Medicine is an ever-evolving field, constantly opting to deepen its knowledge of human biology and anatomy. This is why medical imaging cameras have become an increasingly instrumental device, especially during complex procedures that require high-definition visualization. This is especially true in the field of Neurology that heavily relies on advanced imaging solutions, both in neuroimaging and image-guided neurosurgery. Medical imaging in neurology is used to optimize delicate procedures, as well as a better map and therefore comprehend the human brain.
Neuroimaging and Medical Cameras
According to recent studies, newfound neuroimaging techniques strive to expose more than just the brain’s form and anatomy; extrapolating from new imaging technologies, they aim to decode the brain’s chemistry, physiological and electrical activity. These could allow researchers and doctors from a wide variety of medical fields to further comprehend the connections of the brain to different systems. From neurosurgeons and neurologists, through psychiatrists and scholars of behavioural studies, neuroimaging elucidates the workings of the human brain.
However, there still remains a controversy among scientists, as to the validity of these findings. After all, neuroimaging explores the brain mostly through non-invasive manners, and therefore, their quality and reliability for vaster studies is somewhat compromised. That being said, it would seem that the field of neurosurgery, or rather, image-guided neurosurgery is the future of Neurology. More importantly, it is perhaps the field in which medical imaging cameras could contribute most.
Neurosurgery and Innovative Imaging Solutions
The brain is a delicate organ, that requires a professional and refined touch. That is why image-guided neurosurgery allows for extreme accuracy and heightened visuals that could potentially revolutionize neurosurgery procedures. The practice of precise targeting has not only improved the effectiveness of such complex procedures, it has also allowed for less invasive surgeries, which in turn, lead to increased chances of operation and post-op risks. Image-guided neurosurgery incorporates imaging technologies throughout the entire process, from the very planning, through various preoperative examinations and even through the surgery itself.
The latter may be the process in which neurosurgeons could most benefit from high-quality medical imaging. Open surgeries, for instance, such as intracranial vascular treatments, require a high level of precision that renders high-resolution imaging an absolute necessity. Thus, neurosurgery doesn’t only require high-def medical imaging solutions, the medical devices should be just as delicate and fine as all the devices used in the op-room.
Substantial Contributions of Medical Imaging to the Field of Neurology
Medical imaging cameras are already incorporated in a great number of medical devices and contribute to elevating neurosurgical procedures. Unlike neuroimaging, which has been deemed relatively fickle, medical imaging solutions utilized in op-rooms could offer real live material for research. Furthermore, high-resolution imaging could assist in perfecting the delicate art that is neurosurgery. Thus, the field of neuroscience and neurosurgery could benefit from high-def medical cameras:
● Less Invasive Procedures: One of the greatest concerns in neurosurgery, is that the slightest of deviation during a procedure, could lead to fatal results. By using advanced imaging solutions, neurosurgeons are able to diagnose more accurately and perform focused procedures through minimal-invasive processes.
● Improved Imaging: Image-guided neurosurgery relies on optimal and high-resolution imaging. Medical cameras could capture and enhance crucial findings in the brain, leading to improved diagnostics and even therapeutic procedures.
● Deepen Research: It is widely accepted that the human brain is both the most explored organ, yet the one we know least about. Therefore, it comes as no surprise, that even the slightest improvement to medical imaging technology, that will allow further access to the human brain, could lead to groundbreaking medical and research findings.
The Future of Medical Imaging
Though the future of medical imaging seems to be racing down a more automated and robotic path, the field of neurosurgery still requires the touch of a trained hand. However, could it be that advanced medical imaging solutions paired with robotic medical equipment be the solution? The answer seems to be a resounding YES. According to Stanford Medicine robotic-assisted neurosurgery could enhance the surgeries’ accuracy, utilize extremely detailed preoptive images, and in short, offer surgical procedures that could be safer, faster and much more accurate. For that purpose, medical imaging has and is constantly evolving to achieve superior resolution, miniaturization (for flexibility and adaptability) and resistance, all while maintaining powerful sensors and performance.
It would seem that medical imaging is already an essential part of medicine, yet when it comes to neurology, the stakes are higher, as should be the technology. Not only for more accurate procedures but also for a deeper exploration of this still unexplored fascinating organ.