Patents by Inventor John Petruzzello
John Petruzzello has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11382596Abstract: A method for aligning spatially different subvolumes of ultrasonic data of a blood vessel comprising: acquiring temporally discrete signals of a blood vessel with elements of a two dimensional array of ultrasonic transducer elements from spatially different depths of scanning opposed by each transducer element, said array being located in a first position with respect to the blood vessel during the acquiring; Doppler processing the temporally discrete signals received from each transducer element to produce spectral Doppler data of the scanning depth opposed by each transducer element; producing a first three dimensional map of the spectral Doppler data in spatial relationship to the position of the array with respect to the blood vessel; acquiring temporally discrete signals of the blood vessel with elements of the two dimensional array of ultrasonic transducer elements from spatially different depths of scanning opposed by each transducer element, said array being located in a second position with respect tType: GrantFiled: July 14, 2014Date of Patent: July 12, 2022Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Sushanth Govinahallisathyanarayana, Rajendra Singh Sisodia, Nagaraju Bussa, Krishnamoorthy Palanisamy, Vikram Basawaraj Patil Okaly, Shriram Sethuraman, John Petruzzello, Shiwei Zhou, Ajay Anand, Ramon Quido Erkamp, Shankar Mosur Venkatesan
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Patent number: 11090029Abstract: A non-imaging diagnostic ultrasound system for carotid artery diagnosis has a two dimensional array probe (10) with a low element count and relatively large element size which can cover an area of the carotid artery at its bifurcation. The elements are operated independently with no phasing, and detect Doppler flow spatially beneath each element. The system produces maps of carotid blood flow in two or three dimensions and can assemble an extended view of the flow by matching segments of the carotid flow as the probe is moved over the vessel. Once the carotid artery has been localized, the degree of stenosis is assessed by automated measurements of peak systolic velocity and blood flow turbulence.Type: GrantFiled: July 10, 2014Date of Patent: August 17, 2021Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Rajendra Singh Sisodia, Shriram Sethuraman, John Petruzzello, Ajay Anand, Shiwei Zhou, Ramon Quido Erkamp, Nagaraju Bussa, Vikram Basawaraj Patil Okaly, Sushanth Govinahalli Sathyanarayana, Krishnamoorthy Palanisamy
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Patent number: 10945702Abstract: A diagnostic ultrasound system for carotid artery diagnosis has a two dimensional array probe with a low element count and relatively large element size which can cover an area of the carotid artery at its bifurcation. The elements are operated independently with no phasing, and detect Doppler flow spatially beneath each element. The system produces maps of carotid blood flow in two or three dimensions and can assemble an extended view of the flow by matching segments of the carotid flow as the probe is moved over the vessel. Once the carotid artery has been localized, the degree of stenosis is assessed by automated measurements of peak systolic velocity and blood flow turbulence.Type: GrantFiled: July 2, 2014Date of Patent: March 16, 2021Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Krishnamoorthy Palanisamy, Sushanth Govinahallisathyanarayana, Rajendra Singh Sisodia, Nagaraju Bussa, Shankar Mosur Venkatesan, Shriram Sethuraman, John Petruzzello, Ajay Anand, Shiwei Zhou, Ramon Quido Erkamp, Vikram Basawaraj Patil Okaly
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Patent number: 10856839Abstract: Dynamically identifying a stationary body of fluid (102) within a test volume by scanning within the volume can entail using a first part of a pulse sequence to acoustically interrogate a region within the volume to detect pre-existing movement (124) and, via a separate acoustic interrogation constituting the second part of the pulse sequence, acoustically interrogating the region to distinguish solid from fluid. The scanning is with both interrogations as a unit, so as to span the volume with the interrogations. The body is identified, dynamically based on an outcome of the interrogations. The scanning may span, for the identifying, a current field of view (116), including normal tissue, within an imaging subject. The procedure, from scanning to identifying, may be performed automatically and without need for user intervention, although the user can optionally change the field of view to further search for stationary fluid.Type: GrantFiled: February 26, 2014Date of Patent: December 8, 2020Assignee: Koninklijke Philips N.V.Inventors: Balasundar Iyyavu Raju, Ajay Anand, John Petruzzello
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Patent number: 10786223Abstract: Disclosed is an ultrasound device for measuring blood flow velocity in a blood vessel of a subject without imaging functionality in the device. The measurement depends upon reflections of a collimated beam of ultrasound from a subject's body part. Received electrical signals representative of the reflected ultrasound energy is used for generating a representation of blood flow at a plurality of predetermined locations in the volume and calculating a first blood flow velocity at each of the locations. The representation of flow is used for delineating the blood flow in the blood vessel in the volume. An angle calculating unit calculates the Doppler angle between the direction of the radiated collimated beam in the delineated blood flow at each point. A velocity calculator calculates a second blood flow velocity at the plurality of points based on the calculated first velocities and the calculated angle at the point.Type: GrantFiled: June 29, 2012Date of Patent: September 29, 2020Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Lalit Gupta, Ajay Anand, John Petruzzello, Pallavi Vajinepalli, Rajendra Singh Sisodia, Celine Firtion, Ganesan Ramachandran
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Patent number: 10231694Abstract: A device is configured for interrogating a blood vessel to derive flow characteristics (S628) and for, responsive to the deriving and based on the derived characteristics, anatomically identifying the vessel. A spatial map of the vessels may be generated based on the interrogating, and specifically the Doppler power computed from data acquired in the interrogating. Subsequent interrogating (S668) may occur, based on the map and on a user-selected set of vessels and/or vessel categories, to derive clinical Doppler indices. The device can be designed to automatically set a sample volume (509) for the subsequent interrogating, and to operate automatically from the user selection to display of the indices. The display may further include an image (524) of the vessels summoned by the set, annotated by their individual anatomical names, and optionally a diagnosis relating to blood flow. The displayed image may be enlarged to zoom in on the user's onscreen selection.Type: GrantFiled: December 7, 2012Date of Patent: March 19, 2019Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Pallavi Vajinepalli, Rajendra Singh Sisodia, Lalit Gupta, Ganesan Ramachandran, Celine Firtion, John Petruzzello, Ajay Anand
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Patent number: 10076310Abstract: An occlusion and/or reopening of an artery of a body caused by a changing pressure applied on the artery is detected. The systolic blood pressure of an artery of a body is also measured. A Doppler Ultrasound transducer attached to the exterior of the body outputs a blood flow signal indicative of a change of the blood flow in the artery caused by the changing pressure. At least one variable of a first variable indicative of the magnitude of the blood flow and a second variable indicative of the periodicity of the blood flow is derived from the blood flow signal. The occlusion and/or reopening of the artery is detected on the basis of the at least one variable. In this way, the occlusion/reopening of the artery can be detected automatically. Since the need to manually detect the occlusion and reopening of the artery by listening with a stethoscope or a Doppler probe is eliminated, the detecting result is more predictable and repeatable, and therefore also more accurate.Type: GrantFiled: July 17, 2012Date of Patent: September 18, 2018Assignee: KONINKLIJKE PHILIPS N.V.Inventors: Yinan Chen, Weijia Lu, Jianyi Zhong, Ajay Anand, John Petruzzello
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Patent number: 9579078Abstract: A device images time-wise in parallel using transducer elements of a group. The elements are of a current group and imaging is time-wise sequential by group. The groups may be spatially disposed with respect to each other so as to mutually intermesh element-wise. The imaging may include volumetric imaging. The device may be configured for not collectively using any of the elements to focus, nor to steer, a beam used in the imaging. The device may further be operable to transition between spacing states at least one of which is characterized by a respective minimum, nonzero, degree of intra-group, element-to-element non-adjacency, or may be fixed at a selected spacing state. The transitioning may be automatic, in response to input indicative of blood vessel size and/or depth.Type: GrantFiled: September 17, 2012Date of Patent: February 28, 2017Assignee: Koninklijke Philips N.V.Inventors: Ajay Anand, John Petruzzello, Shiwei Zhou, Rajendra Singh Sisodia, Pallavi Vajinepalli, Lalit Gupta, Ganesan Ramachandran, Celine Firtion
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Patent number: 9420988Abstract: The present disclosure provides systems and methods for tracking and guiding high intensity focused ultrasound beams (HIFU). More particularly, the disclosed systems and methods involve use of acoustic radiation force impulse (ARFI) imaging to detect the focal position of an HIFU capable transducer relative to a target area. The focal position may then be 5 compared to a desired treatment location and the orientation and focus of the transducer may be adjusted accordingly so as to reconfigure and/or refocus the HIFU beam relative to the desired treatment location. The desired treatment location may be dynamically determined using bleed detection and localization (BD&L) techniques. Thus, the desired treatment location may be determined using 3D Doppler ultrasound based techniques, wherein changes in quantitative 10 parameters extracted from the Doppler spectra, e.g., Resistance Index (RI), are used to detect and localize a bleeding site for treatment.Type: GrantFiled: December 17, 2008Date of Patent: August 23, 2016Assignee: KONINKLIJKE PHILIPS ELECTRONICS N.V.Inventors: Ajay Anand, John Petruzzello
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Publication number: 20160157814Abstract: A non-imaging diagnostic ultrasound system for carotid artery diagnosis has a two dimensional array probe with a low element count and relatively large element size which can cover an area of the carotid artery at its bifurcation. The elements are operated independently with no phasing, and detect Doppler flow spatially beneath each element. The system produces maps of carotid blood flow in two or three dimensions and can assemble an extended view of the flow by matching segments of the carotid flow as the probe is moved over the vessel. Once the carotid artery has been localized, the degree of stenosis is assessed by automated measurements of peak systolic velocity and blood flow turbulence.Type: ApplicationFiled: July 2, 2014Publication date: June 9, 2016Inventors: KRISHNAMOORTHY PALANISAMY, SUSHANTH GOVINAHALLISATHYANARAYANA, RAJENDRA SINGH SISODIA, NAGARAJU BUSSA, SHANKAR VENKATESAN, SHRIRAM SETHURAMAN, JOHN PETRUZZELLO, AJAY ANAND, SHIWEI ZHOU, RAMON QUIDO ERKAMP, VIKRAM BASAWARAJ PATIL OKALY
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Publication number: 20160157826Abstract: A non-imaging diagnostic ultrasound system for carotid artery diagnosis has a two dimensional array probe (10) with a low element count and relatively large element size which can cover an area of the carotid artery at its bifurcation. The elements are operated independently with no phasing, and detect Doppler flow spatially beneath each element. The system produces maps of carotid blood flow in two or three dimensions and can assemble an extended view of the flow by matching segments of the carotid flow as the probe is moved over the vessel. Once the carotid artery has been localized, the degree of stenosis is assessed by automated measurements of peak systolic velocity and blood flow turbulence.Type: ApplicationFiled: July 10, 2014Publication date: June 9, 2016Inventors: RAJENDRA SINGH SISODIA, SHRIRAM SETHURAMAN, JOHN PETRUZZELLO, AJAY ANAND, SHIWEI ZHOU, RAMON QUIDO ERKAMP, NAGARAJU BUSSA, VIKRAM BASAWARAJ PATIL OKALY, SUSHANTH GOVINAHALLI SATHYANARAYANA, KRISHNAMOORTHY PALANISAMY
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Publication number: 20160151038Abstract: A method for aligning spatially different subvolumes of ultrasonic data of a blood vessel comprising: acquiring temporally discrete signals of a blood vessel with elements of a two dimensional array of ultrasonic transducer elements from spatially different depths of scanning opposed by each transducer element, said array being located in a first position with respect to the blood vessel during the acquiring; Doppler processing the temporally discrete signals received from each transducer element to produce spectral Doppler data of the scanning depth opposed by each transducer element; producing a first three dimensional map of the spectral Doppler data in spatial relationship to the position of the array with respect to the blood vessel; acquiring temporally discrete signals of the blood vessel with elements of the two dimensional array of ultrasonic transducer elements from spatially different depths of scanning opposed by each transducer element, said array being located in a second position with respect tType: ApplicationFiled: July 14, 2014Publication date: June 2, 2016Inventors: SUSHANTH GOVINAHALLISATHYANARAYANA, RAJENDRA SINGH SISODIA, NAGARAJU BUSSA, KRISHNAMOORTHY PALANISAMY, VIKRAM BASAWARAJ PATIL OKALY, SHRIRAM SETHURAMAN, JOHN PETRUZZELLO, SHIWEI ZHOU, AJAY ANAND, RAMON QUIDO ERKAMP, SHANKAR MOSUR VENKATESAN
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Patent number: 9351708Abstract: An automatic, stand-alone, hand-held ultrasound blood-vessel examination device includes a reduced number of transducer elements and presents a simplified user interface, without the need for displaying an image of any of the vessels. The probe, in one embodiment, acquires and examines a volume of interest, searches for a target vessel, tests the vessel for normality of blood flow, and reports the diagnosis, all automatically and without need for user intervention. In another embodiment, the probe finds a body vessel in a volume, and extracts a clinical Doppler parameter, all automatically and without need for user intervention.Type: GrantFiled: December 16, 2011Date of Patent: May 31, 2016Assignee: Koninklijke Philips N.V.Inventors: Ajay Anand, John Petruzzello, Rajendra Singh Sisodia, Lalit Gupta, Pallavi Vajinepalli, Celine Firtion
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Publication number: 20160131540Abstract: The invention relates to a temperature distribution measuring apparatus for measuring a temperature distribution within an object caused by heating the object. A temperature distribution measuring unit (13, 71) measures the temperature distribution in a measurement region within the object, while the object is heated, and a temperature measurement control unit (22) controls the temperature distribution measuring unit such that the measurement region is modified depending on the measured temperature distribution, in order to measure different temperature distributions in different measurement regions.Type: ApplicationFiled: June 20, 2014Publication date: May 12, 2016Inventors: AJAY ANAND, BALASUNDAR IYYAVU RAJU, SHRIRAM SETHURAMAN, JUNBO LI, JOHN PETRUZZELLO
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Publication number: 20160000398Abstract: Dynamically identifying a stationary body of fluid (102) within a test volume by scanning within the volume can entail using a first part of a pulse sequence to acoustically interrogate a region within the volume to detect pre-existing movement (124) and, via a separate acoustic interrogation constituting the second part of the pulse sequence, acoustically interrogating the region to distinguish solid from fluid. The scanning is with both interrogations as a unit, so as to span the volume with the interrogations. The body is identified, dynamically based on an outcome of the interrogations. The scanning may span, for the identifying, a current field of view (116), including normal tissue, within an imaging subject. The procedure, from scanning to identifying, may be performed automatically and without need for user intervention, although the user can optionally change the field of view to further search for stationary fluid.Type: ApplicationFiled: February 26, 2014Publication date: January 7, 2016Inventors: BALASUNDAR IYYAVU RAJU, AJAY ANAND, JOHN PETRUZZELLO
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Publication number: 20140358000Abstract: A device (308) is configured for examining pulsatile flow, for deriving, based on the examined flow, spectral characteristics and for, based on the derived characteristics, determining which one or more pulse cycles are to be selected as representative of the flow. The cycles selected can be consecutive and amount to a predetermined number of cycles, such as five. The cycles (200) subject to selection may initially be filtered out based on waveform anomalies, with the surviving cycles in a consecutive group of sufficient number being judged based on parameters such as waveform caliper measurements and other types of the characteristics. Good cycles are detected (202) by their lack of variation, with respect to the measured parameters, from each respective, parameter median over the spectrogram cycles not initially filtered. The technique may, according to user selection, take into account additional parameters suited to particular medical application. Uses include correctly identifying an artery by name.Type: ApplicationFiled: December 6, 2012Publication date: December 4, 2014Inventors: Lalit Gupta, Pallavi Vajinepalli, Rajendra Singh Sisodia, Ganesan Ramachandran, Celine Firtion, John Petruzzello, Ajay Anand
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Publication number: 20140350405Abstract: Method, system and software product for identifying high risk pregnancies comprising the step of generating a spectrogram from ultrasound Doppler signals reflected from the uterine artery and determining the maximum frequency envelope of said spectrogram, and of defining a systolic part and a diastolic part of the maximum frequency envelope and calculating an area ratio under said systolic and diastolic part (AR). This area ratio relates to the blood volume in the uterine artery.Type: ApplicationFiled: November 26, 2012Publication date: November 27, 2014Inventors: Pallavi Vajinepalli, Ranjan Das, Celine Firtion, Rajendra Singh Sisodia, Lalit Gupta, Ganesan Ramachandran, Ajay Anand, John Petruzzello
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Publication number: 20140343431Abstract: A device is configured for interrogating a blood vessel to derive flow characteristics (S628) and for, responsive to the deriving and based on the derived characteristics, anatomically identifying the vessel. A spatial map of the vessels may be generated based on the interrogating, and specifically the Doppler power computed from data acquired in the interrogating. Subsequent interrogating (S668) may occur, based on the map and on a user-selected set of vessels and/or vessel categories, to derive clinical Doppler indices. The device can be designed to automatically set a sample volume (509) for the subsequent interrogating, and to operate automatically from the user selection to display of the indices. The display may further include an image (524) of the vessels summoned by the set, annotated by their individual anatomical names, and optionally a diagnosis relating to blood flow. The displayed image may be enlarged to zoom in on the user's onscreen selection.Type: ApplicationFiled: December 7, 2012Publication date: November 20, 2014Inventors: Pallavi Vajinepalli, Rajendra SINGH Sisodia, Lalit Gupta, Ganesan Ramachandran, Celine Firtion, John Petruzzello, Ajay Anand
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Publication number: 20140243673Abstract: A device images time-wise in parallel using transducer elements of a group (428, 432, 436, 440). In some embodiments, the elements are of a current group and imaging is time-wise sequential by group. The groups may be spatially disposed (408, 412) with respect to each other so as to mutually intermesh element-wise. The imaging may include volumetric imaging. The device can be configured for not collectively using any of the elements to focus, nor to steer, a beam used in the imaging. The device might be operable to transition between spacing states (404, 408, 412) at least one of which is characterized by a respective minimum, nonzero, degree of intra-group, element-to-element non-adjacency (470), or may be fixed at one spacing state. The transitioning may be automatic, in response to input indicative of blood vessel size and/or depth.Type: ApplicationFiled: September 17, 2012Publication date: August 28, 2014Applicant: KONINKLIJKE PHILIPS N.V.Inventors: Ajay Anand, John Petruzzello, Shiwei Zhou, Rajendra Singh Sisodia, Pallavi Vajinepalli, Lalit Gupta, Ganesan Ramachandran, Celine Firtion
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Publication number: 20140228688Abstract: Disclosed is an ultrasound device for measuring blood flow velocity in a blood vessel of a subject without imaging functionality in the device. The measurement depends upon reflections of a collimated beam of ultrasound from a subject's body part. Received electrical signals representative of the reflected ultrasound energy is used for generating a representation of blood flow at a plurality of predetermined locations in the volume and calculating a first blood flow velocity at each of the locations. The representation of flow is used for delineating the blood flow in the blood vessel in the volume. An angle calculating unit calculates the Doppler angle between the direction of the radiated collimated beam in the delineated blood flow at each point. A velocity calculator calculates a second blood flow velocity at the plurality of points based on the calculated first velocities and the calculated angle at the point.Type: ApplicationFiled: June 29, 2012Publication date: August 14, 2014Applicant: KONINKLIJKE PHILIPS N.V.Inventors: Lalit Gupta, Ajay Anand, John Petruzzello, Pallavi Vajinepalli, Rajendra Singh Sisodia, Celine Firtion, Ganesan Ramachandran