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 |
|---|---|---|---|---|---|---|
| 1 | 感染科组合式护理装置 | CN201510147672.X | 2015-03-24 | CN104799945A | 2015-07-29 | 郑翠玲 |
| 本发明涉及一种感染科组合式护理装置,其属于医疗器械技术领域。本发明的感染科组合式护理装置包括清洁护理柜、护理采样箱和加湿消毒双用盒,清洁护理柜内设有毛巾储存仓,毛巾储存仓上侧设有毛巾回收仓,毛巾储存仓左侧设有毛巾仓仓门,毛巾仓仓门通过毛巾仓门活页与毛巾储存仓连接,毛巾仓仓门左侧设有毛巾仓门扣锁,毛巾仓仓门上设有磁力吸环,毛巾储存仓内设有毛巾悬挂环,毛巾悬挂环上设有擦拭毛巾,毛巾回收仓内设有毛巾回收抽屉,毛巾回收抽屉通过抽屉滑动轮与毛巾回收仓连接。本发明功能齐全,使用方便,在进行感染科疾病患者全方位护理时,操作简便,省时省力,减轻了医务人员的工作难度。 | ||||||
| 2 | 一种外科护理用止血装置 | CN201610032419.4 | 2016-01-19 | CN106974690A | 2017-07-25 | 李秀玲 |
| 本发明公开了一种外科护理用止血装置,包括压迫装置、定时装置、患者监护装置、控制器、服务器、远程监控装置、压力传感器和报警装置,所述控制器与压迫装置、定时装置、患者监护装置分别连接,在控制器上设有无线接口,所述患者监护装置、服务器和远程监控装置依次连接。本发明具有患者损伤小、痛苦少、恢复快、止血方便、外周血管并发症少的特点,适合推广应用。 | ||||||
| 3 | 血氧监测装置及呼吸面罩 | CN201511029505.1 | 2015-12-31 | CN105411601A | 2016-03-23 | 周明钊; 王亚杰; 庄志 |
| 本发明提供了一种血氧监测装置,包括血氧监测模块,血氧监测模块包括壳体、探测模块和无线传输模块,探测模块和无线传输模块设置于壳体内,且探测模块与无线传输模块连接。本发明的技术方案,通过将在血氧监测模块中设置无线传输模块,在监测血氧饱和度时,通过无线传输模块来传输数据,避免采用数据线时数据线受到牵扯,从而使血氧饱和度监测结果更准确。 | ||||||
| 4 | X射线CT装置、图像显示装置、图像显示方法 | CN201380002811.9 | 2013-01-21 | CN103764038A | 2014-04-30 | 椋本豪; 森野克人; 深野敦史; 养田隆宏; 松浦正和 |
| 本发明提供X射线CT装置、图像显示装置、图像显示方法。提供能够显示反映了被检体的周期性活动的医用图像的技术。实施方式的X射线CT装置是通过X射线对包含伴随有周期性活动的部位的被检体进行扫描并取得检测数据的X射线CT装置。X射线CT装置具有重构处理部、动态图像制作部以及显示控制部。重构处理部基于在周期性活动的一个周期的期间所取得的多个检测数据来制作多个体数据。动态图像制作部基于多个体数据的至少一部分来制作表示周期性活动的动态图像。显示控制部将动态图像与基于体数据的图像叠加而使显示部显示。 | ||||||
| 5 | Image display device | JP2004344954 | 2004-11-29 | JP4575124B2 | 2010-11-04 | 克己 平川 |
| An image display apparatus that can shorten time for observing a series of images of an interior of a subject without hampering observation of a desired region of interest is provided. The image display apparatus according to the present invention is an image display apparatus for displaying the series of images of the interior of the subject picked up at time series, including an image extracting unit 15a that extracts images each having a feature of a desired region in the interior of the subject and that identifies the extracted images as images of the desired region among the series of images, and a frame rate controller 15b that sets a display frame rate for the identified images of the desired region to be different from a display frame rate for images of regions other than the desired region. | ||||||
| 6 | Patient support apparatus with patient information sensors | US14212367 | 2014-03-14 | US09320444B2 | 2016-04-26 | Michael Joseph Hayes; David Terrance Becker; Aaron Douglas Furman; Brandon J. Buckingham; Michael W. Steffler; Richard A. Derenne; Joshua Elmer Mix; Annie Désaulniers |
| A patient support apparatus includes multiple sensors used to monitor aspects of a patient positioned on a support surface of the patient support apparatus. The outputs from the sensors are used, alone or in combination with other signals, to perform any one or more of the following: distinguishing between new and old patients entering onto the support surface; automatically zeroing a scale system on the support apparatus; distinguishing between objects and humans positioned on the support surface; determining if a patient is sleeping or awake; monitoring and characterizing movement levels of the patient; recording for subsequent display a log of likely events regarding the support surface; proposing identifications of objects added to or removed from the support surface; automatically re-arming a patient exit alert system; recording force outputs prior to and during a patient exit from the support apparatus; and transmitting the recorded force outputs to a remote location. | ||||||
| 7 | Automatic or semi-automatic whole body MR scanning system | US13288083 | 2011-11-03 | US09295406B2 | 2016-03-29 | Sven Zuehlsdorff; Christopher Glielmi; Xiaoming Bi |
| A system includes an image data processor for automatically processing data representing multiple patient anatomical images acquired in a single imaging scan. The images are acquired by, identifying multiple different anatomical elements in corresponding multiple different anatomical regions and identifying multiple different potentially pathology indicative features associated with the multiple different anatomical elements in response to first predetermined information associating different potentially pathology indicative features with corresponding different anatomical elements. The image data processor determines multiple different image acquisition methods for use in imaging the multiple different potentially pathology indicative features in response to second predetermined information associating different image acquisition methods with corresponding identified different pathology indicative features. An output processor collates images for output. | ||||||
| 8 | PATIENT SAFETY SYSTEM WITH AUTOMATICALLY ADJUSTING BED | US14275090 | 2014-05-12 | US20140333440A1 | 2014-11-13 | Massi Joe E. Kiani |
| A patient safety system including an adjustable bed and a patient monitoring system is disclosed herein. The adjustable bed can automatically adjust to a safe default configuration when the safety system detects that a care provider has left the patient's room or when the safety system detects that the patient is trying to leave the bed. The patient monitoring system can send an alert to the care provider and/or sound an alarm if the patient tries to leave the bed and a care provider is not present with the patient. | ||||||
| 9 | Patient safety system with automatically adjusting bed | US13277145 | 2011-10-19 | US08723677B1 | 2014-05-13 | Massi Joe E. Kiani |
| A patient safety system including an adjustable bed and a patient monitoring system is disclosed herein. The adjustable bed can automatically adjust to a safe default configuration when the safety system detects that a care provider has left the patient's room or when the safety system detects that the patient is trying to leave the bed. The patient monitoring system can send an alert to the care provider and/or sound an alarm if the patient tries to leave the bed and a care provider is not present with the patient. | ||||||
| 10 | ASSISTANCE TERMINAL FOR REMOTELY MONITORING A PERSON CONNECTED TO A MEDICAL ASSISTANCE AND MONITORING DEVICE | US13983640 | 2012-02-14 | US20130328685A1 | 2013-12-12 | Thomas Similowski; Jesus Gonzalez-Bermejo; Christian Straus; Julien Hurbault; Didier Foret; Nathalie Franckhauser; Sylvie Rouault |
| The invention relates to an assistance terminal (5, 6a, 6b) including a housing (5) and at least one terminal (6a, 6b) for remotely monitoring a person (1) connected to a medical assistance and/or monitoring device (3).According to the invention, the housing (5) comprises: reception means (8) for receiving a signal from the medical device (3); conditioning means (9) for conditioning the signal received by the reception means (8) of the housing (5); storage means (10) for, in a learning phase prior to a phase of use of the terminal (5, 6a, 6b), storing a range of signals which are sent by the medical device (3), and which are received by the reception means (8) of the housing (5) and which are conditioned by the conditioning means (9); comparison means (11) for, during the phase of use of the terminal (5, 6a, 6b), comparing a signal sent by the medical device (3), received by the reception means (8) and conditioned by the conditioning means (9), with the signals previously stored; transmission means (12) for, during the phase of use, transmitting the signal, if the latter corresponds to a signal previously stored, to the remote terminal (6a, 6b); the terminal (6a, 6b) comprising means for playing back the signal to at least one person to notify him or her of the sending of said signal by the device. | ||||||
| 11 | Image Display Apparatus | US11631068 | 2005-11-17 | US20080024599A1 | 2008-01-31 | Katsumi Hirakawa |
| An image display apparatus that can shorten time for observing a series of images of an interior of a subject without hampering observation of a desired region of interest is provided. The image display apparatus according to the present invention is an image display apparatus for displaying the series of images of the interior of the subject picked up at time series, including an image extracting unit 15a that extracts images each having a feature of a desired region in the interior of the subject and that identifies the extracted images as images of the desired region among the series of images, and a frame rate controller 15b that sets a display frame rate for the identified images of the desired region to be different from a display frame rate for images of regions other than the desired region. | ||||||
| 12 | Display Device And Display Method For Monitored-Person Monitoring System, And Monitored-Person Monitoring System | US15561864 | 2016-03-02 | US20180122207A1 | 2018-05-03 | Atsuhiro Noda; Masanori Yamashita; Aki Tsuji |
| A display device in a monitored-person monitoring system according to the present invention is a device for a monitored-person monitoring system in which each of a plurality of monitored persons is sensed and the plurality of monitored persons is monitored, the device receiving and displaying monitoring information on the monitored person. While a monitoring information display screen expressing the monitoring information on a certain monitored person among the plurality of monitored persons is displayed, even if the monitoring information on another monitored person who is different from the certain monitored person is received, the display of the monitoring information display screen expressing the monitoring information on the certain monitored person is continued as long as a predetermined input manipulation has been accepted. | ||||||
| 13 | Assistance terminal for remotely monitoring a person connected to a medical assistance and monitoring device | US13983640 | 2012-02-14 | US09761112B2 | 2017-09-12 | Thomas Similowski; Jesus Gonzalez-Bermejo; Christian Straus; Julien Hurbault; Didier Foret; Nathalie Franckhauser; Sylvie Rouault |
| The invention relates to an assistance terminal (5, 6a, 6b) including a housing (5) and at least one terminal (6a, 6b) for remotely monitoring a person (1) connected to a medical assistance and/or monitoring device (3). According to the invention, the housing (5) comprises: reception means (8) for receiving a signal from the medical device (3); conditioning means (9) for conditioning the signal received by the reception means (8) of the housing (5); storage means (10) for, in a learning phase prior to a phase of use of the terminal (5, 6a, 6b), storing a range of signals which are sent by the medical device (3), and which are received by the reception means (8) of the housing (5) and which are conditioned by the conditioning means (9); comparison means (11) for, during the phase of use of the terminal (5, 6a, 6b), comparing a signal sent by the medical device (3), received by the reception means (8) and conditioned by the conditioning means (9), with the signals previously stored; transmission means (12) for, during the phase of use, transmitting the signal, if the latter corresponds to a signal previously stored, to the remote terminal (6a, 6b); the terminal (6a, 6b) comprising means for playing back the signal to at least one person to notify him or her of the sending of said signal by the device. | ||||||
| 14 | Image display apparatus | US13891565 | 2013-05-10 | US09042664B2 | 2015-05-26 | Katsumi Hirakawa |
| An image display apparatus that can shorten time for observing a series of images of an interior of a subject without hampering observation of a desired region of interest is provided. The image display apparatus according to the present invention is an image display apparatus for displaying the series of images of the interior of the subject picked up at time series, including an image extracting unit 15a that extracts images each having a feature of a desired region in the interior of the subject and that identifies the extracted images as images of the desired region among the series of images, and a frame rate controller 15b that sets a display frame rate for the identified images of the desired region to be different from a display frame rate for images of regions other than the desired region. | ||||||
| 15 | METHOD OF PREVENTING PATIENT INJURY | US13370807 | 2012-02-10 | US20120209081A1 | 2012-08-16 | Abbas Sadeghian |
| This invention relates to administering a test to an incoming patient to determine that patient's ability to delay gratification and resist impulses, and thereafter grouping the patient into a high risk or low risk group. The patients in the high risk group are thereafter attended to at a greater frequency as it has been determined that the patient cannot effectively delay gratification and resist impulses. The preferred embodiment of this invention uses the Stroop Neuropsychological Screening Test to identify which patients cannot effectively delay gratification. Patients in the high risk group may be toileted more frequently to eliminate the impulse to move around the facility to remove bladder or bowel pressure. | ||||||
| 16 | 被監視者監視システムの表示装置および該表示方法ならびに被監視者監視システム | JP2016185681 | 2016-09-23 | JP6226053B2 | 2017-11-08 | 野田 篤広; 山下 雅宣; 辻 安紀 |
| 17 | 医療補助及び監視装置に結合された人物を遠隔監視するための補助端末 | JP2013552985 | 2012-02-14 | JP5763787B2 | 2015-08-12 | トーマス シミロウスキ; ヘスス ゴンザレス−ベルメホ; クリスチャン ストロス; ジュリアン ウルボール; ディディエ フォレ; ナタリー フランクハウサー; シルビ ルオー |
| 18 | BORNE D'ASSISTANCE PERMETTANT LA SURVEILLANCE A DISTANCE D'UNE PERSONNE CONNECTEE A UN DISPOSITIF MEDICAL D'ASSISTANCE ET DE SURVEILLANCE | EP12703553.3 | 2012-02-14 | EP2675342A1 | 2013-12-25 | SIMILOWSKI, Thomas; GONZALEZ-BERMEJO, Jésus; STRAUS, Christian; HURBAULT, Julien; FORET, Didier; FRANCKHAUSER, Nathalie; ROUAULT, Sylvie |
| The invention relates to an assistance terminal (5, 6a, 6b) including a housing (5) and at least one terminal (6a, 6b) for remotely monitoring a person (1) connected to a medical assistance and/or monitoring device (3). According to the invention, the housing (5) includes a receiving means (8) for receiving a signal from the medical device (3), processing means (9) for processing the signal received by the receiving means (8) of the housing (5), a recording means (10) for recording, in a learning phase prior to a phase of using the terminal (5, 6a, 6b), a range of signals which are transmitted by the medical device (3), received by the receiving means (8) of the housing (5), and processed by the processing means (9), comparing means (11) for comparing, during the phase of using the terminal (5, 6a, 6b), a signal which is transmitted by the medical device (3), received by the receiving means (8), and processed by the processing means (9) with the prerecorded signals, and transmitting means (12) for transmitting, if said signal corresponds to a prerecorded signal, the signal to the remote terminal (6a, 6b) during the use phase, the terminal (6a, 6b) comprising a means for reproducing the signal for a person so as the notify the latter of the transmission of the signal by said device. | ||||||
| 19 | Patient safety system with automatically adjusting bed | US14275090 | 2014-05-12 | US09226696B2 | 2016-01-05 | Massi Joe E. Kiani |
| A patient safety system including an adjustable bed and a patient monitoring system is disclosed herein. The adjustable bed can automatically adjust to a safe default configuration when the safety system detects that a care provider has left the patient's room or when the safety system detects that the patient is trying to leave the bed. The patient monitoring system can send an alert to the care provider and/or sound an alarm if the patient tries to leave the bed and a care provider is not present with the patient. | ||||||
| 20 | PATIENT SUPPORT APPARATUS WITH PATIENT INFORMATION SENSORS | US14212367 | 2014-03-14 | US20140266733A1 | 2014-09-18 | Michael Joseph Hayes; David Terrance Becker; Aaron Douglas Furman; Brandon J. Buckingham; Michael W. Steffler; Richard A. Derenne; Joshua Elmer Mix; Annie Désaulniers |
| A patient support apparatus includes multiple sensors used to monitor aspects of a patient positioned on a support surface of the patient support apparatus. The outputs from the sensors are used, alone or in combination with other signals, to perform any one or more of the following: distinguishing between new and old patients entering onto the support surface; automatically zeroing a scale system on the support apparatus; distinguishing between objects and humans positioned on the support surface; determining if a patient is sleeping or awake; monitoring and characterizing movement levels of the patient; recording for subsequent display a log of likely events regarding the support surface; proposing identifications of objects added to or removed from the support surface; automatically re-arming a patient exit alert system; recording force outputs prior to and during a patient exit from the support apparatus; and transmitting the recorded force outputs to a remote location. | ||||||
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