DAVID RUSSELL YOUNG, MD
Osteopathic Medicine at Lakeland Dr, Jackson, MS
License number
Mississippi 13925
Category
Osteopathic Medicine
Type
Cardiovascular Disease
Address
Address
970 Lakeland Dr SUITE 61, Jackson, MS 39216
Phone
(601) 982-7850
(601) 718-5145 (Fax)
(601) 718-5145 (Fax)
Personal information
See more information about DAVID RUSSELL YOUNG at radaris.comName
Address
Phone
3498 Highway 528, Heidelberg, MS 39439
513 Westwood, Senatobia, MS 38668
413 Westwood, Senatobia, MS 38668
4108 21St Ave, Bay Saint Louis, MS 39520
332 Alliston Dr, Pearl, MS 39208
Professional information
Plant Manager At Graduate Supply House
Position:
Plant Manager at Graduate Supply House
Location:
Jackson, Mississippi Area
Industry:
Apparel & Fashion
Work:
Graduate Supply House
since Nov 1992
-
Plant Manager
McRae's Department Store
Jun 1983 - 1986
-
Area Sales Manager
Education:
University of Southern Mississippi 1981 - 1983
BSBA, Business Copiah-Lincoln Junior College 1979 - 1981
BA, Accounting
BSBA, Business Copiah-Lincoln Junior College 1979 - 1981
BA, Accounting
Skills:
Inventory Management, Operations Management, Budgets, Process Improvement, Team Building, Strategic Planning, Product Development, Forecasting, Purchasing, Manufacturing, Management, Cross-functional Team Leadership
David Young - Jackson, MS
Work:
Hinds Community College
UAS Program Assistant Carrier/Handler
FedEx AUVSI Conference - Tifton, GA
Student contributors Xfinity/Comcast
Comcast Customer Account Executive
UAS Program Assistant Carrier/Handler
FedEx AUVSI Conference - Tifton, GA
Student contributors Xfinity/Comcast
Comcast Customer Account Executive
Education:
Hinds Community College - Raymond, MS
Associate of Applied Science in Aviation Technology Jackson State University - Jackson, MS
Certificate in Aviation Technology
Associate of Applied Science in Aviation Technology Jackson State University - Jackson, MS
Certificate in Aviation Technology
Electromagnetically Controlled Heart Valve
US Patent:
5135538, Aug 4, 1992
Filed:
Jun 3, 1991
Appl. No.:
7/709782
Inventors:
Andrzej M. Pawlak - Troy MI
David B. Young - Jackson MS
David B. Young - Jackson MS
Assignee:
General Motors Corporation - Detroit MI
University of Mississippi Medical Center - Jackson MS
University of Mississippi Medical Center - Jackson MS
International Classification:
A61F 224, F16K 1500, F16K 1700, F16K 2104
US Classification:
623 2
Abstract:
A unidirectional flow heart valve includes a passageway having an inlet side and an outlet side. A disk occluder is disposed within the passageway. The disk occluder has a closed position wherein the disk occluder occludes fluid flow through the passageway and an open position wherein the disk occluder permits fluid flow through the passageway. A fulcrum causes the disk occluder to pivot off center between the open and closed positions. An electromagnetic control mechanism forces the disk occluder to remain closed when energized until a predetermined net pressure is reached against the disk occluder. When the electromagnetic control mechanism is either selectively deenergized or the force on the occluder disk is greater than the holding force of the electromagnetic control mechanism, the disk occluder is released from the closed position to pivot on the fulcrum in response to fluid pressure.
Drive System For Artificial Hearts And Left-Ventricular Assist Devices
US Patent:
5089017, Feb 18, 1992
Filed:
Jan 17, 1989
Appl. No.:
7/298119
Inventors:
David B. Young - Jackson MS
Andrzej M. Pawlak - Troy MI
Andrzej M. Pawlak - Troy MI
International Classification:
A61F 222
US Classification:
623 3
Abstract:
A drive system for artificial hearts and left-ventricular assist devices. The drive system includes one or more implantable pumps driven by external electromagnets. Each pump preferably includes an armature made of a permanent magnet material having a magnetic energy product of at least about 30. times. 10. sup. 6 Gauss Oersted, and coercivity of at least about 10 kOe.
In one embodiment of the invention, a pair of pumps are provided, with each being coupled to a respective ventricle of an artificial heart. In a second embodiment, a pair of pumps is connected to a single left-ventricular assist device.
Each pump is mounted to the pelvic bone in the vicinity of the iliac crest. Fluid communication between the pump and its associated ventricle or left-ventricular assist device is provided by a length of flexible tubing extending subcutaneously up from the pump. Means are provided to enable periodic reversal of internal system leakage, and to enable replenishment of fluid lost from the system.