Description
Created On: 2020-07-15
Record Count: 3
Primary Industries
- Medical
- Scientific & Technical Instruments
- Diagnostic
- Drug Discovery
- Proteins
- X-ray
IPSCIO Report Record List
Below you will find the records curated into this collection. This summary includes the complete licensed property description so that you can review and determine if this collection covers the topics, technology or transaction type that is relevant for your needs. The full report will include all relevant deal data such as the royalty base, agreement date, term description, royalty rates and other deal terms. For reference, here is a sample of a full IPSCIO curated royalty rate report: Sample Report
IPSCIO Record ID: 274
This License may be sublicensed.
X-ray fluorescence spectroscopy is an economically feasible to measure the chemical composition of pharmaceuticals.
Micro X-ray fluorescence is a chemical analysis technique that uses the unique x-ray emissions of different chemical elements when they are illuminated by an x-ray source. We use this elemental analysis to measure the elemental changes caused by protein-drug interactions. We currently offer our customers analytical services using our technology to evaluate drug candidates for safety and efficacy. We believe that our technology can reduce the cost of drug discovery by detecting safety and efficacy issues at an early stage of development.
U.S. Patent Rights
DOE S-94,661 – 'Method for Detecting Binding Events Using Micro X-Ray Fluorescence Spectrometry,' Benjamin P. Warner et al., U.S. Patent Application No. 09/859,701, filed May 16, 2001.
DOE S-99,911 – 'Flow Method and Apparatus for Screening Chemicals Using Micro X-Ray Fluorescence,' George J. Havrilla et al., U.S. Patent Application No. 10/206,524, filed July 25, 2002.
DOE S-l00, 585 – 'Method and Apparatus for Detecting Chemical Binding,' Benjamin P. Warner et al., U.S. Patent Application No. 10/62 1,825, filed July 16, 2003.
DOE S-102,376 – 'Drug Development and Manufacturing,' Benjamin P. Warner et al., U.S. Patent Application No. 10/880,388, filed June 29, 2004.
International Patent Rights
DOE S-94,661 – 'Method for Detecting Binding Events Using Micro X-Ray Fluorescence Spectrometry,' Benjamin P. Warner et al., U.S. Patent Application No. 09/859,701, filed May 16, 2001I. International Patent protection is not available for this case.
DOE S-99,91J – 'Flow Method and Apparatus for Screening Chemicals Using Micro X-Ray Fluorescence,' George J. Havrilla et al., U.S. Patent Application No. 101206,524, filed July 25,2002. PCT Application 03/20 103 was filed on June 24, 2003. The Licensee elects international patent prosecution in the following countries:
DOE S-J 00,585 – 'Method and Apparatus for Detecting Chemical Binding,' Benjamin P. Warner et. al., U.S. Patent Application No. 10/621,825, filed July 16, 2003. PCT Application 04119678 was filed on June 16, 2004. The Licensee elects international patent prosecution in the following countries:
Country Application No. Filing Date
DOE S-1O2,376 – 'Drug Development and Manufacturing,' Benjamin P. Warner et al., U.S. Patent Application No. 10/880,388, filed June 29, 2004. A PCT Application may be filed on or before July 16, 2005.
IPSCIO Record ID: 260385
Technology means technical information, know-how, data and Patent Rights owned or controlled by the University and relating to a Method for Detecting Binding Constants Using Micro X-Ray Fluorescence (MXRF).
IPSCIO Record ID: 27713
Patent No.
1
METHOD AND APPARATUS FOR DESORPTION AND IONIZATION OF ANALYTES
AU
70483/94
676582
2
METHOD AND APPARATUS FOR DESORPTION AND IONIZATION OF ANALYTES
NZ
267842
267842
3
METHOD AND APPARATUS FOR DESORPTION AND IONIZATION OF ANALYTES
US
08/483,357
5,719,060
4
SURFACE-ENHANCED NEAT DESORPTION FOR DESORPTION AND DETECTION OF ANALYTES
US
08/785,637
5,894,063
5
SYSTEMS FOR SURFACE-ENHANCED AFFINITY CAPTURE FOR DESORPTION AND DETECTION OF ANALYTES
US
08/556,951
6,020,208
6
SURFACE-ENHANCED AFFINITY CAPTURE FOR DESORPTION AND DETECTION OF ANALYTES
US
08/785,636
6,027,942
7
SURFACE-ENHANCED NEAT DESORPTION AND DETECTION OF ANALYTES
US
09/095,407
6,124,137
8
USE OF RETENTATE CHROMATOGRAPHY TO GENERATE DIFFERENCE MAPS
US
09/100,302
6,225,047
9
RETENTATE CHROMATOGRAPHY AND PROTEIN CHIP ARRAYS WITH APPLICATIONS IN BIOLOGY AND MEDICINE
SG
9906243-2
69803
10
RETENTATE CHROMATOGRAPHY AND PROTEIN CHIP ARRAYS WITH APPLICATIONS IN BIOLOGY AND MEDICINE
JP
11-504918
3287578
11
RETENTATE CHROMATOGRAPHY AND PROTEIN CHIP ARRAYS WITH APPLICATIONS IN BIOLOGY AND MEDICINE
NZ
501837
501837
12
RETENTATE CHROMATOGRAPHY ANDÂ PROTEIN CHIP ARRAYS WITH APPLICATIONS IN BIOLOGY AND MEDICINE
NZ
501838
501838
13
METHOD AND APPARATUS FOR DESORPTION AND IONIZATION OF ANALYTES
US
09/742,494
6,528,320
14
METHOD AND APPARATUS FOR DESCRIPTION AND IONIZATION OF ANALYTES
EP
94919287,6
15
RETENTATE CHROMATOGRAPHY AND PROTEIN CHIP ARRAYS WITH APPLICATIONS IN BIOLOGY AND MEDICINE
AU
83753/98
16
RETENTATE CHROMATOGRAPHY AND PROTEIN CHIP ARRAYS WITH APPLICATIONS IN BIOLOGY AND MEDICINE
NZ
501836
17
RETENTATE CHROMATOGRAPHY AND PROTEIN CHIP ARRAYS WITH APPLICATIONS IN BIOLOGY AND MEDICINE
US
09/100,708
ProteinChip technology is based on SELDI, which combines laser-based molecular weight detection with the use of a chemically or biochemically active chip array surface constructed from proprietary-treated metal.