| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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| 161 | TREATMENT OF ASTHMA, ALLERGIC RHINITIS AND IMPROVEMENT OF QUALITY OF SLEEP BY TEMPERATURE CONTROLLED LAMINAR AIRFLOW TREATMENT | EP10813115.2 | 2010-12-30 | EP2547964B1 | 2016-04-13 | KRISTENSSON, Dan, Allan, Robert; SVENSSON, Pal, Martin; KORNFELD, Mark |
| This invention relates in general to methods and devices for displacing body convection and thereby reducing exposure to allergens and other airborne fine particles within a personal breathing zone during situations of or corresponding to sleep thereby reducing or removing symptoms of asthma and allergic rhinitis while improving quality of sleep and in particular to methods and devices that utilize Temperature controlled Laminar Airflow (abbreviated TLA from herein and onwards). | ||||||
| 162 | IMPROVEMENTS RELATING TO PRINTING | EP12820701.6 | 2012-07-18 | EP2739536A1 | 2014-06-11 | STEVENS, Gerard |
| An assembled blister package (1) has a blister sheet (11) formed with blisters (2) sealed by a foil backing sheet (4). The blister package (1) is sandwiched between opposite sides of a folded card (not shown) to stiffen it. Each of these sides has a rectilinear array of windows, the blisters protruding through one array of windows and the other array of windows defining discrete areas on which print describing the contents of the blisters beneath, is to be applied. A header sheet on which a bar-code is printed is attached to the backing sheet and a reader (23) is positioned to read the bar-code and extract from it information such as a description of the contents of each of the blisters and their respective positions in the package. Information relating to the identification of the contents of a particular blister and the identity of the patient is fed to an ink-jet printer (31) and two stepping motors (22 and 30) are used to control the position of the printer with respect to the backing sheet. As the printer does not make physical contact with the backing sheet, it can be spaced from it by a sufficient distance to enable it to pass over the card without obstruction despite the card being salient with respect to the surface of the backing sheet. Printing can thus proceed quickly without obstruction by parts of the card and without having to vary the distance between the printer and the irregular surface over which it passes. This has the advantage that no precise alignment of the backing sheet with the blister sheet is necessary during assembly of the blister package, and problems associated with securing the backing sheet to the blister sheet are avoided. As the printing information is read from the bar code on the header sheet which is attached to the blister package, there is a direct correlation between the written description of the blister contents on discrete areas of the backing sheet and the patient identity information read from the header card as both are determined by the same bar code. | ||||||
| 163 | COMPUTER SUPPORT STATION | EP12765841.7 | 2012-03-26 | EP2688445A1 | 2014-01-29 | LAFLECHE, Patrick; WROBLEWSKI, Jason James; BUISKOOL, Curt; PERRY, MD, Anthony J. |
| A computer support station includes a tray having a work surface, with the tray adapted for mounting to a footboard of a hospital bed and being vertically and/or horizontally adjustable. The station further includes a computer and a display in communication with the computer. A keyboard is supported on the work surface and in communication with the computer. | ||||||
| 164 | Patient health based support apparatus configuration | EP10171766.8 | 2010-08-03 | EP2281540A3 | 2013-06-26 | Receveur, Timothy Joseph; Lachenbruch, Charles, A; Flint, Stephen Carlyle |
A person-support apparatus operates according to a set of default operating parameters, processes information corresponding to an occupant of the person-support apparatus front a receiver to determine if an optimal value for an operating parameter is different from the default value, modifies a default operating parameter to an optimal value based on the information corresponding to the occupant of the person-support apparatus to create a modified operating parameter, and operates the person-support apparatus utilizing the modified operating parameter.
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| 165 | Patient point-of-care computer system | EP10075542.0 | 2002-08-02 | EP2302542A3 | 2011-09-21 | Reeder, Ryan Anthony; Vogel, John D.; Riley, Carl W.; Wildman, Timothy D.; Cerimele, Michael E.; Zerhusen, Robert M. |
A point-of-care computer system includes a display (24, 2014) positioned in a point-of-care location, a computer (12, 2006) coupled to the display, and a network (34, 2004) coupled to the computer to enable the computer to access information stored in a remote location (2002).
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| 166 | Patient point-of-care computer system | EP10003711.8 | 2002-08-02 | EP2244200A3 | 2011-04-27 | Reeder, Ryan Anthony; Riley, Carl W.; Vogel, John D.; Zerhusen, Robert M.; Cerimele, Michael E.; Wildman, Timothy D. |
A point-of-care computer system includes a display (24, 2014) positioned in a point-of-care location, a computer (12, 2006) coupled to the display, and a network (34, 2004) coupled to the computer to enable the computer to access information stored in a remote location (2002).
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| 167 | Patient point-of-care computer system | EP10003711.8 | 2002-08-02 | EP2244200A2 | 2010-10-27 | Reeder, Ryan Anthony; Riley, Carl W.; Vogel, John D.; Zerhusen, Robert M.; Cerimele, Michael E.; Wildman, Timothy D. |
A point-of-care computer system includes a display (24, 2014) positioned in a point-of-care location, a computer (12, 2006) coupled to the display, and a network (34, 2004) coupled to the computer to enable the computer to access information stored in a remote location (2002).
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| 168 | Modular architectural room systems | EP09252431.3 | 2009-10-16 | EP2177683A2 | 2010-04-21 | Newkirk, David C.; Gallant, Dennis James; Hoffman, Brian J.; Westerfeld, Stevens; Abel, Joseph H; Moster, Sebastian |
Modular architectural wall system (50) which consists of a structure for supporting patient care equipment in a medical facility, the structure comprising a frame (300) which is coupleable to a wall (52) of a room, said frame (300) including a plurality of vertical columns (188) and a plurality of cross-members (190) which secure the columns (188) together. The vertical columns (188) are substantially U-shaped and have a plurality of through-holes formed therein, whereas for supporting panels (350) which are positioned adjacent one another fasteners (352) in the gap between adjacent panels (350) are foreseen which connect the panels to the frame.
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| 169 | Structure for modular architectural room systems | EP09252430.5 | 2009-10-16 | EP2177682A2 | 2010-04-21 | Newkirk, David C.; Gallant, Dennis James; Hoffman, Brian J.; Westerfeld, Stevens; Abel, Joseph H.; Moster, Sebastian |
Modular architectural wall system (50) which consists of a structure for supporting patient care equipment in a medical facility, the structure comprising a frame (300) which is coupleable to a wall (52) of a room, said frame (300) including a plurality of vertical columns (188) and a plurality of cross-members (190) which secure the columns (188) together. The vertical columns (188) are substantially U-shaped and have a plurality of through-holes formed therein, whereas for supporting panels (350) which are positioned adjacent one another fasteners (352) in the gap between adjacent panels (350) are foreseen which connect the panels to the frame.
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| 170 | APPARATUS AND METHOD FOR PATIENT DATA MANAGEMENT | EP02736862 | 2002-05-15 | EP1388106A4 | 2008-11-19 | BAGNELL JOSEPH P; BOONE OTHO N; MCDERMOTT IAN; RICHARDS JOHN H; ST CLAIR NANCY; STRECKER ROBERT J |
| An apparatus (10, 44, 44', 100, 200) and method for patient point-of-care data management is provided. Patient point-of-care data is obtained in realtime or in substantially realtime and is made available to subscribers (34, 36) or authorized users on either a local computer display screen (48, 48', 118), a remote computer display screen (48, 48' 118) or both. In some embodiments, data associated with a plurality of patients is made available and is viewable simultaneously on a computer display screen (48, 48', 118). In some embodiments, patient point-of-care data from a plurality of hospitals (24, 26) is available. | ||||||
| 171 | MEDICATION DISPENSING SYSTEM INCLUDING MEDICINE CABINET AND TRAY THEREFOR | EP01983755 | 2001-11-06 | EP1370972A4 | 2007-08-08 | ASSEO GILAD; HAITIN DAVID |
| The present invention comprises a system and method for administering medications to a plurality of patients in a medication institution. A preferred system comprises a workflow program for generating a scheduler, wherein the scheduler coordinates the administration of medications to the patients, a medicine cabinet, responsive to said scheduler, for storing medications and dispensing the medications to an authorized user for administration to the patients, the workflow program providing the cabinet with patient specific information relating to said dispensation of the medications including a physician order for each patient, and a medicine cart, coupled to the medicine cabinet, for instructing said authorized user in the administration of said medication to each of said patients. The cart comprises a plurality of patient specific cart drawers for storing the medication to be administered to each patient, wherein each cart drawer remains unidentified as patient specific until the medication cart receives said patient specific information, and a cart processor, wherein the cart drawers are filled with medicine from the medicine cabinet for each patient associated with each patient specific cart drawer in accordance with the respective physician order for each patient. | ||||||
| 172 | System and apparatus for the dispersing of drugs | EP06076039.4 | 1999-05-29 | EP1701313A3 | 2006-09-27 | Broadfield, Laird; Lee, Patricia M.; Seelinger, Paul M.; Heffron, David T.; Dibelka, Albert W.; Rodenrys, John J.; Feeney, Robert J.; Calabro, Joseph M.; Conrad, William |
A system and apparatus are described in which modular receptacles are filled and transported to automated dispensing machines for later retrieval and distribution. A system of the present invention includes the loading, refilling, and replacement of the modular receptacles at various stages in the process of the invention. The present invention results in a more efficient and easier to manage system for distribution of such items as medical supplies and drugs.
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| 173 | System and apparatus for the dispersing of drugs | EP06076039.4 | 1999-05-29 | EP1701313A2 | 2006-09-13 | Broadfield, Laird; Lee, Patricia M.; Seelinger, Paul M.; Heffron, David T.; Dibelka, Albert W.; Rodenrys, John J.; Feeney, Robert J.; Calabro, Joseph M.; Conrad, William |
A system and apparatus are described in which modular receptacles are filled and transported to automated dispensing machines for later retrieval and distribution. A system of the present invention includes the loading, refilling, and replacement of the modular receptacles at various stages in the process of the invention. The present invention results in a more efficient and easier to manage system for distribution of such items as medical supplies and drugs.
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| 174 | PATIENT POINT OF CARE COMPUTER SYSTEM | EP01935072.7 | 2001-05-04 | EP1278456A2 | 2003-01-29 | REEDER, Ryan, A.; BOONE, Otho; SCHUMAN, Richard, J.; HAUSMAN, Phillip; ROTHWELL, Michael, W.; VOGEL, John, D.; LESTIENNE, James |
| An overbed table is provided for use with a bed. The bed includes a first connector that mates with a second connector of the overbed table. When the first and second connectors mate, an electrical connection is established for an electrical device supported by the overbed table. | ||||||
| 175 | Hospital bed with pivoting headboard | EP88311561.0 | 1988-12-07 | EP0324237B1 | 1993-06-09 | Foster, L. Dale; Niese, Virgil L. |
| There is disclosed a hospital bed having a pivoted headboard (22) that functions as a work centre. The headboard (22) can be swung to either side of the bed and locked there as well as its normal position at the head of the bed. | ||||||
| 176 | Computer cart | EP88311563.6 | 1988-12-07 | EP0321137A2 | 1989-06-21 | Foster, L. Dale; Hartman, Daniel A. |
There is disclosed a computer cart having a base (10), a post (15) mounted on the base (10), a chassis (20) mounted on the post (15) and a computer (40) having a thin, flat housing (43) mounted in a vertical orientation on the chassis (20). |
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| 177 | LOCKING PATIENT LIFTING FRAME | EP16153612.3 | 2009-07-31 | EP3034058A1 | 2016-06-22 | WALKER, Simon Christopher Dornton |
Patient lifting frame for lifting and supporting an invalid patient. The lifting frame comprises two suspension side bars (1) each connectable at an upper end to a spreader bar and at a lower end to a pivotal suspension mounting (4) comprising a 2-axis connector (4A) supporting a cantilever side bar assembly (4B) of the lifting frame, and having a first pivotal axis and a second rotary axis transverse top the said first axis. Each cantilever side bar assembly (4B) is movable about the said rotary axis and has a first cantilever portion on one side of its 2-axis pivotal/rotary connector and a second cantilever portion on the other side thereof. The first cantilever portions mount patient underarm support elements (13) for engaging beneath the armpits of a patient, which carry side pad assemblies (15, 16) for engaging against opposite sides of a patient's ribcage so that the underarm support elements (13) and side pad assemblies (15,16) form a patient upper body support means (13, 15, 16).
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| 178 | Universal patient lifting frame | EP09784822.0 | 2009-07-31 | EP2323607B1 | 2016-03-30 | WALKER, Simon, Christopher, Dornton |
| 179 | A POSITIONING SYSTEM | EP12775609.6 | 2012-08-30 | EP2750652B1 | 2015-09-23 | BLADT, Rolf Henrik |
| 180 | Modular architectural room systems | EP09252431.3 | 2009-10-16 | EP2177683A3 | 2015-01-21 | Newkirk, David C.; Gallant, Dennis James; Hoffman, Brian J.; Westerfeld, Stevens; Abel, Joseph H; Moster, Sebastian |
Modular architectural wall system (50) which consists of a structure for supporting patient care equipment in a medical facility, the structure comprising a frame (300) which is coupleable to a wall (52) of a room, said frame (300) including a plurality of vertical columns (188) and a plurality of cross-members (190) which secure the columns (188) together. The vertical columns (188) are substantially U-shaped and have a plurality of through-holes formed therein, whereas for supporting panels (350) which are positioned adjacent one another fasteners (352) in the gap between adjacent panels (350) are foreseen which connect the panels to the frame.
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