| 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 | Patient thermal regulation system | US187989 | 1998-11-06 | US06149674A | 2000-11-21 | Richard L. Borders |
| A system for regulating a core body temperature of a person includes a pressure applicator configured to apply negative or cyclical positive pressure to a portion of the person to vasodilate blood vessels of the person within the portion, a heating device configured to supply heat to the portion of the person, and a control apparatus. The control apparatus is coupled to the heating device and includes a controller configured to vary the amount of heat supplied by the heating device. The amount of heat supplied by the heating device is varied in response to a difference in temperature between a preset temperature programmed into the controller and an actual core body temperature of the patient received by the controller from a temperature sensor on the person such that the controller maintains the actual core body temperature of the person at substantially the preset temperature. | ||||||
| 202 | Patient support systems with layered fluid support mediums | US325532 | 1999-06-03 | US6145143A | 2000-11-14 | Ronald B. Hicks; John H. Vrzalik |
| A patient support system having multiple patient support layers for reducing and preventing the development of bed sores in bedridden patients. A top patient support surface is provided by an anti-shear cover layer. The anti-shear cover layer being operable to reduce lateral shear forces experienced by a patient moving across the patient support surface. One or more fluid pouches or bladders are provided to form a fluid bladder layer for reducing normal pressures and forces experienced by the patient. The fluid bladder layer being releasably or integrally secured to the top surface of an inflatable air mattress. Means are provided operable to secure the anti-shear cover layer and fluid bladder layer in overlapping relation to the inflatable air mattress. Also provided is a means for adjusting the temperature of the fluid contained within the fluid bladder layer. | ||||||
| 203 | Head clip pillow | US205122 | 1998-12-03 | US5974607A | 1999-11-02 | Devron P. Smith |
| A head clip pillow is designed for being worn about the neck of a user to cover the user's ears in order to eliminate a substantial portion of ambient noise while providing support for the user's head. The pillow defines a substantially U-shaped configuration for being received about the back of the neck of a user. The central portion of the pillow defines a height to be received by the nape of the neck, while the terminal portions of the pillow define a height to cover the sides of the user's face, including the ears. A base member fabricated from a resilient material defines a contour substantially proportional to the overall contour of the pillow. A spring member is received about a portion of the base member. The spring member is configured to apply a biasing force about the neck of the user. Pressure applied to other areas of the user's head is accomplished indirectly through the base member. Surrounding the base member and spring is at least one layer of foam rubber or other cushioning type material. A cover is provided for maintaining the integrity of the internal pillow components. The cover is configured to be closely received about the entirety of the pillow to provide a smooth surface over the entire surface thereof. A removable cover is provided to protect the pillow and may be removed for cleaning or replacement thereof. An alternate embodiment includes a pocket defined on the interior of each side of the removable cover. The pocket has a convention closure device and is configured to receive a therapeutic treatment device such as a conventional hot/cold pack. | ||||||
| 204 | PATIENT STABILIZATION DEVICE AND METHODS OF USE | PCT/US2014035286 | 2014-04-24 | WO2014176418A3 | 2015-05-28 | VISCO ANTHONY G |
| Devices, systems and methods for patient stabilization are disclosed. | ||||||
| 205 | LIFE CRADLE DEVICE FOR INDUCING NEONATAL HYPOTHERMIA | PCT/IN2014000400 | 2014-06-17 | WO2014203274A2 | 2014-12-24 | THOMAS DR 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. | ||||||
| 206 | PATIENT SUPPORT | PCT/US2005014897 | 2005-05-02 | WO2005107674A3 | 2006-02-09 | BALATON JAMES; BOBEY JOHN A; BRANSON GREGORY W; CLARKE COLIN; HOPKINS 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 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). | ||||||
| 207 | SUPPORT PANEL, BED ASSEMBLY AND MOUNTING METHOD | EP17726215.1 | 2017-05-12 | EP3367847A1 | 2018-09-05 | NIEDERKOFLER, Haymo; KOCH, Walter |
| A support panel (16) is provided comprising -a base member (11), the base member (11) being the mechanically stabilizing component of the support panel (11), -at least one mechanical coupler (18) on the base member (11), -an identifier which can electronically be read out through the at least one second electrical connector (28), -at least one second electrical connector (28) located on the base member (11), and -at least one functional module (34) selected from a sensor, an actuator, a control unit, an electrical link, and a power supply, wherein the at least one mechanical coupler (18) and the at least one second electrical connector (28)are designed for reversible mechanical and electrical connection to a bed frame assembly (30), and wherein a top surface (17) of the support panel (16), opposite to the bottom surface (15), is designed to be applied with a mattress (20). | ||||||
| 208 | PATIENT SUPPORT APPARATUS HAVING AN INTEGRATED LIMB COMPRESSION DEVICE | EP17156351.3 | 2017-02-15 | EP3207911A1 | 2017-08-23 | GILLIS, Thomas M.; ZERHUSEN, Robert M.; BRZENCHEK, David J.; SCHUMAN SR., Richard J.; TURNER, Jonathan D.; WALKE, James L.; HEIMBROCK, Richard H. |
A patient support apparatus includes a frame having a patient support deck. A footboard is removably coupled to the frame. A compression therapy module is located inside the footboard or is mounted to a foot section of the frame. A sleeve port is pneumatically coupled to the compression therapy module and is located on the foot section. The sleeve port is configured for attachment to at least one tube extending from a compression sleeve worn on a limb of a patient. Control circuitry is coupled to the frame and is operable to control functions of the patient support apparatus and to control the compression therapy module. A graphical display screen is coupled to the control circuitry and displays user inputs that are selected to control functions of the patient support apparatus and the compression therapy module.
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| 209 | A CONTROLLED CLIMATE BED WITH SLEEPER FEEDBACK | EP15840125.7 | 2015-09-10 | EP3190924A1 | 2017-07-19 | DILLER, Kenneth R.; BRYKALSKI, Michael Julius; MARQUETTE, David Brian |
| A climate-controlled bed capable of adapting to the needs of a sleeper via a closed loop feedback control system is provided. The bed includes a thermoelectric energy source, a sensor configured to monitor a physiological temperature of a sleeper, and a control system that regulates a temperature of the bed via the thermoelectric energy source. The control system can utilize data from the sensor to determine optimal thermal needs of the sleeper. The control system can also vary the temperature of the bed during a sleep cycle based on at least one predetermined sleep factor, such as the natural circadian temperature cycle. | ||||||
| 210 | SUPPORT SURFACE USEFUL LIFE MONITORING | EP17150303.0 | 2017-01-04 | EP3189823A1 | 2017-07-12 | WIGGERMAN, Neal; LACHENBRUCH, Charles A.; RECEVEUR, Timothy Joseph; WILLIAMS, Joshua A.; WILLIAMSON, Rachel L.; BEDEL, David L. |
A patient support apparatus includes a frame, a support surface, and a sensor. The frame and the support surface cooperate to support a patient. The sensor is coupled to one of the frame and the support surface and is configured to provide an input signal indicative of usage of the support surface by the patient.
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| 211 | ENSEMBLE DE REMORQUE FORMANT UNE CLINIQUE SPORTIVE MOBILE | EP16186825.2 | 2016-09-01 | EP3141423A1 | 2017-03-15 | FEUILLEE, Xavier |
La présente invention a pour objet un ensemble de remorque comprenant une remorque apte à être tractée par un camion, comprenant une pluralité d'espaces aménagés en vue de mettre à disposition d'une équipe d'utilisateurs des facilités dédiées à au moins un sportif de haut niveau, ladite pluralité d'espaces comprenant un espace (MASS1, MASS2) dédié à la récupération, comprenant au moins une table de massage, et un espace (BIO) dédié à la gestion des biorythmes. Ladite remorque comprend en outre au moins un espace dédié aux soins, comprenant une unité de soin cryogénique (CRYO), de telle sorte que ledit ensemble de remorque forme une clinique sportive mobile.
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| 212 | MICROCLIMATE MANAGEMENT AIRFLOW CONTROL BASED ON INCONTINENCE DETECTION | EP16184161.4 | 2016-08-15 | EP3132780A1 | 2017-02-22 | WILLIAMS, Joshua, A; LACHENBRUCH, Charles, A |
A microclimate system includes an air box (26), a disposable incontinence pad (30), and a mattress (22). The incontinence pad serves as an incontinent event detector. The disposable incontinence pad may be configured to conduct air along an interface of the disposable incontinence pad to withdraw heat and moisture from a patient (42) and cools and dries the patient's skin in order to reduce the risk of bed sore formation. The mattress may include a microclimate management layer (124) that provides conditioned air to withdraw heat and moisture from the disposable incontinence pad thereby keeping the patient's skin cool and dry in order to reduce the risk of bed sore formation.
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| 213 | LIFE CRADLE DEVICE FOR INDUCING NEONATAL HYPOTHERMIA | EP14813816 | 2014-06-17 | EP3010457A4 | 2017-02-15 | 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. | ||||||
| 214 | PATIENT STABILIZATION DEVICE AND METHODS OF USE | EP14787969 | 2014-04-24 | EP2988717A4 | 2016-09-21 | VISCO ANTHONY G |
| Devices, systems and methods for patient stabilization are disclosed. | ||||||
| 215 | PATIENT/INVALID SUPPORT | EP12834351.4 | 2012-09-21 | EP2758019B1 | 2016-09-07 | JUSIAK, Joel T.; LAFLECHE, Patrick; ZABAWA, Joseph M. |
| 216 | CONTROL SYSTEM FOR PATIENT SUPPORT APPARATUS | EP15202342.0 | 2013-10-21 | EP3021247A1 | 2016-05-18 | 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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| 217 | AUFLAGEVORRICHTUNG FÜR LIEGE- ODER SITZEINRICHTUNGEN | EP13791725.8 | 2013-09-13 | EP2895030B1 | 2016-04-20 | Wassermann, Klemens |
| 218 | AIR FLUIDIZED THERAPY BED HAVING PULMONARY THERAPY | EP15158895.1 | 2014-03-12 | EP2910233A3 | 2015-12-09 | O'Keefe, Christopher R; Sauser, Frank E; Klink, Kristopher A; Murphy, John; Vanderpohl III, Irvin J |
A patient support apparatus includes an air supply and an air fluidization therapy bed including a fluidization space and a fluidizable medium positioned in the fluidization space. The air fluidization therapy bed receives a flow of pressurized air from the air supply. The flow of pressurized air operable to fluidize the fluidizable medium. The patient support apparatus is configured to provide other therapies, such as pulmonary therapies, in addition to the air fluidization therapy.
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| 219 | AIR FLUIDIZED THERAPY BED HAVING PULMONARY THERAPY | EP15158895.1 | 2014-03-12 | EP2910233A2 | 2015-08-26 | O'Keefe, Christopher R; Sauser, Frank E; Klink, Kristopher A; Murphy, John; Vanderpohl III, Irvin J |
A patient support apparatus includes an air supply and an air fluidization therapy bed including a fluidization space and a fluidizable medium positioned in the fluidization space. The air fluidization therapy bed receives a flow of pressurized air from the air supply. The flow of pressurized air operable to fluidize the fluidizable medium. The patient support apparatus is configured to provide other therapies, such as pulmonary therapies, in addition to the air fluidization therapy.
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| 220 | PATIENT/INVALID SUPPORT | EP12834351 | 2012-09-21 | EP2758019A4 | 2015-04-22 | JUSIAK JOEL T; LAFLECHE PATRICK; ZABAWA JOSEPH M |
