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Max G Wintermark

from Houston, TX
Age ~51
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Also known as:
Max Winterman, Wintermark Max
Related to:
Pamela R Spencer, 70Debbie S Alibrando, 53Tracy M Bradford, 53Janette M Schulz, 48Carol J Bradford, 86Thomas L Bradford, 56Gina H Wintermark, 73Bobbi J Fonder, 58Josephine HanselGina Wintermark-Hansel, 58Robert W Bradford, 88Shirley A Bender, 81
Connected to:
Amy L Wintermute, 48Brenda S Wintermyer, 50Brian H Winterlich, 49Charlotte A Wintermann, 57Diane Winternheimer, 36Dwight D Winterlin, 62Erica M Wintermuth, 44Gloria J Winterlin, 77Helen W Winternitz, 73Holly A Wintermute, 57

Max Wintermark Phones & Addresses

  • Houston, TX
  • Keswick, VA
  • Menlo Park, CA
  • 35 Bay View Dr, San Carlos, CA 94070
  • San Francisco, CA
  • Charlottesville, VA
  • 3534 Devon Pines, Keswick, VA 22947 (434) 977-9978

Work

Company: Charlottesville Office Address: 1215 Lee St, Charlottesville, VA 22908

Education

School / High School: Universite De Lausanne, Faculte De Medicine 1998

Images

Professional Records

Medicine Doctors

Max Wintermark Photo 1

Dr. Max Wintermark - MD (Doctor of Medicine)

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Age:
51
Hospitals:
Charlottesville Office
1215 Lee St, Charlottesville, VA 22908

Department of Neuroradiology
1215 Lee St, Charlottesville, VA 22908

University of Virginia Hospital
1215 Lee Street, Charlottesville, VA 22908
Education:
Medical Schools
Universite De Lausanne, Faculte De Medicine
Graduated: 1998
Max Wintermark Photo 2

Max Wintermark

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Specialties:
Diagnostic Radiology, Neuroradiology
Work:
Stanford Hospital Neuroradiology
300 Pasteur Dr STE S047, Stanford, CA 94305
(650) 723-7426 (phone), (650) 498-5374 (fax)
Education:
Medical School
Univ De Lausanne, Fac De Med, Lausanne, Switzerland
Graduated: 1998
Languages:
English
Vietnamese
Description:
Dr. Wintermark graduated from the Univ De Lausanne, Fac De Med, Lausanne, Switzerland in 1998. He works in Stanford, CA and specializes in Diagnostic Radiology and Neuroradiology. Dr. Wintermark is affiliated with Lucile Packard Childrens Hospital At Stanford and Stanford Hospital.

Business Records

Name / Title
Company / Classification
Phones & Addresses
Max Wintermark
Max Wintermark MD
Radiology · Neurologist
505 Parnassus Ave, San Francisco, CA 94143
(415) 353-1079

Publications

Us Patents

Methods And Apparatus For Reducing Noise In Images

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US Patent:
20090232373, Sep 17, 2009
Filed:
Mar 11, 2008
Appl. No.:
12/046354
Inventors:
Paul E. Licato - Wauwatosa WI, US
Saad Ahmed Sirohey - Pewaukee WI, US
Tamanna Nanavaty Bembenek - Milwaukee WI, US
Max Wintermark - San Francisco CA, US
International Classification:
G06K 9/00
US Classification:
382131
Abstract:
A method for enhancing images of an object includes registering a fixed image with cine images of the same object. Next, the fixed image and the cine images are transformed into frequency space representations thereof. A central portion of the frequency space cine images are merged with a peripheral portion of frequency space fixed image using a defined normalized response curve or a predefined normalized response curve (or both) to form a merged image. Finally, the method includes inversely transforming the merged image into enhanced cine images of the object.

Perfusion Imaging

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US Patent:
20110211742, Sep 1, 2011
Filed:
Sep 10, 2009
Appl. No.:
13/062227
Inventors:
Joerg Bredno - San Francisco CA, US
Max Wintermark - San Francisco CA, US
Assignee:
KONINKLIJKE PHILIPS ELECTRONICS N.V. - EINDHOVEN
International Classification:
G06K 9/00
US Classification:
382128
Abstract:
A system includes a perfusion information determiner () that determines perfusion information based on a combination of pre-perfusion scan image data and perfusion scan image data.

Collateral Blood Flow Assessment

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US Patent:
20120238888, Sep 20, 2012
Filed:
Nov 18, 2010
Appl. No.:
13/509804
Inventors:
Joerg Bredno - San Francisco CA, US
Max Wintermark - Charlottesville VA, US
Assignee:
KONINKLIJKE PHILIPS ELECTRONICS N.V. - EINDHOVEN
International Classification:
A61B 5/026
US Classification:
600504
Abstract:
A method includes obtaining both first inflow and first perfusion metrics for non-healthy tissue of interest, obtaining both second inflow and second perfusion metrics for healthy tissue of interest, and concurrently presenting both the first flow and perfusion metrics for the non-healthy tissue of interest and both the second flow and perfusion metrics for the healthy tissue of interest.

Functional Imaging

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US Patent:
20120288180, Nov 15, 2012
Filed:
Oct 14, 2010
Appl. No.:
13/503925
Inventors:
Joerg Bredno - San Francisco CA, US
Max Wintermark - Charlottesville VA, US
Assignee:
KONINKLIJKE PHILIPS ELECTRONICS N.V. - EINDHOVEN
International Classification:
G06K 9/46
US Classification:
382134, 382133
Abstract:
A method includes determining, via a processor, functional information about tissue of interest in image data for a functional image acquisition based on reference information generated based on non-tissue of interest.

Systems And Methods For Accelerated Arterial Spin Labeling Using Compressed Sensing

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US Patent:
20130315461, Nov 28, 2013
Filed:
Apr 22, 2013
Appl. No.:
13/867325
Inventors:
Li Zhao - Charlottesville VA, US
Xiao Chen - Charlottesville VA, US
Samuel W. Fielden - Charlottesville VA, US
Frederick H. Epstein - Charlottesville VA, US
Max Wintermark - Charlottesville VA, US
Craig H. Meyer - Charlottesville VA, US
Assignee:
UNIVERSITY OF VIRGINIA LICENSING & VENTURES GROUP - Charlottesville VA
International Classification:
G06T 7/00
US Classification:
382131
Abstract:
Systems and methods for accelerated arterial spin labeling (ASL) using compressed sensing are disclosed. In one aspect, in accordance with one example embodiment, a method includes acquiring magnetic resonance data associated with an area of interest of a subject, wherein the area of interest corresponds to one or more physiological activities of the subject. The method also includes performing image reconstruction using temporally constrained compressed sensing reconstruction on at least a portion of the acquired magnetic resonance data, wherein acquiring the magnetic resonance data includes receiving data associated with ASL of the area of interest of the subject.

Interactive Voxel Manipulation In Volumetric Medical Imaging For Virtual Motion, Deformable Tissue, And Virtual Radiological Dissection

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US Patent:
20190251755, Aug 15, 2019
Filed:
Nov 19, 2018
Appl. No.:
16/195251
Inventors:
David Byron Douglas - Winter Park FL, US
Robert E Douglas - Winter Park FL, US
Kathleen M Douglas - Winter Park FL, US
Max Wintermark - San Carlos CA, US
International Classification:
G06T 19/20
G06T 15/08
G06T 13/00
A61B 34/10
Abstract:
A simulation is performed by assigning tissue type properties to voxels of a medical image and manipulating the voxels based on the assigned tissue type properties and an input that prompts voxel manipulation. Voxels may also be created and eliminated in response to the input. Tissue type properties may include elasticity, ductility, hardness, density, and thermal conductivity. Manipulation may include changing at least one of voxel size, location, orientation, shape, color, grayscale, and tissue type property value. The input may include insertion of a virtual volume-subtending surgical or anatomic object. Simulations may include virtual motion, deformation of tissue, and radiological dissection for pre-operative planning.

Methods And Systems For Producing Neuronal Lesions Using Magnetic Resonance And Acoustic Energy

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US Patent:
20180333593, Nov 22, 2018
Filed:
May 16, 2018
Appl. No.:
15/981186
Inventors:
- Charlottesville VA, US
- Palo Alto CA, US
Max Wintermark - Menlo Park CA, US
International Classification:
A61N 7/00
G01R 33/50
G01R 33/48
G01R 33/56
A61B 5/055
A61M 37/00
A61B 5/00
Abstract:
Methods and systems are described for producing non-invasive and targeted neuronal lesions using magnetic resonance and acoustic energy. Imaging data corresponding to a region of interest is obtained, the region of interest within an imaging subject. Information indicative of a target region within the region of interest is received from the obtained imaging data. Focused acoustic energy directed to the target region within the region of interest is generated to disrupt a barrier between a therapeutic agent and parenchymal tissue in response to insonification by the focused acoustic energy, the therapeutic agent comprising a neurotoxin and microbubbles.

Systems And Methods For Accelerated Arterial Spin Labeling Using Compressed Sensing

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US Patent:
20160098835, Apr 7, 2016
Filed:
Sep 30, 2015
Appl. No.:
14/870803
Inventors:
- Charlottesville VA, US
Xiao Chen - Charlottesville VA, US
Samuel W. Fielden - Charlottesville VA, US
Frederick H. Epstein - Charlottesville VA, US
Max Wintermark - Charlottesville VA, US
Craig H. Meyer - Charlottesville VA, US
International Classification:
G06T 7/00
G01R 33/48
G01R 33/563
G06T 11/00
G06K 9/62
Abstract:
Systems and methods for accelerated arterial spin labeling (ASL) using compressed sensing are disclosed. In one aspect, in accordance with one example embodiment, a method includes acquiring magnetic resonance data associated with an area of interest of a subject, wherein the area of interest corresponds to one or more physiological activities of the subject. The method also includes performing image reconstruction using temporally constrained compressed sensing reconstruction on at least a portion of the acquired magnetic resonance data, wherein acquiring the magnetic resonance data includes receiving data associated with ASL of the area of interest of the subject.
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Max G Wintermark from Houston, TX, age ~51 Get Report