SUNIL KRISHNAN, M.D.
Radiology at Holcombe Blvd, Houston, TX

2013019, Aug 1, 2013

Jan 16, 2013

13/742446

Sunil Krishnan - Houston TX, US
Parmeswaran Diagaradjane - Houston TX, US
Jon Alexander Schwartz - Sugar Land TX, US
James Chunjay Wang - Arlington TX, US

The Board of Regents of the University of Texas System - Austin TX
Nanospectra Biosciences, Inc. - Houston TX

A61N 2/00, A61N 5/10

600 2

Methods are provided for the treatment of diseases and disorders using systematically-introduced nanoparticles to create a focused localized hyperthermia in a target area to enhance the effect of additional treatment therapies such as ionizing radiation. Advantages include an enhancement of the therapeutic effect of other therapies by increasing perfusion or reducing hypoxia in the treatment area, further, the methods herein may also result in the disruption of the vasculature, which provide further impetus for such treatments, singly and in combination with conventional therapies such as chemotherapy and radiation therapy. Methods for treating a target area may comprise systemically introducing nanoparticles into an organism; allowing the nanoparticles to preferentially accumulate in the target area, applying an external energy where the nanoparticles are adapted to transduce at least a portion of the external energy into a heat energy so as to create a focused localized hyperthermia; and applying a subsequent additional therapy.

2011005, Mar 3, 2011

Jan 16, 2009

12/863163

Sunil Krishnan - Houston TX, US
Parmeswaran Diagaradjane - Houston TX, US
Jon Alexander Schwartz - Sugar Land TX, US
James Chunjay Wang - Arlington TX, US

A61K 9/127, A61K 35/74, A61P 35/00, A61K 33/24, B82Y 5/00

424450, 424 934, 424649, 977915

Methods are provided for the treatment of diseases and disorders using systematically-introduced nanoparticles to create a focused localized hyperthermia in a target area to enhance the effect of additional treatment therapies such as ionizing radiation. Advantages include an enhancement of the therapeutic effect of other therapies by increasing perfusion or reducing hypoxia in the treatment area, further, the methods herein may also result in the disruption of the vasculature, which provide further impetus for such treatments, singly and in combination with conventional therapies such as chemotherapy and radiation therapy. Methods for treating a target area may comprise systemically introducing nanoparticles into an organism; allowing the nanoparticles to preferentially accumulate in the target area, applying an external energy where the nanoparticles are adapted to transduce at least a portion of the external energy into a heal energy so as to create a focused localized hyperthermia; and applying a subsequent additional therapy.

2013022, Aug 29, 2013

Apr 5, 2011

13/639519

Sunil Krishnan - Houston TX, US
Parmeswaran Diagaradjane - Houston TX, US
Glenn P. Goodrich - Houston TX, US
J. Donald Payne - Houston TX, US

NANOSPECTRA BIOSCIENCES, INC. - Houston TX

A61K 41/00, A61N 5/10

600 3, 600 1

A method for the design, manufacturing, and use of a high-Z particle to enhance the effects of ionizing radiation. In particular, the use of a targeting molecule to enable cellular uptake by the target cells (tumor cells or endothelial cells proximate to the tumor) will enhance the dose effect.

2013015, Jun 20, 2013

Nov 27, 2012

13/685946

The University of Houston System - Houston TX, US
A. Sam Beddar - Houston TX, US
Tina Marie Briere - Houston TX, US
Sunil Krishnan - Houston TX, US
Andrew K. Lee - Houston TX, US

BOARD OF REAGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX
THE UNIVERSITY OF HOUSTON SYSTEM - Houston TX

A61N 5/06, A61N 5/10

600 1, 604 20, 2504923

A method for generating light intensity inside a tumor to aid in the treatment of diseases such as cancer is disclosed. The light is generated inside the body to perform a modified photodynamic therapy treatment (PDT) that allows treatment of body regions that are inaccessible by normal PDT procedures. In addition, the use of two spatially and temporally coincident treatment modalities, i.e. radiation and PDT, have the potential for significant biological synergy in the tumor.

2008013, Jun 12, 2008

Sep 17, 2007

11/856505

Abdelhak Bensaoula - Houston TX, US
John Christopher Boney - Pearland TX, US
A. Sam Beddar - Houston TX, US
Tina Marie Briere - Houston TX, US
Sunil Krishnan - Houston TX, US
Andrew K. Lee - Houston TX, US

THE UNIVERSITY OF HOUSTON SYSTEM - Houston TX
BOARD OF REAGENTS, THE UNIVERSITY OF TEXAS SYSTEM - Austin TX

A61B 6/00

604 21, 607 88, 378 65, 977906

A method for generating light intensity inside a tumor to aid in the treatment of diseases such as cancer is disclosed. The light is generated inside the body to perform a modified photodynamic therapy treatment (PDT) that allows treatment of body regions that are inaccessible by normal PDT procedures. In addition, the use of two spatially and temporally coincident treatment modalities, i.e. radiation and PDT, have the potential for significant biological synergy in the tumor.