![]() We are a long way off from having a full digital patient. As one surgeon said, “I see the digital patient as an opportunity to bring together all the information on a particular patient.” This could support diagnosis and treatment planning, and better targeted therapy delivery, or lifestyle interventions. The ultimate vision is to have a lifelong, personalized model of a patient that is updated with each measurement, scan or exam, and that includes behavioral and genetic data as well. The basic idea of such a “digital patient” is the same: if you integrate different measurements of a person over time, you can build a digital model of a body part such as an organ, and eventually an integrated model of their anatomy and physiology, so you can better understand how these function. If a digital twin of an MRI scanner can help you predict when a physical part needs replacement, and guide repair, could we apply the same concept to discover and treat ailments in the human body before they become apparent? So what about the following, fascinating, question: As outlined in my previous post, we have already taken the first exciting steps in this direction. Digital twins will enable us to analyze systems remotely in real time, prevent problems before they occur, and test new products in virtual environments before building them. ![]() Rather, it is bridging the physical world of people and objects with the virtual world of digital information.Ī prime example of this are ‘digital twins’: virtual models of systems that are updated dynamically by being connected to their physical counterparts, using a diverse set of sensors. This module was designed for anatomists, radiologists, cardiologists, cardiac surgeons, medical students and residents.Perhaps the most exciting part of the digitalization of healthcare is not digitalization per se. On the bottom of this module, small images appears as an interactive menu allowing the user fast access to the different anatomic views. Left atrioventricular valve Mitral valve, Aortic valve, Right atrioventricular valve Tricuspid valve, Pulmonary valveĬonducting system of heart : Sinuatrial node, Atrioventricular node, Atrioventricular bundle Mediastium vessels such as aorta, pulmonary arteries and veins, superior vena cava.Valves : aortic, mitral tricuspid and pulmonary valves.On "Anatomical parts" on the menu bar the user can choose the groups of anatomical labels that: Pericardium : Pericardial cavity, Transverse pericardial sinus, Oblique pericardial sinus The test mode allows instant evaluation of user progress.Ītlas of human anatomy: Left ventricle, Left atrium, Anterior papillary muscle Images are labelled, providing an invaluable medical and anatomical tool. This tool provides access to several medical illustrations, allowing the user to interactively discover heart anatomy. The user will also find at least some cadaver photographs.Īnatomical structures were labelled according to the actual Terminologia Anatomica.Īnatomy of the human heart and coronaries: how to visualize anatomic structures Heart - Photos : Diaphragmatic surface Inferior surface, General Anatomy Others are based on an adapted 3D model (texturing and modelling) to the study of anatomy. Heart - Human anatomy : Cross sections (Right/left ventricle, Right/left atrium, Interventricular septum Some illustrations have been drawn and coloured with Adobe Photoshop. Illustrated anatomy of the heart: illustrations and photography The user can show or hide the anatomical labels which provide a useful tool to create illustrations perfectly adapted for teaching.Īnatomy of the heart: anatomical illustrations and structures, 3D model and photographs of dissection This interactive atlas of human heart anatomy is based on medical illustrations and cadaver photography. ![]()
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