Mark S Parker

US Patent:

8287506, Oct 16, 2012

Filed:

Oct 24, 2008

Appl. No.:

12/288873

Inventors:

Michael C. Wells - San Antonio TX, US
Mark Parker - Houston TX, US
Daniel J. Clarius - Missouri City TX, US
Andrew Parker - Missouri City TX, US
Faraidoon Pundole - Sugar Land TX, US
Tom Woods - Friendswood TX, US

Assignee:

Electrochemical Oxygen Concepts, Inc. - San Antonio TX

International Classification:

A61F 13/00

US Classification:

604304, 604 23

Abstract:

A non-invasive tissue oxygenation system for accelerating the healing of damaged tissue and to promote tissue viability is disclosed herein. The system is comprised of a lightweight portable electrochemical oxygen concentrator, a power management system, microprocessors, memory, a pressure sensing system, a temperature monitoring system, oxygen flow rate monitoring and control system, a display screen and key pad navigation controls as a means of providing continuous variably controlled low dosages of oxygen to a wound site and monitoring the healing process. A kink resistant oxygen delivery tubing, whereby the proximal end is removably connected to the device and the distal end with holes or a flexible, flat, oxygen-permeable tape is positioned on the wound bed as a means of applying oxygen to the wound site. The distal end of the tube is in communication with the electrochemical oxygen concentrator and wound monitoring system to communicate temperature and oxygen partial pressure information. A moisture absorbent dressing is positioned over the distal end of the tubing on the wound site and a reduced moisture vapor permeable dressing system is positioned whereby covering the moisture absorbent dressing, distal end of tubing and wound site creating a restricted airflow enclosure.

US Patent:

8631869, Jan 21, 2014

Filed:

Apr 8, 2005

Appl. No.:

11/102062

Inventors:

Leopoldo Sierra - Houston TX, US
Eldon D. Dalrymple - Duncan OK, US
Larry S. Eoff - Duncan OK, US
Matthew E. Blauch - Duncan OK, US
Mark A. Parker - Marlow OK, US

International Classification:

E21B 43/22
E21B 43/26

US Classification:

166282, 1663051

Abstract:

Provided are methods of using fluid loss control additives that comprise a water-soluble polymer with hydrophobic or hydrophilic modification. In one embodiment, a method of providing at least some degree of fluid loss control during a subterranean treatment is provided. In an example of such a method, the method may comprise providing a treatment fluid comprising an aqueous liquid and a fluid loss control additive, the fluid loss control additive comprising a water-soluble polymer with hydrophobic or hydrophilic modification; and introducing the treatment fluid into a well bore that penetrates a subterranean formation, wherein there is at least a partial reduction in fluid loss into at least a portion of the subterranean formation from the treatment fluid and/or another aqueous fluid introduced into well bore subsequent to the treatment fluid.

US Patent:

20110054388, Mar 3, 2011

Filed:

Apr 23, 2009

Appl. No.:

12/738905

Inventors:

Michael C. Wells - San Antonio TX, US
Mark Parker - Houston TX, US
Daniel J. Clarius - Missouri City TX, US
Andrew Parker - Missouri City TX, US
Faraidoon Pundole - Sugar Land TX, US
Tom Woods - Friendswood TX, US
Mark Niederauer - San Antonio TX, US

International Classification:

A61M 37/00

US Classification:

604 23

Abstract:

A non-invasive tissue oxygenation system for accelerating the healing of damaged tissue and to promote tissue viability is disclosed herein. The system is comprised of a lightweight portable electrochemical oxygen concentrator, a power management system, microprocessors, memory, a pressure sensing system, an optional temperature monitoring system, oxygen flow rate/oxygen partial pressure monitoring and control system, a display screen and key pad navigation controls as a means of providing continuous variably controlled low dosages of oxygen to a wound site and monitoring the healing process. A kink resistant oxygen delivery tubing, whereby the proximal end is removably connected to the device and the distal end with holes or a flexible, flat, oxygen-permeable tape is positioned at or near the wound bed as a means of applying near 100% pure oxygen to the wound site. The distal end of the tube is in communication with the electrochemical oxygen concentrator and wound monitoring system to communicate oxygen partial pressure and, where appropriate, temperature information. A moisture absorbent dressing is positioned over the distal end of the tubing at the wound site and a reduced moisture vapor permeable dressing system is positioned whereby covering the moisture absorbent dressing, distal end of tubing and wound site creating a restricted or occluded airflow enclosure. The restricted airflow enclosure allows the out-of-the-way control and display unit to provide a controlled hyperoxia and hypoxia wound site for accelerated wound healing.

US Patent:

20190201672, Jul 4, 2019

Filed:

Mar 11, 2019

Appl. No.:

16/298294

Inventors:

- San Antonio TX, US
Mark Parker - Houston TX, US
Daniel J. Clarius - Missouri City TX, US
Andrew Parker - Missouri City TX, US
Faraidoon Pundole - Sugar Land TX, US
Tom Woods - Friendswood TX, US
Mark Niederauer - San Antonio TX, US
James P. Daley - San Antonio TX, US

International Classification:

A61M 35/00

Abstract:

A wound treatment system includes a housing. A processor is located in the housing. A pressure monitoring system is coupled to the processor. A power delivery system is located in the housing and coupled to the processor. An oxygen concentrator is located in the housing and coupled to the power delivery system. The oxygen concentrator includes a plurality of oxygen outlets. The processor is configured to receive pressure information from the pressure monitoring system that is indicative of a pressure in a restricted airflow enclosure provided by a dressing and located adjacent a wound site; and use the pressure information to control the power provided from the power delivery system to the oxygen concentrator in order to control an oxygen flow created by the oxygen concentrator and provided through one of the plurality of oxygen outlets to the restricted airflow enclosure.

US Patent:

20170296392, Oct 19, 2017

Filed:

Jul 6, 2017

Appl. No.:

15/642833

Inventors:

- San Antonio TX, US
Mark Parker - Houston TX, US
Daniel J. Clarius - Missouri City TX, US
Andrew Parker - Missouri City TX, US
Faraidoon Pundole - Sugar Land TX, US
Tom Woods - Friendswood TX, US
Mark Q. Niederauer - San Antonio TX, US
James P. Daley - San Antonio TX, US

Assignee:

ELECTROCHEMICAL OXYGEN CONCEPTS, INC. - San Antonio TX

International Classification:

A61F 13/00
A61M 35/00
A61F 13/00
A61F 13/00
A61F 13/00
A61F 13/00
A61F 13/00
A61F 13/00
A61F 13/00
A61F 13/00
A61F 13/00
A61F 13/00
A61F 13/00

Abstract:

A wound treatment system includes a housing that defines an oxygen outlet. An oxygen production subsystem is included in the housing and coupled to the oxygen outlet. A control subsystem is coupled to the oxygen production subsystem and configured to receive pressure information that is indicative of a pressure in a restricted airflow enclosure that is coupled to the oxygen outlet. The control subsystem then uses the pressure information to control power provided to the oxygen production subsystem in order to control an oxygen flow that is created by the oxygen production subsystem and provided through the oxygen outlet to the restricted airflow enclosure.

US Patent:

20160082238, Mar 24, 2016

Filed:

Dec 7, 2015

Appl. No.:

14/961587

Inventors:

- San Antonio TX, US
Mark Parker - Houston TX, US
Daniel J. Clarius - Missouri City TX, US
Andrew Parker - Missouri City TX, US
Faraidoon Pundole - Sugar Land TX, US
Tom Woods - Friendswood TX, US
Mark Niederauer - San Antonio TX, US
James P. Daly - San Antonio TX, US

Assignee:

ELECTROCHEMICAL OXYGEN CONCEPTS, INC. - San Antonio TX

International Classification:

A61M 37/00
A61M 13/00

Abstract:

A wound treatment system includes a housing. A processor is located in the housing. A pressure monitoring system is coupled to the processor. A power delivery system is located in the housing and coupled to the processor. An oxygen concentrator is located in the housing and coupled to the power delivery system. The oxygen concentrator includes a plurality of oxygen outlets. The processor is configured to receive pressure information from the pressure monitoring system that is indicative of a pressure in a restricted airflow enclosure provided by a dressing and located adjacent a wound site; and use the pressure information to control the power provided from the power delivery system to the oxygen concentrator in order to control an oxygen flow created by the oxygen concentrator and provided through one of the plurality of oxygen outlets to the restricted airflow enclosure.

Address:

9814 Rocktree Dr, Houston, TX 77040

VIN:

3GTEC14X67G166698

Make:

GMC

Model:

SIERRA 1500 CLASSIC

Year:

2007