Jason Harold Calhoun

US Patent:

7912733, Mar 22, 2011

Filed:

May 2, 2006

Appl. No.:

11/415936

Inventors:

Leon M. Clements - League City TX, US
Jason Calhoun - Columbia MO, US
Glenn G. Hammack - Houston TX, US
Oscar Boultinghouse - Friendswood TX, US
Kaye S. Cloutier - Nassau Bay TX, US
Michael J. Davis - Bellaire TX, US
William Whipkey - Houston TX, US
Oliver M. Black - Galveston TX, US

Assignee:

Board of Regents, The University of Texas System - Austin TX

International Classification:

G06Q 10/00

US Classification:

705 2

Abstract:

A system, program product, and methods related to enhanced medical services delivery to geographically distributed patient populations by remotely located physicians are provided. An embodiment of the system includes a remote medical services server, a plurality of patient electronic medical records stored in the memory of the remote medical services server, and a remote medical services program product stored in the memory of the remote medical services server adapted to access the plurality of patient electronic medical records to thereby allow display of and data entry in a selected patient electronic medical record. A patient medical service delivery station captures patient video images and displays remote physician video images. A remote physician medical service delivery suite in communication with the patient medical service delivery station through the communications network captures remote physician video images and displays patient video images and patient electronic medical records, to allow the remote physician to perform remote patient medical service delivery.

US Patent:

8321284, Nov 27, 2012

Filed:

Mar 18, 2011

Appl. No.:

13/051675

Inventors:

Leon M. Clements - League City TX, US
Jason Calhoun - Columbia MO, US
Glenn G. Hammack - Houston TX, US
Oscar Boultinghouse - Friendswood TX, US
Kaye S. Cloutier - Nassau Bay TX, US
Michael J. Davis - Bellaire TX, US
William Whipkey - Houston TX, US
Oliver M. Black - Galveston TX, US

Assignee:

Board of Regents, the University of Texas System - Austin TX

International Classification:

A61B 5/0402

US Classification:

705 20, 600509, 705 2, 705 3

Abstract:

A system, program product, and methods related to enhanced medical services delivery to geographically distributed patient populations by remotely located physicians are provided. An embodiment of the system includes a remote medical services server, a plurality of patient electronic medical records stored in the memory of the remote medical services server, and a remote medical services program product stored in the memory of the remote medical services server adapted to access the plurality of patient electronic medical records to thereby allow display of and data entry in a selected patient electronic medical record. A patient medical service delivery station captures patient video images and displays remote physician video images. A remote physician medical service delivery suite in communication with the patient medical service delivery station through the communications network captures remote physician video images and displays patient video images and patient electronic medical records, to allow the remote physician to perform remote patient medical service delivery.

US Patent:

52681785, Dec 7, 1993

Filed:

May 12, 1992

Appl. No.:

7/881886

Inventors:

Jason H. Calhoun - Galveston TX
Jon T. Mader - Galveston TX

Assignee:

The Board of Regents, The University of Texas System - Austin TX

International Classification:

A61F 200

US Classification:

424426

Abstract:

Methods are disclosed for preventing or treating infection in a living patient at the site of a void in the patient's body created by surgery. The methods involve the use of biodegradable antibiotic implants which are placed in the surgical void and then supply an extended, continuous supply of at least one antibiotic to the surrounding tissue. The biodegradable implant comprises at least one biodegradable material such as polylactic acid, and at least one antibiotic drug. These components are combined and formed into bead, rods, or a gel which can be placed in the surgical void. The implant preferably comprises a plurality of antibiotics, each of which is specific to a different bacteria, which bacteria may be expected to be present at the site of the surgical The United States Government has certain rights in the present invention pursuant to NIH Grant No. S07RR05427.