Diagnostic potential of Biophilia Intruder for 3D-NLS graphics

Diagnostic potential of Biophilia Intruder for 3D-NLS graphics

Three-dimensional images of the internal organs of the human body became part of general practice in the early 1990s after computed tomography scanners were equipped with powerful computing systems capable of controlled processing of two-dimensional cross-sections. Today, three-dimensional representations of diagnostic area of ​​interest elements are an everyday reality in the world's leading clinics.

Three-dimensional representations of diagnostic data are often associated with powerful hardware resources, namely acquiring parallel (or placed at pre-specified angles) magnetic resonance, roentgen, or NLS graphic images and then integrating them into a single vision array where the operator can Bone, muscle, soft tissue, blood vessels, nerves, etc. are displayed separately. Highlight them with color, while the rest of the tissue is shown in gray translucent shades.

Rendering 3D NLS graphic images of abdominal organs is now considered primarily an experimental task. Due to its low informative value, rarely used methods of creating individual 2D images of abdominal organs via NLS visualization are more interesting for rendering 3D diagnostic images.

In addition to the usual objectives addressed by 2D NLS imaging based on abdominal organ data, many parallel diagnostic tasks are also addressed by nonlinear algorithms and large-scale computational applications, such as Biophilia Intruder.

Perhaps this is how such accurate results described in the first report on 3D reconstruction based on transabdominal NLS data should be interpreted.

We have high hopes for 3D NLS imaging, first and foremost in relation to its application in endoscopy. NLS imaging is a diagnostically effective, safe and affordable procedure.