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Ragae Ghabrial Phones & Addresses

  • 105 Pine Hollow Dr, Wexford, PA 15090
  • Pittsburgh, PA
  • Mason, OH
  • 3617 Nantucket Dr, Loveland, OH 45140 (513) 583-0367
  • Jamesburg, NJ
  • Helmetta, NJ
  • Cincinnati, OH

Work

Company: Ethicon, inc. 2005 to 2011 Position: Manager, intellectual property at johnson and johnson

Education

Degree: Bachelors School / High School: Rutgers University 1998 to 2002 Specialities: Medical Engineering

Skills

Patents • Intellectual Property • Medical Devices • Patent Prosecution • Biomedical Engineering • R&D • Fda • Patent Litigation • Patentability

Ranks

Licence: Pennsylvania - Active Date: 2011

Industries

Law Practice

Specialities

Intellectual Property • IP Procurement and Portfolio Management

Professional Records

Lawyers & Attorneys

Ragae Ghabrial Photo 1

Ragae Ghabrial, Pittsburgh PA - Lawyer

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Address:
K&L Gates LLP
210 6Th Ave K&Amp;L Gatles Llp, Pittsburgh, PA 15222
(412) 355-8690 (Office)
Licenses:
Pennsylvania - Active 2011
Ragae Ghabrial Photo 2

Ragae Ghabrial - Lawyer

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Office:
K&L Gates LLP
Specialties:
Intellectual Property
IP Procurement and Portfolio Management
ISLN:
922210341
Admitted:
2011
University:
Rutgers University, B.S., 2002
Law School:
Northern Kentucky University, Salman P Chase College of Law, J.D., 2011

Resumes

Resumes

Ragae Ghabrial Photo 3

Associate Patent Attorney

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Location:
925 4Th Ave, Seattle, WA 98104
Industry:
Law Practice
Work:
Ethicon, Inc. 2005 - 2011
Manager, Intellectual Property at Johnson and Johnson

K&L Gates 2005 - 2011
Associate Patent Attorney

Lifescan 2003 - 2005
Senior Engineer

Ethicon, Inc. 2001 - 2003
Associate Engineer
Education:
Rutgers University 1998 - 2002
Bachelors, Medical Engineering
Northern Kentucky University—Salmon P. Chase College of Law
Doctor of Jurisprudence, Doctorates, Law
Skills:
Patents
Intellectual Property
Medical Devices
Patent Prosecution
Biomedical Engineering
R&D
Fda
Patent Litigation
Patentability

Publications

Us Patents

Endoscopic Guide Device

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US Patent:
7967741, Jun 28, 2011
Filed:
May 1, 2007
Appl. No.:
11/742948
Inventors:
Gregory J. Bakos - Mason OH, US
Christie M. Cunningham - Cincinnati OH, US
David Stefanchik - Morrow OH, US
James W. Voegele - Cincinnati OH, US
Michael J. Stokes - Cincinnati OH, US
Christopher J. Hess - Cincinnati OH, US
James T. Spivey - Cincinnati OH, US
Gary L. Long - Cincinnati OH, US
Kurt R. Bally - Lebanon OH, US
Ragae M. Ghabrial - Cincinnati OH, US
Rudolph H. Nobis - Mason OH, US
Assignee:
Ethicon Endo-Surgery, Inc. - Cincinnati OH
International Classification:
A61B 1/00
A61F 2/00
A61F 13/00
A61M 5/32
US Classification:
600102, 600 37, 600104, 604175
Abstract:
Various exemplary methods and devices are provided for manipulating and/or anchoring devices and body parts during surgical procedures. In one embodiment, an anchor member is provided for anchoring a device or body part to tissue, such as an internal wall of a body cavity. The device can be, for example, an endoscopic device, an accessory channel coupled to an endoscopic device, or a support member adapted to support or manipulate an organ. The anchor member can include or form an opening through which the device can be inserted. The anchor member or device can thus be manipulated relative to the tissue to control movement of and/or provide support to the device, tools inserted through the device, and/or organs grasped by the device or tools.

Sterile Transcolonic Access Device

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US Patent:
8012086, Sep 6, 2011
Filed:
Oct 19, 2006
Appl. No.:
11/550922
Inventors:
Mark S. Ortiz - Milford OH, US
Ragae M. Ghabrial - Cincinnati OH, US
William D. Fox - New Richmond OH, US
Assignee:
Ethicon Endo-Surgery, Inc. - Cincinnati OH
International Classification:
A61B 1/00
A61B 1/04
A61B 1/06
US Classification:
600184, 600115, 600170
Abstract:
Devices and methods useful for transluminally accessing a body cavity are disclosed. In one embodiment, a transluminal access device adapted to be inserted through a body lumen is provided and can include an inner shaft having an opening at its distal end and adapted to be positioned adjacent to an inner wall of a body lumen. The inner shaft can include one or more sealing mechanisms, such as one or more seals with suction ports formed thereon for isolating a portion of a body lumen. The isolated portion may be sterilized and serve as an access point or otomy site for penetrating the wall of the body lumen to access a body cavity.

Seeding Cells On Porous Supports

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US Patent:
8017395, Sep 13, 2011
Filed:
Dec 16, 2005
Appl. No.:
11/303244
Inventors:
Alireza Rezania - Hillsborough NJ, US
Ragae Ghabrial - Helmetta NJ, US
Assignee:
Lifescan, Inc. - Milpitas CA
International Classification:
C12N 5/02
US Classification:
435399, 4352971
Abstract:
The present invention generally relates to a method for seeding cells on to a support. In particular, the method relates to a method for seeding cells onto a porous hydrophobic support. The method utilizes centrifugal forces to uniformly guide cell seeding into the support with no loss in viability.

Bipolar Forceps

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US Patent:
8262655, Sep 11, 2012
Filed:
Nov 21, 2007
Appl. No.:
11/986420
Inventors:
Ragae M. Ghabrial - Cincinnati OH, US
Omar J. Vakharia - Cincinnati OH, US
Assignee:
Ethicon Endo-Surgery, Inc. - Cincinnati OH
International Classification:
A61B 18/14
US Classification:
606 51, 606 52
Abstract:
A bipolar forceps including a first electrode, a second electrode, and a conductor operably connected to an electrical source, wherein the conductor can be selectively placed in electrical communication with the first electrode when the first electrode is moved between open and closed positions. The conductor can include a contact end which is not in contact with the first electrode when the first electrode is in its open position. In such an open position, the first electrode may not be in electrical communication with the electrical source and, as a result, current may not flow through the first electrode. The first electrode can be moved into its closed position such that the first electrode is in contact with the contact end of the wire. In such a closed position, the first electrode may be in electrical communication with the electrical source allowing current to flow through the first electrode.

Articulating Surgical Device And Method Of Use

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US Patent:
8287469, Oct 16, 2012
Filed:
Jan 9, 2008
Appl. No.:
11/971410
Inventors:
David Stefanchik - Morrow OH, US
Ragae M. Ghabrial - Cincinnati OH, US
James T. Spivey - Cincinnati OH, US
Assignee:
Ethicon Endo-Surgery, Inc. - Cincinnati OH
International Classification:
A61B 5/00
US Classification:
600585, 600146
Abstract:
Various embodiments of an elongate surgical device configured to travel along a tortuous body lumen to a surgical site are provided herein. In one embodiment, the device can include a tensioning element extending through a channel formed along a length of the device and the tensioning element can translate an articulation force to the working end of the device. During such articulation of the device, a portion of the channel can be configured to allow the tensioning element to exit the channel and move away from a longitudinal axis of the device thereby optimizing a mechanical advantage relative to the distal end of the device and thus maximizing the force capable of being delivered thereto. Additionally, various embodiments of a method for articulating a working end of an elongate surgical device are provided herein.

Implantable Pouch Seeded With Insulin-Producing Cells To Treat Diabetes

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US Patent:
20040197374, Oct 7, 2004
Filed:
Apr 2, 2003
Appl. No.:
10/405594
Inventors:
Alireza Rezania - Hillsborough NJ, US
Mark Zimmerman - East Brunswick NJ, US
Ragae Ghabrial - Helmetta NJ, US
International Classification:
A61F002/00
US Classification:
424/426000
Abstract:
An implantable pouch and methods for implanting cells or cellular matter in mammals, comprising reinforced porous foam and a lumen. The lumen contains an insert that may or may not be removed prior to transplantation. The lumen may be loaded with at least one cell type expressing at least one transcription factor characteristic of a mammalian pancreatic beta cell.

Multi-Compartment Delivery System

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US Patent:
20060153894, Jul 13, 2006
Filed:
Jun 29, 2005
Appl. No.:
11/170410
Inventors:
Ragae Ghabrial - Helmetta NJ, US
Ramie Fung - Flemington NJ, US
Alireza Rezania - Hillsborough NJ, US
Janet Davis - Branchburg NJ, US
International Classification:
A61K 38/18
A61F 2/00
US Classification:
424426000, 514002000
Abstract:
This invention provides devices designed to effectively deliver multiple biological entities in combination for tissue engineering. In particular, the present invention provides devices capable of delivering cells or clusters of cells, such as islets of Langerhans, in combination with a therapeutic compound, such as an angiogenic growth factor, for the purpose of transplantation. The devices of the present invention are composed of at least two compartments that are designed independently and processed separately in order to accommodate different requirements of the biological entities. The compartments of the present device can be combined prior to or at the time of implantation, such that the therapeutic released from one compartment provides some benefit to cells hosted by another compartment to promote or improve their proliferation, differentiation, survival, or functionality.

Compositions And Methods To Create A Vascularized Environment For Cellular Transplantation

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US Patent:
20070122448, May 31, 2007
Filed:
Nov 28, 2005
Appl. No.:
11/287933
Inventors:
Alireza Rezania - Hillsborough NJ, US
Jean Xu - Hillsborough NJ, US
Ragae Ghabrial - Helmetta NJ, US
International Classification:
A61F 2/02
A61K 31/235
A61K 31/44
US Classification:
424426000, 514355000, 514543000
Abstract:
The present invention generally relates to biocompatible devices suitable for increasing cellular HIF-1 α protein levels. In particular, the present invention relates to an implant comprising a biocompatible support loaded with at least one pharmaceutical agent capable of increasing cellular HIF-1 α protein levels to promote vascularization at or near the implant site. Vascularization of the implanted support results in enhanced survival of cells optionally incorporated within the support. Methods for treating a disease or injury via implanting the support of the present invention are also provided.
Ragae M Ghabrial from Wexford, PA, age ~47 Get Report