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 |
|---|---|---|---|---|---|---|
| 81 | Mobile emergency hospital | US11628021 | 2005-05-31 | US07540546B2 | 2009-06-02 | Julie A. Kern; Kenneth L. Kramer; Richard W. Chance; Nathan I. Carver; Frederic Le Roy; Dennis Paul LaLoge |
| A mobile emergency hospital comprises a first wheeled trailer and a second wheeled trailer parked alongside the first trailer such that adjacent side walls of the first and second trailers are arranged to confront each other. The first and second trailers have patient care equipment associated with first and second portions of the emergency hospital, respectively. The adjacent side walls of the two trailers have openings which are generally aligned with each other to form one or more passageways through which caregivers pass between the two trailers. The first trailer may include a plurality of wall units arranged along a non-adjacent side wall of the first trailer. Each such wall unit may include a plurality of service connectors and a foldout bed. The trailers may include expandable sections to provide additional floor space. | ||||||
| 82 | Patient cooling system | US11154321 | 2005-06-16 | US07507249B2 | 2009-03-24 | Keith Patrick Heaton; Mark Beard; David Whyte; Peter Stacy; Chris Coward |
| A patient cooling system comprises an inflatable patient mattress having an airflow system and integral manifold incorporated therein and a patient enclosure or tent coupled to the inflatable patient mattress and supported by a framework of inflatable tubes drawing air off of the same air supply used to supply the mattress and to thermally control the area in the tent. The framework of inflatable tubes is divided into left and right sections, which are further subdivided into lower body and upper body sections. An inflatable connector with a stem and protuberance is provided to secure the framework in a closed position. The patient-supporting mattress comprises a plurality of inflatable compartments extending transversely across the width of the mattress that can be alternately pressurized for pressure relief therapy. Air is recirculated from the area in the tent and the integral manifold through the airflow system and into a thermal control unit. The tent is adapted to prevent collapse on top of the patient when the inflatable tubes are deflated by having a predetermined outward bias. | ||||||
| 83 | Hospital Operating Room Re-Design | US11996043 | 2006-07-20 | US20080287924A1 | 2008-11-20 | John R. Mangiardi |
| 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. | ||||||
| 84 | CONTAINMENT TUBES AND IMAGING SYSTEMS EMPLOYING SAME | US12038832 | 2008-02-28 | US20080171935A1 | 2008-07-17 | Douglas B. McKnight; Michael G. Ambrosia; Dennis K. Everett; Robert G. Henderson; Gustavo Francken; Mark Edwards; Alan Love; Marc Huber |
| 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. | ||||||
| 85 | Patient cooling system | US11786582 | 2007-04-12 | US20070250141A1 | 2007-10-25 | Keith Heaton; Mark Beard; David Whyte; Peter Stacy; Chris Coward |
| A patient cooling system comprises an inflatable patient mattress and a patient enclosure or tent supported by a framework of inflatable tubes drawing air off of the same air supply used to supply the mattress and to cool the tent. The framework of inflatable tubes is divided into left and right sections, which are further subdivided into lower body and upper body sections. An inflatable connector with a stem and protuberance is provided to secure the framework in a closed position. The patient-supporting mattress comprises a plurality of inflatable compartments extending transversely across the width of the mattress that can be alternately pressurized for pressure relief therapy. Radially collapsible, sleeved openings in the tent panel enable connection of conduits or patient care lines to the patient. | ||||||
| 86 | Modular patient room | US10071361 | 2002-02-08 | US07174678B2 | 2007-02-13 | Dennis J. Gallant |
| A modular patient room includes a plurality of modular wall panels or units having various configurations. In some embodiments, the modular wall units have water dispensers. Headwall units having water dispensers are also disclosed. The water dispensers are configured to filter water or to sterilize water. | ||||||
| 87 | Patient cooling system | US10290938 | 2002-11-08 | US20040093050A1 | 2004-05-13 | Mark Beard; David Whyte; Peter Stacy; Chris Coward |
| A patient cooling system comprises a patient enclosure or tent having a coaxial hose connection to a re-circulating air-cooling system. The hose comprises an inner tube to introduce air into the enclosure and an outer tube for the return air. The patient cooling system further comprises a patient-supporting mattress comprising a plurality of inflatable compartments extending transversely across the width of the mattress, which can also be supplied with cooled air. The compartments 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 in the tent panel enable connection of conduits or patient care lines to the patient. | ||||||
| 88 | Personal care module | US10061597 | 2002-02-01 | US06637049B2 | 2003-10-28 | Dennis J. Gallant |
| A personal care module for use by a patient within a room of a healthcare facility comprises a first washing station, at least one of a toilet and a second washing station, and a housing coupled to the first washing station and the at least one of the toilet and the second washing station. | ||||||
| 89 | Field-deployable forced air warming system | US09735803 | 2000-12-14 | US06409745B1 | 2002-06-25 | Michel B. Ducharme; John Frim |
| A portable, forced air apparatus for warming a hypothermia victim in the field includes a stretcher, strips of material extending across the stretcher for supporting the torso of the victim above the stretcher bottom, a canopy for covering the victim's torso, a blower operated heater in a compartment in the stretcher beneath the victim's legs for delivering hot air to the canopy in the area of the torso for warming the victim's body while the legs and arms are covered to prevent heat loss, a heated head and neck support for controlled warming of the victim's head and neck, and sleeves for covering the victim's arms and legs to prevent heat loss therefrom during torso warming. The heating system is complemented by warm IV infusion and warm oxygen delivery to the victim. | ||||||
| 90 | FIELD-DEPLOYABLE FORCED AIR WARMING SYSTEM | US09735803 | 2000-12-14 | US20020077681A1 | 2002-06-20 | Michel B. Ducharme; John Frim |
| A portable, forced air apparatus for warming a hypothermia victim in the field includes a stretcher, strips of material extending across the stretcher for supporting the torso of the victim above the stretcher bottom, a canopy for covering the victim's torso, a blower operated heater in a compartment in the stretcher beneath the victim's legs for delivering hot air to the canopy in the area of the torso for warming the victim's body while the legs and arms are covered to prevent heat loss, a heated head and neck support for controlled warming of the victim's head and neck, and sleeves for covering the victim's arms and legs to prevent heat loss therefrom during torso warming. The heating system is complemented by warm IV infusion and warm oxygen delivery to the victim. | ||||||
| 91 | Ventilation transport device | US09737177 | 2000-12-13 | US20020069877A1 | 2002-06-13 | Daniel C. Villareal; Cynthia Smith |
| A compact, portable transport system enables the application of high-frequency ventilation and inhaled nitric oxide therapy while providing real-time monitoring of the physiological state of the patient. The system includes a patient transport carrier having a patient chamber and an oxygen supply unit, as well as a high-frequency ventilator and a physiologic monitor. An inhaled nitric oxide delivery unit can also be included in the transport system. The nitric oxide system permits the reduction of pulmonary arterial blood pressure, with consequent improvement of patient oxygenation and reduced mortality and morbidity. | ||||||
| 92 | Apparatus for passive hypoxic training and therapy | US797242 | 1997-02-08 | US5924419A | 1999-07-20 | Igor K. Kotliar |
| An apparatus for passive hypoxic training or therapy provides to a user hypoxic (low-oxygen) gas mixture having carbon dioxide content optimal for breathing stimulation and a comfortable humidity level. The apparatus reduces the oxygen content of the air by passing the ambient air through a pressure-swing adsorption separator which extracts the oxygen therefrom. The air pressurized by compressor is delivered in alternating sequence into cartridges having a molecular-sieve material which adsorbs nitrogen, carbon dioxide and water vapor and allows a dry oxygen-enriched fraction to pass through an to be discharged. Remaining hypoxic (low-oxygen) gas mixture is recovered by depressurization of cartridges and is delivered to a user through a surge tank, filter, breathing bag, and respiratory mask. To lower and regulate the oxygen content of the hypoxic gas mixture delivered for inhalation, part of it, collected in surge tank, can be added by a mixing regulator to the ambient air taken in by the compressor through the air intake filter. | ||||||
| 93 | Apparatus for hypoxic training and therapy | US445677 | 1995-05-22 | US5850833A | 1998-12-22 | Igor K. Kotliar |
| An apparatus is provided for hypoxic training or therapy. The apparatus provides a user air having a lower oxygen content than the ambient atmosphere. The apparatus reduces the oxygen content of the air by passing the ambient air through a membrane separator which extracts the oxygen therefrom by a vacuum pump attached to the permeate outlet of the separator. Alternatively, the oxygen content can be reduced by adsorption of oxygen from the ambient air or by adding a low oxygen gas to air taken from the environment. This low oxygen gas may be stored nitrogen or stored gas which is low in oxygen, or it may be derived from the exhaled air from the user. If the exhaled air from the user used, carbon dioxide and water are extracted by a membrane separator or by physical or chemical process which adsorbs carbon dioxide from the gas. | ||||||
| 94 | Hypoxic room system and equipment for Hypoxic training and therapy at standard atmospheric pressure | US505621 | 1995-07-21 | US5799652A | 1998-09-01 | Igor K. Kotliar |
| A hypoxic room system for hypoxic training or therapy is provided which simulates oxygen-depleted mountain air. The system employs an oxygen content-reducing device (hypoxicator) which supplies oxygen-depleted air to a hypoxic training room communicating with the device and having ventilating openings for equalizing atmospheric pressure inside the hypoxic room. The system may be applied to interior space inside any structure. The hypoxicator may employ a membrane air-separation principle or a molecular sieve pressure-swing adsorption process. | ||||||
| 95 | Sick room furnished with nursing equipment | US840793 | 1992-02-24 | US5224305A | 1993-07-06 | Kenzou Kassai |
| A sick room preferably in a private home is furnished with nursing equipment in a compact manner. In a room having a 6-mat area corresponding to about 270 cm by 360 cm, a bed apparatus is arranged along a first wall of this room, while a washstand, a washtub and a container box are arranged along a second wall which is adjacent to the first wall. The bed apparatus comprises a lift for carrying an invalid between portions above and on one side of the bed body. A bathtub is stored in a space under the bed body to be drawn out, when needed, into a position along the one side of the bed body. A chamber pot is stored in a space under the washstand. A walking frame is stored in the container box. | ||||||
| 96 | Placental chamber - artificial uterus | US658698 | 1991-02-21 | US5218958A | 1993-06-15 | William I. Cooper |
| Life support system for a premature baby which remains attached to its placenta through its umbilical cord. The system includes upper and lower chambers separated by a dome-like partition. The lower chamber contains physiological liquid in which the baby is suspended, and the upper chamber contains an oxygen-containing atmosphere and a supply of nutrients for contact with the placenta which rests on the top of the dome-like partition. | ||||||
| 97 | Receptacle for collecting fluid | US23201 | 1987-03-09 | US4729404A | 1988-03-08 | Patrick T. Hergenroeder |
| A receptacle 10 for collecting fluid, especially suitable for use on the floor of an operating room for collecting irrigating fluid during a surgical procedure, for example, during arthroscopic surgery on a joint, such as the knee. The receptacle is thin and generally flat, with a gridwork of small basins 12 that form a collecting surface 14 with drains 24 through which the fluid flows to channels 16 formed between the receptacle and floor and thence to a common discharge port 20, which suitably may be connected to a suction device, such as an aspirator. | ||||||
| 98 | Receptacle for collecting fluids | US869441 | 1986-05-27 | US4679590A | 1987-07-14 | Patrick T. Hergenroeder |
| A receptacle 10 for collecting fluid, especially suitable for use on the floor of an operating room for collecting irrigating fluid during a surgical procedure, for example, during arthroscopic surgery on a joint, such as the knee. The receptacle is thin and generally flat, with a gridwork of small basins 12 that form a collecting surface 14 with drains 24 through which the fluid flows to channels 16 formed between the receptacle and floor and then to a common discharge port 20, which suitably may be connected to a suction device, such as an aspirator. | ||||||
| 99 | Surgical operating room structure | US535608 | 1983-09-26 | US4571900A | 1986-02-25 | Charles D. Kelman |
| A surgical operating room structure having prep room, operating room and post-operative room around a central core and separated by flexible curtains. The core comprises independently movable sections each having an arm supporting an operating table which is rotatable about the core from one room to the next adjacent room through the curtains. | ||||||
| 100 | Equipment for the homogeneous radiant conditioning of a room enclosure for therapeutic purposes | US130709 | 1980-03-17 | US4309999A | 1982-01-12 | Holger Lueder |
| The equipment includes a tepidarium room with walls of insulation boards, the sides of which that face the room carrying an electrically conductive meander band that serves as a surface heating element covered with an insulating plastic foil and shielded by a metal foil. The equipment includes means to increase the transfer of heat from the heating element to the heat-radiating surface of the insulation boards, a coating which reflects radiant heat on the parts of the room enclosure that are not directly heated, ventilating openings in the walls close to the cold floor by which the room air temperature can be lowered draft-free at least 4.degree. C. below the mean radiation temperature, a control device for the automatic adjustment of the mean radiation temperature, a fault current safety switch, and an alarm system activated upon failure of the energy supply or upon occurrence of an impermissibly high temperature. | ||||||
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