Application of information technology in medical gloves

Application of information technology in medicine has been considered as one of the most demanding fields due to the fact that it makes extensive use of data collection, processing, and analysis technologies [1–3]. The methods of processing and analysis of medical information are of utmost importance in making a clinical diagnosis and thus affect further treatment approaches Vinyl Gloves. In turn, the direction has significant prospects for implementation in rhinosurgery. It includes information technology, simulation, robotic medical systems, imaging technologies, and others. The importance of this area lies in the possibility of calculating the results of the surgical intervention and the choice of optimal therapy [4, 5]. This could further improve the patients’ life expectancy and quality. In this regard, rhinosurgery is one of the applications of computational surgery. It relates to the surgical access and the significant influence of the geometric parameters formed as a result of the operation on the aerodynamic indices of the nasal cavity. Topics on development and visualization of a three-dimensional geometry of the anatomical models of the nasal cavity has been widely covered in the current literature [6–8]. The related methods include computational geometry, image processing and recognition. Here, the ability to perform a functional analysis of a three-dimensional (3D) model is of particular interest since it could provide the information on deformation of anatomical structures Food gloves. For this purpose, both the virtual model and full-scale can be utilized Synthetic Gloves. Rapid prototyping or 3D printing is the most useful and easy-to-use approach to produce 3D models [9, 10]. The development of visualization tools allows performing the analysis in a virtual space [11, 12], which has additional application in the development of distance learning in education and clinical practice. In online education, virtual training systems could ensure an extensive access of the students to obtaining initial practical skills. In addition, such systems could also make it possible train young surgeons and to simulate the process of surgical intervention, predict the result and possible challenges as well as identify and avoid dangerous situations, which could happen during surgical intervention. At the same time, one of the most challenging tasks is the simulation of interaction with a deformable three-dimensional physical object and simultaneous modeling of the aerodynamic flow. Thus, the purpose of this study was to analyze the possibilities of the SOFA framework [13] to simulation of realistic deformation of the patient’s nasal cavity at the stages of preliminary planning and training.