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Naresh Akkarapaka Phones & Addresses

  • Houston, TX
  • Ansonia, CT
  • West Haven, CT
  • 753 Classon Ave APT 12B, Brooklyn, NY 11238

Work

Company: Doctors research group, inc Dec 2008 Position: Research & development engineer

Education

School / High School: University of New Haven- West Haven, CT Jul 2008 Specialities: M.S. in Mechanical Engineering

Resumes

Resumes

Naresh Akkarapaka Photo 1

Naresh Akkarapaka Ansonia, CT

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Work:
Doctors Research Group, Inc

Dec 2008 to Present
Research & Development Engineer

Contract Medical Manufacturing, Inc
Oxford, CT
Sep 2008 to Nov 2010
Process Engineer

University of New Haven
West Haven, CT
Jan 2008 to Jul 2008
Teaching Assistant

Education:
University of New Haven
West Haven, CT
Jul 2008
M.S. in Mechanical Engineering

Bangalore Institute of Technology
Bangalore, Karnataka
May 2005
B.S. in Mechanical Engineering

Publications

Us Patents

Multi-Density Polymeric Interbody Spacer

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US Patent:
20110015743, Jan 20, 2011
Filed:
Jul 14, 2009
Appl. No.:
12/502597
Inventors:
Richard J. Deslauriers - Woodbury CT, US
Joseph Jannetty - Naugatuck CT, US
Eric Kolb - Sandy Hook CT, US
John A. Tomich - Wallingford CT, US
Naresh Akkarapaka - West Haven CT, US
Assignee:
DOCTORS RESEARCH GROUP, INC. - Southbury CT
International Classification:
A61F 2/44
US Classification:
623 1716
Abstract:
A multi-density polymeric interbody spacer formed from biocompatible material for osteoconductivity includes multiple density regions of different porosity to provide both strength and osteoconductivity. An interface region is formed between the density regions to provide both direct adhesion and mechanical interlocking between the different density regions to increase the strength of the multi-density polymeric interbody spacer. A method for forming the multi-density polymeric interbody spacer includes curing a first density region to achieve a first target porosity. A second density region may then be molded to the first density region to achieve a second target porosity. A portion of the second density region partially flows into pores of the first density region, providing direct adhesion and mechanical interlocking between the first and second density regions.

Methods And Devices For Spinal Fusion

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US Patent:
20120046698, Feb 23, 2012
Filed:
Aug 18, 2010
Appl. No.:
12/858585
Inventors:
Eric Kolb - Sandy Hook CT, US
Naresh Akkarapaka - West Haven CT, US
John Boxberger - Sandy Hook CT, US
John Tomich - Wallingford CT, US
Assignee:
Doctors Research Group, Inc. - Southbury CT
International Classification:
A61B 17/86
US Classification:
606304
Abstract:
A pedicle fastener for implantation during a spinal fusion procedure includes a head and shank, the shank being connectable to the head and extending outwardly therefrom. The shank may include a shielding feature formed therein for accommodating an adhesive augmenting the pedicle fastener and improving implantation strength and stiffness thereof. A method for implanting the pedicle fastener includes forming a hole in a pedicle, applying the adhesive to the hole and sliding the shank of the pedicle fastener into the hole. The adhesive may also be applied to the hole through direct injection, injection through a longitudinal cannula formed in the pedicle fastener or by depositing the adhesive on the shank and inserting the shank into the hole. Polymerization of the adhesive may be accelerated by heating the pedicle fastener.

Methods And Devices For Repairing Bone Defects

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US Patent:
20120065641, Mar 15, 2012
Filed:
Sep 14, 2010
Appl. No.:
12/881626
Inventors:
Richard J. Deslauriers - Woodbury CT, US
Eric Kolb - Sandy Hook CT, US
John A. Tomich - Wallingford CT, US
John Boxberger - Sandy Hook CT, US
Naresh Akkarapaka - West Haven CT, US
Assignee:
Doctors Research Group, Inc. - Southbury CT
International Classification:
A61B 17/58
A61K 31/765
A61P 19/08
A61K 31/74
US Classification:
606 93, 424 7808, 424 7837
Abstract:
A bone repair apparatus includes a partially polymerized biocompatible adhesive provided in a state wherein polymerization of the biocompatible adhesive is substantially suspended. A method for repairing a bone defect includes preparing the biocompatible adhesive, suspending polymerization of the biocompatible adhesive prior to full cure, delivering the biocompatible adhesive to the bone defect while polymerization is substantially suspended and accelerating polymerization of the biocompatible adhesive to achieve full cure. The method provides an implanted biocompatible adhesive with a malleable osteoconductive structure without compromising the physical characteristics of the biocompatible adhesive, thereby improving handling and delivery of the bone adhesive.

Method For Fabricating A Multi-Density Polymeric Interbody Spacer

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US Patent:
20110012280, Jan 20, 2011
Filed:
Jul 14, 2009
Appl. No.:
12/502635
Inventors:
Richard J. Deslauriers - Woodbury CT, US
Joseph Jannetty - Naugatuck CT, US
Eric Kolb - Sandy Hook CT, US
John A. Tomich - Wallingford CT, US
Naresh Akkarapaka - West Haven CT, US
Assignee:
DOCTORS RESEARCH GROUP, INC. - Southbury CT
International Classification:
B29C 67/20
US Classification:
264 457, 264 464, 264 451
Abstract:
A multi-density polymeric interbody spacer formed from biocompatible material for osteoconductivity includes multiple density regions of different porosity to provide both strength and osteoconductivity. An interface region is formed between the density regions to provide both direct adhesion and mechanical interlocking between the different density regions to increase the strength of the multi-density polymeric interbody spacer. A method for forming the multi-density polymeric interbody spacer includes curing a first density region to achieve a first target porosity. A second density region may then be molded to the first density region to achieve a second target porosity. A portion of the second density region partially flows into pores of the first density region, providing direct adhesion and mechanical interlocking between the first and second density regions.
Naresh Babu Akkarapaka from Houston, TX, age ~41 Get Report