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Dr Raj C Thiagarajan ATOA Scientific Technologies Dr Raj C Thiagarajan ATOA Scientific Technologies
Adi Narayana Namburi, Hayagreeva Rao, Chinniah Thiagarajan: Composite material for turbine support structure. General Electric Company, Sutherland Asbill & Brennan, November 2, 2010: US07824763 (7 worldwide citation)

A composite material for use in turbine support structures. The composite material may include a first material having a positive coefficient of thermal expansion and a second material having a negative coefficient of thermal expansion, a negative Poisson ratio, or both a negative coefficient of the ...


2
Craig Allen
Curtis John Jacks, Craig Allen Bielek, Robert Walter Coign, Randall Gill: First stage turbine nozzle airfoil. General Electric Company, Sutherland Asbill & Brennan, May 18, 2004: US06736599 (37 worldwide citation)

The first stage nozzles have airfoil profiles substantially in accordance with Cartesian coordinate values of X, Y and Z set forth Table 1. The X and Y values are in inches and the Z value is non-dimensional along the nozzle-stacking axis coincident with a turbine radius and convertible to a Z dista ...


3
Dr Raj C Thiagarajan ATOA Scientific Technologies
Adi Narayana Namburi, Hayagreeva Rao, Chinniah Thiagarajan: Composite material for turbine support structure. General Electric Company, Sutherland Asbill & Brennan, September 25, 2008: US20080233372-A1

A composite material for use in turbine support structures. The composite material may include a first material having a positive coefficient of thermal expansion and a second material having a negative coefficient of thermal expansion, a negative Poisson ratio, or both a negative coefficient of the ...


4
Mark G Allen, Mark R Prausnitz, Devin V McAllister, Florent Paul Marcel Cros: Microneedle devices and methods of manufacture and use thereof. Georgia Tech Research Corporation, Sutherland Asbill & Brennan, January 1, 2002: US06334856 (566 worldwide citation)

Microneedle devices are provided for transport of therapeutic and biological molecules across tissue barriers and for use as microflameholders. In a preferred embodiment for transport across tissue, the microneedles are formed of a biodegradable polymer. Methods of making these devices, which can in ...


5
Charles L Brown III, Neville Crawford, Steven Freear: Iontophoresis, electroporation and combination catheters for local drug delivery to arteries and other body tissues. Global Vascular Concepts, Sutherland Asbill & Brennan, April 17, 2001: US06219577 (281 worldwide citation)

Catheter-based devices for enhancing the local delivery of drugs, pharmaceuticals, plasmids, genes, and other agents into the wall tissues of tubular compartments of the living body. One catheter device provides an electrical driving force that can increase the rate of migration of drugs and other t ...


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John T Santini Jr, Charles E Hutchinson, Scott A Uhland, Michael J Cima, Robert S Langer, Dennis Ausiello: Microfabricated devices for the delivery of molecules into a carrier fluid. MicroChips, Sutherland Asbill & Brennan, December 10, 2002: US06491666 (254 worldwide citation)

Apparati and methods are provided for the delivery of molecules to a site via a carrier fluid. The apparati include microchip devices which have reservoirs containing the molecules for release. The apparati and methods provide for active or passive controlled release of the molecules. Preferred embo ...


7
Anindya Datta: Dynamic page generation acceleration using component-level caching. Chutney Technologies, Sutherland Asbill & Brennan, September 16, 2003: US06622168 (246 worldwide citation)

A preloader works in conjunction with a web/app server and optionally a profile server to cache web page content elements or components for faster on-demand and anticipatory dynamic web page delivery. The preloader uses a cache manager to manage requests for retrievals, insertions, and removal of we ...


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John T Santini Jr, Charles E Hutchinson: Implantable drug delivery stents. MicroCHIPS, Sutherland Asbill & Brennan, December 2, 2003: US06656162 (241 worldwide citation)

Devices for the controlled release of one or more drugs are provided. The devices include an implantable stent, at least two reservoirs in the stent, and a release system contained in each of the at least two reservoirs, wherein the release system comprises one or more drugs for release.


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Scott A Uhland, Benjamin F Polito, Stephen J Herman, John T Santini Jr, John M Maloney: Methods for hermetically sealing microchip reservoir devices. MicroCHIPS, Sutherland Asbill & Brennan, December 7, 2004: US06827250 (181 worldwide citation)

Methods are provided for hermetically sealing the reservoirs of microchip devices and for hermetically sealing the substrate assemblies in a hermetic packaging structure. In one embodiment, the method comprises (1) providing a primary substrate having a front side and a back side, the substrate comp ...


10
Mary G Lynch, Reay H Brown: Shunt device and method for treating glaucoma. GMP Vision Solutions, Sutherland Asbill & Brennan, September 17, 2002: US06450984 (179 worldwide citation)

Shunt devices and a method for continuously decompressing elevated intraocular pressure in eyes affected by glaucoma by diverting excess aqueous humor from the anterior chamber of the eye into Schlemm's canal where post-operative patency can be maintained with an indwelling shunt device which s ...



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