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Brent Lee Atkinson

from Highlands Ranch, CO
Age ~61
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Also known as:
Brent L Atkinson
Phone and address:
9189 Fox Fire Way, Littleton, CO 80129
Related to:
Amanda K Dowling, 48Sarah G Nutting, 40
Connected to:
Aida Atkinson, 55Alex H Atkinson, 60Amaya M Atkinson, 45Andree Atkinson, 38Anita L Atkinson, 58Annie Atkinson, 95Antwayn Atkinson, 42Armand A Atkinson, 39Athena P Atkinson, 74Becky A Atkinson, 61

Brent Atkinson Phones & Addresses

  • 9189 Fox Fire Way, Hghlnds Ranch, CO 80129
  • Highlands Ranch, CO
  • Lakewood, CO
  • 3707 Sprigg St, Frederick, MD 21704 (301) 874-2918
  • Boulder, CO
  • Davis, CA
  • Austin, TX
  • Jefferson, CO
  • Dillon, CO
  • New York, NY

Work

Company: Woodward governor company Jan 2012 Position: Test engineering department (intern)

Education

School / High School: COLORADO STATE UNIVERSITY- Fort Collins, CO 2010 Specialities: Bachelor of Science in Electrical Engineering

Skills

LavVIEW • TestStand • MATLAB • C# • C++ • Verilog programming

Resumes

Resumes

Brent Atkinson Photo 1

Biomedical Product Development Consultant

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Location:
6605 south Biloxi Way, Aurora, CO 80016
Industry:
Medical Devices
Work:
Allosource Aug 2010 - May 2012
Vice President Research and Development
Atkinson Biologics Consulting Aug 2010 - May 2012
Biomedical Product Development Consultant
Bioset Dec 2005 - Aug 2010
Vice President Product Development
Dentsply Sirona 2001 - 2005
Director R and D
Sulzer Rotating Equipment Services 1996 - 2001
Product Development Scientist
Education:
Columbia University Vagelos College of Physicians and Surgeons 1987 - 1992
Doctorates, Doctor of Philosophy, Molecular Biology
Skills:
Spine
Orthopedic
Biologics
Regenerative Medicine
Sports Medicine
Clinical Research
Product Development
Combination Products
Manufacturing
Regulations
Dentistry
Biomaterials
Stem Cells
Molecular Biology
Medical Devices
Commercialization
Biomedical Engineering
Iso 13485
Surgical Instruments
Clinical Development
R&D
Design Control
Fda
Bone
Biotechnology
Capa
Technology Transfer
Capital Equipment
Lifesciences
Tissue Engineering
Validation
Product Launch
Life Sciences
Orthopedics
Languages:
English
Brent Atkinson Photo 2

Associate Software Engineer

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Location:
Littleton, CO
Industry:
Defense & Space
Work:
Lockheed Martin
Associate Software Engineer
Woodward Governor Company Jan 2012 - May 2013
Intern
The Home Depot Mar 2008 - Jan 2012
Flooring Associate
Associated Thermoforming, Inc. Dec 2006 - Dec 2008
Thermoforming Technician
Resourcemfg Jul 2006 - Dec 2006
Temporary Employee
Education:
Colorado State University 2010 - 2013
Aims Community College 2008 - 2010
Interests:
Developing Ideas
Challenging Myself
Colleague Interaction
Backpacking
Learning
Snowboarding
Managing Responsibilities
Researching Technologies
Traveling
Hiking
Encouraging Teamwork
Wakeboarding
Brent Atkinson Photo 3

Brent Atkinson

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Brent Atkinson

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Brent Atkinson Photo 5

Brent Atkinson Berthoud, CO

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Work:
WOODWARD GOVERNOR COMPANY

Jan 2012 to 2000
Test Engineering Department (Intern)
THE HOME DEPOT
Loveland, CO
Mar 2008 to Jan 2012
Flooring Sales Associate
Education:
COLORADO STATE UNIVERSITY
Fort Collins, CO
2010 to 2013
Bachelor of Science in Electrical Engineering
AIMS COMMUNITY COLLEGE
Greeley, CO
2008 to 2010
Pre-Engineering
Skills:
LavVIEW, TestStand, MATLAB, C#, C++, Verilog programming

Business Records

Name / Title
Company / Classification
Phones & Addresses
Brent Atkinson
Vice President Of Product Development
Biosurface Engineering Technologies, Inc
Noncommercial Research Organization
9430 Ky West Ave, Rockville, MD 20850
9430, Ky West Ave, Rockville, MD 20850
(301) 795-6000

Publications

Us Patents

Systematic Evolution Of Ligands By Exponential Enrichment: Photoselection Of Nucleic Acid Ligands

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US Patent:
6482594, Nov 19, 2002
Filed:
Jun 14, 2001
Appl. No.:
09/882246
Inventors:
Larry Gold - Boulder CO
Michael Willis - Louisville CO
Tad Koch - Boulder CO
Steven Ringquist - Lyons CO
Kirk Jensen - Boulder CO
Brent Atkinson - Boulder CO
Assignee:
SomaLogic, Inc. - Boulder CO
International Classification:
C12Q 168
US Classification:
435 6, 435 912, 536 231, 536 2433, 536 254
Abstract:
Methods to obtain nucleic acid ligands that photocrosslink to target molecules associated with a disease state are provided. The methods presented are variations on the photoSELEX methods for obtaining nucleic acid ligands. In one method, a candidate mixture of photocrosslinkable nucleic acids is contacted with a biological substance obtained from a source associated with a disease state suspected of containing a target molecule to form nucleic acid-target molecule complexes, the complexes are irradiated to form crosslinked complexes, the photocrosslinked complexes are partitioned from the remainder of the candidate mixture; and the nucleic acid ligands that photocrosslink to molecule are retained. These nucleic acids are then contacted with a second biological substance of the same type as the first, but obtained from a source not associated with a disease state. This removes nucleic acids with affinity to molecules that are not associated with the disease state.

Compositions For Regeneration And Repair Of Cartilage Lesions

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US Patent:
6511958, Jan 28, 2003
Filed:
Feb 16, 2000
Appl. No.:
09/505209
Inventors:
Brent Atkinson - Lakewood CO
James J. Benedict - Arvada CO
Assignee:
Sulzer Biologics, Inc. - Austin TX
International Classification:
A01N 3718
US Classification:
514 2, 514 21, 424422, 424423, 424484, 424549, 530350, 530840
Abstract:
Disclosed is a cartilage repair product that induces both cell ingrowth into a bioresorbable material and cell differentiation into cartilage tissue. Such a product is useful for regenerating and/or repairing both vascular and avascular cartilage lesions, particularly articular cartilage lesions, and even more particularly mensical tissue lesions, including tears as well as segmental defects. Also disclosed is a method of regenerating and repairing cartilage lesions using such a product.

Device And Method For Regeneration And Repair Of Cartilage Lesions

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US Patent:
6514514, Feb 4, 2003
Filed:
Feb 16, 1999
Appl. No.:
09/250370
Inventors:
Brent Atkinson - Lakewood CO
James J. Benedict - Arvada CO
Assignee:
Sùlzer Biologics Inc. - Austin TX
International Classification:
A61E 1300
US Classification:
424423, 424422, 424424, 424425, 424426, 424484, 424572, 514 2, 530350
Abstract:
Disclosed is a cartilage repair product that induces both cell ingrowth into a bioresorbable material and cell differentiation into cartilage tissue. Such a product is useful for regenerating and/or repairing both vascular and avascular cartilage lesions, particularly articular cartilage lesions, and even more particularly mensical tissue lesions, including tears as well as segmental defects. Also disclosed is a method of regenerating and repairing cartilage lesions using such a product.

Composition And Device For In Vivo Cartilage Repair

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US Patent:
6582471, Jun 24, 2003
Filed:
Sep 13, 2000
Appl. No.:
09/485594
Inventors:
Pedro Bittmann - Zürich, CH
Brent Atkinson - Lakewood CO
James J. Benedict - Golden CO
John Ranieri - Austin TX
Marsha L. Whitney - Austin TX
Donald Chickering - Framingham MA
Assignee:
Sulzer Innotec AG - Winterthur
International Classification:
A61F 236
US Classification:
623 2363, 623 2351
Abstract:
The composition as described serves for in vivo cartilage repair. It basically consists of a naturally derived osteoinductive and/or chondroinductive mixture of factors (e. g. derived from bone) or of a synthetic mimic of such a mixture combined with a nanosphere delivery system. A preferred mixture of factors is the combination of factors isolated from bone, known as BP and described by Poser and Benedict (WO 95/13767). The nanosphere delivery system consists of nanospheres defined as polymer particles of less than 1000 nm in diameter (whereby the majority of particles preferably ranges between 200-400 nm) in which nanospheres the combination of factors is encapsulated. The nanospheres are loaded with the mixture of factors in a weight ratio of 0. 001 to 17% (w/w), preferably of 1 to 4% (w/w) and have a release profile with an initial burst of 10 to 20% of the total load over the first 24 hours and a long time release of at least 0. 1 per day during at least seven following days.

Compositions For Regeneration And Repair Of Cartilage Lesions

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US Patent:
RE41286, Apr 27, 2010
Filed:
Jan 28, 2005
Appl. No.:
11/046674
Inventors:
Brent Atkinson - Lakewood CO, US
James J. Benedict - Arvada CO, US
Assignee:
Zimmer Orthobiologics, Inc. - Austin TX
International Classification:
A01N 37/18
A61K 38/00
A61K 9/14
A61K 35/32
A61F 13/00
A61F 2/00
C07K 1/00
C07K 14/00
C07K 17/00
US Classification:
514 2, 424422, 424423, 424484, 424549, 514 21, 530350
Abstract:
Disclosed is a cartilage repair product that induces both cell ingrowth into a bioresorbable material and cell differentiation into cartilage tissue. Such a product is useful for regenerating and/or repairing both vascular and avascular cartilage lesions, particularly articular cartilage lesions, and even more particularly mensical tissue lesions, including tears as well as segmental defects. Also disclosed is a method of regenerating and repairing cartilage lesions using such a product.

Bone Repair Putty

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US Patent:
7842300, Nov 30, 2010
Filed:
Jul 28, 2003
Appl. No.:
10/628692
Inventors:
Brent L. Atkinson - Lakewood CO, US
Tracey S. Hanks - Denver CO, US
Assignee:
DENTSPLY International, Inc. - York PA
International Classification:
A61L 24/00
A61L 27/46
A61L 27/56
A61L 27/58
US Classification:
424400, 424426, 424489
Abstract:
A bone repair material is described that is of putty-like consistency, particularly useful for repairing dental bony defects such as those caused by bone loss resulting from moderate or severe periodontitis, augmenting of bony defects of the alveolar ridge, filling tooth extraction sites, or sinus elevation grafting. The repair material includes a porous, resorbable particulate that is bone-derived or derived from bone-like hydroxyapatite or synthetic hydroxyapatite; and, a resorbable carrier, such as high molecular weight polysaccharides, such as hyaluronic acid. A high concentration of particulate in the putty enhances bone repair and requires a high concentration of carrier to retain the putty at the defect site. For a particulate density of about 1. 2 g/cc such as PEPGEN P-15 Bone Graft, a preferred formulation comprises about 55% percent by weight of the putty suspended in a hyaluronic acid gel of about 1.

Composition Comprising Bmp-2 Amplifier/Co-Activator For Enhancement Of Osteogenesis

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US Patent:
7981862, Jul 19, 2011
Filed:
Jun 22, 2007
Appl. No.:
11/767391
Inventors:
Paul O. Zamora - Gaithersburg MD, US
Brent Lee Atkinson - Frederick MD, US
Assignee:
BioSurface Engineering Technologies, Inc. - Rockville MD
International Classification:
A61K 38/18
C07K 14/475
C07K 14/51
C07K 14/00
C07K 5/00
US Classification:
514 76, 514 88, 530300, 530402
Abstract:
A composition comprising a synthetic growth factor analogue comprising a non-growth factor heparin binding region, a linker and a sequence that binds specifically to a cell surface receptor and an osteoconductive material where the synthetic growth factor analogue is attached to and can be released from the osteoconductive material and is an amplifier/co-activator of osteoinduction.

Composition And Device For In Vivo Cartilagerepair

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US Patent:
20030236574, Dec 25, 2003
Filed:
Mar 11, 2003
Appl. No.:
10/386946
Inventors:
Pedro Bittman - Zurich, CH
Brent Atkinson - Lakewood CO, US
James Benedict - Golden CO, US
John Ranieri - Austin TX, US
Marsha Whitney - Austin TX, US
Donald Chickering - Framingham MA, US
Assignee:
Sulzer Innotec AG
International Classification:
A61F002/28
US Classification:
623/023630, 523/115000
Abstract:
The composition as described serves for in vivo cartilage repair. It basically consists of a naturally derived osteoinductive and/or chondroinductive mixture of factors (e.g. derived from bone) or of a synthetic mimic of such a mixture combined with a nanosphere delivery system. A preferred mixture of factors is the combination of factors isolated from bone, known as BP and described by Poser and Benedict (WO 95/13767). The nanosphere delivery system consists of nanospheres defined as polymer particles of less than 1000 nm in diameter (whereby the majority of particles preferably ranges between 200-400 nm) in which nanospheres the combination of factors is encapsulated. The nano-spheres are loaded with the mixture of factors in a weight ratio of 0.001 to 17% (w/w), preferably of 1 to 4% (w/w) and have a release profile with an initial burst of 10 to 20% of the total load over the first 24 hours and a long time release of at least 0.1 per day during at least seven following days. The nanospheres are composed of e.g. ((D,L)-lactic acid/glycolic acid)-copolymer (PLGA). The loaded nanospheres are e.g. made by phase inversion. The composition is advantageously utilized as a device comprising any biodegradable matrix in which the nanospheres loaded with the factor combination is contained.
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Brent Lee Atkinson from Highlands Ranch, CO, age ~61 Get Report