Bradley R. Foerster
Radiology at Brian Ct, Ann Arbor, MI

License number
Kentucky 41425
Issued Date
Dec 13, 2007
Expiration Date
Feb 28, 2011
Category
Radiology
Type
Telemedicine
Address
Address
1745 Brian Ct, Ann Arbor, MI 48104
Education
University of Michigan Medical School, Ann Arbor, 1999
Phone
(734) 262-9209 (Work)

Professional information

Bradley R Foerster Photo 1

Dr. Bradley R Foerster, Ann Arbor MI - MD (Doctor of Medicine)

Specialties:
Neuroradiology
Address:
UNIVERSITY OF MICHIGAN HEALTH SYSTEM
1500 E Medical Center Dr STE 5030, Ann Arbor 48109
(734) 936-4000 (Phone)
Certifications:
Diagnostic Radiology, 2007, Internal Medicine, 2002, Neuroradiology, 2011
Awards:
Healthgrades Honor Roll
Languages:
English
Hospitals:
UNIVERSITY OF MICHIGAN HEALTH SYSTEM
1500 E Medical Center Dr STE 5030, Ann Arbor 48109
University of Michigan Health System
1500 East Medical Center Dr SPC 5474, Ann Arbor 48109
Education:
Medical School
University of Mi Med Sch
Graduated: 1999


Bradley Roger Foerster Photo 2

Bradley Roger Foerster, Ann Arbor MI

Specialties:
Radiologist
Address:
1500 E Medical Center Dr, Ann Arbor, MI 48109
Education:
Doctor of Medicine
Board certifications:
American Board of Radiology Certification in Diagnostic Radiology (Radiology), American Board of Radiology Sub-certificate in Neuroradiology (Radiology)


Bradley Foerster Photo 3

Microscale Devices And Reactions In Microscale Devices

US Patent:
6271021, Aug 7, 2001
Filed:
Mar 18, 1999
Appl. No.:
9/271963
Inventors:
Mark A. Burns - Ann Arbor MI
Carlos H. Mastrangelo - Ann Arbor MI
Timothy S. Sammarco - Ann Arbor MI
Francis P. Man - Ann Arbor MI
James R. Webster - Ann Arbor MI
Brian N. Johnson - Ann Arbor MI
Bradley Foerster - Ann Arbor MI
Darren Jones - Ann Arbor MI
Assignee:
The Regents of The University of Michigan - Ann Arbor MI
International Classification:
C12M 134, C09K 500, B01B 900
US Classification:
4352872
Abstract:
The movement and mixing of microdroplets through microchannels is described employing silicon-based microscale devices, comprising microdroplet transport channels, reaction regions, electrophoresis modules, and radiation detectors. The discrete droplets are differentially heated and propelled through etched channels. Electronic components are fabricated on the same substrate material, allowing sensors and controlling circuitry to be incorporated in the same device.


Bradley Foerster Photo 4

Microscale Devices And Reactions In Microscale Devices

US Patent:
6057149, May 2, 2000
Filed:
Sep 15, 1995
Appl. No.:
8/529293
Inventors:
Mark A. Burns - Ann Arbor MI
Carlos H. Mastrangelo - Ann Arbor MI
Timothy S. Sammarco - Ann Arbor MI
Francis P. Man - Ann Arbor MI
James R. Webster - Ann Arbor MI
Brian N. Johnson - Ann Arbor MI
Bradley Foerster - Ann Arbor MI
Darren Jones - Ann Arbor MI
Yakeitha Fields - Ann Arbor MI
Adam Kaiser - Ann Arbor MI
David T. Burke - Ann Arbor MI
Assignee:
The University of Michigan - Ann Arbor MI
International Classification:
C12M 100, C12Q 168, G01N 3300, G05D 2300
US Classification:
4352872
Abstract:
The movement and mixing of microdroplets through microchannels is described employing silicon-based microscale devices, comprising microdroplet transport channels, reaction regions, electrophoresis modules, and radiation detectors. The discrete droplets are differentially heated and propelled through etched channels. Electronic components are fabricated on the same substrate material, allowing sensors and controlling circuitry to be incorporated in the same device.


Bradley Foerster Photo 5

Microscale Reaction Devices

US Patent:
7066453, Jun 27, 2006
Filed:
Dec 28, 2000
Appl. No.:
09/751493
Inventors:
Mark A. Burns - Ann Arbor MI, US
Carlos H. Mastrangelo - Ann Arbor MI, US
Timothy S. Sammarco - Ann Arbor MI, US
Francis P. Man - Ann Arbor MI, US
James R. Webster - Ann Arbor MI, US
Brian N. Johnson - Ann Arbor MI, US
Bradley Foerster - Ann Arbor MI, US
Darren Jones - Ann Arbor MI, US
Yakeitha Fields - Ann Arbor MI, US
Adam Kaiser - Ann Arbor MI, US
David T. Burke - Ann Arbor MI, US
Assignee:
The Regents of the University of Michigan - Ann Arbor MI
International Classification:
F02M 31/02, B32B 27/04, C12M 1/34
US Classification:
261147, 422 63, 422 99, 422198, 435 6, 4352871
Abstract:
The movement and mixing of microdroplets through microchannels is described employing silicon-based microscale devices, comprising microdroplet transport channels, reaction regions, electrophoresis modules, and radiation detectors. The discrete droplets are differentially heated and propelled through etched channels. Electronic components are fabricated on the same substrate material, allowing sensors and controlling circuitry to be incorporated in the same device.