Evaluation Preparation of Apatinib-Loaded Polymer Nanoparticles and Its Effect in the Treatment of Advanced Ovarian Cancer

Abstract

Ovarian cancer is a common gynecological malignant tumor, second only to cervical cancer and uterine body cancer. In China, ovarian cancer has the highest mortality rate in gynecological tumors. Due to the rapid spread of cancer cells, the prognosis is relatively poor. Because the ovarian epithelial cancer is relatively insidious, there are no obvious clinical manifestations in the early stage. At present, apatinib chemotherapy is widely used, which can reduce the disease of patients by inhibiting the migration and proliferation of vascular endothelial cells. Fluorescence imaging is widely used in biomedical imaging. Organic fluorescent dyes are stable in nature and can be linked to a variety of molecules. They are often used in targeted imaging and therapeutic research. A cyanine dye is an organic molecule formed by two nitrogen-containing aromatic heterocycles connected by a polymethine bridge. Because neither MR contrast agents nor fluorescent dyes are targeted, specific biomolecules and contrast agents are often used in the research to diagnose and treat tumors. In this paper, a polymer nanoparticle loaded with apatinib was prepared and its therapeutic effect in advanced ovarian cancer was explored. The results show that nanoparticles loaded with apatinib are more effective than ordinary therapeutic drugs.