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 |
|---|---|---|---|---|---|---|
| 61 | 抗原曝露室システム | JP2007537499 | 2005-09-28 | JPWO2007037000A1 | 2009-04-02 | 懐鵬 湯; 晃広 瀬田; 穴井 俊博; 俊博 穴井; 俊克 植田; 稔 奥田; 一弘 橋口; 公裕 大久保 |
| 従来技術による抗原曝露室の問題点を解決し、特に、オールシーズンにおいて、室内の多人数の検査対象に対して同時に均一な抗原(花粉、ダニ、ハウスダスト等)曝露させることができる抗原曝露室システムを提供することを目的とする。上記目的を達成するために、本発明による抗原曝露室システムにおいては、曝露室1の天井面に設けた外気吹出口2によって外気を前記天井面から水平方向に曝露室内へ吹き出すようにし、前記曝露室の四隅に各々吹出口と吸込口とを有するファンユニット15を設けて前記曝露室内に水平方向に旋回して流れる空気の旋回流を提供するようにし、前記曝露室の床面に排気口4を設けて前記曝露室の床面から排気するようにし、抗原を抗原供給装置から前記天井面に設けられた外気吹出口に外気と混ざるように供給し、前記空気の旋回流によって均一な濃度の抗原曝露を可能にしている。 | ||||||
| 62 | Patient cooling system | JP2004551724 | 2003-11-05 | JP2006519624A | 2006-08-31 | クリス カワード; ピーター ステイシー; マーク ビアード; デービッド ホワイト |
| 再循環空気冷却システム(16,18,24)への同軸ホース連結部(46,4,6)を備えた、覆いまたはテント(2)からなる、患者冷却装置。 上記ホースは、上記覆いに空気を導入する内側チューブ(4)と、返還空気のための外側チューブ(16)とからなる。 上記患者冷却装置は、さらに、患者サポートマットレス(42)を有する。 上記患者サポートマットレスは、上記マットレスの幅方向に横に伸びる、複数の拡張可能な小室(A,B)からなり、冷却空気も供給される。 上記小室(A,B)は、圧力除去治療のために、交互に、加圧できる。 さらに、上記小室は、上記空気冷却システムからの比較的低圧だが低温の空気か、より冷却効果が弱いが患者をサポートする高圧の空気かで、交互に加圧可能になっている。 上記テントのパネル上の、放射状に折りたためるスリーブで接続された開口部(76)は、患者の導管や治療用チューブの接続を可能とする。 | ||||||
| 63 | Building construction on the bed coupling device | JP2002592856 | 2002-05-20 | JP2005515801A | 2005-06-02 | ギャラント,デニス,ジェー.; ランチ,デニス,エム. |
| 本開示によれば、患者を搬送するのに適合している上部移送台(124)は、可動ベース(122)と、病室内の連結ステーション(100)との間を移動することができる。 従って、患者をストレッチャ(120)と病室のベッドとの間で移送する代わりに、患者を乗せた上部移送台全体(124)を可動ベース(122)と連結ステーション(100)との間で移動することができる。 | ||||||
| 64 | Foamed patient transport incubator | US14531289 | 2014-11-03 | US09974705B2 | 2018-05-22 | Uri Rapoport |
| 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. | ||||||
| 65 | Substance inhalation system and method | US14788603 | 2015-06-30 | US09943388B2 | 2018-04-17 | Maury D. Cole |
| A stand-alone chamber or multi-chamber inhalation system has at least two alternative vaporized test liquid supply systems for passive or self-administered delivery of vaporized test fluid and air to one or more test chambers based on operator selection of delivery on and off times in a passive mode or actuation of an actuator in the chamber by a test animal in a self-administered mode. In one case, a multiple inhalation chamber system has two or more separate test fluid delivery systems and provides options for selective passive uniform drug delivery to multiple chambers or selective delivery of two or more different drugs to different groups of chambers from different delivery systems so that two different drugs or different concentrations of delivered drugs can be tested simultaneously. | ||||||
| 66 | PATIENT CARE ROOM WITH REDUCTION OF SPREAD OF PATHOGENS | US15249823 | 2016-08-29 | US20170056269A1 | 2017-03-02 | David L. Hadley; Hani A. M. Alhourani |
| A patient care room and method of treating a patient in a patient care room includes a patient treatment area that is configured to accept a patient support, such as a bed, and a waste containment room that is walled from said treatment area. The waste containment room has a toilet and a door that selectively separates the waste containment area from the treatment area and a decontaminating unit. The decontaminating unit is capable of killing common pathogens. An airflow system discharges air from the waste containment room to outside of the patient care room thereby creating a negative pressure in the waste containment room with respect to the treatment area. | ||||||
| 67 | SIMULATION OF ATMOSPHERIC ELECTRIC FIELD | US15030374 | 2014-04-28 | US20160263374A1 | 2016-09-15 | ZHEN LI |
| This invention relates to simulate an electric field which is relatively stable and favorable for living creature. It belongs to the field of bioengineering/electronic device. | ||||||
| 68 | Mobile treatment, diagnostic and minor surgery facility | US14272552 | 2014-05-08 | US09308141B2 | 2016-04-12 | Thomas H. Blackwell; Timothy J. Masud; Jeffrey D. Fischer |
| The invention is directed to a mobile medical facility capable of treating, diagnosing and performing minor surgery on multiple patients at one time. In general, the facility includes a health care area which is interchangeable between a first transportable configuration and a second, operational configuration. In the operational configuration, the health care area is expanded and capable of providing general care or diagnostic facilities to multiple patients as well as registration, counseling and triage to at least one patient. Preferable a row of patient treatment bays are provided with intake, counseling and triage cubicles and storage areas. | ||||||
| 69 | Containment tubes and imaging systems employing same | US12038832 | 2008-02-28 | US09301724B2 | 2016-04-05 | 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. | ||||||
| 70 | Pressure compensating seal with positive feedback | US12291347 | 2008-11-07 | US09211227B2 | 2015-12-15 | Phillip Loori; George Hovorka; Mike Griffiths |
| A limb wound treatment device is described having a first end, a second end and an interior therebetween for accommodating a treatment gas. The device can include a flexible housing that can be inflated. The first end can include an inflatable cuff seal for hermetically sealing against the limb being treated. The second end can include a closed end or an access port that is releasably sealed with a clamping mechanism. Further, the device can include a controller that can inflate that housing, inflate the cuff seal and provide treatment gas to the interior, in response to pressures within the cuff seal and the housing. Further, the device can accommodate different types of wound treatments, such as hyperbaric therapy, compression therapy or negative pressure therapy. | ||||||
| 71 | FLUID RECEIVING SUCTION MAT | US14689738 | 2015-04-17 | US20150297434A1 | 2015-10-22 | Patrick T. Hergenroeder |
| A mat for collecting fluid spilled onto a floor that includes a body of small thickness relative to its length and width and having an upper surface defining a plurality of receptacles and a lower surface defining a plurality of diagonally oriented channels or passages that communicate with each other and with the drains. The diagonal channels have distal ends that terminate in an end wall and inner ends that communicate directly or indirectly with a collection channel, the collection channel having a discharge port that is connectable to a suction source. The diagonal channels are formed in two groups that are disposed symmetrically about the collection channel. The mat is especially suitable for use on the floor of an operating room, as well as the floor of a food processing or manufacturing facility where fluids are spilled. The mat may include a anti-microbial, anti-bacterial and/or disinfectant treatment which may be effected by treating the mat after it is molded or adding the treatment compounds to the material from which the mat is molded. | ||||||
| 72 | ARCHITECTURAL HEADWALL CABINET FOR STORING A LIFT DEVICE | US13765227 | 2013-02-12 | US20130145700A1 | 2013-06-13 | Dennis J. GALLANT; Dennis M. LANCI; John P. BIONDO |
| An architectural system adaptable to patient acuity level has a headwall unit with a cavity, a ceiling unit, and a column coupled to the ceiling unit. The column is movable between a first position in which at least a majority of the column is situated in the cavity and a second position in which the column is situated outside the cavity. Various types of patient-care equipment is also disclosed. The patient-care equipment is included in, or is coupleable to, one or more of the ceiling unit, the headwall unit, or the column. | ||||||
| 73 | BED SIDE RAIL HAVING CAVITY FOR INFUSION UNIT | US13564268 | 2012-08-01 | US20120291199A1 | 2012-11-22 | Dennis J. Gallant; Dennis M. Lanci; Carl W. Riley |
| A patient care apparatus includes a bed to support a patient. The bed has a side rail with a cavity. The patient care apparatus also includes an infusion unit having a medical treatment control unit, a medical treatment line, and a medication container to contain medication. The medical treatment line is coupled to the medication container to conduct medication from the medication container to the patient. The medical treatment control unit and the medication container are positioned in the cavity. | ||||||
| 74 | Antigen supply device | US12088520 | 2005-09-28 | US08262988B2 | 2012-09-11 | Huaipeng Tang; Akihiro Seta; Minoru Okuda; Kazuhiro Hashigucci; Kimihiro Okubo |
| An antigen supply device 1 according to the present invention is mainly configured by a cylindrical member 3 extending in the vertical direction. An air suction port 5 for sucking the air in the antigen exposure chamber is provided at a lower end of the cylindrical member. An axial fan 6 that generates a flow of the air flowing upward in an axial direction of the cylindrical member is attached above the air suction port of the cylindrical member. Moreover, a supply port 4 through which high-concentration antigens are jetted from a dust feeder on the outside of the antigen exposure chamber is provided above the axial fan of the cylindrical member. The antigen supply device 1 is disposed near the outdoor air diffuser of the antigen exposure chamber, and configured to blow out high-concentration antigens, which are supplied from the dust feeder on the outside of the antigen exposure chamber, to the outdoor air diffuser 2 from an upper end of the cylindrical member after mixing the antigens with the air in the antigen exposure chamber sucked from the air suction port and diluting the antigens, and moreover mix the antigens with the outdoor air from the outdoor air diffuser to fill the antigen exposure chamber A with the mixture of the antigens and the outdoor air. | ||||||
| 75 | Headwall to bed interface | US12962701 | 2010-12-08 | US08240092B2 | 2012-08-14 | Dennis J. Gallant; Dennis M. Lanci; Carl W. Riley |
| A headwall is adapted for use with a bed in a room of a healthcare facility. The headwall comprises a wall unit mounted relative to a wall of the room and a floor unit extending along a floor of the room. The bed docks to the floor 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 located in a cavity of the side rail. | ||||||
| 76 | Patient cooling system | US11786582 | 2007-04-12 | US08021407B2 | 2011-09-20 | Keith Patrick 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. | ||||||
| 77 | Wound treatment device | US12291342 | 2008-11-07 | US07922678B2 | 2011-04-12 | George Hovorka |
| A limb wound treatment device is described having a first end, a second end and an interior therebetween for accommodating a treatment gas. The device can include a flexible housing that can be inflated or a rigid housing. The first end can include an inflatable cuff seal for hermetically sealing against the limb being treated. The second end can include a closed end or an access port that is releasably sealed with a clamping mechanism. Further, the device can include a controller that can inflate that housing, inflate the cuff seal and provide treatment gas to the interior, in response to pressures within the cuff seal and the housing. Further, the device can accommodate different types of wound treatments, such as hyperbaric therapy, compression therapy or negative pressure therapy. | ||||||
| 78 | Hospital bed side rail with medical treatment control unit | US11005583 | 2004-12-06 | US07865982B2 | 2011-01-11 | Dennis J. Gallant; Dennis M. Lanci; Carl W. Riley |
| 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. | ||||||
| 79 | Architectural system having transferrable life support cart | US12135244 | 2008-06-09 | US07735266B2 | 2010-06-15 | Dennis J. Gallant; Dennis M. Lanci; John P. Biondo |
| An architectural system adaptable to patient acuity level has a headwall unit with a cavity, a ceiling unit, and a column coupled to the ceiling unit. The column is movable between a first position in which at least a majority of the column is situated in the cavity and a second position in which the column is situated outside the cavity. Various types of patient-care equipment is also disclosed. The patient-care equipment is included in, or is coupleable to, one or more of the ceiling unit, the headwall unit, or the column. | ||||||
| 80 | Docking station for patient support | US11770213 | 2007-06-28 | US07636966B2 | 2009-12-29 | Dennis J. Gallant; Dennis M. Lanci; John P. Biondo |
| A docking station includes a column and a docking port coupled to the column. The docking port is coupleable to a hospital bed. A service is deliverable to the hospital bed through a service outlet coupled to the docking port. A communication and control unit is coupled to the column. A patient table is coupled to the column. | ||||||
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