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公开(公告)号:US20180168714A9
公开(公告)日:2018-06-21
申请号:US14657850
申请日:2015-03-13
发明人: Eitan T. Wiener , Jeffrey L. Aldridge , Brian T. Noyes , Jeffrey D. Messerly , James R. Giordano , Robert J. Beetel, III , Nathan J. Price , Matthew C. Miller , Jeffrey P. Wiley , Daniel W. Price , Robert L. Koch , Joseph A. Brotz , John E. Hein
CPC分类号: A61B18/1206 , A61B17/320068 , A61B17/320092 , A61B18/1233 , A61B18/14 , A61B18/1445 , A61B2017/00017 , A61B2017/00477 , A61B2017/00482 , A61B2017/00486 , A61B2017/2934 , A61B2017/2936 , A61B2018/00178 , A61B2018/00601 , A61B2018/0063 , A61B2018/00666 , A61B2018/00678 , A61B2018/00684 , A61B2018/00702 , A61B2018/0072 , A61B2018/00732 , A61B2018/00767 , A61B2018/00779 , A61B2018/00803 , A61B2018/00827 , A61B2018/00875 , A61B2018/00892 , A61B2018/00988 , A61B2018/00994 , H01L41/042 , H01R2201/12
摘要: A method for determining motional branch current in an ultrasonic transducer of an ultrasonic surgical device over multiple frequencies of a transducer drive signal. The method may comprise, at each of a plurality of frequencies of the transducer drive signal, oversampling a current and voltage of the transducer drive signal, receiving, by a processor, the current and voltage samples, and determining, by the processor, the motional branch current based on the current and voltage samples, a static capacitance of the ultrasonic transducer and the frequency of the transducer drive signal.
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公开(公告)号:US09999789B2
公开(公告)日:2018-06-19
申请号:US13697823
申请日:2011-05-09
申请人: Michael Harald Kuhn
发明人: Michael Harald Kuhn
IPC分类号: A61B18/00 , A61B8/08 , A61N7/00 , A61B18/12 , A61B5/01 , G01K11/24 , G01K13/00 , A61B8/00 , A61B17/00 , A61B8/06
CPC分类号: A61N7/00 , A61B5/015 , A61B8/06 , A61B8/085 , A61B8/463 , A61B8/469 , A61B8/48 , A61B8/483 , A61B8/485 , A61B8/488 , A61B8/5261 , A61B8/58 , A61B18/00 , A61B18/1206 , A61B2017/00084 , A61B2018/00803 , A61B2562/0204 , G01K11/24 , G01K13/002 , G01K2213/00
摘要: The invention relates to a temperature distribution determining apparatus for determining a temperature distribution within an object caused by applying energy to the object. A temperature distribution measuring unit (6, 7) measures a spatially and temporally dependent first temperature distribution in the object (3), while the energy is applied to the object (3) such that the object (3) is heated to a temperature within a first temperature range, and a temperature distribution estimating unit (5) estimates a spatially and temporally dependent second temperature distribution in the object (3) within a second temperature range, which is different to the first temperature range, based on the spatial and temporal dependence of the measured first temperature distribution. Since temperature distributions can be obtained not only in the first temperature range, but also in the second temperature range, the overall temperature range, in which the temperature distribution can be determined, can be increased.
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公开(公告)号:US20180116706A9
公开(公告)日:2018-05-03
申请号:US14657876
申请日:2015-03-13
发明人: Eitan T. Wiener , Jeffrey L. Aldridge , Brian T. Noyes , James R. Giordano , Robert J. Beetel, III , Nathan J. Price , Matthew C. Miller , Jeffrey P. Wiley , Daniel W. Price , Robert L. Koch, Jr. , Joseph A. Brotz , John E. Hein
IPC分类号: A61B18/12
CPC分类号: A61B18/1206 , A61B17/320068 , A61B17/320092 , A61B18/1233 , A61B18/14 , A61B18/1445 , A61B2017/00017 , A61B2017/00477 , A61B2017/00482 , A61B2017/00486 , A61B2017/2934 , A61B2017/2936 , A61B2018/00178 , A61B2018/00601 , A61B2018/0063 , A61B2018/00666 , A61B2018/00678 , A61B2018/00684 , A61B2018/00702 , A61B2018/0072 , A61B2018/00732 , A61B2018/00767 , A61B2018/00779 , A61B2018/00803 , A61B2018/00827 , A61B2018/00875 , A61B2018/00892 , A61B2018/00988 , A61B2018/00994 , H01L41/042 , H01R2201/12
摘要: A method for determining motional branch current in an ultrasonic transducer of an ultrasonic surgical device over multiple frequencies of a transducer drive signal. The method may comprise, at each of a plurality of frequencies of the transducer drive signal, oversampling a current and voltage of the transducer drive signal, receiving, by a processor, the current and voltage samples, and determining, by the processor, the motional branch current based on the current and voltage samples, a static capacitance of the ultrasonic transducer and the frequency of the transducer drive signal.
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公开(公告)号:US20170189094A9
公开(公告)日:2017-07-06
申请号:US15050437
申请日:2016-02-22
发明人: Kim Manwaring , Mark Manwaring , David McNally
CPC分类号: A61B18/085 , A61B17/00234 , A61B17/3211 , A61B18/04 , A61B18/08 , A61B18/082 , A61B18/10 , A61B18/1206 , A61B18/1492 , A61B2017/00141 , A61B2017/00876 , A61B2017/00973 , A61B2017/320069 , A61B2017/32007 , A61B2017/320082 , A61B2018/00077 , A61B2018/00095 , A61B2018/00107 , A61B2018/0013 , A61B2018/00577 , A61B2018/00589 , A61B2018/00595 , A61B2018/00601 , A61B2018/00619 , A61B2018/00642 , A61B2018/00654 , A61B2018/00702 , A61B2018/00714 , A61B2018/00755 , A61B2018/00791 , A61B2018/00803 , A61B2018/00958 , A61B2018/128 , A61B2018/1407 , A61B2018/1412 , A61M25/00 , A61M25/0082 , Y10T29/49124
摘要: A power source delivers oscillating electrical energy to an electrical conductor, such as a wire or catheter, which is coated circumferentially with a ferromagnetic material in a selected region. With high frequency electrical energy, the ferromagnetic material has a quick response in heating and cooling adjustable by the controllable power delivery. The ferromagnetic material can be used for separating tissue, coagulation, tissue destruction or achieving other desired tissue effects in numerous surgical procedures.
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公开(公告)号:US20160331457A1
公开(公告)日:2016-11-17
申请号:US15112447
申请日:2015-01-04
发明人: BABU VARGHESE , MARTIN JURNA , JONATHAN ALAMBRA PALERO , MARGARET RUTH HORTON , MOUNIR ZEITOUNY , RIEKO VERHAGEN
CPC分类号: A61B18/203 , A61B17/54 , A61B2017/00747 , A61B2018/00452 , A61B2018/00458 , A61B2018/0047 , A61B2018/00476 , A61B2018/00714 , A61B2018/00791 , A61B2018/00803 , A61B2018/20351 , A61N5/0616 , A61N2005/067
摘要: The invention relates generally to the treatment of skin using laser light, and more particularly to a non-invasive device and method for such treatment. During skin treatments, heating of the epidermis is undesired because it may cause discomfort for the person being treated, adverse skin reactions and unwanted changes in skin pigment. The invention provides a laser treatment beam having a first 22a and a second 22b beam region of non-zero light intensity disposed at a periphery of a transverse cross-section of the beam, and a third beam region 22c, arranged between the first 22a and the second 22b beam region, of lower light intensity than said non-zero light intensity. The treatment beam 22 exits the device 10 along its optical treatment axis 13. As the treatment beam 22 passes through an outer layer of the skin to the focal spot 25 along the optical treatment axis (13), the extent of the third beam region 22c is predetermined and/or controlled so as to provide a corresponding third skin region 23c in the outer skin layer 16, arranged between the first 23a and the second skin region 23b, and the lower light intensity of the third beam region is predetermined and/or controlled to provide a maximum temperature during a pulse of the laser treatment beam with in the third skin region 23c which is lower than the maximum temperatures during said pulse of the laser treatment beam within the first 23a and the second 23b skin region. The light source 20 is configured and arranged to provide, in use, a pulse duration of the pulse of the laser treatment beam which is longer than the thermal relaxation time of the first 23a and the second 23b skin region. By predetermining and/or controlling the dimensions of the third skin region 23c, a suitably dimensioned heat sink is created, centrally located within the region being heated by the laser treatment beam, and used to avoid temperature hot spots in the outer layers of the skin.
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公开(公告)号:US20150340586A1
公开(公告)日:2015-11-26
申请号:US14715305
申请日:2015-05-18
发明人: Eitan T. Wiener , Jeffrey L. Aldridge , James R. Giordano , Foster B. Stulen , Joseph A. Brotz , John E. Hein
CPC分类号: A61B18/1206 , A61B17/320068 , A61B17/320092 , A61B18/1233 , A61B18/14 , A61B18/1445 , A61B2017/00017 , A61B2017/00477 , A61B2017/00482 , A61B2017/00486 , A61B2017/2934 , A61B2017/2936 , A61B2018/00178 , A61B2018/00601 , A61B2018/0063 , A61B2018/00666 , A61B2018/00678 , A61B2018/00684 , A61B2018/00702 , A61B2018/0072 , A61B2018/00732 , A61B2018/00767 , A61B2018/00779 , A61B2018/00803 , A61B2018/00827 , A61B2018/00875 , A61B2018/00892 , A61B2018/00988 , A61B2018/00994 , H01L41/042 , H01R2201/12
摘要: A method for controlling a waveform shape of a motional branch current in an ultrasonic transducer of a surgical device. The method may comprise generating a transducer drive signal by selectively recalling, using a direct digital synthesis (DDS) algorithm, drive signal waveform samples stored in a look-up table (LUT), generating samples of current and voltage of the transducer drive signal when the transducer drive signal is communicated to the surgical device, determining samples of the motional branch current based on the current and voltage samples, a static capacitance of the ultrasonic transducer and a frequency of the transducer drive signal, comparing each sample of the motional branch current to a respective target sample of a target waveform to determine an error amplitude, and modifying the drive signal waveform samples stored in the LUT such that an amplitude error between subsequent samples of the motional branch current and respective target samples is reduced.
摘要翻译: 一种用于控制外科装置的超声波换能器中的运动分支电流的波形形状的方法。 该方法可以包括通过使用直接数字合成(DDS)算法选择性地召回存储在查找表(LUT)中的驱动信号波形样本来产生换能器驱动信号,产生当换能器驱动信号的电流和电压的样本时 将换能器驱动信号传送到手术装置,基于电流和电压样本,超声波换能器的静态电容和换能器驱动信号的频率来确定运动支路电流的样本,比较运动支路电流的每个采样 到目标波形的相应目标采样以确定误差幅度,以及修改存储在LUT中的驱动信号波形样本,使得运动分支电流的后续采样与各个目标采样之间的振幅误差减小。
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公开(公告)号:US20150182276A1
公开(公告)日:2015-07-02
申请号:US14657850
申请日:2015-03-13
发明人: Eitan T. Wiener , Jeffrey L. Aldridge , Brian T. Noyes , Jeffrey D. Messerly , James R. Giordano , Robert J. Beetel, III , Nathan J. Price , Foster B. Stulen , Matthew C. Miller , Jeffrey P. Wiley , Daniel W. Price , Robert L. Koch, JR. , Joseph A. Brotz , John E. Hein
CPC分类号: A61B18/1206 , A61B17/320068 , A61B17/320092 , A61B18/1233 , A61B18/14 , A61B18/1445 , A61B2017/00017 , A61B2017/00477 , A61B2017/00482 , A61B2017/00486 , A61B2017/2934 , A61B2017/2936 , A61B2018/00178 , A61B2018/00601 , A61B2018/0063 , A61B2018/00666 , A61B2018/00678 , A61B2018/00684 , A61B2018/00702 , A61B2018/0072 , A61B2018/00732 , A61B2018/00767 , A61B2018/00779 , A61B2018/00803 , A61B2018/00827 , A61B2018/00875 , A61B2018/00892 , A61B2018/00988 , A61B2018/00994 , H01L41/042 , H01R2201/12
摘要: A method for determining motional branch current in an ultrasonic transducer of an ultrasonic surgical device over multiple frequencies of a transducer drive signal. The method may comprise, at each of a plurality of frequencies of the transducer drive signal, oversampling a current and voltage of the transducer drive signal, receiving, by a processor, the current and voltage samples, and determining, by the processor, the motional branch current based on the current and voltage samples, a static capacitance of the ultrasonic transducer and the frequency of the transducer drive signal.
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公开(公告)号:US09027564B2
公开(公告)日:2015-05-12
申请号:US13891959
申请日:2013-05-10
申请人: Asthmatx, Inc.
IPC分类号: A61B19/00 , A61F7/12 , A61N5/00 , A61B18/08 , A61B18/14 , A61M25/00 , A61M29/00 , A61M29/02 , A61N1/06 , A61N1/40 , A61B18/02 , A61B18/18 , A61B17/00 , A61B18/00
CPC分类号: A61B18/02 , A61B18/04 , A61B18/08 , A61B18/1492 , A61B18/18 , A61B2017/003 , A61B2018/00083 , A61B2018/00214 , A61B2018/0022 , A61B2018/00267 , A61B2018/00434 , A61B2018/00541 , A61B2018/00654 , A61B2018/00666 , A61B2018/00678 , A61B2018/00761 , A61B2018/00791 , A61B2018/00797 , A61B2018/00803 , A61B2018/0212 , A61B2090/3614 , A61F7/123 , A61F2007/0018 , A61F2007/0059 , A61F2007/126 , A61M25/0043 , A61M29/00 , A61M29/02 , A61M2025/0096 , A61M2210/1039 , A61N1/06 , A61N1/403 , A61N5/00
摘要: An embodiment of the invention includes a method for decreasing resistance to airflow within a bronchial tree of a subject. The method may include the step of moving an intraluminal device along a lumen of an airway of a bronchial tree, where the intraluminal device includes an expandable member and an energy emitter. The method also may include damaging nerves along the airway using the intraluminal device without destroying an inner surface of an airway wall disposed radially between the intraluminal device and the nerves.
摘要翻译: 本发明的一个实施例包括一种降低对象支气管树内气流阻力的方法。 该方法可以包括沿着支气管树的气道的内腔移动管腔内装置的步骤,其中管腔内装置包括可扩张构件和能量发射器。 该方法还可以包括使用管腔内装置沿着气道的损伤性神经,而不会破坏设置在管腔内装置和神经之间径向的气道壁的内表面。
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公开(公告)号:US08534291B2
公开(公告)日:2013-09-17
申请号:US11421444
申请日:2006-05-31
申请人: Christopher J. Danek , Michael Biggs , Bryan Loomas , Michael D. Laufer , Gary Kaplan , Kelly Shriner
发明人: Christopher J. Danek , Michael Biggs , Bryan Loomas , Michael D. Laufer , Gary Kaplan , Kelly Shriner
CPC分类号: A61B18/12 , A61B17/22004 , A61B18/00 , A61B18/08 , A61B18/14 , A61B18/1485 , A61B18/1492 , A61B2017/00115 , A61B2017/00292 , A61B2017/003 , A61B2017/22062 , A61B2018/00083 , A61B2018/00214 , A61B2018/0022 , A61B2018/00267 , A61B2018/00541 , A61B2018/00654 , A61B2018/00666 , A61B2018/00678 , A61B2018/00761 , A61B2018/00791 , A61B2018/00797 , A61B2018/00803 , A61B2018/044 , A61B2018/046 , A61B2018/1807 , A61B2090/3614 , A61M25/0043 , A61M29/00 , A61M2025/0096 , A61M2210/1039 , A61N5/0601
摘要: This relates to treating an asthmatic lung and more particularly, relates to advancing a treatment device into the lung and treating the lung with the device. This also includes additional steps of treating the airway wall, applying energy or heat to the airway wall in an asthmatic lung.
摘要翻译: 这涉及治疗哮喘肺,更具体地涉及将治疗装置推进到肺中并用装置治疗肺。 这还包括治疗气道壁,向哮喘肺中的气道壁施加能量或热量的附加步骤。
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公开(公告)号:US20130218158A1
公开(公告)日:2013-08-22
申请号:US13853588
申请日:2013-03-29
申请人: Christopher James DANEK , Michael BIGGS , Bryan LOOMAS , Michael D. LAUFER , Gary KAPLAN , Kelly SHRINER
发明人: Christopher James DANEK , Michael BIGGS , Bryan LOOMAS , Michael D. LAUFER , Gary KAPLAN , Kelly SHRINER
IPC分类号: A61B18/12
CPC分类号: A61B18/12 , A61B17/22004 , A61B18/00 , A61B18/08 , A61B18/14 , A61B18/1485 , A61B18/1492 , A61B2017/00115 , A61B2017/00292 , A61B2017/003 , A61B2017/22062 , A61B2018/00083 , A61B2018/00214 , A61B2018/0022 , A61B2018/00267 , A61B2018/00541 , A61B2018/00654 , A61B2018/00666 , A61B2018/00678 , A61B2018/00761 , A61B2018/00791 , A61B2018/00797 , A61B2018/00803 , A61B2018/044 , A61B2018/046 , A61B2018/1807 , A61B2090/3614 , A61M25/0043 , A61M29/00 , A61M2025/0096 , A61M2210/1039 , A61N5/0601
摘要: This relates to treating an asthmatic lung and more particularly, relates to advancing a treatment device into the lung and treating the lung with the device. This also includes additional steps of treating the airway wall, applying energy or heat to the airway wall in an asthmatic lung.
摘要翻译: 这涉及治疗哮喘肺,更具体地涉及将治疗装置推进到肺中并用装置治疗肺。 这还包括治疗气道壁,向哮喘肺中的气道壁施加能量或热量的附加步骤。
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