Skotheim
Rolf I. Skotheim, Oslo NO
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20100062440 | MARKERS FOR CANCER - The present invention relates to novel markers for hypermethylation of gene promoters in cancers. In particular the present invention relates to a method of determining whether a tumour is developing in the aero-digestive system, or whether a subject is relapsing after treatment of such a tumour. The method comprises determining the methylation level, the number of methylated CpG sites or the methylation state of CpG sites in a nucleic acid sequence in the promoter region, first exon or intron, of one or more genes selected from the group consisting of CNRIP1, MAL, FBN1, SPG20, SNCA, and INA. The method further relates to a diagnostic kit for detecting tumours in the aero-digestive tract. | 03-11-2010 |
20100279890 | FUSION GENE MICROARRAY - The present invention relates to a microarray comprising a chimeric probe for an intergenic exon-to-exon junction of a fusion gene and at least two intragenic probes for a fusion gene partner of the fusion gene. The invention further relates to a method of detecting a fusion gene and a kit suitable for detecting fusion genes. | 11-04-2010 |
20120172242 | CANCER SPECIFIC TRANSCRIPT VARIANTS - The present inventors here present a novel strategy for identification of RNA transcript variants and demonstrate that these can be correlated to disease states in mammals such as cancer. In particular, the transcript variants show prevalence and specificity to cancer, and thus also show clinical applicability in e.g. cancer diagnostics and prognostics, treatment and therapeutics. The present inventors have identified RNA transcript variants of VNN1 that can be used as biomarkers. The RNA transcript variant may also be used as biomarkers for diagnosing, prognosing, and/or monitoring a cancer. | 07-05-2012 |
20140031257 | METHODS AND BIOMARKERS FOR DETECTION OF GASTROINTESTINAL CANCERS - The present invention relates to methods and biomarkers (e.g., epigenetic biomarkers) for detection of gastrointestinal cancers (e.g., colorectal cancer, gastric cancer, pancreatic cancer, liver cancer, cancer of the gall bladder and/or bile ducts (e.g., cholangiocarcinoma)) in biological samples (e.g., tissue samples, stool samples, blood samples, plasma samples, cell samples, gall samples, bile samples, serum samples). | 01-30-2014 |
Rolf Inge Skotheim, Oslo NO
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20130210011 | METHODS AND BIOMARKERS FOR DETECTION OF BLADDER CANCER - The invention relates to methods and biomarkers (e.g., epigenetic biomarkers) for detection of bladder cancer in biological samples (e.g., tissue samples, urine samples, urine sediments). In some embodiments, methods and biomarkers of the present invention find use in discriminating between bladder cancer, prostate cancer and renal epithelial tumors. | 08-15-2013 |
20140302100 | METHODS AND BIOMARKERS FOR ANALYSIS OF COLORECTAL CANCER - The present invention relates to methods and biomarkers (e.g., gene expression biomarkers) for detection of colorectal cancer in biological samples (e.g., tissue samples, biopsy samples, stool samples, blood samples, plasma samples, serum samples). In some embodiments, methods and biomarkers of the present invention find use in detection of colon cancer and in providing a prognosis to colorectal cancer patients. | 10-09-2014 |
20140342361 | METHODS AND BIOMARKERS FOR ANALYSIS OF COLORECTAL CANCER - The present invention relates to methods and biomarkers (e.g., gene expression biomarkers) for detection of colorectal cancer in biological samples (e.g., tissue samples, biopsy samples, stool samples, blood samples, plasma samples, serum samples). In some embodiments, methods and biomarkers of the present invention find use in detection of colon cancer, providing a prognosis to colorectal cancer patients, and in companion diagnostics. | 11-20-2014 |
Terje Skotheim, Tucson, AZ US
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20110042589 | NANOAMORPHOUS CARBON-BASED PHOTONIC CRYSTAL INFRARED EMITTERS - Provided is a tunable radiation emitting structure comprising: a nanoamorphous carbon structure having a plurality of relief features provided in a periodic spatial configuration, wherein the relief features are separated from each other by adjacent recessed features, and wherein the nanoamorphous carbon comprises a total of from 0 to 60 atomic percent of one or more dopants of the dopant group consisting of: transition metals, lanthanoids, electro-conductive carbides, silicides and nitrides. In one embodiment, a dopant is selected from the group consisting of: Sc, Ti, V, Cr, Mn, Fe, Co, Ni, Cu, Zn, Y, Zr, Nb, Mo, Tc, Ru, Rh, Pd, Ag, Cd, La and other lanthanides, Hf, Ta, W, Rh, Os, Ir, Pt, Au, and Hg. In one embodiment, a dopant is selected from the group consisting of: electro-conductive carbides (like Mo | 02-24-2011 |
Terje A. Skotheim, Tucson, AZ US
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20080213672 | LITHIUM ANODES FOR ELECTROCHEMICAL CELLS - Provided is an anode for use in electrochemical cells, wherein the anode active layer has a first layer comprising lithium metal and a multi-layer structure comprising single ion conducting layers and polymer layers in contact with the first layer comprising lithium metal or in contact with an intermediate protective layer, such as a temporary protective metal layer, on the surface of the lithium-containing first layer. Another aspect of the invention provides an anode active layer formed by the in-situ deposition of lithium vapor and a reactive gas. The anodes of the current invention are particularly useful in electrochemical cells comprising sulfur-containing cathode active materials, such as elemental sulfur. | 09-04-2008 |
20100104948 | PROTECTION OF ANODES FOR ELECTROCHEMICAL CELLS - Provided is an anode for use in electrochemical cells, wherein the anode active layer has a first layer comprising lithium metal and a multi-layer structure comprising single ion conducting layers and polymer layers in contact with the first layer comprising lithium metal or in contact with an intermediate protective layer, such as a temporary protective metal layer, on the surface of the lithium-containing first layer. Another aspect of the invention provides an anode active layer formed by the in-situ deposition of lithium vapor and a reactive gas. The anodes of the current invention are particularly useful in electrochemical cells comprising sulfur-containing cathode active materials, such as elemental sulfur. | 04-29-2010 |
20110014524 | PROTECTION OF ANODES FOR ELECTROCHEMICAL CELLS - Provided is an anode for use in electrochemical cells, wherein the anode active layer has a first layer comprising lithium metal and a multi-layer structure comprising single ion conducting layers and polymer layers in contact with the first layer comprising lithium metal or in contact with an intermediate protective layer, such as a temporary protective metal layer, on the surface of the lithium-containing first layer. Another aspect of the invention provides an anode active layer formed by the in-situ deposition of lithium vapor and a reactive gas. The anodes of the current invention are particularly useful in electrochemical cells comprising sulfur-containing cathode active materials, such as elemental sulfur. | 01-20-2011 |
20110159376 | PROTECTION OF ANODES FOR ELECTROCHEMICAL CELLS - Provided is an anode for use in electrochemical cells, wherein the anode active layer has a first layer comprising lithium metal and a multi-layer structure comprising single ion conducting layers and polymer layers in contact with the first layer comprising lithium metal or in contact with an intermediate protective layer, such as a temporary protective metal layer, on the surface of the lithium-containing first layer. Another aspect of the invention provides an anode active layer formed by the in-situ deposition of lithium vapor and a reactive gas. The anodes of the current invention are particularly useful in electrochemical cells comprising sulfur-containing cathode active materials, such as elemental sulfur. | 06-30-2011 |
20110165471 | PROTECTION OF ANODES FOR ELECTROCHEMICAL CELLS - Provided is an anode for use in electrochemical cells, wherein the anode active layer has a first layer comprising lithium metal and a multi-layer structure comprising single ion conducting layers and polymer layers in contact with the first layer comprising lithium metal or in contact with an intermediate protective layer, such as a temporary protective metal layer, on the surface of the lithium-containing first layer. Another aspect of the invention provides an anode active layer formed by the in-situ deposition of lithium vapor and a reactive gas. The anodes of the current invention are particularly useful in electrochemical cells comprising sulfur-containing cathode active materials, such as elemental sulfur. | 07-07-2011 |
20120276449 | LITHIUM ANODES FOR ELECTROCHEMICAL CELLS - Provided is an anode for use in electrochemical cells, wherein the anode active layer has a first layer comprising lithium metal and a multi-layer structure comprising single ion conducting layers and polymer layers in contact with the first layer comprising lithium metal or in contact with an intermediate protective layer, such as a temporary protective metal layer, on the surface of the lithium-containing first layer. Another aspect of the invention provides an anode active layer formed by the in-situ deposition of lithium vapor and a reactive gas. The anodes of the current invention are particularly useful in electrochemical cells comprising sulfur-containing cathode active materials, such as elemental sulfur. | 11-01-2012 |
20140045075 | LITHIUM ANODES FOR ELECTROCHEMICAL CELLS - Provided is an anode for use in electrochemical cells, wherein the anode active layer has a first layer comprising lithium metal and a multi-layer structure comprising single ion conducting layers and polymer layers in contact with the first layer comprising lithium metal or in contact with an intermediate protective layer, such as a temporary protective metal layer, on the surface of the lithium-containing first layer. Another aspect of the invention provides an anode active layer formed by the in-situ deposition of lithium vapor and a reactive gas. The anodes of the current invention are particularly useful in electrochemical cells comprising sulfur-containing cathode active materials, such as elemental sulfur. | 02-13-2014 |
20140205912 | LITHIUM ANODES FOR ELECTROCHEMICAL CELLS - Provided is an anode for use in electrochemical cells, wherein the anode active layer has a first layer comprising lithium metal and a multi-layer structure comprising single ion conducting layers and polymer layers in contact with the first layer comprising lithium metal or in contact with an intermediate protective layer, such as a temporary protective metal layer, on the surface of the lithium-containing first layer. Another aspect of the invention provides an anode active layer formed by the in-situ deposition of lithium vapor and a reactive gas. The anodes of the current invention are particularly useful in electrochemical cells comprising sulfur-containing cathode active materials, such as elemental sulfur. | 07-24-2014 |