Abstract: The invention provides methods for identifying early stage non-small cell lung cancer (NSCLC) patients who will have a favorable prognosis for the recurrence of lung cancer after surgical resection. The invention is based on the discovery that assessment of chromosomal copy number abnormalities at two or more of chromosome 5p15, 7p12, 8q24 and centromere 6 can be used for prognostic classification. The invention preferably uses fluorescence in situ hybridization with fluorescently labeled nucleic acid probes to hybridize to patient samples to quantify the chromosomal copy number of the these genetic loci.

Abstract: The invention provides methods for identifying early stage non-small cell lung cancer (NSCLC) patients who will have a favorable prognosis for the recurrence of lung cancer after surgical resection. The invention is based on the discovery that assessment of chromosomal copy number abnormalities at two or more of chromosome 5p15, 7p12, 8q24 and centromere 6 can be used for prognostic classification. The invention preferably uses fluorescence in situ hybridization with fluorescently labeled nucleic acid probes to hybridize to patient samples to quantify the chromosomal copy number of the these genetic loci.

Abstract: Gene copy numbers of signaling components downstream of EGFR identify non-small cell lung cancer (NSCLC) patients with poor outcomes on 2nd/3rd line gefitinib therapy.

Abstract: The invention provides methods for identifying early stage non-small cell lung cancer (NSCLC) patients who will have a favorable prognosis for the recurrence of lung cancer after surgical resection. The invention is based on the discovery that assessment of chromosomal copy number abnormalities at two or more of chromosome 5p15, 7p12, 8q24 and centromere 6 can be used for prognostic classification. The invention preferably uses fluorescence in situ hybridization with fluorescently labeled nucleic acid probes to hybridize to patient samples to quantify the chromosomal copy number of the these genetic loci.

Abstract: The invention provides methods for identifying early stage non-small cell lung cancer (NSCLC) patients who will have a favorable prognosis for the recurrence of lung cancer after surgical resection. The invention is based on the discovery that assessment of chromosomal copy number abnormalities at two or more of chromosome 5p15, 7p12, 8q24 and centromere 6 can be used for prognostic classification. The invention preferably uses fluorescence in situ hybridization with fluorescently labeled nucleic acid probes to hybridize to patient samples to quantify the chromosomal copy number of the these genetic loci.

Abstract: The invention provides methods for identifying early stage non-small cell lung cancer (NSCLC) patients who will have a favorable prognosis for the recurrence of lung cancer after surgical resection. The invention is based on the discovery that assessment of chromosomal copy number abnormalities at chromosome 10q23.3 and centromere 10 can be used for prognostic classification. The invention preferably uses fluorescence in situ hybridization with fluorescently labeled nucleic acid probes to hybridize to patient samples to quantify the chromosomal copy number of the these genetic loci. The chromosome copy number can also be determined using, for example, PCR or array CGH. Assessment of the copy number abnormality patterns with a classifier based on the relative loss of 10q23.3 signals compared to the centromere 10 signals produced statistically significant prognostic classification for NSCLC. The ratio of PTEN/CEP 10 signals, using a cutoff of 0.80, was capable of dividing patients into a group of 41 (?0.

Abstract: Gene copy numbers of signaling components downstream of EGFR identify non-small cell lung cancer (NSCLC) patients with poor outcomes on 2nd/3rd line gefitinib therapy.

Abstract: The invention provides methods for identifying early stage non-small cell lung cancer (NSCLC) patients who will have a favorable prognosis for the recurrence of lung cancer after surgical resection. The invention is based on the discovery that assessment of chromosomal copy number abnormalities at chromosome 10q23.3 and centromere 10 can be used for prognostic classification. The invention preferably uses fluorescence in situ hybridization with fluorescently labeled nucleic acid probes to hybridize to patient samples to quantify the chromosomal copy number of the these genetic loci. The chromosome copy number can also be determined using, for example, PCR or array CGH. Assessment of the copy number abnormality patterns with a classifier based on the relative loss of 10q23.3 signals compared to the centromere 10 signals produced statistically significant prognostic classification for NSCLC. The ratio of PTEN/CEP 10 signals, using a cutoff of 0.80, was capable of dividing patients into a group of 41 (?0.

Abstract: The invention provides methods for identifying early stage non-small cell lung cancer (NSCLC) patients who will have a favorable prognosis for the recurrence of lung cancer after surgical resection. The invention is based on the discovery that assessment of chromosomal copy number abnormalities at two or more of chromosome 5p15, 7p12, 8q24 and centromere 6 can be used for prognostic classification. The invention preferably uses fluorescence in situ hybridization with fluorescently labeled nucleic acid probes to hybridize to patient samples to quantify the chromosomal copy number of the these genetic loci.

Abstract: The present invention provides methods for identifying cancer patients susceptible to effective treatment with inhibitors of the tyrosine kinase activity of EGFR. The invention is based on the discovery that polysomy of chromosome 7 can be used to selectively identify cancer patients that are likely to be successfully treated with EGFR tyrosine kinase inhibitors or agents that otherwise function similarly to tyrosine kinase inhibitors. The invention is based on the use of nucleic acid technology where nucleic acid probes are allowed to hybridize to cell samples and the number of copies of particular genetic regions quantified. The methods for identifying cancer patients of the invention can be enhanced by determination of expression of pAKT protein in patient samples. The invention also contemplates the treatment of those patients with tyrosine kinase inhibitors.

Abstract: The present invention provides methods for identifying cancer patients susceptible to effective treatment with trastuzumab and other medications that function similarly to trastuzumab. The invention is based on the discovery that certain chromosomal abnormalities can be used to selectively identify cancer patients that are likely to be successfully treated with medication that inhibits the signaling capability of the HER-2 receptor protein or otherwise function similarly to trastuzumab. The invention is based on the use of nucleic acid technology where nucleic acid probes are allowed to hybridize to cell samples and the number of copies of particular genetic regions quantified. The present invention also provides kits and sets of probes for use in identifying cancer patients susceptible to effective treatment with trastuzumab and other medications that function similarly to trastuzumab.