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Leonard Diane F Pinchuk

from Miami, FL
Age ~71
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Also known as:
Leonard Diane Pinchuk, Laonal Pinchuk, Leo Pinchuk, D Pinchuk
Phone and address:
13704 92Nd St, Miami, FL 33176
(305) 971-0036
Related to:
John Dale, 78Jordon Bichefsky, 92Charles Tripp, 78Heather Dale, 48Clara Dale, 77
Connected to:
George Pinchuk, 104Sasha Pinchuk, 57Jeana M Pinci, 100Pamela A Pincince, 54Anita M Pinciotti, 70Daniel B Pinciotti, 38Barry Pinciss, 75Gerald M Pinciss, 88Leo Pinciss, 112Danny M Pincivero, 57

Leonard Pinchuk Phones & Addresses

  • 13704 92Nd St, Miami, FL 33176 (305) 971-0036 (305) 971-0087
  • 13704 92Nd Ct, Miami, FL 33176 (305) 971-0036 (305) 971-0087
  • 9834 111Th St, Miami, FL 33176 (305) 595-3011
  • 8320 105Th St, Miami, FL 33156
  • Park City, UT
  • Gainesville, FL
  • Summit, UT

Work

Company: Innovia Oct 2002 Position: President and chief executive officer

Education

Degree: Doctorates, Doctor of Philosophy School / High School: University of Miami 1979 to 1984 Specialities: Engineering, Chemistry

Skills

Biomedical Engineering • Biotechnology • Medical Devices • Iso 13485 • Commercialization • Entrepreneurship • Fda • Design Control • Cross Functional Team Leadership • Market Development • Strategic Planning • R&D • Product Development • Technology Transfer • Life Sciences • Product Launch • Start Ups • Lifesciences

Industries

Medical Devices

Resumes

Resumes

Leonard Pinchuk Photo 1

President And Chief Executive Officer

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Location:
Miami, FL
Industry:
Medical Devices
Work:
Innovia
President and Chief Executive Officer
Corvita Corporation Jul 1987 - Jan 1999
Vice President R and D
Education:
University of Miami 1979 - 1984
Doctorates, Doctor of Philosophy, Engineering, Chemistry Mcgill University 1972 - 1976
Bachelors, Bachelor of Science, Chemistry
Skills:
Biomedical Engineering
Biotechnology
Medical Devices
Iso 13485
Commercialization
Entrepreneurship
Fda
Design Control
Cross Functional Team Leadership
Market Development
Strategic Planning
R&D
Product Development
Technology Transfer
Life Sciences
Product Launch
Start Ups
Lifesciences

Business Records

Name / Title
Company / Classification
Phones & Addresses
Leonard Pinchuk
General Manager
Innovia LLC
Services
12415 Sw 136Th Ave Ste 3, Miami, FL 33186
Leonard Pinchuk
General Manager
Innovia LLC
Services
12415 Sw 136Th Ave Ste 3, Miami, FL 33186
Leonard Pinchuk
President, Director
Innovia, Inc
13704 SW 92 Ct, Miami, FL 33176
Leonard Pinchuk
Principal
American Federation for Aging Research Fl Inc
Nonclassifiable Establishments
201 S Biscayne Blvd, Miami, FL 33131
Leonard Pinchuk
Manager
Innolene LLC
12415 SW 136 Ave, Miami, FL 33186
Leonard Pinchuk
Manager, General Manager
Innovia LLC
Services-Misc
12415 SW 136 Ave, Miami, FL 33186
(305) 378-2651
Leonard Pinchuk
Treasurer, Secretary
HIALEAH TECHNOLOGY CENTER, INC
Commercial Physical Research
601 W 20 St, Hialeah, FL 33010
(305) 295-1260
Leonard Pinchuk
Chief Executive Officer
University of Miami
Health/Allied Services College/University · College/University · Medical Doctor's Office
1150 NW 14 St, Miami, FL 33136
(305) 243-7622, (305) 243-7270, (305) 243-6165
Leonard Pinchuk
Director
Phone Art Studios, Inc
9722 SW 133 Pl, Miami, FL 33186

Publications

Us Patents

Modular Endoluminal Stent-Grafts And Methods For Their Use

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US Patent:
6348066, Feb 19, 2002
Filed:
Aug 14, 1998
Appl. No.:
09/134887
Inventors:
Leonard Pinchuk - Miami FL
Jean-Pierre Dereume - Brussels, BE
Assignee:
Corvita Corporation - Miami FL
International Classification:
A61F 206
US Classification:
623 116, 606198
Abstract:
Modular endoluminal stent-grafts include at least two different sized stent-grafts which are deployed one within the other. According to one embodiment of the invention, a first stent-graft is provided having a flared end which is expandable to a first diameter and a midsection which is expandable to a second diameter smaller than the first diameter. A second stent-graft is also provided having an end which is expandable to a diameter which engages the midsection of the first stent-graft. The first embodiment of the invention is deployed by expanding the first stent-graft such that its flared end engages a large diameter vessel, then expanding the second stent-graft inside the midsection of the first stent graft and inside a small diameter vessel such that the second stent graft engages the small diameter vessel and the midsection of the first stent-graft. According to a second embodiment of the invention, the midsection of the first stent-graft is reinforced with a flexible member to restrict the midsection from ballooning. According to other aspects of the invention, the first stent-graft is provided with two flared ends and the second stent graft is provided with or without flared ends.

Balloons For Medical Devices And Fabrication Thereof

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US Patent:
6500146, Dec 31, 2002
Filed:
Aug 25, 2000
Appl. No.:
09/648197
Inventors:
Leonard Pinchuk - Miami FL
Robert S. Shonk - Davis FL
Thomas Trotta - Miami FL
Assignee:
Cordis Corporation - Miami FL
International Classification:
A61M 2900
US Classification:
604 9601, 606194
Abstract:
Dilatation balloons and catheters including same are provided. The balloons are fabricated of a material such as a nylon or a polyamide material, and they have an inflated, non-distended working profile as well as a stretched inflated profile which is achieved by applying pressure through a dilatation catheter or the like that is in excess of that needed to achieve the inflated, non-distended profile and which is adequate to effect dilatation or the like up to a maximum pre-bursting pressure application. The maximum pre-bursting size of the balloon can be tailored depending upon the needs of the particular balloon within a wide range of possible maximum pre-bursting sizes.

Balloons For Medical Devices And Fabrication Thereof

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US Patent:
6500148, Dec 31, 2002
Filed:
Jul 18, 2000
Appl. No.:
09/618499
Inventors:
Leonard Pinchuk - Miami FL
Robert S. Shonk - Davie FL
Thomas Trotta - Miami FL
Assignee:
Cordis Corporation - Miami FL
International Classification:
A61M 2900
US Classification:
60410311, 606194
Abstract:
Dilation balloons and catheters including same are provided. The balloons are fabricated of a material such as a nylon or a polyamide material, and they have an inflated, non-distended working profile as well as a stretched inflated profile which is achieved by applying pressure through a dilatation catheter or the like that is in excess of that needed to achieve the inflated, non-distended profile and which is adequate to effect dilatation or the like up to a maximum pre-bursting pressure application. The maximum pre-bursting size of the balloon can be tailored depending upon the needs of the particular balloon within a wide range of possible maximum pre-bursting sizes.

Drug Delivery Compositions And Medical Devices Containing Block Copolymer

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US Patent:
6545097, Apr 8, 2003
Filed:
Dec 12, 2000
Appl. No.:
09/734639
Inventors:
Leonard Pinchuk - Miami FL
Sepideh Nott - Weston MA
Marlene Schwarz - Newton MA
Kalpana Kamath - Natick MA
Assignee:
Scimed Life Systems, Inc. - Maple Grove MN
International Classification:
C08L 2300
US Classification:
525240, 525242, 525221, 424501, 424423
Abstract:
A composition for delivery of a therapeutic agent is provided. The composition comprises: (a) a biocompatible block copolymer comprising one or more elastomeric blocks and one or more thermoplastic blocks and (b) a therapeutic agent, wherein the block copolymer is loaded with the therapeutic agent. The block copolymer is preferably of the formula Xâ(AB) , where A is an elastomeric block, B is a thermoplastic block, n is a positive whole number and X is a seed molecule. The elastomeric blocks are preferably polyolefin blocks, and the thermoplastic blocks are preferably selected from vinyl aromatic blocks and methacrylate blocks. According to another aspect of the invention, a medical device is provided, at least a portion of which is insertable or implantable into the body of a patient. The medical device comprises (a) the above biocompatible block copolymer and (b) a therapeutic agent, wherein the block copolymer is loaded with the therapeutic agent. According to another aspect of the present invention, a method of treatment is provided in which the above device is implanted or inserted into a patient, resulting in the release of therapeutic agent in the patient over an extended period.

Drug Delivery Compositions And Medical Devices Containing Block Copolymer

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US Patent:
6855770, Feb 15, 2005
Filed:
Dec 13, 2002
Appl. No.:
10/319802
Inventors:
Leonard Pinchuk - Miami FL, US
Sepideh Nott - Weston MA, US
Marlene Schwarz - Newton MA, US
Kalpana Kamath - Natick MA, US
Assignee:
SciMed Life Systems, Inc. - Maple Grove MN
International Classification:
C08L023/00
C08L023/04
A61K009/22
US Classification:
525240, 525242, 525221, 424501, 424423, 424424
Abstract:
A composition for delivery of a therapeutic agent is provided. The composition comprises: (a) a biocompatible block copolymer comprising one or more elastomeric blocks and one or more thermoplastic blocks and (b) a therapeutic agent, wherein the block copolymer is loaded with the therapeutic agent. The block copolymer is preferably of the formula X—(AB), where A is an elastomeric block, B is a thermoplastic block, n is a positive whole number and X is a seed molecule. The elastomeric blocks are preferably polyolefin blocks, and the thermoplastic blocks are preferably selected from vinyl aromatic blocks and methacrylate blocks. According to another aspect of the invention, a medical device is provided, at least a portion of which is insertable or implantable into the body of a patient. The medical device comprises (a) the above biocompatible block copolymer and (b) a therapeutic agent, wherein the block copolymer is loaded with the therapeutic agent. According to another aspect of the present invention, a method of treatment is provided in which the above device is implanted or inserted into a patient, resulting in the release of therapeutic agent in the patient over an extended period.

Stent And Stent-Graft For Treating Branched Vessels

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US Patent:
6860900, Mar 1, 2005
Filed:
Jun 27, 2003
Appl. No.:
10/607741
Inventors:
Claude O. Clerc - Eden Prairie MN, US
Paul F. Chouinard - Roseville MN, US
Leonard Pinchuk - Miami FL, US
Paul J. Thompson - New Hope MN, US
Assignee:
Schneider (USA) Inc. - Plymouth MN
International Classification:
A61F002/06
US Classification:
623 135, 623 115
Abstract:
An implantable stent and stent-graft for treating a patient having a relatively healthy first aorta portion upstream from a renal artery branch, and a diseased aorta portion downstream from the renal artery branch. One embodiment of the device includes a fixation section, a renal artery branch section and a diseased aorta section, all of which can be tubular, radially compressible and self-expandable structures formed from a plurality of filaments which are helically wound in a braided configuration. When the device is implanted and in its expanded state, the fixation section engages the first aorta portion upstream from a renal artery branch to provide substantial anchoring support. The diseased aorta section engages the portion of the aorta downstream from the renal artery branch and extends across the diseased portion of the aorta for purposes of treatment. The renal artery branch section extends across the renal artery branch and connects the diseased aorta section to the fixation section while allowing blood flow between the aorta and renal artery branch.

Antimicrobial Agents, Products Incorporating Said Agents And Methods Of Making Products Incorporating Antimicrobial Agents

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US Patent:
6905711, Jun 14, 2005
Filed:
May 2, 2002
Appl. No.:
10/138160
Inventors:
Louis J. Tullo - Hewlett NY, US
Leonard Pinchuk - Miami FL, US
Assignee:
Smart Anti-Microbial Solutions, LLC - Stamford CT
International Classification:
A01N059/16
A01N059/20
US Classification:
424618, 424 7837, 424617, 424630, 424641, 424646, 424649, 424650, 424651, 424653, 424405, 523122
Abstract:
An antimicrobial agent includes an oligodynamic metal ion in a hydrophilic polymer binder or carrier. According to a presently preferred embodiment, the metal ion is silver and the hydrophilic polymer is polyurethane. According to a method of the invention, the antimicrobial agent is dissolved in dimethyl acetamide DMA, applied to paper by squeegee or the like and dried in an oven to flash off the solvent. The antimicrobial agent can be applied to other products by spraying and/or dipping and then drying to flash off solvent. A method of rendering a polymeric medical device antimicrobial is also disclosed.

Method Of Preventing The Dislodgment Of A Stent-Graft

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US Patent:
6929659, Aug 16, 2005
Filed:
Feb 25, 2002
Appl. No.:
10/082920
Inventors:
Leonard Pinchuk - Miami FL, US
Assignee:
SciMed Life Systems, Inc. - Maple Grove MN
International Classification:
A61F002/06
US Classification:
623 113, 623 123, 623903
Abstract:
Endoluminal stent-grafts include several features which restrict dilation subsequent to installation but which allow the stent-grafts to be installed in the same manner as a conventional stent-graft. According to one embodiment, sutures are attached to an expanded stent-graft. The suture material is preferably braided PET or polypropylene and sutures are interwoven into the stent at substantially regular intervals. A second embodiment utilizes a band material in lieu of suture material. A third embodiment utilizes a warp knit tubular sheath with inlay yarn. The warp knit tubular sheath with inlay yarn may also act as the graft material. The invention includes a method of using these stent-grafts to prevent the dislodgment of an endoluminal stent-graft after deployment. The method includes the step of determining the maximum stent-graft diameter and related size of dilation restriction means to prevent excessive stent-graft shortening after initial deployment.
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Leonard Diane F Pinchuk from Miami, FL, age ~71 Get Report