Patent application number | Description | Published |
20100115421 | WEB-BASED GENETICS ANALYSIS - Techniques for allowing doctors and clinicians to upload genetic data associated with patients for comparison with previously-uploaded genetic data associated with other patients are described herein. These techniques may also allow doctors and clinicians to create notations associated with uploaded patient data. Both the previously-uploaded data as well as the created notations may be used by doctors and clinicians in attempting to diagnosis patients. That is, these techniques allow previously-acquired knowledge to be widely shared for the future benefit in attempting to detect genetic syndromes. | 05-06-2010 |
20100248983 | METHOD FOR DIAGNOSING A GENETIC ALTERATION ASSOCIATED WITH A CHROMOSOMAL LOCUS - Methods and apparatuses for selecting and arranging clinically relevant chromosomal loci allow an exemplary diagnostic array to simultaneously test for numerous genetic alterations that occur in many different parts of the human genome. Clinically irrelevant or ineffective loci are eliminated. One implementation increases reliability and accuracy by dividing the base-pair sequence of each chromosomal locus into segments and then assigning nucleic acid clones for comparative genomic hybridization to each different segment. The segments may overlap for increased resolution and control. Clones representing segments that are adjacent on a native chromosome are placed in non-adjacent target areas of the array to avoid interfering hybridization reactions. Arrangement motifs within an array may be redundantly repeated for high availability and increased reliability and accuracy of results. Techniques, hardware, software, logic engines, loci collections, and diagnostic arrays are described. | 09-30-2010 |
20100248984 | METHOD FOR PRECISE GENETIC TESTING BY GENOMIC HYBRIDIZATION - Methods and apparatuses for selecting and arranging clinically relevant chromosomal loci allow an exemplary diagnostic array to simultaneously test for numerous genetic alterations that occur in many different parts of the human genome. Clinically irrelevant or ineffective loci are eliminated. One implementation increases reliability and accuracy by dividing the base-pair sequence of each chromosomal locus into segments and then assigning nucleic acid clones for comparative genomic hybridization to each different segment. The segments may overlap for increased resolution and control. Clones representing segments that are adjacent on a native chromosome are placed in non-adjacent target areas of the array to avoid interfering hybridization reactions. Arrangement motifs within an array may be redundantly repeated for high availability and increased reliability and accuracy of results. Techniques, hardware, software, logic engines, loci collections, and diagnostic arrays are described. | 09-30-2010 |
20100248985 | METHOD FOR PRECISE GENETIC DIAGNOSIS - Methods and apparatuses for selecting and arranging clinically relevant chromosomal loci allow an exemplary diagnostic array to simultaneously test for numerous genetic alterations that occur in many different parts of the human genome. Clinically irrelevant or ineffective loci are eliminated. One implementation increases reliability and accuracy by dividing the base-pair sequence of each chromosomal locus into segments and then assigning nucleic acid clones for comparative genomic hybridization to each different segment. The segments may overlap for increased resolution and control. Clones representing segments that are adjacent on a native chromosome are placed in non-adjacent target areas of the array to avoid interfering hybridization reactions. Arrangement motifs within an array may be redundantly repeated for high availability and increased reliability and accuracy of results. Techniques, hardware, software, logic engines, loci collections, and diagnostic arrays are described. | 09-30-2010 |
20100248992 | METHOD FOR CONSTRUCTING A GENOMIC HYBRIDIZATION ARRAY FOR PRECISION GENETIC DIAGNOSIS - Methods and apparatuses for selecting and arranging clinically relevant chromosomal loci allow an exemplary diagnostic array to simultaneously test for numerous genetic alterations that occur in many different parts of the human genome. Clinically irrelevant or ineffective loci are eliminated. One implementation increases reliability and accuracy by dividing the base-pair sequence of each chromosomal locus into segments and then assigning nucleic acid clones for comparative genomic hybridization to each different segment. The segments may overlap for increased resolution and control. Clones representing segments that are adjacent on a native chromosome are placed in non-adjacent target areas of the array to avoid interfering hybridization reactions. Arrangement motifs within an array may be redundantly repeated for high availability and increased reliability and accuracy of results. Techniques, hardware, software, logic engines, loci collections, and diagnostic arrays are described. | 09-30-2010 |
20100281401 | Interactive Genome Browser - Disclosed is an interactive genome browser executing within a web browser application, configured to display patient genetic data and additional genetic data tracks which are aligned by base pair. Additional tracks may include public data, community data, private data, sequence gaps, and additional genetic tests or probes which are available. Tests or probes may be ordered by selecting them from a test or probe track. Data in a genetic information database may also be searched using the interactive genome browser. Analyzed patient data may be published and made available to a community of users, which may communicate with one another. | 11-04-2010 |
20100286994 | Interactive Genome Browser - Disclosed is an interactive genome browser executing within a web browser application, configured to display patient genetic data and additional genetic data tracks which are aligned by base pair. Additional tracks may include public data, community data, private data, sequence gaps, and additional genetic tests or probes which are available. Tests or probes may be ordered by selecting them from a test or probe track. Data in a genetic information database may also be searched using the interactive genome browser. Analyzed patient data may be published and made available to a community of users, which may communicate with one another. | 11-11-2010 |