NON-INVASIVE BIOMARKER DISCOVERY (Theme-1) As mentioned above, the diagnosis of brain tumours is currently based on neuro-imaging and tissue biopsy. Brain biopsy is invasive and is associated with varied risks depending on the size and accessibility of the target. Non-invasive biomarkers could provide a complement and early solution to monitoring brain tumours. This theme aims to discover sensitive and specific brain cancer biomarkers in liquid biopsy as well as radiomics biomarkers.
PRECLINICAL MODELS (Theme-2). Development of more accurate genetically engineered mouse models (GEMMs), and patient-derived orthotopic xenografts models (PDOXs), as well as 3D Systems (neurosphere, organoids and bioprinting) should contribute to a better understanding of brain tumour mechanisms.
NON-INVASIVE BIOMARKER DISCOVERY (Theme-1) As mentioned above, the diagnosis of brain tumours is currently based on neuro-imaging and tissue biopsy. Brain biopsy is invasive and is associated with varied risks depending on the size and accessibility of the target. Non-invasive biomarkers could provide a complement and early solution to monitoring brain tumours. This theme aims to discover sensitive and specific brain cancer biomarkers in liquid biopsy as well as radiomics biomarkers.
MATHEMATICAL & COMPUTATIONAL MODELLING (Theme-4) Although ML/DL approaches such as Support Vector Machine (SVM), Random Forest (RF), as well as DL approaches, e.g. Convolutional Neural Network (CNN) and DeepCC, and subtype classification using a single type of omics or imaging data, have been successfully applied in cancer diagnosis and subtype classification, current existing methods may not be adequate to address the challenge of integrating genotypic data from patients, multi-omics data from drug treatme…
CLINICAL TREATMENT RECOMMENDATIONS (Theme-5) This theme aims to develop new therapeutic approaches in radiotherapy (RT). Novel pathological grading strategies will be exploited by combining radiomics and multimodal -omics techniques for RT. Specifically, to reduce treatment for less-aggressive brain tumours, it is very important to distinguish between low-risk of growth (LRG) and high-risk of growth (HRG) patients. For instance, the “Wait and See” following-up strategy can be directly applied to LRG patients.
The Dissemination and Exploitation Working Group is dedicated to maximizing the impact of our collaborative efforts in addressing the challenges of brain cancer research across Europe. This group recognizes that effective dissemination of research findings and the strategic exploitation of knowledge are paramount for translating scientific discoveries into meaningful clinical outcomes. Through a dynamic and multidimensional approach, the working group aims to develop comprehensive strategies for communicating research outputs to diverse stakeholders, including the scientific community, healthcare practitioners, policymakers, and the general public.