Evaluation of the therapeutic capability of nanoscale fluorescence imaging technology in cancerous ovarian tumor

Background: : Ovarian cancer is one of the most common types of cancer worldwide, according to studies conducted over the past decades by the World Research Committee. Nanoparticles are used as nanomedicine that are used to diagnose and treat various diseases, including cancer. Therefore, nanobiotechnology, a combination of diagnosis and treatment for ovarian cancer, is a crucial component of a new approach to dealing with such malignancy. The aim of this study was to investigate the therapeutic capability of nanoscale fluorescence imaging technology in cancerous ovarian tumors.Methods: The present study was a systematic overview with a comprehensive search of web sites, valid journals, scopus, SIDs, Science Direct, ISCs and Google Scholar search engine, as well as related books in this area. The Ovarian Cancer, Imaging, Nanotechnology, X-rays and their combination were used to search, and the time range from 2013 to 2018 was considered for the selection of articles. The articles were found in about 90 articles, of which about 60 articles were included in the study, and then these articles were evaluated in terms of title, abstract, and full text. After removing repetitive and unrelated, about 50 related articles Was selected by research.Results: The results of the studies showed that the use of nanoscale with a fast scan method, the distribution of a wide range of the main elements and elements present in the tumor nodes, is depicted in a non-destructive manner. In the study of cancerous tumors of the ovary, using a nanoscale fluorescence imaging, a map of small structures inside the building is also shown; these structures are nuclear nuclei, where the ribosomal synthesis takes place. The use of nanoscale in imaging also makes it clear the distinction between the outside of the nucleus and inside the nucleus.Conclusion: According to the studies, we found that the non-destructive effects of using nanoscale fluorescence imaging and nanotechnology, especially when a wide range of analytical methodologies is used for a sample; to obtain maximum information Very useful. In the study of cancerous tumors of the ovary by using X-ray fluorescence imaging, we can obtain a better and better resolution picture.