STEVEN JOEL FEIGENBERG
Medical Practice in Baltimore, MD
License number
Pennsylvania MD419311
Category
Medicine
Type
Medical Physician and Surgeon
Address
Address
2
Baltimore, MD 21201
Pennsylvania
Pennsylvania
Personal information
See more information about STEVEN JOEL FEIGENBERG at radaris.comName
Address
Phone
1311 Dulaney Valley Rd, Towson, MD 21286
373 E Valley Forge Rd, Kng Of Prussa, PA 19406
325 Dartmouth Ave, Swarthmore, PA 19081
373 Valley Forge Rd, King of Prussia, PA 19406
591 County Line Rd, Wayne, PA 19087
Professional information
Steven Feigenberg, Glen Burnie MD
Work:
Bwmc
301 Hospital Dr, Glen Burnie, MD 21061 Steven J Czinn
11065 Little Patuxent Pkwy, Columbia, MD 21044 University Of Maryland Medical Center
22 S Greene St, Baltimore, MD 21263 Steven Rosenberg
18105 Prince Philip Dr, Olney, MD 20832 Univ. of Maryland Rad. Oncology Associates Pa
10710 Charter Dr, Columbia, MD 21044
301 Hospital Dr, Glen Burnie, MD 21061 Steven J Czinn
11065 Little Patuxent Pkwy, Columbia, MD 21044 University Of Maryland Medical Center
22 S Greene St, Baltimore, MD 21263 Steven Rosenberg
18105 Prince Philip Dr, Olney, MD 20832 Univ. of Maryland Rad. Oncology Associates Pa
10710 Charter Dr, Columbia, MD 21044
Steven Joel Feigenberg, Baltimore MD
Specialties:
Oncologist
Address:
22 S Greene St, Baltimore, MD 21201
Education:
Doctor of Medicine
Board certifications:
American Board of Radiology Certification in Radiation Oncology (Radiology)
Quantitative Evaluation Of Fractional Regional Ventilation Using Four-Dimensional Computed Tomography
US Patent:
2013030, Nov 14, 2013
Filed:
May 14, 2013
Appl. No.:
13/894314
Inventors:
Nilesh Mistry - Silver Spring MD, US
Warren D'Souza - Timonium MD, US
Tejan Diwanji - Germantown MD, US
Steven Feigenberg - Towson MD, US
Warren D'Souza - Timonium MD, US
Tejan Diwanji - Germantown MD, US
Steven Feigenberg - Towson MD, US
Assignee:
UNIVERSITY OF MARYLAND, BALTIMORE - Baltimore MD
International Classification:
A61B 6/00
US Classification:
600425
Abstract:
Methods and systems for determining fractional regional ventilation are disclosed. A method includes obtaining first and second lung image data indicative of a first phase and a second phase of a respiratory cycle, respectively, determining an apparent mass ratio k based on the first lung image data and the second lung image data, determining first and second spatially matched lung image data, each including N voxels, based on the first lung image data and the second lung image data, and determining at least one fractional regional ventilation value (FRV value), in accordance with a first equation FRV(n)=(k·ρ2_n−ρ1_n)/ρ1_n. The value of n is a voxel index, ρ1_n is indicative of a density of a voxel n of the first spatially matched lung image data, and ρ2_n is indicative of a density of a voxel n of the second spatially matched lung image data.