DAVID ALAN WATSON
Pilots at Nola Dr, San Jose, CA
License number
California A3854270
Issued Date
Mar 2016
Expiration Date
Mar 2018
Category
Airmen
Type
Authorized Aircraft Instructor
Address
Address
2191 Nola Dr, San Jose, CA 95125
Professional information
Commercial Sales Representative At Bay Alarm Company
Position:
Commercial Account Manager at Bay Alarm Company
Location:
San Jose, California
Industry:
Security and Investigations
Work:
Bay Alarm Company
since Apr 2013
-
Commercial Account Manager
Silicon Quest International
- San Jose, CA May 2009 - Aug 2012
-
Business Development Manager
Corporate Express / Staples
- Newark, CA Nov 2007 - May 2009
-
Business Development Manager
One Workplace
- Milpitas, CA Nov 2006 - Nov 2007
-
Account Executive
Corporate Express
- Newark, CA Sep 2004 - Nov 2006
-
Business Development Manager
Silicon Valley Microelectronics, Inc.
- San Jose, CA Nov 2002 - Jul 2003
-
Account Manager
JDR Microdevices
- San Jose, CA Nov 1997 - May 2002
-
Account Manager
Education:
West Valley College 2005
In Process, English, Business Administration
In Process, English, Business Administration
Skills:
B2B, Cold Calling, Solution Selling, Sales Process, Salesforce.com, Account Management, Direct Sales, Lead Generation, New Business Development, Sales Presentations, Sales Management, Selling, Key Account Management, Sales, Sales Operations, Customer Retention, Multi-channel Marketing, B2B Marketing, Marketing Strategy, Business Development, Direct Marketing
System For Delivering A Stretch Resistant Vaso-Occlusive Device And A Method Of Producing Same
US Patent:
2013032, Dec 5, 2013
Filed:
May 31, 2013
Appl. No.:
13/906722
Inventors:
- Pfinztal, DE
David Watson - San Jose CA, US
David Watson - San Jose CA, US
International Classification:
A61B 17/12
US Classification:
606200, 29428
Abstract:
A system for delivering a vaso-occlusive device for release within vasculature of a patient, the device containing an outer helically wound primary coil having a proximal end and distal ends, defining a lumen between them. The proximal end is detachably mounted to the distal end of an elongated delivery means. Further, the system also comprises an attachment element, at the distal end of the vaso-occlusive device and a stretch resisting member with two proximal ends and a distal end, extending at least partially through the lumen and passing through the attachment element, the distal end being releasably attached to the distal attachment element. The device has the advantage that the device is not damaged during manipulation by a physician, reducing the risk of injury to a patient.
Radiopaque Super-Elastic Intravascular Stent
US Patent:
2014005, Feb 27, 2014
Filed:
Oct 31, 2013
Appl. No.:
14/068691
Inventors:
David A. WATSON - San Jose CA, US
Assignee:
DePuy Synthes Products, LLC - Raynham MA
International Classification:
A61F 2/86
US Classification:
623 115
Abstract:
The intravascular stent is formed from a composite wire includes an inner core of radiopaque metal, a polymer layer coaxially disposed about the inner core, and an outer metal layer coaxially disposed about the polymer layer. The intermediary polymer layer acts as a barrier material between the inner core and the outer sheath, so that the inner core and outer sheath may be made of dissimilar metallic layers, and the intermediary polymer layer will prevent a galvanic reaction between the inner core and the peripheral metal layer. The intravascular stent has ends flared radially outwardly to prevent radially and longitudinally inward deformation of the ends of the stent when the stent is disposed in a desired location in a patient's vasculature.
Shunt Valve For Controlling Siphon Effect
US Patent:
2013021, Aug 22, 2013
Filed:
Feb 12, 2013
Appl. No.:
13/765386
Inventors:
DAVID A. WATSON - San Jose CA, US
International Classification:
A61M 27/00, A61B 17/00
US Classification:
604 10, 606 1
Abstract:
An improved shunt valve for the control of hydrocephalus provides for physiological atmospherically-referenced siphon control that is not adversely affected by overlying tissue. The valve includes one or more porous outer anti-fouling membranes to protect the flow control membranes from external mechanical tissue pressure, while permitting free movement of the flow control moveable membranes and permitting positive inlet pressure to regulate flow through the improved fluid shunt valve of the invention. The porous membranes are configured to prevent tissue ingrowth into the membranes pores while allowing adequate fluid flow across so as not to inhibit movement of the movable membrane.
Drug Delivery Device With Mechanical Locking Mechanism
US Patent:
2005015, Jul 21, 2005
Filed:
Dec 15, 2004
Appl. No.:
11/013230
Inventors:
David Watson - San Jose CA, US
George Purtell - Westford MA, US
Brian Levy - Rochester NY, US
Dominic Ruscio - Webster NY, US
Jay Kunzler - Canandaigua NY, US
Michael Schmidt - Cambridge MA, US
Matthew Jonasse - Sodus NY, US
Joseph Salamone - Fairport NY, US
George Purtell - Westford MA, US
Brian Levy - Rochester NY, US
Dominic Ruscio - Webster NY, US
Jay Kunzler - Canandaigua NY, US
Michael Schmidt - Cambridge MA, US
Matthew Jonasse - Sodus NY, US
Joseph Salamone - Fairport NY, US
International Classification:
A61K009/22, A61F002/00
US Classification:
424427000, 604890100
Abstract:
A drug delivery device for placement in the eye includes a drug core comprising a pharmaceutically active agent, and a holder that holds the drug core. The holder is made of a material impermeable to passage of the active agent and includes at least one opening for passage of the pharmaceutically agent therethrough to eye tissue. The holder is mechanically secured to a suture tab.
Adding Microscopic Porosity To The Surface Of A Microcoil To Be Used For Medical Implantation
US Patent:
2011005, Mar 3, 2011
Filed:
Aug 11, 2010
Appl. No.:
12/854808
Inventors:
MICHAEL HENSON - COTO DE CAZA CA, US
ROBERT A. STERN - LOS ALTOS CA, US
DAVID A. WATSON - SAN JOSE CA, US
ROBERT A. STERN - LOS ALTOS CA, US
DAVID A. WATSON - SAN JOSE CA, US
Assignee:
MICRUS ENDOVASCULAR CORPORATION - SAN JOSE CA
International Classification:
A61M 29/00, G03F 7/20, C23F 1/00, B29C 67/00
US Classification:
606191, 430320, 216 56, 264 41
Abstract:
A vasoocclusive microcoil for therapeutic treatment of a patient's vasculature includes a surface with a plurality of voids or pores therein that operates to accelerate a healing process in the patient's vasculature when the microcoil is introduced into the patient's vasculature.
Drug Delivery Device With Suture Ring
US Patent:
2005013, Jun 23, 2005
Filed:
Dec 15, 2004
Appl. No.:
11/012806
Inventors:
Brian Levy - Rochester NY, US
David Watson - San Jose CA, US
George Purtell - Westford MA, US
Dominic Ruscio - Webster NY, US
Jay Kunzler - Canandaigua NY, US
Michael Schmidt - Cambridge MA, US
Matthew Jonasse - Sodus NY, US
Joseph Salamone - Fairport NY, US
David Watson - San Jose CA, US
George Purtell - Westford MA, US
Dominic Ruscio - Webster NY, US
Jay Kunzler - Canandaigua NY, US
Michael Schmidt - Cambridge MA, US
Matthew Jonasse - Sodus NY, US
Joseph Salamone - Fairport NY, US
International Classification:
A61K009/22, A61F002/00
US Classification:
424427000, 604890100
Abstract:
A drug delivery device for placement in the eye includes a drug core comprising a pharmaceutically active agent, and a holder that holds the drug core. The holder is made of a material impermeable to passage of the active agent and includes an opening for passage of the pharmaceutically agent therethrough to eye tissue. The holder has a suture tab having a suture ring at an end thereof. The suture ring is used to secure the device at an implant site.
Radiopaque Super-Elastic Intravascular Stent
US Patent:
8597344, Dec 3, 2013
Filed:
Feb 22, 2010
Appl. No.:
12/709734
Inventors:
Andre S. Lundkvist - Hayward CA, US
David A. Watson - San Jose CA, US
David A. Watson - San Jose CA, US
Assignee:
DePuy Synthes Products, LLC - Raynham MA
International Classification:
A61F 2/06
US Classification:
623 122, 623 115, 623 131, 623 134, 623 144, 623 146
Abstract:
The intravascular stent is formed from a composite wire includes an inner core of radiopaque metal, a polymer layer coaxially disposed about the inner core, and an outer metal layer coaxially disposed about the polymer layer. The intermediary polymer layer acts as a barrier material between the inner core and the outer sheath, so that the inner core and outer sheath may be made of dissimilar metallic layers, and the intermediary polymer layer will prevent a galvanic reaction between the inner core and the peripheral metal layer. The intravascular stent has ends flared radially outwardly to prevent radially and longitudinally inward deformation of the ends of the stent when the stent is disposed in a desired location in a patient's vasculature.
Guidewire Introducer And Shaping Tool
US Patent:
2008022, Sep 18, 2008
Filed:
Mar 14, 2008
Appl. No.:
12/049167
Inventors:
David A. Watson - San Jose CA, US
Assignee:
Micrus Endovascular Corporation - San Jose CA
International Classification:
A61M 25/09
US Classification:
60416413
Abstract:
The improved guidewire introducer and shaping tool includes a polymer inner layer and a metal outer layer. A polymer luer hub is provided on a polymer tubing shaft so that the internal taper of the hub has a smooth transition to the inner diameter of the polymer tubing shaft. A metal outer layer is provided over the outer surface of the polymer layer and can be rigidly attached to the hub to provide support and stiffness to the polymer layer.
Process For Creating An Ingrowth Preventing Indwelling Catheter Assembly
US Patent:
2010028, Nov 11, 2010
Filed:
Jul 21, 2010
Appl. No.:
12/840991
Inventors:
David A. Watson - San Jose CA, US
International Classification:
B32B 37/02, B23P 17/04
US Classification:
156 64, 29428, 156293
Abstract:
A surgically implantable delivery or drainage catheter assembly includes a porous fiber membrane that is permeable to the intended drainage or delivery fluid, yet has an outer surface morphology and porosity that prevents the ingrowth of tissue. The porous fiber membrane is created using a phase-inversion process which is controlled to select a desired porosity. A reinforcement member is also disposed within the porous fiber membrane.