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Mehmet Ziya Sengun

from Canton, MA
Age ~62
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Also known as:
Mehmet Z Sengun, Mehmet E Sengun
Phone and address:
19 Carey Cir, Canton, MA 02021
(781) 562-1690
Related to:
Aydin Sengun, 23
Connected to:
Abhirup Sengupta, 40Agniv Sengupta, 32Akash Sengupta, 32Aparupa Sengupta, 42Apurba Sengupta, 49Aritrika Sengupta, 48Ayush Sengupta, 33Bhaswati Sengupta, 42Chandrima Sengupta, 49Jaideep Sengupta, 59

Mehmet Sengun Phones & Addresses

  • 19 Carey Cir, Canton, MA 02021 (781) 562-1690
  • 800 Matthew Cir, Braintree, MA 02184 (781) 843-0821
  • 60 Dinsmore Ave, Framingham, MA 01702
  • 285 Plantation St, Worcester, MA 01604
  • 1077 East Ave, Rochester, NY 14607 (716) 461-4959
  • 270 Goodman St S, Rochester, NY 14607 (716) 461-4959
  • Boston, MA
  • San Jose, CA
  • Cambridge, MA

Resumes

Resumes

Mehmet Sengun Photo 1

Mehmet Sengun

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Location:
Greater Boston Area
Industry:
Mechanical or Industrial Engineering
Mehmet Sengun Photo 2

Mehmet Sengun

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Mehmet Sengun

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Publications

Us Patents

Laser Ablated Filter

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US Patent:
6464347, Oct 15, 2002
Filed:
Nov 30, 2000
Appl. No.:
09/727202
Inventors:
Gary A. Kneezel - Webster NY
John R. Andrews - Fairport NY
Almon P. Fisher - Rochester NY
Mehmet Z. Sengun - Rochester NY
Assignee:
Xerox Corporation - Stamford CT
International Classification:
M41J 2175
US Classification:
347 93
Abstract:
A filter structure having a plurality of pores through the structure each of the pores having a cross section with a length (L) and a width (W) wherein the dimension of L is greater than the dimension of W. The filter can be used with an improved ink jet printhead having an ink inlet in one of its surfaces, a plurality of nozzles, individual channels connecting the nozzles to an internal ink supplying manifold, the manifold being supplied ink through the ink inlet, and selectively addressable heating elements for expelling ink droplets, the improved ink jet printhead comprising a substantially flat filter having predetermined dimensions and being bonded to the printhead containing the ink inlet, the filter having a plurality of pores, therethrough, each of the pores having a cross section with a length=L and a width=W, wherein the dimension of L is greater than the dimension of W. Also disclosed is a method for fabricating a filter element comprising the steps of positioning a thin polymer film in the output radiation path of an ablating laser, and controlling the laser output so that a plurality of pores are formed in portions of the polymer film, each of the pores having a cross section with a length (L) and a width (W), wherein the dimension of L is greater than the dimension of W.

Vapor Assisted Fluid Cutting Device And Method

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US Patent:
7867187, Jan 11, 2011
Filed:
Jan 10, 2006
Appl. No.:
11/306751
Inventors:
Mehmet Z. Sengun - Framingham MA, US
Assignee:
Depuy Mitek, Inc. - Raynham MA
International Classification:
A61N 1/30
A61B 17/32
US Classification:
604 19, 606167
Abstract:
Various methods and devices are provided for cutting tissue using a high pressure fluid jet. In one exemplary embodiment, a high pressure fluid jet delivery device is provided having a nozzle adapted to direct fluid to a tissue site. A heating element is disposed on the nozzle and is adapted to heat fluid surrounding a high pressure fluid jet flowing from the nozzle to form at least one vapor bubble. The vapor bubble can reduce the interaction between the high pressure fluid jet and the fluid surrounding the high pressure fluid jet.

Methods And Devices For Delivering And Affixing Tissue Scaffolds

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US Patent:
8241298, Aug 14, 2012
Filed:
Mar 27, 2009
Appl. No.:
12/412499
Inventors:
Mehmet Z. Sengun - Braintree MA, US
Kristian DiMatteo - Waltham MA, US
Assignee:
DePuy Mitek, Inc. - Raynham MA
International Classification:
A61F 2/84
US Classification:
606108
Abstract:
Methods and devices are provided for delivering and affixing tissue replacements. In one embodiment, a tissue scaffold can be delivered into a patient through a cannula to a cavity formed at a defect site in tissue, e. g. , cartilage. A delivery shaft can be used to deliver the scaffold through the cannula, and a loading device can help load the scaffold onto the delivery shaft. A delivery guide device can position and temporarily hold the scaffold within the cavity. The delivery guide device can guide one or more surgical instruments to the scaffold to affix the scaffold within the cavity, e. g. , to bone underlying the scaffold, using at least one securing mechanism.

Vapor Assisted Fluid Cutting Device And Method

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US Patent:
8251974, Aug 28, 2012
Filed:
Nov 22, 2010
Appl. No.:
12/951523
Inventors:
Mehmet Z. Sengun - Braintree MA, US
Assignee:
DePuy Mitek, Inc. - Raynham MA
International Classification:
A61M 31/00
A61B 17/32
US Classification:
604500, 606167
Abstract:
Various methods and devices are provided for cutting tissue using a high pressure fluid jet. In one exemplary embodiment, a high pressure fluid jet delivery device is provided having a nozzle adapted to direct fluid to a tissue site. A heating element is disposed on the nozzle and is adapted to heat fluid surrounding a high pressure fluid jet flowing from the nozzle to form at least one vapor bubble. The vapor bubble can reduce the interaction between the high pressure fluid jet and the fluid surrounding the high pressure fluid jet.

Methods And Devices For Preparing And Implanting Tissue Scaffolds

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US Patent:
8308814, Nov 13, 2012
Filed:
Mar 27, 2009
Appl. No.:
12/412492
Inventors:
Mehmet Z. Sengun - Braintree MA, US
Kristian DiMatteo - Waltham MA, US
Assignee:
DePuy Mitek, Inc. - Raynham MA
International Classification:
A61F 2/02
US Classification:
623 2372
Abstract:
Methods and devices are provided for preparing and implanting tissue scaffolds. Various embodiments of scribing tools are provided that are configured to mark one or more predetermined shapes around a defect site in tissue. The shape or shapes marked in tissue can be used to cut a tissue scaffold having a shape that matches the shape or shapes marked in tissue. In one embodiment, the scribing tool used to mark a shape in tissue can also be used to cut the tissue scaffold.

Knotless Suture Anchor

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US Patent:
8613756, Dec 24, 2013
Filed:
Oct 21, 2010
Appl. No.:
12/909355
Inventors:
Jose E. Lizardi - Raynham MA, US
Mehmet Ziya Sengun - Raynham MA, US
Assignee:
DePuy Mitek, LLC - Raynham MA
International Classification:
A61B 17/04
US Classification:
606232, 606313
Abstract:
A suture anchor is disclosed having an outer body with an axial bore which receives and inner body for rotation. Suture passes between the inner body and outer body and rotation of the inner body wraps the suture thereabout locking the suture thereto. Rotation of the inner body also effects radial expansion of at least a portion of the outer body to engage to anchor into a bone hole.

Methods And Apparatus For Reducing Or Minimizing Satellite Defects In Fluid Ejector Systems

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US Patent:
20030179258, Sep 25, 2003
Filed:
Mar 21, 2002
Appl. No.:
10/063105
Inventors:
Eduardo Freire - Webster NY, US
Dale Ims - Webster NY, US
Mehmet Sengun - Framingham MA, US
John Andrews - Fairport NY, US
Assignee:
XEROX CORPORATION - Stamford CT
International Classification:
B41J002/015
US Classification:
347/020000
Abstract:
A fluid ejector system including at least one fluid ejection ejector for ejecting a main drop of a fluid. Each main drop of fluid has satellites that are formed upon ejection. An aperture plate having at least one channel is provided to alter the flight path of the satellites while allowing the main drop to pass through.

Methods And Devices For Selective Bulk Removal And Precision Sculpting Of Tissue

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US Patent:
20060100569, May 11, 2006
Filed:
Nov 11, 2004
Appl. No.:
10/904456
Inventors:
Ian McRury - Medway MA, US
Mehmet Sengun - Framingham MA, US
Kevin Ranucci - North Attleboro MA, US
Douglas Dunn - Mansfield MA, US
Assignee:
DEPUY MITEK, INC - Norwood MA
International Classification:
A61B 17/20
US Classification:
604022000
Abstract:
Various surgical fluid jet cutting instruments for selective bulk removal and precision sculpting of tissue are provided. In an exemplary embodiment, the instrument includes a fluid delivery tube having a nozzle for forming a high pressure fluid jet, and an evacuation tube having an evacuation port or jet-receiving opening opposite to and spaced apart from the nozzle for receiving the high pressure fluid jet. In use, the fluid jet and/or the evacuation port can be moved relative to one another to allow the device to be selectively used for bulk removal of tissue and for precision sculpting of tissue.
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Mehmet Ziya Sengun from Canton, MA, age ~62 Get Report