Comparative analysis of methods for creating virtual three-dimensional models of the lungs from computed tomography images in the practice of a tuberculosis organization using Materialise software

Background. One of the important conditions for the final victory over tuberculosis is not only the prevention of its development and early detection, but also the provision of high-quality personalized medical care to the patient. Additive technologies and virtualization technologies are ways to fully reveal this principle in phthisiatric practice. Aim. Demonstrate the possibilities and evaluate the labor costs (time spent on virtualization and the size of the final digital files of models) while working with the Mimics inPrint 2.0.0.159 and Mimics Medical 21.0.0.406 software systems in the aspect of virtual reconstruction of the lungs of a patient with a destructive form of tuberculosis. Materials and methods. A comparative analysis of methods for creating virtual three-dimensional models of the lungs from CT images was carried out at the Nizhny Novgorod Regional Clinical Tuberculosis Dispensary. The study involved one patient with a destructive form of tuberculosis of the upper lobe of the left lung. Virtual three-dimensional models were made according to a specially developed algorithm. The time spent for the formation of virtual lung models was analyzed using the built-in function in the "Log" software. The analysis of the size of the obtained virtual lung models in the STL format was carried out using the operating system function from the Windows family "Properties", section "General", subsection "Size". Results. The most practical software package for virtual lung reconstructions turned out to be Mimics inPrint 2.0.0.159 with the result of the time spent on creating a model of 2 minutes (Mimics Medical 21.0.0.406 7 minutes 17 seconds) and a model size of 125 megabytes (Mimics Medical 21.0.0.406 26.1 megabyte). The technical nuances and algorithms of lung reconstruction covered in the article using the Mimics inPrint 2.0.0.159 and Mimics Medical 21.0.0.406 software packages will allow the interested person not to make a mistake in realizing their scientific and practical interests in the process of providing personalized care to the patient. The article focuses on the main advantages of the Mimics inPrint 2.0.0.159 software package in comparison with Mimics Medical 21.0.0.406. A brief description of similar programs is given. Conclusion. The studied software systems successfully coped with the goal assigned to them, which concerned the demonstration of their capabilities and the assessment of labor costs for virtualization. Mimics inPrint 2.0.0.159 turned out to be the most understandable and promising software and application complex for use in everyday clinical practice

Immortalization Reversibility in the Context of Cell Therapy Biosafety

Immortalization (genetically induced prevention of replicative senescence) is a promising approach to obtain cellular material for cell therapy or for bio-artificial organs aimed at overcoming the problem of donor material shortage. Immortalization is reversed before cells are used in vivo to allow cell differentiation into the mature phenotype and avoid tumorigenic effects of unlimited cell proliferation. However, there is no certainty that the process of de-immortalization is 100% effective and that it does not cause unwanted changes in the cell. In this review, we discuss various approaches to reversible immortalization, emphasizing their advantages and disadvantages in terms of biosafety. We describe the most promising approaches in improving the biosafety of reversibly immortalized cells: CRISPR/Cas9-mediated immortogene insertion, tamoxifen-mediated self-recombination, tools for selection of successfully immortalized cells, using a decellularized extracellular matrix, and ensuring post-transplant safety with the use of suicide genes. The last process may be used as an add-on for previously existing reversible immortalized cell lines