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Jan Heinsohn

from Delray Beach, FL
Age ~41
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Also known as:
Jan N
Connected to:
Christina M Heinsohn, 39Eric A Heinsohn, 52Jessica L Heinsohn, 39Julie A Heinsohn, 59Kimberlee K Heinsohn, 47Nathan T Heinsohn, 42Sandra L Heinsohn, 65Bernice M Heinstein, 84Robert R Heintel, 32Mary C Heintjes, 71

Jan Heinsohn Phones & Addresses

  • Delray Beach, FL
  • Hoboken, NJ
  • Boca Raton, FL

Work

Company: Stryker orthopaedics Oct 2010 Position: Associate project engineer

Education

Degree: Dipl. Ingenieur School / High School: Universität Hannover 2003 to 2010 Specialities: Mechanical Engineering

Skills

Product Development • Windchill • Cad • Efficiency Improvement • Analysis • Troubleshooting • Design Specifications • Controls • International Project Management • Database Management • Product Validation • Communication • Data Presentation • Technical Writing • Pro/Engineer • R&D • Engineering • Product Design • Documentation • Research • Biomedical Engineering • Labview • Medical Devices • Gd&T • Pro Engineer • Design Control • Ptc Creo • Cross Functional Team Leadership • Product Launch • Fda • Geometric Dimensioning and Tolerancing • Research and Development • Project Management • Leadership • Microsoft Office • Sharepoint • Mechanical Engineering • Upper Extremity • Verification and Validation • Validation • Microsoft Powerpoint • Power Bi • Risk Management • Supplier Negotiation • Supplier Development • Supplier Quality • Supplier Evaluation • Supplier Management • Supplier Relationship Management • Iso 13485 • Failure Mode and Effects Analysis • Quality System • Iso Standards • Manufacturing • Corrective and Preventive Action • Sourcing • Change Management • Quality Assurance • Quality Control • Plastics • Design For Manufacturing

Languages

German • English • French • Spanish

Ranks

Certificate: Introduction To Project Management

Interests

Investing • New Technologies • Science and Technology • Reading Biographies • Charitable Work

Industries

Medical Devices

Resumes

Resumes

Jan Heinsohn Photo 1

Senior Project Manager

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Location:
113 Sea Island Ln, Boca Raton, FL 33431
Industry:
Medical Devices
Work:
Stryker Orthopaedics since Oct 2010
Associate Project Engineer
Stryker Orthopaedics - Mahwah, NJ, USA Jan 2010 - Aug 2010
Coop
Stryker Osteosynthesis - Selzach, Switzerland May 2009 - Oct 2009
Intern
Laboratory for Biomechanics and Biomaterials - Hannover Area, Germany May 2007 - May 2009
Graduate Assistant
Education:
Universität Hannover 2003 - 2010
Dipl. Ingenieur, Mechanical Engineering Kreisgymnasium Wesermuende 1995 - 2002
Abitur, Physics and Arts
Skills:
Product Development
Windchill
Cad
Efficiency Improvement
Analysis
Troubleshooting
Design Specifications
Controls
International Project Management
Database Management
Product Validation
Communication
Data Presentation
Technical Writing
Pro/Engineer
R&D
Engineering
Product Design
Documentation
Research
Biomedical Engineering
Labview
Medical Devices
Gd&T
Pro Engineer
Design Control
Ptc Creo
Cross Functional Team Leadership
Product Launch
Fda
Geometric Dimensioning and Tolerancing
Research and Development
Project Management
Leadership
Microsoft Office
Sharepoint
Mechanical Engineering
Upper Extremity
Verification and Validation
Validation
Microsoft Powerpoint
Power Bi
Risk Management
Supplier Negotiation
Supplier Development
Supplier Quality
Supplier Evaluation
Supplier Management
Supplier Relationship Management
Iso 13485
Failure Mode and Effects Analysis
Quality System
Iso Standards
Manufacturing
Corrective and Preventive Action
Sourcing
Change Management
Quality Assurance
Quality Control
Plastics
Design For Manufacturing
Interests:
Investing
New Technologies
Science and Technology
Reading Biographies
Charitable Work
Languages:
German
English
French
Spanish
Certifications:
Introduction To Project Management
George Washington University
Pm Education- Project Planning, Analysis, and Control
Project Leadership, Management and Communications
Certified Scrum Product Owner (Cspo)

Publications

Us Patents

Instrument For Use In Bending Surgical Devices

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US Patent:
20140066994, Mar 6, 2014
Filed:
Mar 8, 2013
Appl. No.:
13/790459
Inventors:
- Selzach, CH
Jan Heinsohn - Hoboken NJ, US
Gennaro A. Barile - Secaucus NJ, US
Andrew Nelson - Tinton Falls NJ, US
Scott Vormbrock - Kinnelon NJ, US
Assignee:
STRYKER TRAUMA AG - Selzach
International Classification:
A61B 17/88
US Classification:
606281, 606 86 B
Abstract:
A system for bending a surgical device is disclosed in which the system may include a bending apparatus having a housing with a series of posts received therein. In some embodiments, one of the series of posts may be selectively movable within an elongate slot in the housing, while another of the series of posts may be radially movable. Movement of the radially movable post may serve to bend a surgical device about at least one of the other remaining posts. A tool may also be provided with the system for interacting with a lever and causing the radially movable post to move radially. An alternate apparatus for bending a surgical device is also disclosed, as are methods of bending a surgical device using the aforementioned system.

Measurement Device For External Fixation Frame

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US Patent:
20130289575, Oct 31, 2013
Filed:
Apr 26, 2012
Appl. No.:
13/456666
Inventors:
Adam John Edelhauser - Nyack NY, US
Jan Heinsohn - Hoboken NJ, US
Assignee:
STRYKER TRAUMA GMBH - Schoenkirchen
International Classification:
A61B 17/88
US Classification:
606102
Abstract:
A protractor for use with an external fixation frame is provided. The protractor may include a face having angle designations thereon and a set of opposed and extending flanges projecting from said face. The flanges may connect to a portion of an external fixation frame, such as a ring (or other component) of the frame. The face may also include a post member to which a rotatable dial is mounted. An elongate member may be pivotally connected to a portion of the post member and may include a clamp. The clamp may be used to connect to an alternate portion of an external fixation frame, such as a strut of the frame. Thus, the protractor may be connected to two points on an external fixation frame so as to measure the angle between such points. Related methods of using the aforementioned protractor are also disclosed.

Robotic System For Shoulder Arthroplasty Using Stemless Implant Components

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US Patent:
20220354668, Nov 10, 2022
Filed:
Jul 27, 2022
Appl. No.:
17/874546
Inventors:
- Mahwah NJ, US
Jan Heinsohn - Boca Raton FL, US
Andrew Jacob Nelson - New York City NY, US
Rajan Yadav - New Delhi, IN
Jetinder Singh - Gurgaon, IN
Assignee:
Howmedica Osteonics Corp. - Mahwah NJ
International Classification:
A61F 2/46
B25J 9/16
A61B 34/30
A61B 34/37
A61B 34/00
A61F 2/40
A61B 34/20
A61B 34/32
Abstract:
Robotic system and methods for preparing a bone of a joint to receive an implant. Virtual object(s) are used to define a volume of material to be removed from the bone for receipt of the implant. A robotic manipulator controls a cutting tool based on the virtual object(s) to form a first cavity and a second cavity in the bone. The second cavity is formed beneath the first cavity and is rotated relative to the first cavity to define an undercut in the bone. The first and second cavities receive a body and a locking member of the implant in an unlocked position. The locking member is rotated within the second cavity to a locked position whereby the undercut engages the locking member to limit withdrawal of the implant from the bone.

Stemless Metaphyseal Humeral Implant

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US Patent:
20210338442, Nov 4, 2021
Filed:
Jul 12, 2021
Appl. No.:
17/372600
Inventors:
- Mahwah NJ, US
Andrew J. Nelson - New City NY, US
Jan Heinsohn - Hoboken NJ, US
Rajan Yadav - New Delhi, IN
Koustubh Rao - Davie FL, US
Gennaro A. Barile - Secaucus NJ, US
Ashish Mehta - Rajasthan, IN
Venkateswaran Perumal - Gurgaon, IN
David Viscardi - Glen Rock NJ, US
International Classification:
A61F 2/40
A61F 2/46
A61F 2/30
Abstract:
A stemless prosthetic shoulder joint may include a prosthetic humeral head and a stemless base. The stemless base may include a collar and an anchor extending from the collar intended to anchor the base into the proximal humerus. The anchor may include various features to enhance the fixation of the base, including hooks, threads, and/or expandable members that may be transitioned from a contracted insertion condition to an expanded implanted condition once the base is positioned in the bone. The anchor and/or collar may also include additional features to enhance fixation, such as geometries and surface features to enhance fixation to bone. The anchor may include a plurality of chisel slots to facilitate removal of bone during a revision surgery.

Hybrid Bone Plate

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US Patent:
20200297400, Sep 24, 2020
Filed:
Mar 18, 2020
Appl. No.:
16/822243
Inventors:
Thomas Hoon Lee - Columbus OH, US
Axel Cremer - Fahrenkrug, DE
Richard Garret Mauldin - Erie CO, US
Arley Perez - Wayne NJ, US
Jan Heinsohn - Boca Raton FL, US
International Classification:
A61B 17/80
A61L 31/02
A61L 31/04
Abstract:
A bone fixation plate comprises a main body formed of a first material and a support member formed of a second, different material and attached to the main body. The main body defines a first set of openings and the support member defines a second set of openings aligned with the first set of openings. For each opening of the first set of openings, a main body circumferential surface is disposed adjacent and continuous with a support member circumferential surface of the second set of openings to define an opening circumferential surface that bounds an opening of the first set of openings and an opening of the second set of openings.

Robotic System For Shoulder Arthroplasty Using Stemless Implant Components

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US Patent:
20190142518, May 16, 2019
Filed:
Nov 6, 2018
Appl. No.:
16/181830
Inventors:
- Ft. Lauderdale FL, US
Jan Heinsohn - Hoboken NJ, US
Andrew Nelson - New York City NY, US
Phil Kemp - White Plains NY, US
Rajan Yadav - New Delhi, IN
Jetinder Singh - Gurgaon, IN
Koustubh Rao - Gurgaon, IN
Assignee:
MAKO Surgical Corp. - Ft. Lauderdale FL
International Classification:
A61B 34/10
A61B 34/30
A61B 34/00
A61F 2/46
A61B 34/20
Abstract:
Robotic systems and methods for robotic arthroplasty. The robotic system includes a machining station and a guidance station. The guidance station tracks movement of various objects in the operating room, such as a surgical tool, a humerus of a patient, and a scapula of the patient. The guidance station tracks these objects for purposes of controlling movement of the surgical tool relative to virtual cutting boundaries or other virtual objects associated with the humerus and scapula to facilitate preparation of bone to receive a shoulder implant system. In some versions, planning for placement of a stemless implant component is based on a future location of a stemmed shoulder implant to be placed in the humerus during a revision surgery.

Stemless Metaphyseal Humeral Implant

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US Patent:
20180271667, Sep 27, 2018
Filed:
Mar 20, 2018
Appl. No.:
15/926218
Inventors:
- Kalamazoo MI, US
Andrew J. Nelson - New City NY, US
Jan Heinsohn - Hoboken NJ, US
Rajan Yadav - New Delhi, IN
Koustubh Rao - Haryana, IN
Gennaro A. Barile - Secaucus NJ, US
Ashish Mehta - Haryana, IN
Venkateswaran Perumal - Gurgaon, IN
David Viscardi - Glen Rock NJ, US
International Classification:
A61F 2/40
Abstract:
A stemless prosthetic shoulder joint may include a prosthetic humeral head and a stemless base. The stemless base may include a collar and an anchor extending from the collar intended to anchor the base into the proximal humerus. The anchor may include various features to enhance the fixation of the base, including hooks, threads, and/or expandable members that may be transitioned from a contracted insertion condition to an expanded implanted condition once the base is positioned in the bone. The anchor and/or collar may also include additional features to enhance fixation, such as geometries and surface features to enhance fixation to bone. The anchor may include a plurality of chisel slots to facilitate removal of bone during a revision surgery.

Stemless Metaphyseal Humeral Implant

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US Patent:
20180271668, Sep 27, 2018
Filed:
Mar 20, 2018
Appl. No.:
15/926234
Inventors:
- Kalamazoo MI, US
Andrew J. Nelson - New City NY, US
Jan Heinsohn - Hoboken NJ, US
Rajan Yadav - New Delhi, IN
Koustubh Rao - Haryana, IN
Gennaro A. Barile - Secaucus NJ, US
Ashish Mehta - Haryana, IN
Venkateswaran Perumal - Gurgaon, IN
David Viscardi - Glen Rock NJ, US
International Classification:
A61F 2/40
Abstract:
A stemless prosthetic shoulder joint may include a prosthetic humeral head and a stemless base. The stemless base may include a collar and an anchor extending from the collar intended to anchor the base into the proximal humerus. The anchor may include various features to enhance the fixation of the base, including hooks, threads, and/or expandable members that may be transitioned from a contracted insertion condition to an expanded implanted condition once the base is positioned in the bone. The anchor and/or collar may also include additional features to enhance fixation, such as geometries and surface features to enhance fixation to bone. The anchor may include a plurality of chisel slots to facilitate removal of bone during a revision surgery.
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Jan Heinsohn from Delray Beach, FL, age ~41 Get Report