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Melissa S Hasenbank

from Seattle, WA
Age ~43
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Also known as:
Melissa J Hasenbank, Melissa K
Phone and address:
6509 37Th Ave NE, Seattle, WA 98115
Related to:
Nicole Lauren Kahn, 40Denis CaseyDaniel Liner, 69Selena Scheffer, 52Evelyn CaseyShawn Tate, 52
Connected to:
Nicole M Hasenberg, 57Roman Hasenbeck, 41Venita M Hasenkamp, 64Gary L Hasenour, 64Kevin J Hasenzahl, 62Kirk F Hasenzahl, 56Thomas HasenzaglMargo A Hasert, 53Chris Hash, 32Clare R Hash, 70

Melissa Hasenbank Phones & Addresses

  • 6509 37Th Ave NE, Seattle, WA 98115
  • 9092 Schoenherr Rd, Free Soil, MI 49411 (231) 464-5813
  • Santa Rosa, CA
  • San Francisco, CA
  • Novato, CA
  • Portland, OR
  • Royal Oak, MI
  • Houghton, MI

Resumes

Resumes

Melissa Hasenbank Photo 1

Clinical Research Director

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Location:
Seattle, WA
Industry:
Medical Devices
Work:
Medtronic
Clinical Research Director
Medtronic Nov 2015 - Apr 2017
Clinical Research Manager
Medtronic Jul 2014 - Nov 2015
Clinical Program Manager
Medtronic Apr 2010 - Jul 2014
Principal Clinical Research Specialist
Biotronik Dec 2008 - Apr 2010
Clinical Studies Engineer
Education:
University of Washington 2003 - 2008
Doctorates, Doctor of Philosophy, Bioengineering University of Washington 2008
Uw Business School Entrepreneurship 2005
Michigan Technological University 1999 - 2003
Bachelors, Bachelor of Science, Biomedical Engineering Free Soil High School Valedictorian 1999
Skills:
Biomedical Engineering
Medical Devices
Clinical Research
Fda
Biotechnology
Cross Functional Team Leadership
Biomaterials
Clinical Trials
Microscopy
Life Sciences
Commercialization
Cardiology
Nanotechnology
Lifesciences
Melissa Hasenbank Photo 2

Melissa Hasenbank

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Publications

Us Patents

Signal Amplification Method For Surface Plasmon Resonance-Based Chemical Detection

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US Patent:
7405054, Jul 29, 2008
Filed:
Dec 13, 2005
Appl. No.:
11/301720
Inventors:
Melissa Hasenbank - Free Soil MI, US
Paul Yager - Seattle WA, US
Elain Fu - Seattle WA, US
Kjell Nelson - Seattle WA, US
Assignee:
University of Washington UW Tech Transfer - Invention Licensing - Seattle WA
International Classification:
G01N 33/53
G01N 33/553
US Classification:
435 79, 422 8211, 435 6, 435 792, 4352872, 4352887, 435808, 436164, 436512, 436514, 436524, 436525, 436805, 436827
Abstract:
The present invention provides methods and compositions for amplifying the detection signal in surface plasmon resonance (SPR)-based flow systems. The signal amplification methods comprise the use of well established marker systems that provide a precipitate. The marker systems include, for example, enzyme and nucleation systems. Enzymes suitable for use as a marker system include peroxidases and phosphatases. The amplification system is useful in any SPR-based detection system including microfluidic systems, e. g. , “lab on a chip” systems and the like. The methods can comprise any SPR-based assay format, including typical immunoassay formats. The immunoassay formats can include competitive and sandwich assays. Analyte capture agents can include antibodies, lectins, carbohydrates, polynucleotides, receptor proteins, and the like.

Chemical Sensor Enhanced By Direct Coupling Of Redox Enzyme To Conductive Surface

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US Patent:
7659089, Feb 9, 2010
Filed:
Mar 11, 2008
Appl. No.:
12/045999
Inventors:
Melissa S. Hasenbank - Seattle WA, US
Elain S. Fu - Seattle WA, US
Paul Yager - Seattle WA, US
Assignee:
University of Washington - Seattle WA
International Classification:
C12N 11/00
C12Q 1/26
US Classification:
435 25, 435174
Abstract:
The invention provides a method, apparatus and system for detecting electrochemical oxidoreduction activity mediated by a redox enzyme at a site remote from the enzyme. In one embodiment, the method comprises immobilizing the redox enzyme on a first region of a conductive surface and contacting a substrate capable of producing a detectable signal upon oxidation or reduction with a second region of the conductive surface. The second region is electrically coupled with the first region and the redox enzyme is not present in the second region. The method further comprises exposing the immobilized redox enzyme to conditions that effect oxidation or reduction of the enzyme, and detecting oxidation or reduction of the substrate at the second region. The invention can be adapted for detecting a plurality of analytes.

Chemical Sensor Enhanced By Direct Coupling Of Redox Enzyme To Conductive Surface

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US Patent:
7364886, Apr 29, 2008
Filed:
Feb 28, 2006
Appl. No.:
11/364436
Inventors:
Melissa S. Hasenbank - Seattle WA, US
Elain S. Fu - Seattle WA, US
Paul Yager - Seattle WA, US
Assignee:
University of Washington - Seattle WA
International Classification:
C12N 11/00
C12Q 1/26
US Classification:
435174, 435 25
Abstract:
The invention provides a method, apparatus and system for detecting electrochemical oxidoreduction activity mediated by a redox enzyme at a site remote from the enzyme. In one embodiment, the method comprises immobilizing the redox enzyme on a first region of a conductive surface and contacting a substrate capable of producing a detectable signal upon oxidation or reduction with a second region of the conductive surface. The second region is electrically coupled with the first region and the redox enzyme is not present in the second region. The method further comprises exposing the immobilized redox enzyme to conditions that effect oxidation or reduction of the enzyme, and detecting oxidation or reduction of the substrate at the second region. The invention can be adapted for detecting a plurality of analytes.
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Melissa S Hasenbank from Seattle, WA, age ~43 Get Report