Shriram Sethuraman from Lexington, MA, age 46

Resumes

Senior Scientist And Technical Project Leader

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Location:

3212 Red River St, Austin, TX 78705

Industry:

Medical Devices

Work:

Philips Research since Oct 2007
Senior Research Scientist
The University of Texas at Austin Aug 2001 - Aug 2007
Graduate School Research in Biomedical Engineering
University of Maryland Medical System May 2002 - Aug 2002
Summer Research Intern
Honeywell Jan 2001 - May 2001
Engineer Trainee

Education:

The University of Texas at Austin 2003 - 2007
The University of Texas at Austin 2001 - 2003
Birla Institute of Technology and Science 1996 - 2001
DAV Senior Secondary School 1994 - 1996
DAV Public School 1984 - 1994

Skills:

Biomedical Engineering
Medical Imaging
Image Processing
Medical Devices
Matlab
Ultrasound
Algorithms
R&D
Signal Processing
Digital Imaging
Healthcare
Image Analysis
Optics
Labview
Physics
Research and Development
C++
Simulations
Research
Data Analysis
Medical Ultrasound
Doppler
Therapeutic Ultrasound
Clinical Study Design
Medical Device R&D
Ni Labview
Coaching

Interests:

American Football
Children
Education
Environment
Basketball
Science and Technology
Sports
Tennis and Cricket
Human Rights
Animal Welfare

Languages:

English
Hindi
Tamil

Publications

Us Patents

Transurethral Ultrasound Probe For Treatment Of Prostate

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US Patent:

20110301508, Dec 8, 2011

Filed:

Feb 5, 2010

Appl. No.:

13/202602

Inventors:

Shriram Sethuraman - Elmsford NY, US
Gosta Ehnholm - Helsinki, FI
Balasundara I. Raju - Tarrytown NY, US

Assignee:

KONINKLIJKE PHILIPS ELECTRONICS N.V. - EINDHOVEN

International Classification:

A61N 7/00

US Classification:

601 2

Abstract:

A probe () includes a shaft () on which an ultrasound element () is mounted. An outer sheath () and an acoustic membrane () surround the shaft and the ultrasound element such that the shaft and ultrasound element are rotatable therein. Passages () supply a cooling and acoustic coupling fluid to an inlet and outlet () adjacent the acoustic element to cool the acoustic element and fill a volume between the acoustic element and the acoustic sheath with the fluid. A balloon () mounted on the probe is selectively inflated in order to fix a position of the probe. A drain () drains urine and other bodily fluids through the probe.

Real-Time Monitoring And Control Of Hifu Therapy In Multiple Dimensions

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US Patent:

20130096597, Apr 18, 2013

Filed:

Apr 27, 2011

Appl. No.:

13/805396

Inventors:

Ajay Anand - Fishkill NY, US
John Petruzzello - Carmel NY, US
Shiwei Zhou - Yorktown Heights NY, US
Shriram Sethuraman - Briarcliff Manor NY, US

Assignee:

KONINKLIJKE PHILIPS ELECTRONICS N.V. - EINDHOVEN

International Classification:

A61N 7/00

US Classification:

606169

Abstract:

Energy is transferred () to cause a mechanical property of biological tissue to change, as in ablation. An effect of the transferring is examined in more than one spatial dimension to, for example, make an ablation halting decision for a treatment region, i.e., line () or layer (), or for a location () within the region. Halting decisions can be based on lesion-central and/or lesion-peripheral longitudinal displacement of treated tissue evaluated in real time against a characteristic curve. Steering in the azimuthal and/or elevation direction is afforded by, for example, linear, or 2D, multi-channel ultrasound arrays for therapy and imaging. Protocols includable are region-wide scanning (SI ) and location-by-location completion for both (HIFU) therapy and tracking (acoustic-radiation-forced-based) displacement of treated tissue. Fine, location- to-location monitoring can be used for relatively inhomogeneous tissue; whereas, quicker, sparser and more generalized monitoring () can be employed for relatively homogeneous tissue.

System And Method For Guided Adaptive Brachytherapy

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US Patent:

20130102891, Apr 25, 2013

Filed:

May 27, 2011

Appl. No.:

13/703750

Inventors:

Dirk Binnekamp - Borne, NL
Luis Felipe Gutierrez - Jersey City NJ, US
Neil David Glossop - Toronto, CA
Jochen Kruecker - Washington DC, US
Shriram Sethuraman - Briarcliff Manor NY, US

Assignee:

KONINKLIJKE PHILIPS ELECTRONICS N.V. - EINDHOVEN

International Classification:

A61N 5/10
A61B 8/12
A61B 6/02
A61B 5/06

US Classification:

600424, 600 7, 600 8

Abstract:

A system and methods for adaptive placement of a treatment element include a placement device (), and a localization system () configured to track progress of the placement device such that a position of a treatment element () placed by or to be placed by the placement device is stored in memory. A computer system () includes a program () implemented in computer readable storage media and configured to compute an effect of the treatment element at the position and determine whether a dosage amount has been achieved by the treatment element for treatment of an organ.

Intravascular Photoacoustic And Utrasound Echo Imaging

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US Patent:

20110021924, Jan 27, 2011

Filed:

Feb 1, 2008

Appl. No.:

12/449384

Inventors:

Shriram Sethuraman - Briarcliff Manor NY, US
Stanislav Y. Emelianov - Austin TX, US
Richard W. Smalling - Houston TX, US
Salavat R. Aglyamov - Austin TX, US

International Classification:

A61B 8/14
A61B 6/00

US Classification:

600463

Abstract:

The invention relates to photoacoustic imaging and ultrasound echo imaging In combination, and applies in particular to the field of imaging a lumen of an organ or vessel of a subject, wherein the Images are acquired from within a lumen of the organ or vessel, especially a lumen of a blood vessel to diagnose and treat vascular disease An exemplary embodiment of the invention is a catheter having an ultrasound transducer, the transducer comprising a probe suitable for generating and detecting photoacoustic signals and ultrasound echo signals, wherein the photoacoustic signals and the ultrasound echo signals are convertible to images which are integrated into an enriched image. The photoacoustic signals are generated by a multiplicity of energy sources suitable for inducing the walls of the blood vessel to generate acoustic waves, wherein the energy sources are arrayed in an annulus around the flexible tubular member.

Methods And Systems For Guiding The Acquisition Of Cranial Ultrasound Data

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US Patent:

20220225963, Jul 21, 2022

Filed:

May 29, 2020

Appl. No.:

17/614614

Inventors:

- EINDHOVEN, NL
Balasundar Iyyavu Raju - North Andover MA, US
Shyam Bharat - Arlington MA, US
Jonathan Fincke - Belmont MA, US
Shriram Sethuraman - Lexington MA, US
Raghavendra Srinivasa Naidu - Auburndale MA, US

International Classification:

A61B 8/08
A61B 8/00

Abstract:

The invention provides a method for guiding the acquisition of ultrasound data within a 3D field of view. The method begins by obtaining initial 2D B-mode ultrasound data of a cranial region of a subject from a reduced field of view at a first imaging location and determining whether a vessel of interest is located within the 3D field of view based on the initial 2D B-mode ultrasound data. If the vessel of interest is not located within the 3D field of view, a guidance instruction is generated based on the initial 2D B-mode ultrasound data, wherein the guidance instruction is adapted to indicate a second imaging location to obtain further ultrasound data. If the vessel of interest is located within the 3D field of view 3D Doppler ultrasound data is obtained of the cranial region from the 3D field of view.

Temporal Mapping Of Thermal Ablation Areas

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US Patent:

20210401397, Dec 30, 2021

Filed:

Nov 15, 2019

Appl. No.:

17/295462

Inventors:

- EINDHOVEN, NL
SHRIRAM SETHURAMAN - LEXINGTON MA, US
FAIK CAN MERAL - MANSFILED MA, US
WILLIAM TAO SHI - WAKEFIELD MA, US
EVGENIY LEYVI - ARLINGTON MA, US

International Classification:

A61B 8/08
A61B 34/10
A61B 18/00

Abstract:

Various embodiments of the present disclosure include a thermal ablation probabilistic controller () employing an ablation probability model () trained to render a pixel ablation probability for each pixel of an ablation scan image illustrative of a static anatomical ablation. In operation, the thermal ablation probabilistic controller () spatially aligns a temporal sequence of ablation scan datasets representative of a dynamic anatomical ablation, and applies the ablation probability model () to the spatial alignment of the temporal sequence of ablation scan datasets to render the pixel ablation probability for each pixel of the ablation scan image illustrative of the static anatomical ablation.

Ultrasound-Based Guidance For Photoacoustic Measurements And Associated Devices, Systems, And Methods

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US Patent:

20210275040, Sep 9, 2021

Filed:

Mar 5, 2021

Appl. No.:

17/193470

Inventors:

- Eindhoven, NL
Balasundar Iyyavu Raju - North Andover MA, US
Jonathan Thomas Sutton - Boston MA, US
Shriram Sethuraman - Lexington MA, US

International Classification:

A61B 5/026
A61B 5/00

Abstract:

Systems, devices, and methods for performing photoacoustic measurements using ultrasound-based guidance are provided. In one embodiment, an imaging system includes: an ultrasound imaging probe comprising an ultrasound transducer array, a processor circuit in communication with the ultrasound imaging probe, and a light source configured to emit light. The processor circuit receives first ultrasound data representative of an anatomical feature within a field of view, identifies a location of the anatomical feature within the field of view, and performs a photoacoustic measurement using the identified location of the anatomical feature. Performing the photoacoustic measurement includes: controlling the light source to emit light into the field of view and processing second ultrasound data representative of photoacoustic energy generated in the anatomical feature by the light source. The processor circuit then outputs a graphical representation of the photoacoustic measurement to a display.

Shear Wave Amplitude Reconstruction For Tissue Elasticity Monitoring And Display

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US Patent:

20210113192, Apr 22, 2021

Filed:

May 1, 2019

Appl. No.:

17/051829

Inventors:

- EINDHOVEN, NL
SHRIRAM SETHURAMAN - LEXINGTON MA, US
WILLIAM TAO SHI - WAKEFIELD MA, US
PINGKUN YAN - GAITHERSBURG MA, US
JOCHEN KRUECKER - ANDOVER MA, US

International Classification:

A61B 8/08
A61B 8/00
G16H 30/40
G16H 50/50

Abstract:

The present disclosure describes ultrasound systems and methods configured to determine the elasticity of a target tissue. Systems can include an ultrasound transducer configured to acquire echoes responsive to ultrasound pulses transmitted toward the tissue, which may include a region of increased stiffness. Systems can also include a beamformer configured to control the transducer to transmit a push pulse into the tissue, thereby generating a shear wave in the region of increased stiffness. The beamformer can be configured to control the transducer to emit tracking pulses adjacent to the push pulse. Systems can further include a processor configured to determine a displacement amplitude of the shear wave and based on the amplitude, generate a qualitative tissue elasticity map of the tissue. The processor can combine the qualitative map with a quantitative map of the same tissue, and based on the combination, determine a boundary of the region of increased stiffness.

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Shriram Sethuraman

Shriram Sethuraman Phones & Addresses

Work

Education

Skills

Languages

Interests

Industries

Resumes

Resumes

Senior Scientist And Technical Project Leader

Publications

Us Patents

Transurethral Ultrasound Probe For Treatment Of Prostate

Real-Time Monitoring And Control Of Hifu Therapy In Multiple Dimensions

System And Method For Guided Adaptive Brachytherapy

Intravascular Photoacoustic And Utrasound Echo Imaging

Methods And Systems For Guiding The Acquisition Of Cranial Ultrasound Data

Temporal Mapping Of Thermal Ablation Areas

Ultrasound-Based Guidance For Photoacoustic Measurements And Associated Devices, Systems, And Methods

Shear Wave Amplitude Reconstruction For Tissue Elasticity Monitoring And Display