子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 201 | HOSPITAL OPERATING ROOM RE-DESIGN | EP06788006.2 | 2006-07-20 | EP1902184A2 | 2008-03-26 | MANGIARDI, John, R. |
| An improved operating room design is disclosed. Interfering connection devices, such as wires, cables, and hoses, are eliminated from the working area by use of disappearing floor pods mounted between a sub-floor and a finished floor. The floor pods recess flush with said finished floor, thereby allowing floor cleaning by a robotic device that incorporates disposable, sterile cleaning cartridges. Movable carts, such as an anesthesiology cart, are adapted for docking with said pods on the upper surface of said pods with connectors presented underneath said carts. Said pods provide numerous utility connections such as gas, vacuum, and electric. Gas and vacuum lines are preferably supplied from a universal adaptor. A surgical table is mounted on the sub-flooring of the operating room. AU utilities are fed to the table from underneath the floor. The surgery operating room has a wall with an array of built-in compartments for carrying medical supplies that allows access to personnel both in and outside the operating room. The operating room preferably also includes a ceiling with focusing, "shadow-less" lights and/or a mounted imaging C-arm. Flat panel monitors are also embedded in one or more walls for real-time displays of information. In addition, the operating room walls provide a calming, ambient light by way of surfacing with translucent materials which are backlit. | ||||||
| 202 | Patent cooling system | EP07115973.5 | 2003-11-05 | EP1864632A1 | 2007-12-12 | Beard, Mark; Whyte, David; Stacey, Peter; Coward, Chris |
An apparatus for cooling a patient to a temperature below normal body temperature, the apparatus comprising a patient-enclosing air tent having an inlet and outlet connected to an air-cooling system, the air-cooling system re-circulating air through the air tent to conserve energy, a plurality of air-bags collectively forming a patient supporting surface, a high air pressure source in fluid communication with the air-bags, and a fluid connection between the air-bags and the air cooling system wherein the air-bags can be pressurised with either relatively low pressure cold air which assists in cooling the patient but provides relatively little support or with relatively high pressure air which is sufficient to support the patient but which provides relatively less cooling effect.
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| 203 | OPERATING ROOM/INTERVENTION ROOM | EP05747752.3 | 2005-05-13 | EP1761677A2 | 2007-03-14 | BOHM, Friedrich K.M.; DALLAM, Richard F.; BATES, Ernest; BRENNAN, James V.; CINI, Ahmet Oktay; MARTIN, Wilbur C.; MESSINGER, Corrie E.; SUEN, Hay Mew; WILLIAMS, Paul L. |
| A hospital layout comprising a plurality of adjacent OR/intervention rooms (46, 48) uniquely configured and equipped to perform surgical and other interventional procedures, with adjacent intubation rooms (52) configured and equipped to prepare patients for procedures to occur in the OR/intervention rooms and at least one extubation room (54) adjacent the OR/intervention rooms, configured and equipped to post-intervention awaken and extubate patients. A plurality of universal patient rooms (40) are located adjacent the OR/intervention rooms and universal patient rooms, and are configured and equipped to admit patients for surgery/intervention, prepare patients for surgery/intervention, allow patients to recover post-intervention, and discharge patients post-recovery. | ||||||
| 204 | PATIENT COOLING SYSTEM | EP03811249.6 | 2003-11-05 | EP1565132A1 | 2005-08-24 | BEARD, Mark; WHYTE, David; STACY, Peter; COWARD, Chris |
| A patient cooling system comprises a patient enclosure or tent (2) having a coaxial hose connection (46, 4, 6) to a re-circulating air-cooling system (16, 18, 24). The hose comprises an inner tube (4) to introduce air into the enclosure and an outer tube (16) for the return air. The patient cooling system further comprises a patient-supporting mattress (42) comprising a plurality of inflatable compartments (A, B) extending transversely across the width of the mattress, which can also be supplied with cooled air. The compartments (A, B) can be alternately pressurized for pressure relief therapy. Moreover, the compartments can be pressurized either with relatively low pressure cold air from the air cooling system, or with higher pressure air which acts to support the patient, but provides relatively less cooling effect. Radially collapsible, sleeved openings (76) in the tent panel enable connection of conduits or patient care lines to the patient. | ||||||
| 205 | APPARATUS FOR PASSIVE HYPOXIC TRAINING | EP98906151.0 | 1998-02-04 | EP0898486B1 | 2004-06-16 | KOTLIAR, Igor, K. |
| This invention is an apparatus (10) for passive hypoxic training or therapy which provides a user hypoxic (low oxygen) gas mixture having optimal carbon dioxide content for breathing stimulation and a comfortable humidity level. The oxygen content of air is reduced by being passed through a pressure swing adsorption separator. The air is then pressurized by a compressor (13) and delivered in alternating sequence to cartridges (20, 21) having a molecular sieve material which adsorbs nitrogen, carbon dioxide and water vapor. The remaining hypoxic gas mixture is recovered by de-pressurization of the cartridges and is delivered to a user through a surge tank (27), filter (28), breathing bag (30), and respiratory mask (35). | ||||||
| 206 | PATIENT CARE APPARATUS AND METHOD | EP02737065.9 | 2002-05-22 | EP1395220A1 | 2004-03-10 | GALLANT, Dennis, J.; LANCI, Dennis, M. |
| A headwall is adapted for use with a bed in a room of a healthcare facility. The headwall comprises a service delivery unit movable relative to a wall of the room between a storage position and a use position allowing the bed to dock to the service delivery unit to receive one or more services from the service delivery unit. It is disclosed to use the headwall to provide services to patient care equipment mounted to a side rail of the bed. Such patient care equipment is, for example, a chest drainage unit, an infusion unit, or a vacuum bandage unit. | ||||||
| 207 | HYPOXIC ROOM SYSTEM AND EQUIPMENT FOR HYPOXIC TRAINING AND THERAPY | EP96928000.7 | 1996-07-16 | EP0959862B1 | 2001-11-28 | KOTLIAR, Igor, K. |
| A hypoxic room system (10) for hypoxic training and therapy which simulates oxygen depleted mountain air and atmospheric pressures at different altitudes. An oxygen content reducing device (15) in the form of a gas permeable membrane air separator (Figures 5 and 6) or a molecular sieve pressure swing absorption unit (Figure 7) is used. | ||||||
| 208 | APPARATUS FOR PASSIVE HYPOXIC TRAINING AND THERAPY | EP98906151 | 1998-02-04 | EP0898486A4 | 2000-10-18 | KOTLIAR IGOR K |
| This invention is an apparatus (10) for passive hypoxic training or therapy which provides a user hypoxic (low oxygen) gas mixture having optimal carbon dioxide content for breathing stimulation and a comfortable humidity level. The oxygen content of air is reduced by being passed through a pressure swing adsorption separator. The air is then pressurized by a compressor (13) and delivered in alternating sequence to cartridges (20, 21) having a molecular sieve material which adsorbs nitrogen, carbon dioxide and water vapor. The remaining hypoxic gas mixture is recovered by de-pressurization of the cartridges and is delivered to a user through a surge tank (27), filter (28), breathing bag (30), and respiratory mask (35). | ||||||
| 209 | EP0959862A4 - | EP96928000 | 1996-07-16 | EP0959862A4 | 1999-12-01 | |
| A hypoxic room system (10) for hypoxic training and therapy which simulates oxygen depleted mountain air and atmospheric pressures at different altitudes. An oxygen content reducing device (15) in the form of a gas permeable membrane air separator (Figures 5 and 6) or a molecular sieve pressure swing absorption unit (Figure 7) is used. | ||||||
| 210 | Verfahren und Einrichtung zur homogenen Strahlungsklimatisierung eines allseits umschlossenen Raumes, insbesondere eines Tepidariums | EP80101647.8 | 1980-03-27 | EP0018502B1 | 1984-07-11 | Lueder, Holger, Dr.; Häusermann, Heinrich |
| 211 | CONTAINMENT TUBES AND IMAGING SYSTEMS EMPLOYING SAME | PCT/IB2006053523 | 2006-09-27 | WO2007036889A3 | 2008-01-03 | BLAKELEY DOUGLAS; MCKNIGHT DOUGLAS B; AMBROSIA MICHAEL; EVERETT DENNIS; HENDERSON ROBERT; FRANCKEN GUSTAVO; EDWARDS MARK; PLUMMER STEVE; FURST TIMOTHY; VAN KESSEL HENK; HUBER MARC; LOVE ALAN; BUSKARD TIMOTHY; FATICA EUGENE A; PATRICK JOHN; KRAY RANDY; LI KING |
| An isolation system with imaging or radiation therapy capability is disclosed. At least one containment barrier (14, 15, 16, 17) defines an isolation region (10). An imaging or therapy system (20) is disposed outside of the isolation region. The containment barrier includes a substantially hollow tubular extension (24, 42, 44, 124, 224, 324) protruding away from the isolation region (10). The substantially hollow tubular extension surrounds an interior volume (26) that is in fluid communication with the isolation region and is in fluid isolation from the imaging or therapy system. The substantially hollow tubular extension is made at least partially of a material providing operative communication between the imaging or therapy system and the interior volume of the substantially hollow tubular extension. | ||||||
| 212 | ARCHITECTURAL SYSTEM ADAPTABLE TO PATIENT ACUITY LEVEL | PCT/US0216404 | 2002-05-23 | WO02096335A3 | 2003-04-03 | GALLANT DENNIS J; LANCI DENNIS M |
| An architectural system (30, 230, 330) adaptable to patient acuity level has headwall unit (32, 232) with a cavity (34, 36, 234, 236), a ceiling unit (38, 238, 338), and a column (40,42) coupled to the ceiling unit (38, 238, 338). The column (40, 42) is movable between a first position in which at least a majority of the column (40, 42) is situated in the cavity (34, 36, 234, 236) and a second position in which the column (40, 42) is situated outside the cavity (34, 36, 234, 236). Various types of patient-care equipment are also disclosed. The patient-care equipment is included in, or is coupleable to, one or more of the ceiling unit (38, 238, 338), the headwall unit (32, 232), or the column (40, 42). | ||||||
| 213 | INCUBATOR WITH THERMOREGULATING ARRANGEMENT FOR NEWBORNS SUFFERING FROM PATHOLOGIES | EP15796746 | 2015-05-20 | EP3146954A4 | 2018-02-07 | GAY EDUARDO ALFONSO; BONETTO CARLOS ALBERTO |
| The invention relates to an incubator with a thermoregulating arrangement for newborns suffering from pathologies, comprising a closed compartment consisting of a horizontal partition that separates an upper part from a lower part, wherein the upper part has receiving and housing elements for the newborn, while the lower part has respective means and elements for thermoregulation, measurement, etc., which allow the production of air flows that maintain environmental conditions according to the newborn's needs. | ||||||
| 214 | HYBRID OPERATING ROOM FOR COMBINED SURGICAL AND FIXED IMAGING SERVICES IN AN AMBULATORY SURGICAL CENTER | EP15816314.7 | 2015-12-03 | EP3234281A1 | 2017-10-25 | Wall, L. Philipp |
| An ambulatory surgical center can include a hybrid operating room. The hybrid operating room can include at least one lead-shielded wall, a floor, and a ceiling. The ambulatory surgical center can also include an imaging device disposed in the hybrid operating room. The ambulatory surgical center can further include an operating table disposed in the hybrid operating room. The ambulatory surgical center can additionally include a power room adjacent to the operating room. The power room can include a power supply for the imaging device. The ambulatory surgical center can also include a conduit from the power room to the imaging device configured to deliver power to the imaging device. | ||||||
| 215 | WOUND TREATMENT DEVICES AND METHOD OF MAKING | EP08847541.3 | 2008-11-07 | EP2217318B1 | 2016-10-26 | LOORI, Phillip; HOVORKA, George; GRIFFITHS, Mike; ROSSI, Francis |
| 216 | A FOAMED PATIENT TRANSPORT INCUBATOR | EP14859025.0 | 2014-11-03 | EP3062699A2 | 2016-09-07 | RAPOPORT, Uri |
| A patient transport incubator (PTI) suitable for MRI device having an open bore; the PTI comprises an inner volume having a first set of dimensions, adapted by means of shape and size to accommodate a patient or accommodate at least a portion of an MRI-compatible neonate's cradle, the inner volume is further covered by an envelope having a second set of dimensions, adapted by means of shape and size to be temporarily introduced within the open bore; wherein at least a portion of the envelope comprises MRI safe thermo-isolating and noise reducing foam. The invention will increase the safety and comfort of MRI scanning of neonates. | ||||||
| 217 | Medizinischer Arbeitsplatz | EP13182741.2 | 2013-09-03 | EP2705819A3 | 2014-09-24 | Abri, Omid; Karge, Svenia; Karge, Thorsten; Verkin, Julian |
Ein medizinischer Arbeitsplatz (10) umfasst eine für medizinisches Personal (16) während einer medizinischen Tätigkeit an einem Patienten (12) vorgesehenen Position (17) und Staumöbel (60) zur Aufnahme medizinischer Instrumente oder Utensilien. Die Staumöbel (60) sind kreisbogenförmig um die für medizinisches Personal (16) vorgesehene Position (17) angeordnet.
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| 218 | WOUND TREATMENT DEVICES | EP08847541 | 2008-11-07 | EP2217318A4 | 2012-02-29 | LOORI PHILLIP; HOVORKA GEORGE; GRIFFITHS MIKE; ROSSI FRANCIS |
| 219 | Patient cooling system | EP07115973.5 | 2003-11-05 | EP1864632B1 | 2010-09-08 | Beard, Mark; Whyte, David; Stacey, Peter; Coward, Chris |
| 220 | Patient cooling system | EP07115974.3 | 2003-11-05 | EP1864633B1 | 2010-04-28 | Beard, Mark; Whyte, David; Stacey, Peter; Coward, Chris |
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