Building a Quantum Computer: From Theory to Reality
Find out how to build a quantum computer and understand the vital technical challenges faced in quantum computing today.
Building a Quantum Computer: From Theory to Reality Read Article »
Open Med | Features highlights key articles from the Open Med | Blog alongside essential resources from across the platform. Acting as a central hub for the site’s most relevant and engaging material, it brings together research-led writing and curated content with the impact of a promotional showcase—helping readers discover standout blog articles, reports, thematic pages, and supporting tools with ease.
Each article featured in this section is accompanied by a dedicated video, offering an additional layer of insight and accessibility. These videos complement the written content by summarising key ideas, demonstrating practical applications, or providing expert commentary—extending the reach of each feature to a broader audience.
Reflecting the full scope of Open MedScience, this section covers a wide range of fields including Artificial Intelligence, Cyber Security, Dentistry, Education, Health and Wellbeing, Human Anatomy, Medical Devices, Medical Imaging, Medical Physics, Medicine, Nuclear Medicine Imaging, Nutraceuticals, Optical Imaging, Radiation Therapy, Radiolabelling, Radiology, Radiopharmaceuticals, Radiopharmacy, Radiotheranostics, Radiotherapeutics, Regulatory Affairs, Medical Robotics, and Sustainability. Through this wide lens, Open Med | Features offers a panoramic view of innovation, challenges, and progress in today’s medical sciences.
Each feature presents complex topics clearly, accurately, and with engaging context—often examining how scientific research is translated into practical applications. General subjects include AI-assisted diagnostics, robotic surgical systems, novel radiopharmaceutical developments, sustainable approaches to healthcare, and models for more patient-focused treatment delivery.
In addition to showcasing advances in science and technology, the section also explores the ethical, regulatory, and policy considerations that shape medical progress. Most features include links to related blog articles, research digests, and policy briefs, allowing readers to investigate subjects further within the Open MedScience platform.
By combining editorial quality with strategic visibility and multimedia support, Open Med | Features serves both as a trusted source of information and a portal to the broader Open MedScience network. Each feature article connects readers to a wider network of related resources and encourages deeper engagement.
Whether you’re interested in topics such as medical robotics, radiolabelling, imaging advances, public health strategy, or sustainable innovation in healthcare, Open Med | Features provides a reliable and accessible starting point for exploring the extensive content available across the platform.
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Find out how to build a quantum computer and understand the vital technical challenges faced in quantum computing today.
Building a Quantum Computer: From Theory to Reality Read Article »
Discover the significance of carbon-14 dating in scientific research and its revolutionary applications across various fields.
Carbon-14: The Isotope That Rewrote History and Redefined Science Read Article »
X-ray images provide crucial insights, enabling efficient and accurate diagnosis of fractures, infections, and other medical conditions.
An Introduction on How to Read X-Ray Images Read Article »
AI in Healthcare revolutionises patient care, streamlines operations, reduces emissions, and promotes sustainability for a healthier future.
AI-Driven Healthcare: Transforming Sustainability, Boosting Efficiency, Saving Lives Read Article »
Surviving a nuclear war requires preparation, quick action, resource management, and resilience to endure its aftermath challenges.
Surviving a Nuclear War: A Guide to Preparedness and Survival Read Article »
The structure of the atom, with its electrons, protons, and neutrons, determines the fundamental properties of matter.
Structure of the Atom: From Ancient Theories to Quantum Discoveries Read Article »
The Liquid Drop Model revolutionised nuclear physics by providing a framework for understanding atomic nuclei’s collective behaviour.
The Liquid Drop Model: A Cornerstone Of Nuclear Physics Read Article »
Alpha particles provide precise cancer treatment by delivering high-energy radiation, targeting tumour cells while sparing healthy tissue.
The Role of Alpha Particles in Radiotheranostics Read Article »
PET scans are crucial for detecting metabolic activity, providing valuable insights into cancer, neurological disorders, and cardiovascular diseases.
How to Read a PET Scan: A Basic Understanding Read Article »
Nuclear chemistry provides critical insights into energy production, medical advancements, and environmental protection, shaping a sustainable future.
Exploring Nuclear Chemistry: Innovations, Applications, and Future Prospects Read Article »
Gamma radiation is essential for medical imaging, cancer treatment, industrial testing, yet requires stringent safety measures due to risks
Gamma Radiation: Its Discovery, Applications, and Safety Considerations Read Article »
Alpha particles, with high ionising power and low penetration, significantly impact biological tissues when internalised in the body.
Alpha Particles: Their Properties, Sources, Interactions, and Applications Read Article »
Nuclear medicine has transformed healthcare over a century, innovating in diagnostics and treatments significantly.
History of Nuclear Medicine: A Century of Innovation and Impact Read Article »
X-rays, discovered in 1895 by Wilhelm Roentgen, revolutionised medical diagnostics and profoundly influenced science and technology.
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 »
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 »
Dosimetry measures radiation dose, ensuring safety in radiological protection, nuclear medicine, and occupational environments through calculations.
Dosimetry: Calculating Radiation Dose for Medical Applications 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 »