Combination respiratory therapy device, system, and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
A61M-016/00
A61H-031/00
A61H-009/00
G06F-019/00
A61M-016/06
A61M-016/16
A61M-016/10
출원번호
US-0692192
(2012-12-03)
등록번호
US-9795752
(2017-10-24)
발명자
/ 주소
Birnkrant, David J.
Boerst, Chad M.
ChangGuo, Mike Yang
출원인 / 주소
MHS CARE-INNOVATION, LLC
대리인 / 주소
Klein, Richard M.
인용정보
피인용 횟수 :
0인용 특허 :
252
초록▼
A combination respiratory therapy management system creates a combined respiratory therapy prescription that can be executed by a combined respiratory therapy device to provide multiple coordinated respiratory therapies to a patient. The system can update the combined respiratory therapy prescriptio
A combination respiratory therapy management system creates a combined respiratory therapy prescription that can be executed by a combined respiratory therapy device to provide multiple coordinated respiratory therapies to a patient. The system can update the combined respiratory therapy prescription and implement the updates while the combined respiratory therapy device is in use. Some versions of the system provide additional features that allow the combined respiratory therapy prescriptions to be created, accessed, shared with other users, and performed by the combination respiratory therapy device in a customizable user-friendly and non-threatening way.
대표청구항▼
1. An apparatus including a computing device configured with a combination respiratory therapy prescription creator embodied in one or more non-transitory machine-accessible storage media executable by the computing device to: receive data indicating a respiratory condition of a person;determine, ba
1. An apparatus including a computing device configured with a combination respiratory therapy prescription creator embodied in one or more non-transitory machine-accessible storage media executable by the computing device to: receive data indicating a respiratory condition of a person;determine, based on the respiratory condition, a combination of pre-defined respiratory therapies from a plurality of possible therapies, the possible therapies comprising lung ventilation, lung volume recruitment, mucus extraction, and mucus mobilization therapies;select a combination respiratory therapy device from a family of combination respiratory therapy devices included in the apparatus based on the determined combination of therapies, wherein each of the combination respiratory therapy devices comprises a plurality of separate interfaces that are engageable with the person to provide: (i) a combination of lung ventilation therapy or lung volume recruitment therapy and (ii) mucus extraction therapy; or (i) lung ventilation therapy or lung volume recruitment therapy and (ii)mucus mobilization therapy; or (i) lung ventilation therapy or lung volume recruitment therapy and (ii) mucus extraction therapy and (iii) mucus mobilization therapy; andbased on the respiratory condition, create a respiratory therapy prescription to be executed by the selected combination respiratory therapy device without disengaging the selected combination respiratory therapy device from the person, the respiratory therapy prescription specifying at least: (i) a lung ventilation or a lung volume recruitment therapy and (ii) a mucus extraction therapy or a mucus mobilization therapy to be provided by the selected combination respiratory therapy device to the person;wherein the computing device is included in the apparatus and the combination respiratory therapy devices of the apparatus from which to select comprise a blower for providing pressurized air to a mouthpiece coupled to the person's airway and an air pulse generator configured for delivering air pulses to both a garment worn by the person and a nasal interface worn by the person. 2. The apparatus of claim 1, the computing device further configured to define a treatment session to be executed by the selected combination respiratory therapy device, wherein the treatment session comprises a treatment sequence and the treatment sequence comprises a mucus extraction therapy substantially immediately followed by a lung ventilation therapy or a lung volume recruitment therapy. 3. The apparatus of claim 2, the computing device further configured to specify a number of times the treatment sequence is to be repeated during the treatment session and define a duration of the treatment session based on the number of times the treatment sequence is to be repeated. 4. The apparatus of claim 2, the computing device further configured to define a time at which the mucus mobilization therapy is to be executed by the selected combination respiratory therapy device prior to the execution of the treatment session. 5. The apparatus of claim 2, the computing device further configured to define a time at which another lung ventilation or lung volume recruitment therapy is to be executed by the selected combination respiratory therapy device after the execution of the treatment session. 6. The apparatus of claim 2, the computing device further configured to define another treatment session to be executed by the selected combination respiratory therapy device prior to the execution of the treatment session. 7. The apparatus of claim 6, wherein the other treatment session comprises a different treatment sequence. 8. The apparatus of claim 1, the computing device further configured to define a treatment session to be executed by the selected combination respiratory therapy device, wherein the treatment session comprises a plurality of treatment sequences and each treatment sequence comprises a mucus extraction therapy substantially immediately followed by a lung ventilation therapy or a lung volume recruitment therapy. 9. The apparatus of claim 8, the computing device further configured to define the mucus extraction therapy as a plurality of cough cycles that are consecutively repeated by the selected combination respiratory therapy device and to define each cough cycle as comprising an application of positive-pressure air flow by the selected combination respiratory therapy device followed by an application of negative-pressure air flow by the selected combination respiratory therapy device. 10. The apparatus of claim 9, the computing device further configured to define a duration of time for which the lung ventilation therapy or lung volume recruitment therapy is performed by the selected combination respiratory therapy device. 11. The apparatus of claim 1, the computing device further configured to specify an audio message to be played by the selected combination respiratory therapy device at a time prior to the combination respiratory therapy device performing the combination respiratory therapy prescription. 12. The apparatus of claim 11, the computing device further configured to associate a digital graphic or animation of a user-selected mascot with the audio message. 13. The apparatus of claim 1, the computing device further configured to receive data relating to a change in the person's respiratory condition and modify the respiratory therapy prescription based on the data relating to the change in the person's respiratory condition. 14. The apparatus of claim 13, the computing device further configured to define a treatment session to be performed by the selected combination respiratory therapy device, define a time interval after which the treatment session is to be performed, receive data relating to a change in the person's respiratory condition, and change the time interval based on the data relating to the change in the person's respiratory condition. 15. The apparatus of claim 13, the computing device further configured to define a treatment session to be performed by the selected combination respiratory therapy device, wherein the treatment session comprises a treatment sequence and the treatment sequence comprises a mucus extraction therapy followed by a lung ventilation therapy or a lung volume recruitment therapy; to receive data relating to a change in the person's respiratory condition; andto add a mucus mobilization therapy to the respiratory therapy prescription based on the change in the person's respiratory condition. 16. The apparatus of claim 13, the computing device further configured to define a treatment session to be performed by the selected combination respiratory therapy device, wherein the treatment session comprises a treatment sequence and the treatment sequence comprises a mucus extraction therapy followed by a lung ventilation therapy or a lung volume recruitment therapy; to receive data relating to a change in the person's respiratory condition; andto add another lung ventilation therapy or lung volume recruitment therapy following the treatment session based on the change in the person's respiratory condition. 17. The apparatus of claim 13, the computing device further configured to define a treatment session to be performed by the selected combination respiratory therapy device, wherein the treatment session comprises a treatment sequence and the treatment sequence comprises a mucus extraction therapy followed by a lung ventilation therapy or a lung volume recruitment therapy; to receive data relating to a change in the person's respiratory condition; andto increase an inspiratory pressure associated with the mucus extraction therapy based on the change in the person's respiratory condition. 18. The apparatus of claim 13, the computing device further configured to define a treatment session to be performed by the selected combination respiratory therapy device, wherein the treatment session comprises a treatment sequence and the treatment sequence comprises a mucus extraction therapy followed by a lung ventilation therapy or a lung volume recruitment therapy; to receive data relating to a change in the person's respiratory condition; andto increase an expiratory pressure associated with the mucus extraction therapy based on the change in the person's respiratory condition. 19. The apparatus of claim 13, the computing device further configured to define a treatment session to be performed by the selected combination respiratory therapy device, wherein the treatment session comprises a treatment sequence to be repeated a number of times during the treatment session and the treatment sequence comprises a mucus extraction therapy followed by a lung ventilation therapy or a lung volume recruitment therapy; to receive data relating to a change in the person's respiratory condition; andto increase the number of times the treatment sequence is to be repeated based on the change in the person's respiratory condition. 20. The apparatus of claim 1, the computing device further configured to receive data relating to a change in the person's respiratory condition and select a different combination respiratory therapy device from the family of combination respiratory therapy devices based on the data relating to the change in the person's respiratory condition. 21. The apparatus of claim 1, the computing device further configured to electronically communicate the respiratory therapy prescription to a mobile device configured for use by a respiratory therapist. 22. The apparatus of claim 1, the computing device further configured to electronically communicate the respiratory therapy prescription to a device configured for use by the person. 23. The apparatus of claim 1, the computing device further configured to present an interactive graphical depiction of the respiratory therapy prescription at the computing device. 24. The apparatus of claim 23, wherein the interactive graphical depiction comprises a 24-hour timeline and one or more interactive slide bars to adjust the duration of portions of the respiratory therapy prescription along the timeline. 25. The apparatus of claim 23, wherein the interactive graphical depiction comprises an animated simulation of at least a portion of the respiratory therapy prescription, and the animated simulation comprises a graphical depiction of at least a portion of human lungs receiving the simulated portion of the respiratory therapy prescription. 26. The apparatus of claim 1, the computing device further configured to electronically communicate the respiratory therapy prescription to the selected combination respiratory therapy device for automated execution by the selected combination respiratory therapy device. 27. The apparatus of claim 1, further configured to receive the respiratory therapy prescription from the computing device at a mobile device configured for use by a respiratory therapist and electronically communicate the respiratory therapy prescription from the mobile device to the selected combination respiratory therapy device.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (252)
Hughes Arthur R., Acoustic respiratory therapy apparatus.
Del Bon Franco (Eggenacherstrasse 52 CH-4663 Aarburg CHX) Treyer Walter (Dorngasse 43 CH-8967 Widen CHX), An inhalation device and method having a variably restrictable air inlet that allows the inhalation force required to ov.
Bunnell J. Bert (Salt Lake City UT) Faddis Chris G. (Salt Lake City UT), Apparatus and method for delivering medication to patient\s respiratory system.
Delache, Alain J.; Souquet, Jacques; Emerson, Paul F.; Campbell, James L., Apparatus and method for providing a breathing gas employing a bi-level flow generator with an AC synchronous motor.
Truitt,Patrick W.; Truschel,William A.; Hete,Bernie F.; Bobeck,Michael; Haas,Michael W., Apparatus and method for providing high frequency variable pressure to a patient.
Truitt, Patrick W.; Truschel, William A.; Hete, Bernie F.; Bobeck, Michael; Haas, Michael W., Apparatus and method of providing high frequency variable pressure to a patient.
Scarberry Eugene N. (208 Terrace Ct. Rd. Trafford PA 15085) Handke Patrick M. (416 Brunner Dr. Monroeville PA 15146), Apparatus for application of pressure to a human body.
Wickham Peter John Deacon,AUX ; Virr Alexander,AUX ; Smith Ian Malcolm,AUX ; Dantanarayana Muditha Pradeep,AUX ; Clark Stanley,AUX, Apparatus for supplying breathable gas.
Valdespino Joseph M. (5023 Golf Club Pkwy. Orlando FL 32808) Hobby ; III William M. (244 Sylvan Blvd. Winter Park FL 32789), Apparatus for testing pulmonary functions.
Franetzki Manfred (Erlangen DT) Korn Volker (Nuremberg DT) Prestele Karl (Erlangen DT), Apparatus for the determination of the respiratory passageway resistance.
Brueckner Gerald G. (16135 Timberview Fraser MI 48026) Cantrell Edward (31251 Beechwood Warren MI 48093), Apparatus to assist leg venous and skin circulation.
Riggs John H. (3720 Summer Pl. Raleigh NC 27604) Mangum Barry (1105 Shadywood La. Raleigh NC 27603), Continuous flow nebulizer apparatus and method, having means maintaining a constant-level reservoir.
Reese David M. (c/o Spectramed Inc. ; 805 Liberty La. Dayton OH 45449) Rauterkus L. Thomas (c/o Spectramed Inc. ; 805 Liberty La. Dayton OH 45449) Jensen Robert L. (4719 Broom St. San Antonio TX 7821, High frequency ventilation method.
Jing-Qi ; deceased Chen (6225 Hwy. 6 South late of Houston TX) Huai-Xue Zhu ; heir by Judy C. (6225 Hwy. 6 South Houston TX 77083), Hula chair having aligned movement with curvilinear-circular, swivel-rock, and vertical motions.
Blasdell Richard J. (4233 E. Mountain View Rd. Phoenix AZ 85028) Blasdell Raymond L. (691 E. Fairway Dr. Litchfield Park AZ 85340), Inhalation apparatus.
Blasdell Richard J. (4233 E. Mountain View Rd. Phoenix AZ 85028) Blasdell Raymond L. (691 E. Fairway Dr. Litchfield Park AZ 85340), Inhalation apparatus.
Raabe Otto G. (Davis CA) Lee James I. C. (Sacramento CA) Hathaway James C. (Sacramento CA), Intermittent signal actuated nebulizer synchronized to operate in the exhalation phase, and its method of use.
Rubsamen Reid M. (Berkeley CA) Lloyd Lester J. (Orinda CA) Johansson Eric T. (Dublin CA), Lockout device for controlled release of drug from patient-activated dispenser.
Cardinal Pierre (Gatineau CAX) Carscallen William E. (Ottawa CAX) Ireland Robert (Ramsay CAX), Method and apparatus for assisting expulsional movement of pulmonary secretions via supramaximal flows.
Blanch, Paul B.; Meka, Vikas; Euliano, Neil R., Method and apparatus for non-invasive prediction of intrinsic positive end-expiratory pressure (PEEP) in patients receiving ventilator support.
Estes, Mark C.; Fiore, John; Mechlenburg, Douglas M.; Ressler, Heather; Kepler, Jeff, Method and apparatus for providing positive airway pressure to a patient.
Estes Mark C. (Irwin PA) Fiore John H. (Irwin PA), Method and apparatus for providing proportional positive airway pressure to treat sleep disordered breathing.
Weinstein, Robert E., Method and device for organizing and coordinating the combined use of liquid medications for continuous nebulization for the treatment of respiratory disorders.
Joseph Hess CH; Hu Bo CH; Raphael Weber CH; Isabel Ortega CH; Cedric Barraud CH; Nicolaas Frans de Rooij CH; Bas de Heij CH, Optimized liquid droplet spray device for an inhaler suitable for respiratory therapies.
Mulligan James C. (Raleigh NC) Colvin David P. (Apex NC) Colvin Virginia S. (Raleigh NC) Gravely Benjamin T. (Raleigh NC) Lord Charles J. (Cary NC) Moody David B. (Cary NC) Whitney Raymond A. (Raleig, Percussive aid for the treatment of chronic lung disease.
Macklem Peter T.,CAX ; Que Cheng-Li,CNX ; Kelly Suzanne M.,CAX ; Kolmaga Krzystof,CAX ; Durand Louis-Gilles,CAX, Phonospirometry for non-invasive monitoring of respiration.
Niles Rex A. (Oneida NY) McHenry Ronald (E. Syracuse NY) Puderbaugh George (Manlius NY) Scheuermann Stephen J. (Oneida NY), Positive expiratory pressure device.
Pelerossi, Richard K.; King, Gregory S.; Foran, Jennifer M.; Weinstein, Lawrence A.; Richards, Fredrick M.; Zirps, Christopher T.; Elden, Robert H., Positive expiratory pressure device.
Pelerossi, Richard K.; King, Gregory S.; Foran, Jennifer M.; Weinstein, Lawrence A.; Richards, Fredrick M.; Zirps, Christopher T.; Elden, Robert H., Positive expiratory pressure device with bypass.
Tuitt, Patrick W.; Lordo, Richard J.; Gesner, Joseph J., Pressure support system and method and a pressure control valve for use in such system and method.
Brooker Michael J. ; Frye John E. ; Kotnik Paul T. ; Mosholder Michael B. ; Placke Michael E. ; Zimlich ; Jr. William C., Pulmonary dosing system and method.
Brooker, Michael J.; Frye, John E.; Kotnik, Paul T.; Mosholder, Michael B.; Placke, Michael E.; Zimlich, Jr., William C., Pulmonary dosing system and method.
DeVries Douglas F. (Redlands CA) Williams Malcolm R. (San Clemente CA) Dack J. Kelly (Riverside CA) Hagen Randy P. (Corona CA) Guillaume Darrell W. (Corona CA), Ventilator exhalation valve.
Hand Barry D. (Mount Pleasant SC) Novack Robert C. (Charleston SC) Williamson Donald E. (N. Charleston SC) Stolpmann James R. (Charleston SC) Chambers Kenith W. (Charleston SC), Vibratory patient support system.
Robinson Pat D. (20865 Palamino Rd. Pine Grove CA 95665), “Peeper”performance hand held nebuilizer attachment with adjustability of expiratory pressures and expiratory restrict.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.