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Jason Donald Mcclure, 544674 Crawford Ct, San Diego, CA 92120

Known as:
Jason D Mcclure Jason P Mcclure Jason Mc Clure Jason D Jason
Related to:
Patricia Mc Clure 78

Jason Mcclure Phones & Addresses

4674 Crawford Ct, San Diego, CA 92120   

Mililani, HI   

Mesa, AZ   

Las Vegas, NV   

Madison, WI   

Honolulu, HI   

Riverside, CA   

Work

Position: Professional/Technical

Education

Degree: Associate degree or higher
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Jason Mcclure resumes & CV records

Resumes

Jason Mcclure Photo 49

Jason R. Mcclure - St. Louis, MO

Work:
J.W. Aluminum Mar 2013 to 2000
Moth / Machine Operator: 422 Mill Ecolab Inc - St. Louis, MO Oct 2004 to Sep 2012
Maintenance Associate Kasco Corp - St. Louis, MO Apr 2003 to Oct 2004
Machine Operator
Education:
Ranken Technical College - St. Louis, MO 2008 to 2009
Certificate of Control Systems Technology in Maintenance of Control Systems Ranken Technical College - St. Louis, MO 2006 to 2008
Certificate of Electical Automation Technology in Electricity
Skills:
Working knowledge of all hand tools air, electric, and gas powered tools such as saws, grinders, drills, presses, and breaks. I am also knowledgeable and experienced in carpentry, pulmbing / pipe-fitting, electrical, mechanical, welding, painting, drywall, and some masonry.
Jason Mcclure Photo 50

Jason Mcclure - Fontana, CA

Work:
Home Depot - Redlands, CA Oct 2010 to Jan 2014
General warehouse associate U.S. Census Bureau - Fontana, CA Apr 2010 to May 2010
Customer Service The Light Group - Las Vegas, NV Aug 2009 to Oct 2009
Bouncer Pinnacle Security - Kansas City, KS Apr 2009 to Jul 2009
Advertising Sales Director Dave & Buster's - Ontario, CA Apr 2008 to Mar 2009
Captain / Doorman Khook - Dickinson, ND Jan 2008 to Mar 2008
DJ Cash Handling - Dickinson, ND Sep 2007 to Dec 2007
Customer Service, Cashiering Service Auto Glass - Ontario, CA May 2007 to Aug 2007
Warehouse Driver Service Auto Glass - Ontario, CA May 2006 to Aug 2006
Warehouse Driver Hollywood Video - Rancho Cucamonga, CA Nov 2004 to May 2006
Guest Service Representative

Publications & IP owners

Us Patents

Techniques To Improve Polyurethane Membranes For Implantable Glucose Sensors

US Patent:
8050731, Nov 1, 2011
Filed:
Nov 16, 2005
Appl. No.:
11/280672
Inventors:
Mark A. Tapsak - San Diego CA, US
Rathbun K. Rhodes - Madison WI, US
Mark C. Shults - Madison WI, US
Jason D. McClure - San Diego CA, US
Assignee:
DexCom, Inc. - San Diego CA
International Classification:
G01N 27/26
A61B 5/00
A61B 5/05
US Classification:
600347, 20440305, 20440311, 20440313, 424424, 21050021, 427 212, 6048911, 600365
Abstract:
The invention provides an implantable membrane for regulating the transport of analytes therethrough that includes a matrix including a first polymer; and a second polymer dispersed throughout the matrix, wherein the second polymer forms a network of microdomains which when hydrated are not observable using photomicroscopy at 400× magnification or less. In one aspect, the homogeneous membrane of the present invention has hydrophilic domains dispersed substantially throughout a hydrophobic matrix to provide an optimum balance between oxygen and glucose transport to an electrochemical glucose sensor.

Techniques To Improve Polyurethane Membranes For Implantable Glucose Sensors

US Patent:
8053018, Nov 8, 2011
Filed:
Jan 15, 2010
Appl. No.:
12/688737
Inventors:
Mark A. Tapsak - Orangeville PA, US
Rathbun K. Rhodes - Madison WI, US
Mark C. Shults - Madison WI, US
Jason D. McClure - San Diego CA, US
Assignee:
DexCom, Inc. - San Diego CA
International Classification:
G01N 1/28
US Classification:
427 211, 204403, 435 25, 427384, 427 212, 4274301, 4274432
Abstract:
The invention provides an implantable membrane for regulating the transport of analytes therethrough that includes a matrix including a first polymer; and a second polymer dispersed throughout the matrix, wherein the second polymer forms a network of microdomains which when hydrated are not observable using photomicroscopy at 400× magnification or less. In one aspect, the homogeneous membrane of the present invention has hydrophilic domains dispersed substantially throughout a hydrophobic matrix to provide an optimum balance between oxygen and glucose transport to an electrochemical glucose sensor.

Techniques To Improve Polyurethane Membranes For Implantable Glucose Sensors

US Patent:
2003021, Nov 27, 2003
Filed:
May 22, 2002
Appl. No.:
10/153356
Inventors:
Mark Tapsak - San Diego CA, US
Rathbun Rhodes - Madison WI, US
Mark Shults - Madison WI, US
Jason McClure - San Diego CA, US
Assignee:
Dexcom, Inc. - San Diego CA
International Classification:
A61K031/00
US Classification:
210/500210, 210/500270, 210/500340
Abstract:
The invention provides an implantable membrane for regulating the transport of analytes therethrough that includes a matrix including a first polymer; and a second polymer dispersed throughout the matrix, wherein the second polymer forms a network of microdomains which when hydrated are not observable using photomicroscopy at 400× magnification or less. In one aspect, the homogeneous membrane of the present invention has hydrophilic domains dispersed substantially throughout a hydrophobic matrix to provide an optimum balance between oxygen and glucose transport to an electrochemical glucose sensor.

Implantable Analyte Sensor

US Patent:
2005024, Nov 3, 2005
Filed:
May 3, 2004
Appl. No.:
10/838909
Inventors:
Paul Goode - Murrieta CA, US
Arnold Holmquist - San Diego CA, US
Mark Tapsak - San Diego CA, US
Mark Shults - Madison WI, US
Victoria Carr-Brendel - Pleasanton CA, US
James Brauker - San Diego CA, US
Paul Neale - San Diego CA, US
Jason McClure - San Diego CA, US
Mark Brister - Encinitas CA, US
Peter Simpson - Del Mar CA, US
Rathbun Rhodes - Madison WI, US
Assignee:
DexCom, Inc. - San Diego CA
International Classification:
A61B005/07
A61B005/05
US Classification:
600302000, 128903000
Abstract:
Abstract of the DisclosureAn implantable analyte sensor including a sensing region for measuring the analyte and a non-sensing region for immobilizing the sensor body in the host. The sensor is implanted in a precisely dimensioned pocket to stabilize the analyte sensor and enable measurement of the concentration of the analyte in the host before and after formation of a foreign body capsule around the sensor. The sensor further provides a transmitter for RF transmission through the sensor body, electronic circuitry, and a power source optimized for long-term use in the miniaturized sensor body.

Techniques To Improve Polyurethane Membranes For Implantable Glucose Sensors

US Patent:
2006006, Mar 30, 2006
Filed:
Nov 16, 2005
Appl. No.:
11/280102
Inventors:
Mark Tapsak - San Diego CA, US
Rathbun Rhodes - Madison WI, US
Mark Shults - Madison WI, US
Jason McClure - San Diego CA, US
International Classification:
B32B 27/40
US Classification:
428423100, 525296000, 525420000
Abstract:
The invention provides an implantable membrane for regulating the transport of analytes therethrough that includes a matrix including a first polymer; and a second polymer dispersed throughout the matrix, wherein the second polymer forms a network of microdomains which when hydrated are not observable using photomicroscopy at 400× magnification or less. In one aspect, the homogeneous membrane of the present invention has hydrophilic domains dispersed substantially throughout a hydrophobic matrix to provide an optimum balance between oxygen and glucose transport to an electrochemical glucose sensor.

Implantable Analyte Sensor

US Patent:
2010004, Feb 18, 2010
Filed:
Oct 29, 2009
Appl. No.:
12/608872
Inventors:
Arnold L. Holmquist - San Diego CA, US
Mark A. Tapsak - Orangeville PA, US
Mark Shults - Madison WI, US
Victoria Carr-Brendel - San Diego CA, US
James H. Brauker - Cement City MI, US
Paul V. Neale - San Diego CA, US
Jason D. McClure - San Diego CA, US
Mark Brister - Encinitas CA, US
Peter C. Simpson - Encinitas CA, US
Rathbun K. Rhodes - Madison WI, US
Assignee:
DexCom, Inc. - San Diego CA
International Classification:
A61B 5/1468
H01R 43/00
US Classification:
600345, 29825
Abstract:
An implantable analyte sensor including a sensing region for measuring the analyte and a non-sensing region for immobilizing the sensor body in the host. The sensor is implanted in a precisely dimensioned pocket to stabilize the analyte sensor in vivo and enable measurement of the concentration of the analyte in the host before and after formation of a foreign body capsule around the sensor. The sensor further provides a transmitter for RF transmission through the sensor body, electronic circuitry, and a power source optimized for long-term use in the miniaturized sensor body.

Techniques To Improve Polyurethane Membranes For Implantable Glucose Sensors

US Patent:
2012004, Feb 16, 2012
Filed:
Oct 27, 2011
Appl. No.:
13/283397
Inventors:
Mark A. Tapsak - Orangeville PA, US
Rathbun K. Rhodes - Madison WI, US
Mark C. Shults - Madison WI, US
Jason D. McClure - San Diego CA, US
Assignee:
DexCom, Inc. - San Diego CA
International Classification:
B05D 7/00
B05D 3/00
C09D 175/08
B05D 5/00
US Classification:
4273855, 524500
Abstract:
The invention provides an implantable membrane for regulating the transport of analytes therethrough that includes a matrix including a first polymer; and a second polymer dispersed throughout the matrix, wherein the second polymer forms a network of microdomains which when hydrated are not observable using photomicroscopy at 400× magnification or less. In one aspect, the homogeneous membrane of the present invention has hydrophilic domains dispersed substantially throughout a hydrophobic matrix to provide an optimum balance between oxygen and glucose transport to an electrochemical glucose sensor.

Techniques To Improve Polyurethane Membranes For Implantable Glucose Sensors

US Patent:
2013003, Jan 31, 2013
Filed:
Sep 28, 2012
Appl. No.:
13/631780
Inventors:
Rathbun K. Rhodes - Madison WI, US
Mark C. Shults - Madison WI, US
Jason D. McClure - San Diego CA, US
Assignee:
DexCom, Inc. - San Jose CA
International Classification:
A61B 5/145
B05D 5/00
US Classification:
600365, 427 212
Abstract:
The invention provides an implantable membrane for regulating the transport of analytes therethrough that includes a matrix including a first polymer; and a second polymer dispersed throughout the matrix, wherein the second polymer forms a network of microdomains which when hydrated are not observable using photomicroscopy at 400× magnification or less. In one aspect, the homogeneous membrane of the present invention has hydrophilic domains dispersed substantially throughout a hydrophobic matrix to provide an optimum balance between oxygen and glucose transport to an electrochemical glucose sensor.

Possible Relatives

Cynthia D Mcclure  David C Mcclure  Deanna J Mcclure  Daisy E Mcclure  Deanne L Mcclure  Debbie K Mcclure  Deborah L Mcclure  Jason F Last  Jason S Johnson  Jason R Stamps 

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