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Peter M Govey

from Havertown, PA
Age ~41
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Related to:
Virginia B Govey, 100Paul A GoveyRobert Timbario, 68Kelly J Golson, 57Kimberly Tovar, 57
Connected to:
Jeanne M Govey, 62Mark A Govia, 37Nannette G Govia, 58Patricia L Govia, 84Claudia C Govic, 62Wilfredo A Govich, 99Ashley Govier, 34Kristine Govier, 46Sally J Govier, 74Simon J Govier, 60

Peter Govey Phones & Addresses

  • Havertown, PA
  • 2906 Morris Rd, Ardmore, PA 19003
  • Philadelphia, PA
  • Hershey, PA
  • Hummelstown, PA
  • Grantham, PA
  • Stoystown, PA
  • Annville, PA

Work

Company: Globus medical Feb 1, 2016 Position: Project engineer

Education

School / High School: Pennsylvania State University College of Medicine 2007 to 2012

Skills

Biomedical Engineering • Research • Cell Culture • Orthopedics • Bioengineering • Molecular Biology • Engineering • Animal Models • 3D Modeling • Biomechanics • Mechanical Engineering • Bioinformatics • Microct • Small Animal Imaging • Mechanical Testing • Biomaterials • Prototyping and Fabrication • Tissue Engineering • Finite Element Analysis • Project Management • Stem Cells • Flow Cytometry • Cell Signaling • Bone Marrow Transplantation • Gene Expression Profiling • Qrt Pcr • Fluorescence Microscopy • Confocal Microscopy • Statistical Data Analysis • Mathematical Modeling • Enzyme Assays

Ranks

Certificate: Engineer-In-Training (Eit)

Industries

Biotechnology

Resumes

Resumes

Peter Govey Photo 1

Project Engineer

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Location:
2906 Morris Rd, Ardmore, PA 19003
Industry:
Biotechnology
Work:
Globus Medical
Project Engineer
Penn State University Aug 2007 - Nov 2015
Graduate and Post-Doctoral Researcher
The Manitowoc Company Oct 2006 - Aug 2007
Contract Engineer
The Collaboratory For Strategic Partnerships and Applied Research Jan 2003 - Aug 2006
Appropriate Technology Researcher
Education:
Pennsylvania State University College of Medicine 2007 - 2012
Skills:
Biomedical Engineering
Research
Cell Culture
Orthopedics
Bioengineering
Molecular Biology
Engineering
Animal Models
3D Modeling
Biomechanics
Mechanical Engineering
Bioinformatics
Microct
Small Animal Imaging
Mechanical Testing
Biomaterials
Prototyping and Fabrication
Tissue Engineering
Finite Element Analysis
Project Management
Stem Cells
Flow Cytometry
Cell Signaling
Bone Marrow Transplantation
Gene Expression Profiling
Qrt Pcr
Fluorescence Microscopy
Confocal Microscopy
Statistical Data Analysis
Mathematical Modeling
Enzyme Assays
Certifications:
Engineer-In-Training (Eit)

Publications

Us Patents

Headless Compression Screw Driver System

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US Patent:
20230021196, Jan 19, 2023
Filed:
Sep 22, 2022
Appl. No.:
17/934359
Inventors:
- AUDUBON PA, US
Peter Govey - Ardmore PA, US
James Gault - Philadelphia PA, US
Andrew Davison - Downingtown PA, US
International Classification:
A61B 17/88
B25B 23/10
B25B 23/00
A61B 17/86
A61B 17/00
A61B 17/68
A61B 17/56
A61B 90/00
Abstract:
A compression screw driver system including a drive member having a shaft extending from a proximal end to a distal end. A drive selection member is positioned about the shaft and is axially moveable along the shaft between an engagement position and a disengaged position. A distal portion of the drive selection member defines a first engagement structure. A compression sleeve is positioned over the distal end of the shaft. The proximal end of the compression sleeve defines a second engagement structure which complements the first engagement structure and the distal end of the compression sleeve defines a contact surface. In the engagement position the first and second engagement structures are engaged and the compression sleeve rotates with the drive member and in the disengaged position the first and second engagement structures are disengaged and the compression sleeve remains stationary while the drive member rotates.

Methods Of Selecting Surgical Implants And Related Devices

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US Patent:
20210386322, Dec 16, 2021
Filed:
Aug 31, 2021
Appl. No.:
17/462111
Inventors:
- Audubon PA, US
Andrew Davison - Downingtown PA, US
David Demski - Audubon PA, US
Peter Govey - Ardmore PA, US
Norbert Johnson - North Andover MA, US
Stephanie Wolfe - Hatfield PA, US
International Classification:
A61B 5/107
A61B 17/80
A61B 34/00
G16H 30/00
Abstract:
Methods may be provided to identify a medical implant from a plurality of medical implants to be fixed to an anatomical surface. Dimensional parameters for each of the plurality of medical implants may be provided, and dimensional parameters corresponding to the anatomical surface may be provided. The dimensional parameters for each of the plurality of medical implants may be compared with the dimensional parameters corresponding to the anatomical surface, and one of the medical implants may be selected from the plurality of medical implants based on comparing the dimensional parameters for each of the plurality of medical implants with the dimensional parameters corresponding to the anatomical surface. An identification of the medical implant selected from the plurality of medical implants may be provided through a user interface. Related devices and computer program products are also discussed.

Bone Stabilization Systems

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US Patent:
20210106368, Apr 15, 2021
Filed:
Oct 9, 2019
Appl. No.:
16/597381
Inventors:
- Audubon PA, US
Peter Govey - Ardmore PA, US
Peter Evans - Lafayette Hill PA, US
International Classification:
A61B 17/80
Abstract:
Bone plates for engaging bone members are described herein. The bone plates can include features that accommodate the underlying anatomy of different types of bone, such as the proximal portion of the ulna. The bone plate can receive one or more fasteners to secure the bone plate to the proximal ulna. A reverse angle fastener may be included to target the olecranon process of the proximal ulna.

Headless Compression Screw Driver System

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US Patent:
20210045789, Feb 18, 2021
Filed:
Nov 4, 2020
Appl. No.:
17/089309
Inventors:
- Audubon PA, US
Peter Govey - Ardmore PA, US
James Gault - Philadelphia PA, US
Andrew Davison - Downingtown PA, US
International Classification:
A61B 17/88
B25B 23/10
B25B 23/00
Abstract:
A compression screw driver system including a drive member having a shaft extending from a proximal end to a distal end. A drive selection member is positioned about the shaft and is axially moveable along the shaft between an engagement position and a disengaged position. A distal portion of the drive selection member defines a first engagement structure. A compression sleeve is positioned over the distal end of the shaft. The proximal end of the compression sleeve defines a second engagement structure which complements the first engagement structure and the distal end of the compression sleeve defines a contact surface. In the engagement position the first and second engagement structures are engaged and the compression sleeve rotates with the drive member and in the disengaged position the first and second engagement structures are disengaged and the compression sleeve remains stationary while the drive member rotates.

Headless Compression Screw Driver System

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US Patent:
20190192206, Jun 27, 2019
Filed:
Dec 21, 2017
Appl. No.:
15/849774
Inventors:
- AUDUBON PA, US
Peter Govey - Philadelphia PA, US
James Gault - Philadelphia PA, US
Andrew Davison - Downingtown PA, US
International Classification:
A61B 17/88
Abstract:
A compression screw driver system including a drive member having a shaft extending from a proximal end to a distal end. A drive selection member is positioned about the shaft and is axially moveable along the shaft between an engagement position and a disengaged position. A distal portion of the drive selection member defines a first engagement structure. A compression sleeve is positioned over the distal end of the shaft. The proximal end of the compression sleeve defines a second engagement structure which complements the first engagement structure and the distal end of the compression sleeve defines a contact surface. In the engagement position the first and second engagement structures are engaged and the compression sleeve rotates with the drive member and in the disengaged position the first and second engagement structures are disengaged and the compression sleeve remains stationary while the drive member rotates.

Methods Of Selecting Surgical Implants And Related Devices

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US Patent:
20190142304, May 16, 2019
Filed:
Nov 10, 2017
Appl. No.:
15/809110
Inventors:
- AUDUBON PA, US
Andrew Davison - Downingtown PA, US
David Demski - Audubon PA, US
Peter Govey - Philadelphia PA, US
Norbert Johnson - North Andover MA, US
Stephanie Wolfe - Hatfield PA, US
International Classification:
A61B 5/107
A61B 17/80
A61B 34/00
Abstract:
Methods may be provided to identify a medical implant from a plurality of medical implants to be fixed to an anatomical surface. Dimensional parameters for each of the plurality of medical implants may be provided, and dimensional parameters corresponding to the anatomical surface may be provided. The dimensional parameters for each of the plurality of medical implants may be compared with the dimensional parameters corresponding to the anatomical surface, and one of the medical implants may be selected from the plurality of medical implants based on comparing the dimensional parameters for each of the plurality of medical implants with the dimensional parameters corresponding to the anatomical surface. An identification of the medical implant selected from the plurality of medical implants may be provided through a user interface. Related devices and computer program products are also discussed.
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Peter M Govey from Havertown, PA, age ~41 Get Report