Biophilia Intruder 3D Figure
Another technological achievement that opens up new vistas and capabilities for NLS diagnosis is the "three-dimensional image" (3D).
Even a few years ago, 3D was considered a perennial aesthetic that was difficult for NLS diagnostic professionals to apply. At present, it is not only an integral part of scientific research, but also an integral part of practical diagnosis. Terms such as "surgery under the control of 3D NLS visualization" or "3D virtual NLS angiography" are proliferating.
The preparation of NLS pictures for visual analysis is carried out by the "4D TISSUE" original system developed by the Institute, which not only acquires virtual multidimensional pictures of anatomical and histological structures, but also color-codes interesting biological tissues—" Additional Dimensions" and visualize bones, soft tissues, and blood vessels simultaneously or in any desired order.
The virtual data representation in the "4D TISSUE" system is characterized by the simultaneous visualization of spongy and extramural growth surfaces located outside the study cavity (lymph nodes, blood vessels). The captured pictures form a natural succession of virtual NLS pictures. At the same time, a special navigation program automatically defines the movement trajectory of the "virtual scanner" in the center of the cavity under investigation. Trajectories can be defined by other settings declared by the user, allowing specific NLS image details to be visually altered. With the help of the Epi-client program, the forming continuum of NLS pictures can be easily converted to the standard VHS format and can thus be used with common video systems such as teleradiology.
First of all, the "4D TISSUE" system aims to reveal the obstructive process of the upper airway, the volumetric growth of the esophagus, stomach and large intestine, the atherosclerotic lesion of the large vessels, the diseases of paranasal sinuses, bladder and spinal canal. The data acquired by "virtual NLS imaging" allows the optimal biopsy location to be selected in advance and the extent of the procedure to be determined. The method can be used independently or as a link between tomography, endoscopy and NLS studies.
The bright future of such procedures is beyond doubt, since these technical achievements facilitate the work of the diagnostician and allow a clear representation of anatomical features and pathological changes when examining an organism.
It seems that the creation of ultra-high-speed "intelligence" Biophilia Intruder is one of the most important features of the new generation of 3D.