Holographic Tomography (Holotomography) is the application of holographic imaging technology to the diagnosis and treatment of medical conditions. In the area of medical imaging, HT (HoloTomography) is the creation and recognition of 3D medical images. Primary holotomography includes static images created from traditional imaging technologies especially CT (Computer Tomography), MRI (Magnetic Resonance Imaging), and PET (Positron Emission Tomography). Advanced holotomography includes travelling, engaging three-dimensional images from dedicated holographic imaging devices. The holotech site the evolution of virtual reality terms is also useful.
Design is at the heart of applied science, new product development and model building, architecture and building, pharmaceuticals, biologicals, and nanopharmacology, biochemistry and molecular modeling, biomedical technology and prostheses, the clothing industry, the fine arts, and also other areas. Holographic applied science can assist design for: movement of three-dimensional simulated molecules or biological structures; assembling electronics; and other design-related tasks. The site medichips also provides some useful information.
Holograms (sometimes added to plant-source genetic material) are used to provide secure recognition for pharmaceuticals, currency and similar government documents, credit cards, recognition cards, and other applications. As a source for additional technical material, see holographic data recording and retrieval .
Three-dimensional, life-sized holographic pictures of patient organs and tissues created through the compilation of CT and MR pictures may be used by doctors to model incisions, implants, and similar surgical procedures. This facilitates safer, more precise, and faster surgical planning and operations. See holographic technology and 3D imaging for novel information.
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