The development of technology is key to the advancement of the medical industry. Technology has become an integral part of medicine as it makes things far more efficient allowing more people to find proper treatment. Now when it comes to the diagnosing and analysis of a medical problem especially one that affects the patient’s inner body and internal organs, doctors have to be able to look into the patient to get a visualization of the patient’s problem without actually getting an up close look of the problem. This is done through the process of medical imaging.
Medical imaging through Medical Device Simulations creates a visualization of the patient’s internals which are seen on a display allowing doctors to analyze and diagnose the problem. Medical imaging systems today function on a 2D system where displays show a 2D image of the visualized area. Through the development of technology, we now have medical imaging systems that are capable of creating medical images in 3D. Although the systems that are capable of 3D imaging only account for a little part of the entire medical imaging area, it certainly is a step forward.
The development of 3D technology is revolutionary for medical imaging which in turn is great for medicine as a whole allowing more detailed approaches to medical problems so that problems may be treated much better and a lot faster. Certainly the whole process of medical imaging benefits from 3D Medical Simulations but how exactly? Let’s take a look at four components of medical imaging that can greatly benefit from 3D simulation.
- Surgery – Prior to surgery, surgeons must know what they are dealing with before actually opening up the patient. Currently 2D x-rays are used by surgeons to analyze and solve the problem. With 3D imaging, surgeons can get a much more detailed and interactive visualization allowing for better understanding of the medical issue and treating it.
- Prosthetics – Patients with missing limbs can opt to get a prosthetic but before one can be created, the area has to be mapped in order to create a prosthetic that can fit properly for the patient and function well. With 3D imaging, mapping the area is much easier which provides a basis for creating an even better prosthetic.
- Telemedicine – Rare is it that a patient with a complex problem is in the same area as the expert who is adept in solving such problems. Usually the expert has to be flown to the patient in order to see the problem. With 3D mapping, the expert can simply be sent a 3D visualization to analyze.
- Scanning – MRIs and CTs function by taking hundreds of images altogether all of which have to be looked at by the doctor. But with a 3D Medical Simulation, the doctor can easily interact with a single visualization which basically allows him to look at everything all at once making things more efficient.
Hopefully 3D imaging technology will become more common use and the medical industry may be truly revolutionized through its use.