Computed Tomography-Based Navigation System in Current Spine Surgery: A Narrative Review.
Nao OtomoHaruki FunaoKento YamanouchiNorihiro IsogaiKen IshiiPublished in: Medicina (Kaunas, Lithuania) (2022)
The number of spine surgeries using instrumentation has been increasing with recent advances in surgical techniques and spinal implants. Navigation systems have been attracting attention since the 1990s in order to perform spine surgeries safely and effectively, and they enable us to perform complex spine surgeries that have been difficult to perform in the past. Navigation systems are also contributing to the improvement of minimally invasive spine stabilization (MISt) surgery, which is becoming popular due to aging populations. Conventional navigation systems were based on reconstructions obtained by preoperative computed tomography (CT) images and did not always accurately reproduce the intraoperative patient positioning, which could lead to problems involving inaccurate positional information and time loss associated with registration. Since 2006, an intraoperative CT-based navigation system has been introduced as a solution to these problems, and it is now becoming the mainstay of navigated spine surgery. Here, we highlighted the use of intraoperative CT-based navigation systems in current spine surgery, as well as future issues and prospects.
Keyphrases
- computed tomography
- image quality
- dual energy
- minimally invasive
- positron emission tomography
- contrast enhanced
- patients undergoing
- magnetic resonance imaging
- mental health
- healthcare
- working memory
- current status
- deep learning
- spinal cord injury
- machine learning
- robot assisted
- convolutional neural network
- health information