In recent years, radiomics, defined as the extraction of large amounts of quantitative features from medical images, has gained emerging interest. Radiomics consists of the extraction of handcrafted features combined with sophisticated statistical methods or machine learning algorithms for modelling, or deep learning algorithms that both learn features from raw data and perform modelling. These features have the potential to serve as non-invasive biomarkers for tumor characterization, prognostic stratification and response prediction. thereby contributing to precision medicine. However, especially in nuclear medicine, variable results are obtained when using radiomics for these purposes. Individual studies show promising results, but due to...
Radiomics - the high-throughput computation of quantitative image features extracted from medical im...
Historically, medical imaging has been a qualitative or semi-quantitative modality. It is difficult ...
Cancer treatment is heading towards precision medicine driven by genetic and biochemical markers. Va...
In recent years, radiomics, defined as the extraction of large amounts of quantitative features from...
Background and Objective: Specific treatment for each patient based on their clinical data is one of...
Radiomics is a new frontier of medicine based on the extraction of quantitative data from radiologic...
In recent years, processing of the imaging signal derived from CT, MR or positron emission has prove...
Over the past years, the quantity and complexity of imaging data available for the clinical manageme...
The development of clinical trials has led to substantial improvements in the prevention and treatme...
The advancement of artificial intelligence concurrent with the development of medical imaging techni...
Radiomics is the quantitative analysis of standard-of-care medical imaging; the information obtained...
With the ongoing advances in imaging techniques, increasing volumes of anatomical and functional dat...
Cancer is a fatal disease and the second most cause of death worldwide. Treatment of cancer is a com...
The growing complexity and volume of clinical data and the associated decision-making processes in o...
Radiomics - the high-throughput computation of quantitative image features extracted from medical im...
Historically, medical imaging has been a qualitative or semi-quantitative modality. It is difficult ...
Cancer treatment is heading towards precision medicine driven by genetic and biochemical markers. Va...
In recent years, radiomics, defined as the extraction of large amounts of quantitative features from...
Background and Objective: Specific treatment for each patient based on their clinical data is one of...
Radiomics is a new frontier of medicine based on the extraction of quantitative data from radiologic...
In recent years, processing of the imaging signal derived from CT, MR or positron emission has prove...
Over the past years, the quantity and complexity of imaging data available for the clinical manageme...
The development of clinical trials has led to substantial improvements in the prevention and treatme...
The advancement of artificial intelligence concurrent with the development of medical imaging techni...
Radiomics is the quantitative analysis of standard-of-care medical imaging; the information obtained...
With the ongoing advances in imaging techniques, increasing volumes of anatomical and functional dat...
Cancer is a fatal disease and the second most cause of death worldwide. Treatment of cancer is a com...
The growing complexity and volume of clinical data and the associated decision-making processes in o...
Radiomics - the high-throughput computation of quantitative image features extracted from medical im...
Historically, medical imaging has been a qualitative or semi-quantitative modality. It is difficult ...
Cancer treatment is heading towards precision medicine driven by genetic and biochemical markers. Va...