff Tomlinson, Jr. ; Ralph Thomas Hoctor ; Kenneth Brakeley Welles, II ; Stephen Michael Hladik, Integrated wireless broadband communications network.
Brimm John E. (Scottsdale AZ) Diaz Oscar R. (Phoenix AZ) Fein Murray A. (Phoenix AZ) Norden-Paul Ronald E. (Peoria AZ) Stern Michael M. (Needham MA) Stewart Sandra L. (Phoenix AZ), Medical information system with automatic updating of task list in response to charting interventions on task list windo.
Brimm John E. (Scottsdale AZ) Diaz Oscar R. (Phoenix AZ) Fein Murray A. (Phoenix AZ) Norden-Paul Ronald E. (Peoria AZ) Stern Michael M. (Needham MA) Stewart Sandra L. (Phoenix AZ), Medical information system with automatic updating of task list in response to entering orders and charting intervention.
Meinzer Randolph ; Esche Grace M. ; Michael Eric J. ; Knowlton Kimball J. ; Bennett Cynthia ; Linner Eric ; Lynn Kenneth M. ; Kruft Joseph ; Hirotsuka Eileen D. ; Kusswurm Daniel ; Zeisloft Jane M. ;, Medical infusion pump.
Thomas Blum DE; Dirk Birrenbach DE; Thomas Reichert DE, Medical workstation for treating a patient with a voice recording arrangement for preparing a physician's report during treatment.
Schoon JoAnna (Santa Ana CA) Weyant Robert R. (Claremont CA) Zobel Gregory B. (Laguna Niguel CA), Method and apparatus for automatic profiled infusion in cyclic TPN.
Dulong, Donna B.; Wehba, Steven R.; Comer, Douglas W.; Stark, Joanne S.; Kurtz, Michael A.; Trohimovich, Barbara, Method and apparatus for displaying medication information.
Robert A. Warner ; Kevin P. Jessup ; Gardar T. Middleton ; Mark Palma ; Hansdieter Moessner DE, Method and apparatus for displaying physiological patient data.
Paul E. Licato ; Peter C. Bosch ; Suriyanarayana Venkatraman ; Robert Steven Stormont, Method and apparatus for managing peripheral devices in a medical imaging system.
Duffy Robert J. ; Severe Lon M. ; Richards Edward M. ; DeKalb Shawn W. ; Stewart James P., Method and apparatus for power connection in a modular patient care system.
Bollish Stephen J. (San Diego CA) Bramble Robert A. (San Diego CA) Firing Eric L. (San Diego CA), Method and apparatus for preprogrammed infusion of IV medicaments.
Zafirelis, Zafiris G.; Marous, III, John C.; Yu, Yih-Choung; Lehmann, Kirk A.; Johnson, Gregory A., Method and system for closed chest blood flow support.
Paul D. Frelburger ; Sankaralingam Ramraj ; Aaron J. Schuman, Method and system for using personal digital assistants with diagnostic medical ultrasound systems.
Shelton Richard (Mesa AZ) Thurman Audree (Phoenix AZ) Person Stanley (Mesa AZ) Norden-Paul Ronald (Mesa AZ), Method for displaying information from an information based computer system.
Norden-Paul Ronald E. (Peoria AZ) Fein Murray A. (Phoenix AZ) Stewart Sandra L. (Phoenix AZ), Method for generating patient-specific flowsheets by adding/deleting parameters.
Lawless Michael W. (Poway CA) Soberon Peter A. (Cardiff CA) Kaul Ashok (San Diego CA) Minick Steven E. (San Diego CA) Hoerner Gregory G. (Poway CA) Hermann Robert A. (Chula Vista CA) Kreinick Stephen, Method of delivering liquid to a patient via a disposable pumping cassette having a flow control & pressure monitoring m.
Lebel, Ronald J.; Shahmirian, Varaz; Bowman, IV, Sam W.; Starkweather, Timothy J.; Morgan, Wayne A., Microprocessor controlled ambulatory medical apparatus with hand held communication device.
Lebel, Ronald J.; Shahmirian, Varaz; Starkweather, Timothy J.; Villegas, Daniel H.; Weiss, Philip T., Microprocessor controlled ambulatory medical apparatus with hand held communication device.
Eggers Philip N. ; Schipper Jeffery D. ; Duffy Robert J. ; Bollish Stephen J. ; Vanderveen Timothy W. ; Evans Derek K. ; Kelsky Richard B., Modular patient care system.
Bergmann Martin,DEX ; Rester Heribert,DEX ; Schirbl Reinhard,DEX, Modular peripheral unit expandable by modules and having an automatically establishing electrical connection.
Weber Jean-luc M. (Salon de Provence FRX) Confort ; wife Gouny Sylviane M. M. (Marseille FRX), Monitoring system for the remote supervision of a plurality of gravity perfusion sets.
Evers David C. (Acworth GA) Lindsey A. Darrell (Marrietta GA) Finch Marcus (Atlanta GA) Gorsuch Reynolds G. F. (Yountville CA), Patient monitor and support system.
Cudahy Michael J. (Delray Beach FL) De La Huerga Carlos (Shorewood WI) Arneson Harold N. (Waukesha WI) Divers R. Thomas (Mequon WI) Altman Barry J. (Mequon WI), Patient monitoring system having transportable data module and display unit.
McDonald Sean C. (Pittsburgh PA) McDonald Robert H. (Pittsburgh PA) Lunak Richard R. (Fair Oaks PA) Zini Aldo (Pittsburgh PA), Portable nursing center.
McDonald Sean C. (Pittsburgh PA) McDonald Robert H. (Pittsburgh PA) Lunak Richard R. (Fair Oaks PA) Zini Aldo (Pittsburgh PA), Portable nursing center.
Bishop Thomas (Wenham MA) Sovak Joseph Michael (North Reading MA) Foreman Colette A. (North Andover MA), Portable patient monitor reconfiguration system.
Alan E. Clapp ; Eric R. Slotty ; Michael P. Cornelson ; Scott W. Hoelscher ; John P. Tennessen, Portable patient monitor with antenna integrated into handle.
Epstein Paul (Brookline MA) Petschek Harry (Lexington MA) LaWhite Eric (South Royalton VT) Strohl Clair (Norfolk MA) Coyne Henry (Framingham MA) Kaleskas Edward (Jefferson MA) Adaniva George (Swampsc, Pressure responsive multiple input infusion system.
Epstein Paul (Brookline MA) Petschek Harry (Lexington MA) LaWhite Eric (South Royalton VT) Strohl Clair (Norfolk MA) Coyne Henry (Framingham MA) Kaleskas Edward (Jefferson MA) Adaniya George (Swampsc, Pressure responsive multiple input infusion system.
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.
Epstein Paul (Brookline MA) Petschek Harry (Lexington MA) LaWhite Eric (South Royalton VT) Strohl Clair (Norfolk MA) Coyne Henry (Framington MA) Kaleskas Edward (Jefferson MA) Adaniya George (Swampsc, Remotely programmable infusion system.
Hernandez-Guerra Francisco M. ; Calderon Edward Lewis ; Forknall Simon John ; Pond David L., System and method for dose monitoring in an intensity modulated radiation treatment system.
Bocionek, Siegfried; Hanslik, Margo; Russwurm, Siegfried, System and user interface for use in providing medical information and health care delivery support.
Stoker Ronald L. ; Backman Darryl Kent ; Durham Christopher L. ; Foote Jerrold L. ; Hendry Garlyn W. ; McArthur Gregory R. ; Rhees Jon ; Stout Thomas D. ; Taylor Steve R. ; Woelper William, System for electronically monitoring the delivery of contrast media.
Pfeiler Manfred (Erlangen DEX) Mund Konrad (Uttenreuth DEX) Preidel Walter (Erlangen DEX) Sjoeholm Goesta (Ekeroe SEX), System for infusion of medicine into the body of a patient.
Blomquist Michael L. (Coon Rapids MN) Peterson Thomas L. (Shoreview MN), Systems and methods for operating ambulatory medical devices such as drug delivery devices.
Blomquist Michael L. (Coon Rapids MN) Peterson Thomas L. (Shoreview MN), Systems and methods for operating ambulatory medical devices such as drug delivery devices.
Cudahy Michael J. (Delray Beach FL) De La Huerga Carlos (Shorewood WI) Arneson Harold N. (Waukesha WI) Divers R. Thomas (Mequon WI) Altman Barry J. (Mequon WI), Transportable data module and display unit for patient monitoring system.
Jago James R. ; Roundhill David N. ; Dickerson Kenneth ; Dewar Ian ; Wood Michael A. ; Roncalez Pascal ; Ungari Joseph L., Ultrasonic diagnostic imaging system with access to reference image library.
Canfield ; II Earl M. ; Quistgaard Jens Ulrich ; Dickerson Kenneth ; Lauder David ; Roncalez Pascal ; Wood Michael A. ; Roundhill David N., Ultrasonic diagnostic imaging system with electronic message communications capability.
Stewart, Janice; Meinzer, Randolph; Bello, Debra K.; Mullan, Janet; Wong, Lai H.; Todd, Brett; Kivlehan, Todd, Multi-state alarm system for a medical pump.
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