US2020085405A1PendingUtilityA1

Ultrasonic device for detecting the heartbeat of a patient

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Assignee: UNIV HAMBURG EPPENDORFPriority: Dec 16, 2015Filed: Nov 20, 2019Published: Mar 19, 2020
Est. expiryDec 16, 2035(~9.4 yrs left)· nominal 20-yr term from priority
G01R 33/5673A61B 8/06G01R 33/4814A61B 8/4494A61B 8/0883A61B 5/7285A61B 8/02A61B 8/488A61B 8/5223A61B 5/0044A61B 5/7292A61B 5/055
47
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Claims

Abstract

An exemplary device for detecting a heartbeat of a patient can be provided which can include a transmitter which can provide ultrasonic waves, a receiver that can receive Doppler-shifted ultrasonic waves, and a hardware analyzer coupled to the receiver and which can evaluate a particular moment of the heartbeat of the patient based on a time-dependent signal obtained from the receiver. The hardware analyzer device can comprise a spectrum analyzer configured to extract time-varying frequency component(s) from the time-dependent signal provided by the receiver, and a processing module which can evaluate the moment of the heartbeat based on a variation of at least one of the frequency components in time. The processing module can determine a window of interest (WOI) in time from the variation of the frequency component(s) in time, and the moment when the time-dependent signal provided by the receiver assumes a maximum within the WOI as the moment of the heartbeat.

Claims

exact text as granted — not AI-modified
1 - 19 . (canceled) 
     
     
         20 . A device for detecting a heartbeat of a patient, comprising
 a transmitter which is configured to provide ultrasonic waves;   a receiver configured to receive Doppler-shifted ultrasonic waves; and   a computer hardware analyzing apparatus coupled to the receiver and configured to evaluate a particular moment of the heartbeat of the patient based on a time-dependent signal obtained from the receiver, wherein the computer hardware analyzing apparatus comprises:
 a spectrum analyzer configured to extract at least one time-varying frequency component from the time-dependent signal provided by the receiver, and 
 a computer processing module which configures a computer to evaluate the particular moment of the heartbeat based on a variation of the at least one frequency component in time, 
   wherein the computer processing module configures the computer hardware analyzing apparatus to determine (i) a window of interest (WOI) in time from the variation of the at least one frequency component in time, and (ii) a moment when the time-dependent signal provided by the receiver assumes a maximum within the WOI as the particular moment of the heartbeat.   
     
     
         21 . The device according to  claim 20 , wherein the heartbeat of the patient is detected during imaging using a magnetic resonance imaging (MRI) apparatus or a further imaging apparatus having a different modality. 
     
     
         22 . The device according to  claim 20 , wherein the processing module configures the computer hardware analyzing apparatus to determine a further moment when the at least one frequency component assumes a further maximum as the particular moment of the heartbeat. 
     
     
         23 . The device according to  claim 22 , wherein the processing module configures the computer hardware analyzing apparatus to determine the WOI as at least one of (i) a window of pre-set length around the further moment where the at least one frequency component assumes the further maximum, or (ii) a window that extends between at least two additional moments when the at least one varying frequency component assumes a minimum. 
     
     
         24 . The device according to  claim 20 , further comprising a transceiver device including at least one transmitter and a plurality of receivers, wherein
 each of the receivers has a first output terminal and a second output terminal,   each of the first output terminals of at least two of the receivers is connected by a first branch line to a first common bus, and   each of the second output terminals of the at least two receivers is connected by a second branch line to a second common bus.   
     
     
         25 . The device according to  claim 24 , wherein the at least one transmitter and the receivers are mounted on a common dielectric substrate which includes at least one flexible portion. 
     
     
         26 . The device according to  claim 25 , wherein the common dielectric substrate is at least partially surrounded by a conductive shield. 
     
     
         27 . The device according to  claim 26 , wherein at least part of the conductive shield is grounded. 
     
     
         28 . The device according to  claim 27 , wherein the first common bus and the second common bus are connected to at least two different concentric conductors of a cable, and wherein at least part of the conductive shield is grounded via an outermost one of the conductors of the cable. 
     
     
         29 . The device according to  claim 26 , wherein at least part of the conductive shield is divided into a plurality of segments. 
     
     
         30 . The device according to  claim 29 , wherein at least two of the segments are electrically connected via a capacitor. 
     
     
         31 . The device according to  claim 24 , wherein the first common bus and the second common bus are at least one of (i) arranged on different faces of the common dielectric substrate, or (ii) interwoven along at least part of a signal path between at least one of the further receivers and the spectrum analyzer. 
     
     
         32 . The device according to  claim 24 , wherein the transceiver comprises a plurality of further transmitters, and wherein the processing module comprises a tracking module which configures the computer hardware analyzing apparatus to determine which of at least one of the further transmitters or the receivers cover a present position of the heart of the patient, so that the Doppler-shifted ultrasonic waves are registerable by at least one of the receivers and evaluated using the processing module. 
     
     
         33 . The device according to  claim 32 , wherein the processing module comprises a feedback module which configures the computer hardware analyzing apparatus to control an operation of the plurality of transmitters, and wherein the feedback module configures the computer hardware analyzing apparatus to power on only particular ones of the further transmitters which have been identified to cover the present position of the heart of the patient using the tracking module. 
     
     
         34 . The device according to  claim 24 , wherein a signal path between at least one of the receivers and the spectrum analyzer comprises at least one high frequency filter configured to substantially block a radio frequency of an MRI apparatus. 
     
     
         35 . The device according to  claim 34 , wherein the at least one high frequency filter is formed from a coaxial cable having an inner conductor and an outer conducting shield, wherein the coaxial cable is wound to a coil so that a first coil is formed in the inner conductor and a second coil is formed in the conducting shield, and wherein the second coil provided in the outer conducting shield is bridged by a capacitor that forms the at least one high frequency filter in combination with the second coil provided in the outer conducting shield. 
     
     
         36 . The device according to  claim 34 , wherein the signal path comprises a plurality of high frequency filters such that, in the radio frequency field of an MRI apparatus, the time-dependent signal travels at most a quarter of a wavelength corresponding to the radio frequency before traversing a first one or a further one of the plurality of high frequency filters. 
     
     
         37 . The device according to  claim 24 , wherein the signal path between the at least one of the receivers and the spectrum analyzer comprises a bandpass filter that rejects a switching frequency of a gradient field of an MRI apparatus and a radio frequency of the MRI apparatus. 
     
     
         38 . The device according to  claim 20 , wherein at least part of the computer processing module is shielded by a housing that comprises a conductive carbon fiber. 
     
     
         39 . A system comprising:
 a magnetic resonance tomography magnetic resonance imaging (MRI) apparatus; and   a device for detecting a heartbeat of a patient, comprising   i. a transmitter which is configured to provide ultrasonic waves,   ii. a receiver configured to receive Doppler-shifted ultrasonic waves, and   iii. a computer hardware analyzing apparatus coupled to the receiver and configured to evaluate a particular moment of the heartbeat of the patient based on a time-dependent signal obtained from the receiver, wherein the computer hardware analyzing apparatus comprises:
 a spectrum analyzer configured to extract at least one time-varying frequency component from the time-dependent signal provided by the receiver, and 
 a processing module which configures the computer hardware analyzing apparatus to evaluate the particular moment of the heartbeat based on a variation of the at least one frequency component in time, and 
   wherein the processing module configures the computer to determine (i) a window of interest (WOI) in time from the variation of the at least one frequency component in time, and (ii) the particular moment when the time-dependent signal provided by the receiver assumes a maximum within the WOI as the particular moment of the heartbeat, and   wherein a trigger input of the MRI apparatus that triggers an image acquisition is coupled to the processing module of the device to receive the moment of the heartbeat of the patient, so that image acquisition is triggered at that moment.   
     
     
         40 . A device for detecting a heartbeat of a patient, comprising
 a transmitter which is configured to provide ultrasonic waves;   a receiver configured to receive Doppler-shifted ultrasonic waves; and   a computer hardware analyzing apparatus coupled to the receiver and configured to evaluate a particular moment of the heartbeat of the patient based on a time-dependent signal obtained from the receiver, wherein the computer hardware analyzing apparatus comprises:
 a spectrum analyzer configured to extract at least one time-varying frequency component from the time-dependent signal provided by the receiver, and 
 a computer processing module which configures a computer to evaluate the particular moment of the heartbeat based on a variation of the at least one frequency component in time, 
   wherein the computer processing module configures the computer hardware analyzing apparatus to determine (i) a window of interest (WOI) in time from the variation of the at least one frequency component in time, and (ii) a moment when the time-dependent signal provided by the receiver assumes a maximum within the WOI as the particular moment of the heartbeat, and wherein a signal path between the receiver and the spectrum analyzer comprises at least one high frequency filter configured to substantially block a radio frequency of an MRI apparatus.

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