HARRY BISHOP
Radiology at Main St, Lake Ridge, WV
License number
West Virginia 12592
Category
Osteopathic Medicine
Type
Cardiovascular Disease
License number
West Virginia 12592
Category
Osteopathic Medicine
Type
Magnetic Resonance Imaging (MRI)
License number
West Virginia 12592
Category
Medical Practice
Type
Nuclear Medicine
License number
West Virginia 12592
Category
Medical Practice
Type
Nuclear Cardiology
License number
West Virginia 12592
Category
Medical Practice
Type
Nuclear Imaging & Therapy
License number
West Virginia 12592
Category
Medical Practice
Type
In Vivo & In Vitro Nuclear Medicine
License number
West Virginia 12592
Category
Radiology
Type
Body Imaging
License number
West Virginia 12592
Category
Radiology
Type
Neuroradiology
License number
West Virginia 12592
Category
Radiology
Type
Pediatric Radiology
License number
West Virginia 12592
Category
Radiology
Type
Radiation Oncology
License number
West Virginia 12592
Category
Radiology
Type
Diagnostic Radiology
License number
West Virginia 12592
Category
Radiology
Type
Therapeutic Radiology
License number
West Virginia 12592
Category
Radiology
Type
Vascular & Interventional Radiology
License number
West Virginia 12592
Category
Radiology
Type
Diagnostic Ultrasound
Address
Address
147 W Main St, Lake Ridge, WV 26330
Phone
(304) 842-4100
Professional information
Dr. Harry Bishop, Bridgeport WV - MD (Doctor of Medicine)
Specialties:
Radiology, Nuclear Medicine
Address:
CLARKSBURG RADIOLOGY GROUP INC
147 W Main St STE 15, Bridgeport 26330
(304) 842-4100 (Phone), (304) 842-4100 (Fax)
147 W Main St STE 15, Bridgeport 26330
(304) 842-4100 (Phone), (304) 842-4100 (Fax)
Certifications:
Nuclear Medicine, 1972, Radiology
Awards:
Healthgrades Honor Roll
Languages:
English, Arabic
Education:
Medical School
University of California At San Francisco
Graduated: 1954
Tripler Genl Hosp
UCLA Med Ctr
University of California At San Francisco
Graduated: 1954
Tripler Genl Hosp
UCLA Med Ctr
Harry J Bishop, Bridgeport WV
Specialties:
Nuclear Medicine Specialist
Address:
147 W Main St, Bridgeport, WV 26330
Methods Of Detecting Occlusion Of The Coronary Artery System And Imaging The Heart
US Patent:
6597940, Jul 22, 2003
Filed:
Nov 30, 2001
Appl. No.:
09/996602
Inventors:
Harry Bishop - Bridgeport WV
Stanislaw Majewski - Yorktown VA
Marc M. Umeno - Henderson NV
Stanislaw Majewski - Yorktown VA
Marc M. Umeno - Henderson NV
Assignee:
NeoMed Technologies - Cleveland OH
International Classification:
A61B 600
US Classification:
600436, 600431
Abstract:
One aspect of the present invention relates to screening patients for an early stage of coronary artery disease. According to this method, a patient is screened based on the time-activity curve for a radioactive tracer passing through a left ventricle region of the patients body. According to another aspect of the invention, an array of gamma particle detectors is employed to obtain data for a region of interest that is larger than and encompasses a left ventricle region of the patients body. An analysis of the data identifies the subset of the region of interest that corresponds to the left ventricle region. According to a further aspect of the present invention, a second technique is employed to locate the left ventricle region. A still further aspect of the present invention relates to obtaining images of a patients heart using a high temporal resolution gamma camera.
Cardiovascular Imaging And Functional Analysis System
US Patent:
6671541, Dec 30, 2003
Filed:
Dec 1, 2000
Appl. No.:
09/726358
Inventors:
Harry Bishop - Bridgeport WV
Stanislaw Majewski - Yorktown VA
Marc M. Umeno - Cleveland Heights OH
Stanislaw Majewski - Yorktown VA
Marc M. Umeno - Cleveland Heights OH
Assignee:
NeoMed Technologies, Inc. - Cleveland OH
International Classification:
A61B 600
US Classification:
600436, 600431, 2503631, 25037009
Abstract:
A cardiovascular imaging and functional analysis system and method is disclosed, wherein a dedicated fast, sensitive, compact and economical imaging gamma camera system that is especially suited for heart imaging and functional analysis is employed. The cardiovascular imaging and functional analysis system of the present invention can be used as a dedicated nuclear cardiology small field of view imaging camera. The disclosed cardiovascular imaging system and method has the advantages of being able to image physiology, while offering an inexpensive and portable hardware, unlike MRI, CT, and echocardiography systems. The cardiovascular imaging system of the invention employs a basic modular design suitable for cardiac imaging with one of several radionucleide tracers. The detector can be positioned in close proximity to the chest and heart from several different projections, making it possible rapidly to accumulate data for first-pass analysis, positron imaging, quantitative stress perfusion, and multi-gated equilibrium pooled blood (MUGA) tests. In a preferred embodiment, the Cardiovascular Non-Invasive Screening Probe system can perform a novel diagnostic screening test for potential victims of coronary artery disease.
System And Method For Imaging Myocardial Infarction
US Patent:
7409240, Aug 5, 2008
Filed:
Feb 9, 2005
Appl. No.:
11/054278
Inventors:
Harry A. Bishop - Bridgeport WV, US
International Classification:
A61B 6/00
US Classification:
600436, 600407, 600431
Abstract:
One aspect of the present invention relates to imaging a patient to determine whether he or she has suffered a myocardial infarction. According to this method, a patient is injected with a bolus having a radioactive tracer. A representative cycle is produced for both the right ventricular passage of the bolus and the left ventricular passage of the bolus based on planar coordinates over time of scintillation events of the tracer. A time activity curve based on activity in each segment of the respective representative cycles is generated. When a segment of heart muscle is damaged its contraction ceases or lags behind the normal surrounding myocardium resulting in a phase shift in the adjacent blood pool.