Big Data in Medical Imaging: Pioneering Enhanced Patient Care and Diagnostic Precision
Big data in medical imaging enhances diagnostics, personalise treatments, and propels research through data analysis.
Big data in medical imaging enhances diagnostics, personalise treatments, and propels research through data analysis.
Alzheimer’s disease stems from genetic mutations and lifestyle factors, leading to brain plaque accumulation and dementia.
Point of Care imaging’s evolution, marked by miniaturisation, has revolutionised bedside diagnostics and patient care delivery.
Point-of-Care Diagnostics Accelerate Treatment in Emergencies and Beyond Read Article »
Cyclotrons advance nuclear medicine by efficiently producing key radionuclides for diagnostics and treatment within hospital settings.
The Pivotal Role of Cyclotrons in Radionuclide Production Read Article »
Quantum computing enhances medical imaging with superior speed, precision, and personalized diagnostic capabilities, heralding a new healthcare epoch.
From Theory to Therapy: Quantum Computing Transforms Medical Diagnostics Read Article »
Quantum dots are nanoscale semiconductors, displaying quantum mechanical properties, unique optical, electrical behaviors, enabling advancements in electronics, photovoltaics, imaging.
Nobel Prize Quantum Dots and their Applications in Medical Imaging Read Article »
3D medical imaging transforms diagnostics and treatment, enhancing precision, patient education, and enabling AI-driven analysis and immersive experiences.
A Dive into the World of 3D Medical Imaging Read Article »
Da Vinci technology transform medical imaging with robotics, AI, and advanced equipment, significantly enhancing diagnosis and treatment across specialties.
The Da Vinci Technology: Pioneering a New Era in Medical Imaging and Patient Care Read Article »
Medical imaging of the human skeleton enables accurate diagnosis, treatment, and monitoring of diverse bone and joint conditions.
Medical Imaging of the Human Skeleton Read Article »
Advanced medical imaging technologies transformed liver disease detection, diagnosis and management, enhancing diagnostic accuracy and personalized treatments.
Medical Imaging of the Liver: Techniques and Applications Read Article »
The increasing connectivity of medical devices highlights the need for robust cyber security measures.
Digital Defenses in Radiology: Cyber Security in Medical Imaging Systems Read Article »
SPECT imaging provides valuable functional information, aiding clinicians in diagnosing, planning treatments, and monitoring progress.
SPECT Imaging Technology: From Single Photon Emission Tomography to Hybrids Read Article »
As the world becomes increasingly connected, cyber threats have become a critical concern for every industry, including healthcare.
Why Cybersecurity is Non-Negotiable for Medical Devices in 2023 Read Article »
Theranostics is a cutting-edge approach that integrates diagnosis and therapy, enabling personalised and precise disease management.
Personalised Theranostics for Cancer: A New Era in Precision Medicine Read Article »
Visual Evoked Potentials are brain responses to visual stimuli, used for diagnosis and research. Image for illustration only. People depicted are models.
Visual Evoked Potentials and Their Clinical Applications Read Article »
Heart imaging provides non-invasive ways to diagnose, treat, and monitor heart disease for better outcomes. Image for illustration only. People depicted are models.
Medical Imaging of the Heart: From Diagnosis to Treatment Read Article »
Medical imaging has evolved over centuries, starting with X-rays in 1895, progressing to CT, MRI, and PET scans.
Revolutionising Healthcare: A Historical Perspective on Medical Imaging Read Article »
AI can revolutionise medical imaging by improving accuracy, speed, and clinical decision-making, leading to better patient outcomes.
Revolutionising Medical Imaging with AI and Big Data Analytics Read Article »
Robots are used in medical imaging and surgery to enhance precision, reduce risk, and improve patient outcomes.
The Future of Robotic Technology in Medical Imaging Read Article »
Proton therapy is a type of radiation therapy that uses protons to treat cancer by targeting tumors with high precision.
Breaking New Ground: Proton Therapy and the Future of Cancer Care Read Article »
Bone imaging is an essential diagnostic tool for detecting bone diseases, injuries, and disorders.
Nuclear Medicine Techniques for Bone Imaging and Cancer Diagnosis Read Article »
Picture Archiving and Communication Systems (PACS) streamline medical imaging storage, sharing, and access, enhancing patient care.
Security and Privacy Considerations in Picture Archiving and Communication Systems Read Article »
Anaesthesia and antiseptics transformed surgery in the 19th century. Scientific advancements, war, and innovation led to modern techniques. Image for illustration only. Person depicted is a model.
Surgical Innovation In The 19th Century: Anaesthesia, Antiseptics, And More Read Article »
Radiotherapy machines are advanced tools that deliver high-energy radiation to treat cancer. From linear accelerators to cyberKnife and tomotherapy.
A Closer Look At Radiotherapy: A Powerful Tool Against Cancer Read Article »
Modern anatomy has evolved rapidly through today’s technology, and human anatomical structures are more understood since the publication of Frankenstein.
Frankenstein to Modern Anatomy of the Human Body Read Article »
The healthcare sector is transforming through the convergence of technology, digitalisation, and 3-D modelling.
Insights of Big Data and Artificial Intelligence Read Article »
Big Data will be the foundation for personalised healthcare, especially the application of algorithmic tools capable of converting raw data to large datasets.
From Pixels to Patterns: Big Data and AI Transforming Medical Imaging Read Article »
The new technologies emerging in the clinical setting include fractional flow reserve (FFR)-CT, CT perfusion imaging and coronary plaque assessment. Image for illustration only. Person depicted is a model.
Unravelling the Potential of FFR-CT: A New Frontier in Cardiovascular Imaging Read Article »
CTCA imaging has revolutionised how physicians detect coronary artery disease due to its exceptional sensitivity.
Diagnostic Accuracy of Computed Tomography Coronary Angiogram in Heart Disease Read Article »
Modern medical lasers are used in various clinical applications, including cancer therapy and ophthalmology.
From Theory to Reality: The Development of the First Lasers Read Article »
The structures of a virus can be elucidated by using the high resolving power of scanning electron microscopy.
Electron Microscopy: What Does Coronavirus Look Like? Read Article »