Findings demonstrate the potential of T2-weighted MRI in dual imaging and radiotherapy systems that aim to image and treat tumors simultaneously.
This world-first-treatment could potentially offer hope to lung cancer patients with previously untreatable lung tumors.
A novel imaging technology to grade tumor biopsies has been developed by a team of scientists, eradicating human subjectivity and ensuring patients get the correct treatment.
Researchers have successfully utilized a novel metal detection technique for mapping and tracking breakaway cancerous cells.
Would you like to find out the key facts about non-small-cell lung cancer? We have…
Prostate cancer screening and detection remain challenging issues, with changes in recommendations for prostate-specific antigen testing causing a significant change in approach. In this editorial discover the multiple roles and applications of prostate MRI.
Magnetic nanoparticles for precision oncology: theranostic magnetic iron oxide nanoparticles for image-guided and targeted cancer therapy
In this review, the authors provide an overview of the physicochemical properties, toxicity and theranostic applications of MNPs with a focus on magnetic iron oxide nanoparticles.
Listen to our interview to find out about the importance of knowledge based oncology and integrating radiotherapy with other treatment modalities such as surgery.
In this review, the authors explore the potential of PWS microscopy as a nanoscale-sensitive technique for an efficient, low cost and nanoscale-sensitive cancer screening assay.
This review discusses the key sequences that comprise a mpMRI exam of the prostate gland including technical factors that affect image quality, such as pre-exam patient preparation, magnet field strength, endorectal coil utilization and sequence parameters.