摘要:
The present invention relates to the identification and use of gene expression profiles with clinical relevance to prostate cancer. In particular, the invention provides the identity of genes whose expression, at the transcriptional and protein levels, is correlated with prostate cancer progression. Methods and kits are described for using these gene expression profiles in the study and/or diagnosis of prostate cancer diseases, in the prediction of prostate cancer progression, and in the selection and/or monitoring of treatment regimens. The invention also relates to the screening of drugs that target these genes or their protein products, in particular for the development of therapeutics for modulating prostate cancer progression.
摘要:
Described are methods for identifying single nucleotide polymorphism (SNPs) that are useful for analyzing genetic samples, and for using said SNPs to determine genetic identity of samples.
摘要:
The present invention relates to the identification and use of gene expression profiles with clinical relevance to prostate cancer. In particular, the invention provides the identity of genes whose expression, at the transcriptional and protein levels, is correlated with prostate cancer progression. Methods and kits are described for using these gene expression profiles in the study and/or diagnosis of prostate cancer diseases, in the prediction of prostate cancer progression, and in the selection and/or monitoring of treatment regimens. The invention also relates to the screening of drugs that target these genes or their protein products, in particular for the development of therapeutics for modulating prostate cancer progression.
摘要:
In general, the presently disclosed technology relates to identification of cancer subtypes. More specifically, the technology relates to methods for determining molecular drivers of cancer and/or progression using a multivariate image data and statistical analysis of in-situ molecular markers and morphological characteristics in the same cells of a biological sample suspected of b cancer. This analysis takes place after a single acquisition that obtains the molecular and anatomic morphology data in parallel. The analysis compares specific morphological and molecular markers to known samples exhibiting particular genetic drivers of the cancer. This method provides statistical information that allows for an increased confidence in the identification of specific molecular drivers of the cancer.
摘要:
In general, the presently disclosed technology relates to identification of cancer subtypes. More specifically, the technology relates to methods for determining molecular drivers of cancer and/or progression using a multivariate image data and statistical analysis of in-situ molecular markers and morphological characteristics in the same cells of a biological sample suspected of b cancer. This analysis takes place after a single acquisition that obtains the molecular and anatomic morphology data in parallel. The analysis compares specific morphological and molecular markers to known samples exhibiting particular genetic drivers of the cancer. This method provides statistical information that allows for an increased confidence in the identification of specific molecular drivers of the cancer.
摘要:
In general, the presently disclosed technology relates to identification of cancer subtypes. More specifically, the technology relates to methods for determining molecular drivers of cancer and/or progression using a multivariate image data and statistical analysis of in-situ molecular markers and morphological characteristics in the same cells of a biological sample suspected of b cancer. This analysis takes place after a single acquisition that obtains the molecular and anatomic morphology data in parallel. The analysis compares specific morphological and molecular markers to known samples exhibiting particular genetic drivers of the cancer. This method provides statistical information that allows for an increased confidence in the identification of specific molecular drivers of the cancer.
摘要:
A thermophotovoltaic converter of the type comprising a concentrating optical system and a transducer for solar radiation provided with at least one lens and with at least one photovoltaic cell is described.The principal feature of this converter is that the aforementioned transducer comprises at least a radiator having an irradiating surface substantially facing the sensitive surface of the photovoltaic cell and a selective filter disposed between the photovoltaic cell and the aforementioned radiator.
摘要:
A solar energy absorber comprises a thermally-insulated duct housing a plurality of longitudinally-extending absorbing plates and having a slit located at the focal axis of an elongate, optical focusing system. The plates are parallel to the plane of symmetry of the optical system and are spaced apart such that focused energy incident through the slit falls upon an entire surface of each plate, any reflected energy being returned to the plates by a plane mirror located on the opposite side of the plates from the slit and by internal reflecting surfaces of the duct such that substantially all the energy is absorbed: this energy is given up to an air flow through the duct, in use.
摘要:
The present invention relates to the identification and use of gene expression profiles with clinical relevance to prostate cancer. In particular, the invention provides the identity of genes whose expression, at the transcriptional and protein levels, is correlated with prostate cancer progression. Methods and kits are described for using these gene expression profiles in the study and/or diagnosis of prostate cancer diseases, in the prediction of prostate cancer progression, and in the selection and/or monitoring of treatment regimens. The invention also relates to the screening of drugs that target these genes or their protein products, in particular for the development of therapeutics for modulating prostate cancer progression.