NORTHWESTERN MEMORIAL HOSPITAL 645 N Michigan Ave Suite 900, Chicago, IL 60611 (312)6955090 (Phone), (312)6955088 (Fax)
Certifications:
Infectious Disease, 1996 Internal Medicine, 2005
Awards:
Healthgrades Honor Roll
Languages:
English
Education:
Medical School University of Mn Med Sch Graduated: 1992 Medical School University Of Minnesota Graduated: 1992 Medical School U Calif San Francisco Graduated: 1992
University of Minnesota, Medical School - Doctor of Medicine
Board certifications:
American Board of Internal Medicine Certification in Internal Medicine American Board of Internal Medicine Sub-certificate in Infectious Disease (Internal Medicine)
Name / Title
Company / Classification
Phones & Addresses
Alan Hauser Business And Strategy Development, Owner
Bio-Com International Business Consulting Services
402 Kelburn Rd, Bannockburn, IL 60015
Alan Hauser Board of Directors
Northwestern University College/University
1800 Sherman Ave, Evanston, IL 60201 1881 Sheridan Rd, Evanston, IL 60208 (847)4917315, (847)4913005, (847)4917050, (847)4913349
Alan Hauser Board of Directors
Northwestern University Dance Marathon Philanthropy · College/University · Geological Sciences · University · College / University · Amusement/Recreation Services · History Dept · Library
1999 Campus Dr BOX 50, Evanston, IL 60208 2169 Campus Dr, Evanston, IL 60208 1850 Campus Dr, Evanston, IL 60208 2006 Sheridan Rd, Evanston, IL 60208 (847)4913741, (847)4915349, (847)4913974, (847)4915729
Us Patents
Microfluidic Method For Nucleic Acid Purification And Processing
Robert J. Nelson - Alameda CA Herbert H. Hooper - Belmont CA Alan K. Hauser - Palo Alto CA Sharat Singh - San Jose CA Stephen J. Williams - Burlingame CA Alexander P. Sassi - Berkeley CA
Integrated microfluidic devices comprising at least an enrichment channel ( ) and a main electrophoretic flowpath ( ) are provided. In the subject integrated devices, the enrichment channel and the main electrophoretic flowpath are positioned so that waste fluid flows away from said main electrophoretic flowpath through a discharge outlet ( ). The subject devices find use in a variety of electrophoretic applications, including clinical assays, high throughput screening for genomics and pharmaceutical applications, point-or-care in vitro diagnostics, molecular genetic analysis and nucleic acid diagnostics, cell separations, and bioresearch generally.
Microfluidic Apparatus And Method For Purification And Processing
Robert J. Nelson - Alameda CA Herbert H. Hooper - Belmont CA Alan K. Hauser - Palo Alto CA Sharat Singh - San Jose CA Stephen J. Williams - Burlingame CA Alexander P. Sassi - Berkeley CA
Integrated microfluidic devices comprising at least an enrichment channel ( ) and a main electrophoretic flowpath ( ) are provided. In the subject integrated devices, the enrichment channel and the main electrophoretic flowpath are positioned so that waste fluid flows away from said main electrophoretic flowpath through a discharge outlet ( ). The subject devices find use in a variety of electrophoretic applications, including clinical assays, high throughput screening for genomics and pharmaceutical applications, point-or-care in vitro diagnostics, molecular genetic analysis and nucleic acid diagnostics, cell separations, and bioresearch generally.
Microfluidic Apparatus And Method For Enriching And Analyzing Biological Cells
Robert Nelson - Alameda CA, US Herbert Hooper - Belmont CA, US Alan Hauser - Palo Alto CA, US Sharat Singh - San Jose CA, US Stephen Williams - Burlingame CA, US Alexander Sassi - Berkeley CA, US
International Classification:
C12Q001/68 C12M001/34
US Classification:
435/006000, 435/287200
Abstract:
Integrated microfluidic devices comprising at least an enrichment channel () and a main electrophoretic flowpath () are provided. In the subject integrated devices, the enrichment channel and the main electrophoretic flowpath are positioned so that waste fluid flows away from said main electrophoretic flowpath through a discharge outlet (). The subject devices find use in a variety of electrophoretic applications, including clinical assays, high throughput screening for genomics and pharmaceutical applications, point-or-care in vitro diagnostics, molecular genetic analysis and nucleic acid diagnostics, cell separations, and bioresearch generally.
Scott E. Battle - Chicago IL, US Alan R. Hauser - Chicago IL, US
Assignee:
Northwestern University - Evanston IL
International Classification:
C12Q 1/68 G01N 33/50
US Classification:
435 6, 436 94
Abstract:
Disclosed are Genomic Island nucleic acid sequences referred to as PAGI-5, PAGI-6, PAGI-7, PAGI-8, PAGI-9, PAGI-10, and PAGI-11. These nucleic acid sequences may be useful in methods for identifying virulent strains of bacteria.
Northwestern University - , US Alan R. Hauser - Chicago IL, US
Assignee:
Northwestern University - Evanston IL
International Classification:
C12Q 1/68 G01N 33/569
US Classification:
435 611, 435 71
Abstract:
Disclosed are Genomic Island nucleic acid sequences referred to as PAGI-5, PAGI-6, PAGI-7, PAGI-8, PAGI-9, PAGI-10, and PAGI-11. These nucleic acid sequences may be useful in methods for identifying virulent strains of bacteria.
Robert J. Nelson - Alameda CA Herbert H. Hooper - Belmont CA Alan K. Hauser - Palo Alto CA Alexander P. Sassi - Berkeley CA
Assignee:
Aclara Biosciences, Inc. - Hayward CA
International Classification:
G01N 2726 G01N 27447
US Classification:
204601
Abstract:
Integrated microfluidic devices comprising at least an enrichment channel and a main electrophoretic flowpath are provided. In the subject integrated devices, the enrichment channel and the main electrophoretic flowpath are positioned so that waste fluid flows away from said main electrophoretic flowpath through a discharge outlet. The subject devices find use in a variety of electrophoretic applications, including clinical assays, high throughput screening for genomics and pharmaceutical applications, point-or-care in vitro diagnostics, molecular genetic analysis and nucleic acid diagnostics, cell separations, and bioresearch generally.
Microfluidic Method For Nucleic Acid Purification And Processing
Robert J. Nelson - Alameda CA Herbert H. Hooper - Belmont CA Alan K. Hauser - Palo Alto CA Sharat Singh - San Jose CA Stephen J. Williams - Burlingame CA Alexander P. Sassi - Berkeley CA
Assignee:
ACLARA Biosciences, Inc. - Mountain View CA
International Classification:
C12Q 168 C12P 1934 C07H 2100
US Classification:
435 6
Abstract:
Integrated microfluidic devices comprising at least an enrichment channel and a main electrophoretic flowpath are provided. In the subject integrated devices, the enrichment channel and the main electrophoretic flowpath are positioned so that waste fluid flows away from said main electrophoretic flowpath through a discharge outlet. The subject devices find use in a variety of electrophoretic applications, including clinical assays, high throughput screening for genomics and pharmaceutical applications, point-or-care in vitro diagnostics, molecular genetic analysis and nucleic acid diagnostics, cell separations, and bioresearch generally.
Disclosed are Genomic Island nucleic acid sequences referred to as PAGI-5, PAGI-6, PAGI-7, PAGI-8, PAGI-9, PAGI-10, and PAGI-11. These nucleic acid sequences may be useful in methods for identifying virulent strains of bacteria.
OnTarget Partners - Frisco, Texas since Dec 2012
Opportunity Development
MedSys Group Consulting 2007 - Dec 2012
Corporate Business Development
Apex CoVantage Jul 2010 - Aug 2010
Sales Development, Engineering & Smart Grid Solutions
Skills:
EMR New Business Development Sales Process Improvement Lead Generation Marketing Strategic Planning Cold Calling Microsoft Office Salesforce.com Business Development CPOE Sales Management Coaching Social Media Microsoft Excel Marketing Strategy B2B Informatics Business Planning HL7 Telecommunications Contract Negotiation Staff Augmentation Cerner Meditech Software Documentation Ambulatory HIPAA Selling