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@vphsociety has been a member of Linktree for 3 years and joined in May 2023. The social media accounts linked to from @vphsociety are: • Instagram • YouTube • LinkedIn • X Besides social media accounts, vphsociety has populated their site with: • Student Awards | VPH2026 • VPH Best Thesis Award 2026 • The In Silico World Project • VPH 2026 | Registration open! • VPHi Webinar "Characterizing patient-specific corneal biomechanics: high fidelity modeling and artificial intelligence techniques"" • Webinar | Challenges and opportunities for in silico spine biomechanics in clinical and surgical practice • Get a Travel Voucher for the VPHi Summer School in Barcelona! • LinkedIn • Podcast The Digital Twin Theory | Latest Episode • "In the spotlight" articles • Instagram • VPH latest interview: Bernard Staumont • Speeding up Duchenne Muscular Dystrophy therapies with a model-based clinical trial simulator • A New Era in Dementia Diagnosis: AI, Brain Scans, and the Fight Against Alzheimer’s • Code & Cure: Understanding In Silico Medicine • From ancient Egypt to AI: the diabetes journey • The In Silico Medicine Info Kit • What about a PhD in BMX? Interview with Domitille Princelle • Joy and pain of spine modelling- Interview with Samuele Gould • Website • A work of heart- An interview with Anna Ramella • VPH for Students • Slack channel for Students • AI tool predicts cancer gene activity from biopsy images • Computational Tool Developed to Predict Immunotherapy Outcomes for Patients with Metastatic Breast Cancer • European Virtual Human Twin – EDITH • Doctors are already using AI in care – but we don’t actually know what safe use should look like • x.com • Facebook • Survey: Computer modelling & simulations in clinical practice • 2024 Annual Report • Protecting privacy in the age of data. An interview with Elisabetta Biasin • Advancing Orphan Disease Treatment: The Promise of In Silico Clinical Trials • New computational pipeline revolutionizes personalized cancer vaccine design • Council Post: AI Can Give Pharma More Shots On Goal, But Robust Data And Validation Are Key To Drug Approvals • Computer simulation mimics how the brain grows neurons, paving the way for future disease treatments • VPHi executive committee: call for nominations now open! • Join the new VPHi Young Scientists Committee! • 2025 VPHi Best Thesis Award: apply by Nov 15! • Exploring the world of in silico trials. An interview with Francesco Pappalardo • Nobel Prize in Chemistry Goes to 3 Scientists for Predicting and Creating Proteins • How Can AI Help Discover ‘New’ Drugs Against COVID-19 In Brazil? • How digital twins could save time, money, and lives in developing prescription drugs • Computational method sheds light on how AI helps doctors decipher medical images • Digital twins are fast becoming part of everyday life • AI unlocks new path to personalized cancer treatments • #VPH2024 Conference • The Role of Clinical Decision Support Systems in Modern Healthcare • Revolutionising Liver Surgery: How Digital Twins Can Reduce Postoperative Risks • New AI tool finds rare variants linked to heart disease in 17 genes • AI model Virchow outperforms clinical methods in cancer detection • Can a computer tell patients how their multiple sclerosis will progress? • How computational models helped saving a clinical trial during the COVID pandemic • Modelling Medicine- How models work: an interview with Himanshu Kaul • New drugs show promise in shrinking breast cancer brain metastases • Three AI Technologies Poised to Transform IBD Care • From Lab to Real Life: Innovative Approaches to Precision Medicine | University of Virginia School of Engineering and Applied Science • AI and computer simulations help exoskeletons take the strain - The Engineer • A predictive model for cross-border COVID spread • In Pulmonary Hypertension, Digital Twins Could Speed Personalization • How digital twins will support the radiologist of the future • Imperial College London explores use of digital twin heart models • Researchers create 'digital babies' to improve infant health care • In silico trial predicts phase 3 clinical trial result • Study opens the door to designing therapies to improve lung development in growth-restricted fetuses • Conquering breast cancer using supercomputers, data, and mathematical modeling • What Computer Vision Models Reveal About Human Brains • The Current and Inevitable Expansion of AI in Oncology • Quantum Computer-Powered Pangenome Research Could Lead to Personalized Medicine, Disease Outbreak Tracking • AI Might Spot Rare Diseases in Patients Years Earlier • Machine learning tool identifies rare, undiagnosed immune disorders through patients' electronic health records • In Vivo, In Vitro, In Silico: Clinical and Pharmaceutical Trials Through Digital Simulation - DirectIndustry e-Magazine • Hong Kong designs computational model to facilitate improvement of influenza vaccines’ protective effects • AI platform will design precision therapies for Parkinson's neurological therapies • Can Artificial Intelligence Predict Treatment Response and Outcomes in Breast Cancer? • Living Heart Project Meets HPC - Digital Engineering • A new era for tuberculosis vaccines is coming • AI tool to help straighten teeth - Juta MedicalBrief • Advancing computational pathology with UNI and CONCH foundation models • Ebola: scientists reveal a new way it replicates • Tel Aviv University and Tel Aviv Sourasky Medical Center launch Alrov Center for Digital Medicine • SLIDE: Machine Learning Technique Can Infer Hidden States Underlying/Driving Disease Processes • Revolutionizing prostate cancer diagnostics with 3D pathology and deep learning • Surgery meets the metaverse • FuncOmap: The Future of Personalized Cancer Treatment Powered by AI • BSC-Led Team Innovates AI Tech for Rare Disease Treatment • Innovative computer model of the lung enables detailed simulation of radiation effects • What is Virtual Reality and its Healthcare Use Cases? • UK’s adsilico raises $4.4m to develop virtual trial solution • AI-powered surgical training program provides real-time feedback and instruction • From aerospace engineering to our hearts • AI-Aided Spatial Mapping Tool Sniffs Out Aggressive Cancers • Faster, More Accurate Blood Flow Simulation to Revolutionize Treatment of Vascular Diseases • Sanofi CEO: AI promises a great era of drug discovery that could fundamentally change medicine–but only if we allow it to deliver on its promise • Taiwan Study Reveals Potential of Virtual Reality in Medical Education • AI, Dogma, and Drug Development • How Mass General Brigham is using augmented reality to train its nurses • Machine learning approach allows for tumour classification during neurosurgery • A Groundbreaking Tool for Multiple Sclerosis Analysis: A Closer Look at its Potential and Implications • The Shift Towards Novel Alternative Methods in Biomedical Research: NIH Prioritizes Investment • ‘One part of the solution’: how virtual NHS wards are now a reality • How Quantum Generative Adversarial Networks are Beneficial for Generative Chemistry • India's growing focus on AI for precision medicine • AI: Hype or High Performance? • Virtual Reality in Healthcare- A success story • How generative AI could change healthcare | TechTarget • "Seismonauts" Stretch Frontiers of Immunology with ML and $121 Million • Cancer Drug Discovery May Accelerate as Many Overlooked Targets Prioritized • UCLA researchers receive $3 million to develop AI for aggressive prostate cancer detection • Medical students propose that curricula should be AI-focused • Researchers Unveil Individual Risk Prediction Model for Multiple Myeloma