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Laura A Yonce

from Malvern, PA
Age ~59

Laura Yonce Phones & Addresses

  • 6 Fox Ridge Dr, Malvern, PA 19355 (763) 574-0676
  • Minneapolis, MN
  • Edina, MN
  • 6015 Curtier Dr, Alexandria, VA 22310 (703) 313-7899
  • New Brighton, MN
  • Durham, NC
  • Laurel, MD
  • 4110 Sunnyside Rd, Minneapolis, MN 55424

Work

Company: Medtronic May 1, 2010 Position: Principal program manager

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Duke University 1989 to 1995 Specialities: Bioengineering

Skills

Medical Devices • Biomedical Engineering • Fda • Interventional Cardiology • Design Control • Catheters • Commercialization • Cardiac Surgery • Biomaterials • Surgeons • Cardiology • V&V • Biotechnology • Clinical Trials • Orthopedic • Clinical Development • Design of Experiments • Six Sigma • Operating Room • Design For Manufacturing • Capa • Iso 14971 • Urology • Neurosurgery • Disposables • Strategy • Heart Valves • R&D • Cross Functional Team Leadership • Surgery • Product Development • Healthcare • Validation • Global Marketing • Minitab • Capital Equipment • Electrophysiology • Technology Transfer • Interventional Radiology • Biocompatibility • Quality System • Surgical Instruments • Project Management

Industries

Medical Devices

Resumes

Resumes

Laura Yonce Photo 1

Principal Program Manager

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Location:
6 Fox Ridge Dr, Malvern, PA 19355
Industry:
Medical Devices
Work:
Medtronic
Principal Program Manager

Medtronic Mar 2009 - Apr 2010
Technical Services Manager

Medtronic Dec 2006 - Feb 2009
Product Manager

Medtronic Jun 1998 - Dec 2006
Product Development Manager

Saic 1996 - 1998
Chemical Engineer
Education:
Duke University 1989 - 1995
Doctorates, Doctor of Philosophy, Bioengineering
Rensselaer Polytechnic Institute 1983 - 1987
Bachelors, Bachelor of Science, Biomedical Engineering
Skills:
Medical Devices
Biomedical Engineering
Fda
Interventional Cardiology
Design Control
Catheters
Commercialization
Cardiac Surgery
Biomaterials
Surgeons
Cardiology
V&V
Biotechnology
Clinical Trials
Orthopedic
Clinical Development
Design of Experiments
Six Sigma
Operating Room
Design For Manufacturing
Capa
Iso 14971
Urology
Neurosurgery
Disposables
Strategy
Heart Valves
R&D
Cross Functional Team Leadership
Surgery
Product Development
Healthcare
Validation
Global Marketing
Minitab
Capital Equipment
Electrophysiology
Technology Transfer
Interventional Radiology
Biocompatibility
Quality System
Surgical Instruments
Project Management

Publications

Us Patents

Disposable, Integrated, Extracorporeal Blood Circuit

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US Patent:
7198751, Apr 3, 2007
Filed:
Dec 22, 2003
Appl. No.:
10/743373
Inventors:
Walter L. Carpenter - Minneapolis MN, US
Robert W. Olsen - Plymouth MN, US
Stefanie Heine - Eden Prairie MN, US
Laura A. Yonce - Fridley MN, US
Assignee:
Medtronic, Inc. - Minneapolis MN
International Classification:
A61M 1/14
A61M 37/00
C02F 1/44
B01D 53/22
US Classification:
422 45, 210645, 604 401, 604 609, 604 614, 261DIG 28, 422 44, 422 48
Abstract:
A disposable, integrated extracorporeal blood circuit employed during cardiopulmonary bypass surgery performs gas exchange, heat transfer, and microemboli filtering functions in a way as to conserve volume, to reduce setup and change out times, to eliminate a venous blood reservoir, and to substantially reduce blood-air interface. Blood from the patient or prime solution is routed through an air removal device that is equipped with air sensors for detection of air. An active air removal controller removes detected air from blood in the air removal device. A disposable circuit support module is used to mount the components of the disposable, integrated extracorporeal blood circuit in close proximity and in a desirable spatial relationship to optimize priming and use of the disposable, integrated extracorporeal blood circuit. A reusable circuit holder supports the disposable circuit support module in relation to a prime solution source, the active air removal controller and other components.

Extracorporeal Blood Circuit Air Removal System And Method

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US Patent:
7204958, Apr 17, 2007
Filed:
Dec 22, 2003
Appl. No.:
10/743598
Inventors:
Robert W. Olsen - Plymouth MN, US
Walter L. Carpenter - Minneapolis MN, US
John B. Dickey - Woods Cross UT, US
Frederick A. Shorey - Grand Rapids MI, US
Laura A. Yonce - Fridley MN, US
Mark D. Stringham - Salt Lake City UT, US
Assignee:
Medtronic, Inc. - Minneapolis MN
International Classification:
A61M 1/14
A61M 37/00
C02F 1/44
B01D 53/22
US Classification:
422 44, 210645, 604 401, 604 609, 604 614, 261DIG 28
Abstract:
A disposable, integrated extracorporeal blood circuit employed during cardiopulmonary bypass surgery performs gas exchange, heat transfer, and microemboli filtering functions in a way as to conserve volume, to reduce setup and change out times, to eliminate a blood reservoir, and to substantially reduce blood-air interface. Blood from the patient or prime solution is routed through an air removal device that is equipped with air sensors for detection of air. An active air removal controller removes detected air from blood in the air removal device. A disposable circuit support module is used to mount the components of the disposable, integrated extracorporeal blood circuit in close proximity and in a desirable spatial relationship to optimize priming and use of the disposable, integrated extracorporeal blood circuit. A reusable circuit holder supports the disposable circuit support module in relation to a prime solution source, the active air removal controller and other components.

Extracorporeal Blood Circuit Priming System And Method

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US Patent:
7682563, Mar 23, 2010
Filed:
Feb 14, 2007
Appl. No.:
11/706005
Inventors:
Walter L. Carpenter - Minneapolis MN, US
Robert W. Olsen - Plymouth MN, US
Mark G. Bearss - Montague MI, US
Bruce R. Jones - Plymouth MN, US
Laura A. Yonce - Fridley MN, US
Assignee:
Medtronic, Inc. - Minneapolis MN
International Classification:
A61M 37/00
C02F 1/44
US Classification:
422 45, 422 44, 604 401, 604 609, 604 614, 210645
Abstract:
A disposable, integrated extracorporeal blood circuit employed during cardiopulmonary bypass surgery performs gas exchange, heat transfer, and microemboli filtering functions in a way as to conserve volume, to reduce setup and change out times, to eliminate a venous blood reservoir, and to substantially reduce blood-air interface. Blood from the patient or prime solution is routed through an air removal device that is equipped with air sensors for detection of air. An active air removal controller removes detected air from blood in the air removal device. A disposable circuit support module is used to mount the components of the disposable, integrated extracorporeal blood circuit in close proximity and in a desirable spatial relationship to optimize priming and use of the disposable, integrated extracorporeal blood circuit. A reusable circuit holder supports the disposable circuit support module in relation to a prime solution source, the active air removal controller and other components.

Extracorporeal Blood Circuit Air Removal System And Method

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US Patent:
7740800, Jun 22, 2010
Filed:
Feb 5, 2007
Appl. No.:
11/702316
Inventors:
Robert W. Olsen - Plymouth MN, US
Walter L. Carpenter - Minneapolis MN, US
John B. Dickey - Woods Cross UT, US
Frederick A. Shorey - Grand Rapids MI, US
Laura A. Yonce - Fridley MN, US
Mark D. Stringham - Salt Lake City UT, US
Assignee:
Medtronic, Inc. - Minneapolis MN
International Classification:
A61M 1/14
A61M 37/00
C02F 1/44
B01D 53/22
US Classification:
422 44, 604 401, 604 609, 604 614, 210645, 216DIG 28
Abstract:
A disposable, integrated extracorporeal blood circuit employed during cardiopulmonary bypass surgery performs gas exchange, heat transfer, and microemboli filtering functions in a way as to conserve volume, to reduce setup and change out times, to eliminate a blood reservoir, and to substantially reduce blood-air interface. Blood from the patient or prime solution is routed through an air removal device that is equipped with air sensors for detection of air. An active air removal controller removes detected air from blood in the air removal device. A disposable circuit support module is used to mount the components of the disposable, integrated extracorporeal blood circuit in close proximity and in a desirable spatial relationship to optimize priming and use of the disposable, integrated extracorporeal blood circuit. A reusable circuit holder supports the disposable circuit support module in relation to a prime solution source, the active air removal controller and other components.

Extracorporeal Blood Circuit Priming System And Method

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US Patent:
20040195178, Oct 7, 2004
Filed:
Dec 22, 2003
Appl. No.:
10/743357
Inventors:
Walter Carpenter - Minneapolis MN, US
Robert Olsen - Plymouth MN, US
Frederick Shorey - Grand Rapids MI, US
Mark Bearss - Montague MI, US
Bruce Jones - Champlin MN, US
Laura Yonce - Fridley MN, US
International Classification:
B01D061/00
US Classification:
210/645000, 210/120000, 210/321650, 604/030000, 604/035000, 604/004010
Abstract:
A disposable, integrated extracorporeal blood circuit employed during cardiopulmonary bypass surgery performs gas exchange, heat transfer, and microemboli filtering functions in a way as to conserve volume, to reduce setup and change out times, to eliminate a venous blood reservoir, and to substantially reduce blood-air interface. Blood from the patient or prime solution is routed through an air removal device that is equipped with air sensors for detection of air. An active air removal controller removes detected air from blood in the air removal device. A disposable circuit support module is used to mount the components of the disposable, integrated extracorporeal blood circuit in close proximity and in a desirable spatial relationship to optimize priming and use of the disposable, integrated extracorporeal blood circuit. A reusable circuit holder supports the disposable circuit support module in relation to a prime solution source, the active air removal controller and other components.

Cardiopulmonary Bypass Extracorporeal Blood Circuit Apparatus And Method

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US Patent:
20050118059, Jun 2, 2005
Filed:
Nov 1, 2004
Appl. No.:
10/978830
Inventors:
Robert Olsen - Plymouth MN, US
Walter Carpenter - Minneapolis MN, US
John Dickey - Woods Cross UT, US
Frederick Shorey - Grand Rapids MI, US
Laura Yonce - Fridley MN, US
International Classification:
A61M037/00
A61M001/34
US Classification:
422044000, 604004010
Abstract:
An extracorporeal blood circuit for use with a venous return line and an arterial line coupled to a patient. The extracorporeal blood circuit can include a venous air removal device coupled to the venous return line. The venous air removal device can perform an active air removal function. The extracorporeal blood circuit can include a sensor that determines a blood level in the venous air removal device, a purge line coupled to the venous air removal device, and a controller connected to the sensor. The controller can cause the venous air removal device to perform the active air removal function through the purge line when the blood level is less than a threshold. The extracorporeal blood circuit can further include a pump coupled to the venous air removal device, an oxygenator coupled to the pump, and a blood filter coupled to the oxygenator and the arterial line.

Disposable,Integrated Extracorporeal Blood Circuit

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US Patent:
20070148037, Jun 28, 2007
Filed:
Feb 13, 2007
Appl. No.:
11/707016
Inventors:
Walter Carpenter - Minneapolis MN, US
Robert Olsen - Plymouth MI, US
Stefanie Heine - Eden Prairie MN, US
Frederick Shorey - Grand Rapids MI, US
Laura Yonce - Fridley MN, US
International Classification:
A61M 1/00
US Classification:
422045000
Abstract:
A disposable, integrated extracorporeal blood circuit employed during cardiopulmonary bypass surgery performs gas exchange, heat transfer, and. microemboli filtering functions in a way as to conserve volume, to reduce setup and change out times, to eliminate a venous blood reservoir, and to substantially reduce blood-air interface. Blood from the patient or prime solution is routed through an air removal device that is equipped with air sensors for detection of air. An active air removal controller removes detected air from blood in the air removal device. A disposable circuit support module is used to mount the components of the disposable, integrated extracorporeal blood circuit in close proximity and in a desirable spatial relationship to optimize priming and use of the disposable, integrated extracorporeal blood circuit. A reusable circuit holder supports the disposable circuit support module in relation to a prime solution source, the active air removal controller and other components.

Compositions And Methods Of Preparation Thereof

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US Patent:
20080044852, Feb 21, 2008
Filed:
Apr 26, 2007
Appl. No.:
11/796045
Inventors:
Tessy Kanayinkal - Brooklyn Park MN, US
Laura Yonce - Edina MN, US
Trevor Huang - Maple Grove MN, US
Rohit Cariappa - Bangalore, IN
Kenneth Merte - Southlake TX, US
James Keogh - Maplewood MN, US
Kevin McIntosh - Brooklyn Park MN, US
Brian Steffens - Maple Grove MN, US
Asha Nayak - Santa Rosa CA, US
Erick Johnson - Minneapolis MN, US
International Classification:
C12P 21/06
US Classification:
435068100
Abstract:
The present invention provides biological compositions and methods for making the same.
Laura A Yonce from Malvern, PA, age ~59 Get Report