| 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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| 241 | LIFE CRADLE DEVICE FOR INDUCING NEONATAL HYPOTHERMIA | EP14813816.7 | 2014-06-17 | EP3010457A2 | 2016-04-27 | THOMAS, Niranjan; SONI, Nishit; KUMARI, Suman; BALWANI, Apoova; JAIN, Devendra |
| The present invention relates to a life cradle device for the purpose of inducing therapeutic hypothermia in neonates suffering from birth asphyxia. The device essentially consists of a rigid outer skeleton which could be fitted with removable mattresses containing form stable organic phase change materials effecting instant and sustained cooling. Multiple compartments of different phase change material composition functional at different temperatures are arranged in layers to replicate cooling performances as in conventional cascading systems. The device is also designed to have thermo-chromic indicators with an option of probes for automation control techniques. The device may also be fitted with thermostat controlled infant radiant warmer to automatically switch on when the infant is cooled down below requirement as a safety consideration. | ||||||
| 242 | BODY SUPPORT SYSTEM WITH PRESSURE REDISTRIBUTION AND INTERNAL AIR FLOW GUIDE(S) | EP13818885.9 | 2013-12-16 | EP2945587A1 | 2015-11-25 | WEYL, Christopher, S. |
| Body support systems (10, 100, 200) include uppermost comfort layers (12, 112, 212), having a support surface (14, 114, 214), disposed above a central core of the body support system (10, 100, 200), the uppermost comfort layer (12, 112, 212) comprising a temperature and pressure sensitive cellular polymer material; central cores having one or more internal air flow guides (16, 116, 216) that form part of each system for pressure redistribution, and withdrawal of heat and moisture away from said uppermost comfort layer (12, 112, 212) or body-supporting layer(s). During operation of the system, heat and/or moisture is directed by an airflow unit (48, 148, 248) from the uppermost comfort layer (12, 112, 212) or body-supporting layer(s) into the central core portion of the body support system and out of the body support system. The internal air flow guide(s) (16, 116, 216) are formed of cellular polymer material and are coupled to the uppermost comfort layer to form an air flow path (18, 118, 218). | ||||||
| 243 | AUFLAGEVORRICHTUNG FÜR LIEGE- ODER SITZEINRICHTUNGEN | EP13791725.8 | 2013-09-13 | EP2895030A1 | 2015-07-22 | Wassermann, Klemens |
| Support apparatus (1) for equipment for lying or sitting on, having an at least partially fixed frame (2) and having intertwined, tension straps (4), which define a support surface (8) and are accessible both from the upper, support side and from the opposite underside of the support surface (8), wherein at least some of the straps (4) are connected to the frame (2) by means of separately adjustable tensioning devices (7), in which case the tensioning of the straps (4) is locally adjustable and therefore the hardness of the support surface (8) is locally adaptable at any time. | ||||||
| 244 | Topper for a patient surface | EP14156946.7 | 2014-02-27 | EP2772239A1 | 2014-09-03 | Gibson, Luke; Williams, Joshua A; Williamson, Rachel L; Wuebker, Bryan W |
A topper for a patient support surface includes an actively-cooled region that is positioned to deliver air flow under a specific area to provide localized treatment and/or moisture removal to a patient supported on the topper.
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| 245 | SEATTING AIDS FOR PARALYZED INDIVIDUALS | EP12843720.9 | 2012-10-16 | EP2747602A1 | 2014-07-02 | GEFEN, Amit |
| The invention provides a seat cushion for an individual suffering from loss of sensation in the buttocks but having sensation in higher regions of the trunk. The cushion may be used, for example, in individuals who have undergone spinal cord injury (SCI). The seat cushion is formed from a flexible material and includes two closed systems containing a fluid. Each closed system includes a one or more buttock cells and one or more lateral cells, each buttock cell of the system being in fluid communication with at least one of the lateral cells of the system. The buttock cells determine a cushion layer and at least a portion of the lateral cells is above the cushion layer. | ||||||
| 246 | Control system for patient support apparatus | EP13189571.6 | 2013-10-21 | EP2725507A2 | 2014-04-30 | Johannigman, Nicole; Morrison, William, A.; Seim, Douglas, A. |
A system includes a patient support apparatus that has one or more therapies. The therapies are optionally available depending on the acuity of the patient. A request for enablement of a therapy is transferred to a service provider for approval and, when approved, the therapy is enabled by the service provider. The patient support apparatus may be in communication with a server that is in communication with multiple patient support apparatuses so that the server is operable to selectively enable therapies on various patient support apparatuses.
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| 247 | Microclimate management system | EP13184257.7 | 2009-04-15 | EP2702966A2 | 2014-03-05 | Lachenbruch, Charles A; Douglas, Stephen L; Flint, Stephen C; Williamson, Rachel |
A microclimate management system 10 comprises a mattress 16, a topper 18, and a control system 14. The topper 18 is coupled to the mattress 16 and is supported thereon. The topper 18 defines an interior region 42 and a person contacting surface 52. The control system 14 is configured to maintain at least one of a surface temperature, a relative surface humidity, and a heat withdrawal capacity of at least a portion of the person contacting surface 52 within a predetermined operating range.
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| 248 | Verfahren sowie Vorrichtung zur Konditionierung von Raumluft eines Reinraums | EP13170203.7 | 2013-06-03 | EP2677243A2 | 2013-12-25 | Makulla, Detlef; Weck, Franz |
Die Erfindung betrifft ein Verfahren zur Konditionierung von Raumluft eines Reinraums (5), insbesondere eines Operationssaals, aufweisend die folgenden Verfahrensschritte: Um eine Möglichkeit zur individuellen Temperierung der Raumluft eines Reinraums hervorzubringen, wird unter anderem erfindungsgemäß vorgeschlagen, einen von konditionierter Außenluft (16) gebildeten Außenluftvolumenstrom mittels mindestens eines dezentralen Luftkonditionierungsmoduls (8) zu erhitzen, wobei das Luftkonditionierungsmodul (8) vorzugsweise von einem elektrischen Heizregister gebildet ist. Die Erfindung betrifft ferner ein weiteres Verfahren sowie zwei zugehörige Vorrichtungen, mittels deren die Verfahren besonders einfach umsetzbar sind.
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| 249 | Patient support | EP10075724.4 | 2007-08-02 | EP2279719B1 | 2013-12-18 | Stacy, Richard B.; Bobey, John Alan; Branson, Gregory W.; Chambers, Kenith W.; Crabb, Rebecca Anne; Douglas, Stephen L.; Hakamium, Reza; Hopkins-King, Rachel Elizabeth; Lachenbruch, Charles A.; Meyer, Eric R.; Mueller, Jonathan H.; O'Keefe, Christopher R.; Soltani, Sohrab; Flessate, Dennis S.; Wilson, Bradley T.; Uzzle, Thomas; Stevens, Daniel K.; Janoff, Karen; Borgman, Darrell |
| This disclosure describes a patient support (10, 900) having an air permeable layer (20, 91, 91', 920), a plurality of inflatable bladders (50, 60, 62, 64, 66, 72, 74, 74a, 74b, 76, 78, 80, 84, 86, 90, 140, 142, 960, 962, 963, 964, 965, 966, 974, 974a, 974b, 980, 984, 990, 992, 994, 996), a pressure sensing assembly (68, 70, 328, 968, 970, 1048), and a controller (42,58,958,1542). In one embodiment, a combination of transverse bladders (960, 962, 963) and vertically oriented can-shaped bladders (964, 965) is provided. In one embodiment, one or more angle sensors (502, 1502, 1262) are provided in articulatable sections (32, 34, 932, 934) of the patient support (10, 900). | ||||||
| 250 | Pulmonary mattress | EP08251896.0 | 2008-05-30 | EP1997467B1 | 2013-11-20 | Richards, Sandy M.; O'Keefe, Christopher R.; Wilson, Bradley T.; Yermaneni, Mayur; Branson, Gregory W.; Sleva, Michael Z.; Gove, Karen M.; Skinner, Andrew F.; Schulte, Stephen R.; O'Neal, Todd P.; King, Rachel Hopkins; Mirabella, Teresa Maria; Chambers, Kenith W.; Cooper, Paula M.; Meyer, Eric R. |
| A patient support surface including a cover defining an interior region, a layer of three dimensional material, located at the interior region, and an air circulation device disposed adjacent the layer of three dimensional material. The patient support surface includes at least one of a percussion device and a vibration device, located at the interior region. | ||||||
| 251 | STEUERBARES KRANKENBETT | EP09737887.1 | 2009-04-29 | EP2273962B1 | 2013-10-09 | Teschner, Martin |
| 252 | INTERACTIVE PATIENT SYSTEM | EP08747972 | 2008-05-14 | EP2150224A4 | 2013-09-11 | HUBER DAVID; ANDREWS CRAIG |
| 253 | Dispositif de régulation de l'humidité et de la température à la surface d'un élément de support | EP12167321.4 | 2012-05-09 | EP2522255A1 | 2012-11-14 | Gazagnes, Laetitia |
La présente invention concerne un dispositif de régulation de l'humidité et de la température (1) à la surface d'un élément de support (3) du type matelas ou coussin et au voisinage et contact du corps (13) d'un individu y reposant, comprenant une enveloppe formée par au moins deux pièces (11, 12) définissant une chambre intérieure (13), ladite chambre intérieure (13) comprenant des capsules (4) de matériau(x) à changement de phase (PCM) dont la température de cristallisation la plus basse est supérieure à 25°C et la température de fusion la plus élevée est inférieure à 40°C, lesdites capsules étant intégrées au sein et/ou disposées en surface d'un support perméable à l'air (2,3).
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| 254 | MICROCLIMATE MANAGEMENT SYSTEM | EP10825400.4 | 2010-10-06 | EP2490641A2 | 2012-08-29 | STRYKER, Martin W.; BALAKRISHNAN, Santoshkumar |
| A microclimate management sheet, for placing against a person's body, includes a flexible generally fluid impermeable first layer, a flexible generally fluid impermeable second layer with a gas permeable region for facing a patient's body. The first layer is joined with the second layer in a manner to form a chamber between the first layer and the second layer. An inlet operative to be in fluid communication with a supply of gas and in fluid communication with the chamber is provided for delivering a gas to the chamber, with the gas permeable region for directing the gas the patient's body. | ||||||
| 255 | Patient support with motion monitor device | EP10172979.6 | 2005-05-02 | EP2250988A3 | 2011-11-30 | Bobey, John, A; Branson, Gregory, W; Clarke, Colin; Hopkins King, Rachel; Jacques, William, L., III.; Janoff, Karen; Lokhorst, David, M; Meyer, Eric, R; Mueller, Jonathan, H; O'Neal, Todd, P; Petrosenko, Robert; Schulte, Stephen R; Skinner, Andrew; Sleva, Michael Z; Soltani, Sohrab; Stacy, Richard, B; Stevens, Daniel, K; Yermaneni, Mayur |
This disclosure describes certain exemplary embodiments of a patient support (10) having a plurality of vertically-oriented on substantially can-shaped inflatable bladders (50). In one embodiment, the patient support a plurality of pressure sensors (136) positioned underneath the bladders. In another embodiment, the patient support includes a support layer (20) positioned above the vertical bladders. In still another embodiment, the parent support includes one or more filler portions (80, 84, 86, 90) that are selectable so that the patient support may conform to bed frames having different deck configurations. In certain embodiments, a patient support having real time pressure control is provided. The patient support includes a plurality of sensors located beneath a bladder including a plurality of upright cylindrical elements. The pressure within the bladder is controlled based on the pressure or force sensed by the plurality of sensors. In certain embodiments, a lack of patient movement monitor and method is provided. The monitor and method patient support includes a plurality of sensors located beneath a patient support to determine movement of a patient. An alarm is activated when patient movement over time is determined to be lacking. The present invention also includes a pressure relief patient support (1010) for use in combination with a bed frame. The pressure relief support surface includes a plurality of layers of a three-dimensional fiber material (1302) positioned above a plurality of vertical air cells (50).
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| 256 | Patient support with 3-D material and vertical bladders | EP10172969.7 | 2005-05-02 | EP2250986A3 | 2011-11-30 | Bobey, John, A; Branson, Gregory, W; Clarke, Colin; Hopkins King, Rachel; Jacques, William, L., III.; Janoff, Karen; Lokhorst, David, M; Meyer, Eric, R; Mueller, Jonathan, H; O'Neal, Todd, P; Petrosenko, Robert; Schulte, Stephen R; Skinner, Andrew; Sleva, Michael Z; Soltani, Sohrab; Stacy, Richard, B; Stevens, Daniel, K; Yermaneni, Mayur |
This disclosure describes certain exemplary embodiments of a parent support (10) having a plurality of vertically-oriented on substantially can-shaped inflatable bladders (50). In one embodiment, the patient support includes a plurality of pressure sensors (136) positioned underneath the bladders. In another embodiment, the patient support includes a support layer (20) positioned above the vertical bladders. In still another embodiment, the patient support includes one or more filler portions (80, 84, 86, 90) that are selectable so that the patient support may conform to bed frames having different deck configurations. In certain embodiments, a patient support having real time pressure control is provided. The patient support includes a plurality of sensors located beneath a bladder including a plurality of upright cylindrical elements. The pressure within the bladder is controlled based on the pressure or force sensed by the plurality of sensors. In certain embodiments, a lack of patient movement monitor and method is provided. The monitor and method patient support includes a plurality of sensors located beneath a patient support to determine movement of a patient. An alarm is activated when patient movement over time is determined to be lacking. The present invention also includes a pressure relief patient support (1010) for use in combination with a bed frame. The pressure relief support surface includes a plurality of layers of a three-dimensional fiber material (1302) positioned above a plurality of vertical air cells (50).
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| 257 | Patient support | EP10004577.2 | 2007-08-02 | EP2208486A3 | 2011-04-06 | Stacy, Richard B.; Bobey, John Alan; Branson, Gregory W.; Chambers, Kenith W.; Crabb, Rebecca Anne; Douglas, Stephen L.; Hakamium, Reza; Hopkins-King, Rachel Elizabeth; Lachenbruch, Charles A.; Meyer, Eric R.; Mueller, Jonathan H.; O'Keefe, Christopher R.; Soltani, Sohrab; Flessate, Dennis S.; Wilson, Bradley T.; Uzzle, Thomas; Stevens, Daniel K.; Janoff, Karen; Borgman, Darrell |
This disclosure describes a patient support (10, 900) having an air permeable layer (20, 91, 91', 920), a plurality of inflatable bladders (50, 60, 62, 64, 66, 72, 74, 74a, 74b, 76, 78, 80, 84, 86, 90, 140, 142, 960, 962, 963, 964, 965, 966, 974, 974a, 974b, 980, 984, 990, 992, 994, 996), a pressure sensing assembly (68, 70, 328, 968, 970, 1048), and a controller (42,58,958,1542). In one embodiment, a combination of transverse bladders (960, 962, 963) and vertically oriented can-shaped bladders (964, 965) is provided. In one embodiment, one or more angle sensors (502, 1502, 1262) are provided in articulatable sections (32, 34, 932, 934) of the patient support (10, 900).
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| 258 | A NON-POWERED HEAT FOR SKIN COOLING | EP05793951 | 2005-06-02 | EP1768627A4 | 2011-03-23 | LACHENBRUCH CHARLES ARTHUR |
| 259 | Patient support | EP10075724.4 | 2007-08-02 | EP2279719A2 | 2011-02-02 | Stacy, Richard B.; Bobey, John Alan; Branson, Gregory W.; Chambers, Kenith W.; Crabb, Rebecca Anne; Douglas, Stephen L.; Hakamium, Reza; Hopkins-King, Rachel Elizabeth; Lachenbruch, Charles A.; Meyer, Eric R.; Mueller, Jonathan H.; O'Keefe, Christopher R.; Soltani, Sohrab; Flessate, Dennis S.; Wilson, Bradley T.; Uzzle, Thomas; Stevens, Daniel K.; Janoff, Karen; Borgman, Darrell |
This disclosure describes a patient support (10, 900) having an air permeable layer (20, 91, 91', 920), a plurality of inflatable bladders (50, 60, 62, 64, 66, 72, 74, 74a, 74b, 76, 78, 80, 84, 86, 90, 140, 142, 960, 962, 963, 964, 965, 966, 974, 974a, 974b, 980, 984, 990, 992, 994, 996), a pressure sensing assembly (68, 70, 328, 968, 970, 1048), and a controller (42,58,958,1542). In one embodiment, a combination of transverse bladders (960, 962, 963) and vertically oriented can-shaped bladders (964, 965) is provided. In one embodiment, one or more angle sensors (502, 1502, 1262) are provided in articulatable sections (32, 34, 932, 934) of the patient support (10, 900).
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| 260 | MICROCLIMATE MANAGEMENT SYSTEM | EP09733293.6 | 2009-04-15 | EP2276437A1 | 2011-01-26 | LACHENBRUCH, Charles, A.; DOUGLAS, Stephen, L.; FLINT, Stephen, C.; WILLIAMSON, Rachel |
| A microclimate management system (10) comprises a mattress (16), a topper (18), and a control system (14). The topper (18) is coupled to the mattress (16) and is supported thereon. The topper (18) defines an interior region (42) and a person contacting surface (52). The control system (14) is configured to maintain at least one of a surface temperature, a relative surface humidity, and a heat withdrawal capacity of at least a portion of the person contacting surface (52) within a predetermined operating | ||||||
