Dr. Hunt graduated from the Univ of Liverpool, Fac of Med, Liverpool, Uk (352 06 Prior 1/71) in 1974. He works in Lansing, MI and specializes in Psychiatry. Dr. Hunt is affiliated with Sparrow Clinton Hospital and Sparrow Hospital.
Cook Children's Physicians NetworkCook Childrens Alexander Vision Center 321 S Henderson St FL 2, Fort Worth, TX 76104 6828854499 (phone), 8178828992 (fax)
Pediatric Eye Specialists 321 S Henderson St FL 1, Fort Worth, TX 76104 8175299949 (phone), 8175299943 (fax)
Dr. Hunt graduated from the Baylor College of Medicine in 1999. He works in Fort Worth, TX and 2 other locations and specializes in Ophthalmology and Ophthalmology/pediatrics. Dr. Hunt is affiliated with Baylor All Saints Medical Center and Cook Childrens Medical Center.
Dr. De La Hunt graduated from the University of Minnesota Medical School at Minneapolis in 1994. He works in Fleming Island, FL and 2 other locations and specializes in Child & Adolescent Psychiatry. Dr. De La Hunt is affiliated with Wolfson Childrens Hospital.
Name / Title
Company / Classification
Phones & Addresses
Mr. Michael L. Hunt Vice President
Hunco Builders, Inc. Construction & Remodeling Services
215 West Main Street, P.O. Box 38, Plainview, AR 72857 4792724631, 4792724046
Michael Hunt Realtor
Pharmacy Board Regulation, Licensing, and Inspection of Misc...
Apr 2013 to 2000 Manufacturing EngineerOregon Beverage Recycling Coopeative Portland, OR Nov 2013 to Feb 2014 Field EngineeriBoeing Gresham, OR Apr 2012 to Sep 2012 Manufacturing EngineerWarrior Products Tualatin, OR 2001 to 2005 Machinist
Education:
Oregon Institute of Technology Wilsonville, OR 2008 to 2013 BS in Manufacturing EngineeringPortland Community College Portland, OR 2008 to 2013 Transfer Degree in Engineering
Feb 2011 to 2000 Warfighter Support Jr. AnalystComputer Sciences Corporation Arlington, VA Oct 2008 to Feb 2011 Junior Systems AnalystUpstream, LLC Chesapeake, VA Feb 2004 to Oct 2008 Team Leader
Education:
Liberty University Lynchburg, VA 2010 to 2012 Master of Arts in Management & LeadershipNorfolk State University Norfolk, VA 2006 to 2008 Bachelor of Arts in Psychology
Skills:
PC and Macintosh Operating Systems, Microsoft Office, Microsoft SharePoint Designer 2007, Adobe Professional 9, MOSS 2007 Certified Administrator, Internet/Database Research, Electronic Repository Administration, JavaScript/ASPX site configuration
QMA Inc Cherry Hill, NJ 2006 to 2008 Residential CounselorChildren Youth Services Camden, NJ 1999 to 2001 Lead CounselorAIDS Coalition - Right Foundation
1993 to 1998 Supervising Case ManagerUnited States Air Force Biloxi, MS 1971 to 1988
Education:
Prism Career Institute Cherry Hill, NJ 2010 to Feb 2010 Criminal Law
ACSNJ Bellmawr, NJ Feb 2010 to Sep 2011 Legal AssistantQMA Cherry Hill, NJ 2006 to 2008 Residential CounselorChildren Youth Services Camden, NJ Jun 2001 to Jan 2004 Head Counselor/ Case ManagerRight Foundation Philadelphia, PA 1993 to 1998 Supervising Case MangerUnited States Air Force Biloxi, MS Nov 1970 to Sep 1988 Legal Assistant
Education:
Kaplan University Tampa, FL 2011 to 2013 Paralegal StudiesPrism Career Institute Sep 2010Chester High School 1974
Stephen Burkinshaw - Collingham, GB Samit Chevli - Wilmington DE, US Michael Hunt - Wilmington DE, US Lee Jones - Pontefract, GB David Lewis - Otley, GB David Marfell - Moreton-In Marsh, GB
International Classification:
D06P003/00 D06P005/00
US Classification:
008/506000, 008/512000, 008/515000, 008/516000
Abstract:
A process for dyeing certain textile fibers, utilizing vat acid dyeing and specific additional (second) reducing agents such as -hydroxyalkylsulfinic acids, their salts and 1,2,4-trithiolane, resulting in excellent depth of shade and washfastness, is provided.
Stephen Birkinshaw - Wetherby, GB Samit Chevli - Wilmington DE, US Michael Hunt - Wilmington DE, US Lee Jones - West Yorkshire, GB David Lewis - West Yorkshire, GB David Marfell - Glos, GB
International Classification:
D06P003/60
US Classification:
008/519000
Abstract:
A process for dyeing certain textile fibers, utilizing vat acid dyeing and specific additional (second) reducing agents such as -hydroxyalkylsulfinic acids, their salts and 1,2,4-trithiolane, resulting in excellent depth of shade and washfastness, is provided.
Guillermo R. Villalobos - Springfield VA, US Michael Hunt - Alexandria VA, US Bryan Sadowski - Falls Church VA, US Jasbinder S. Sanghera - Ashburn VA, US Ishwar D. Aggarwal - Charlotte NC, US
International Classification:
C01B 31/36 B32B 9/04 C23C 16/32
US Classification:
428408, 42724916, 423346, 423345
Abstract:
A method of forming a β-SiC material or coating by mixing SiOwith carbon and heating the mixture in vacuum wherein the carbon is oxidized to CO gas and reduces the SiOto SiO gas and reacting a carbon material with the SiO gas at a temperature in the range of 1300 to 1600 C. resulting in a SiC material or a SiC coating on a substrate. Also disclosed is the related SiC material or coating prepared by this method.
Guillermo R Villalobos - Springfield VA, US Bryan Sadowski - Falls Church VA, US Michael Hunt - Alexandria VA, US Robert E. Miklos - La Plata MD, US Shyam S. Bayya - Ashburn VA, US Woohong Kim - Lorton VA, US Jasbinder S. Sanghera - Ashburn VA, US Ishwar D. Aggarwal - Chapel Hill NC, US
International Classification:
C03B 19/09 B28B 3/00
US Classification:
65 173, 264109
Abstract:
A method for making a smooth ceramic including loading ceramic powder to be densified into a hot press die, placing one or more spacers with a polished surface between a hot press punch and the ceramic powder, placing the die and punch into a hot press and hot pressing the ceramic powder, and removing a smooth ceramic shape that requires no subsequent polishing or processing and has a surface roughness of 5 nm RMS or better. The smooth ceramic shape may be transparent, and it may be spinel, magnesia, yttria, lutetia, scandia, YAG, any composites thereof, or any of their rare earth doped compounds. Also disclosed is the related smooth ceramic made by this process.
Emulsified Poly(Oxyalkylenated) Colorants For Wax Compositions
Michael O. Hunt - Wilmington DE John D. Bruhnke - Spartanburg SC
Assignee:
Milliken & Company - Spartanburg SC
International Classification:
C08L 9106 C08L 9108 C08K 5103 C08K 5053
US Classification:
524275
Abstract:
This invention relates to a dispersions of polymeric colorants having poly(oxyalkylene) moieties mixed with unsubstituted sorbitan monooleate alone or ethoxylated dodecanol admixed with unsubstituted sorbitan monooleate. Such colorant dispersions are easy to handle and are effectively introduced into wax media, thereby providing significant improvements over other dyestuffs, pigments, and colorants.
- AUDUBON PA, US Jason Zappacosta - Philadelphia PA, US Michael Hunt - Austin TX, US Jason Gray - East Greenville PA, US Jennifer Klimek - Paducah KY, US Noah Hansell - King of Prussia PA, US David Paul - Phoenixville PA, US Nick Padovani - Wynnewood PA, US
International Classification:
A61F 2/44
Abstract:
Stand-alone interbody fusion devices for engagement between adjacent vertebrae. The stand-alone interbody fusion devices may include frames and one or more endplates coupled to the frame. The frame may be configured and designed to provide the apertures which are designed to retain bone fasteners, such as screws or anchors, and secure the implant to the adjacent vertebrae.
Intervertebral Implants And Related Methods Of Use
- AUDUBON PA, US Mark Fromhold - Phoenixville PA, US Jason Gray - East Greenville PA, US Michael Hunt - Austin TX, US Chris Saville - Morgantown PA, US Robert Rhoads - North Wales PA, US Michael Evangelist - Pottstown PA, US John Perkins - Pottstown PA, US Nick Padovani - Wynnewood PA, US
International Classification:
A61F 2/44 A61F 2/46
Abstract:
A method of implanting an intervertebral spacer may include positioning the intervertebral spacer within an intervertebral space defined by adjacent vertebral bodies. The intervertebral spacer may include a plurality of bores, and each of the plurality of bores may be configured to receive either a linear fastening element or a curvilinear fastening element. The method also may include selecting a first fastening element from a group including linear fastening elements and curvilinear fastening elements, and inserting the first fastening element into a first bore of the plurality of bores such that the first fastening element is inserted into one of the adjacent vertebral bodies to secure the intervertebral spacer within the intervertebral space.
- AUDUBON PA, US Jason Zappacosta - Philadelphia PA, US Michael Hunt - Austin TX, US Jason Gray - East Greenville PA, US Jennifer Klimek - Paducah KY, US Noah Hansell - King of Prussia PA, US David Paul - Phoenixville PA, US Nick Padovani - Wynnewood PA, US
International Classification:
A61F 2/44
Abstract:
Stand-alone interbody fusion devices for engagement between adjacent vertebrae. The stand-alone interbody fusion devices may include frames and one or more endplates coupled to the frame. The frame may be configured and designed to provide the apertures which are designed to retain bone fasteners, such as screws or anchors, and secure the implant to the adjacent vertebrae.