Conventional therapies for cancer diseases, such as chemotherapy, radiotherapy, immunotherapy, hormonal therapy, and surgical removal, are effective, but they often come with acute side effects and the development of drug resistance due to their systemic application. Nanotechnology is one of the options that allows us to reduce the occurrence of these effects. It enables specific targeting of cancer cells, while the therapeutic agents used do not affect the surrounding healthy cells. By using various modifications of nanoparticles, the retention time in tumor tissue can be prolonged, specificity to tumor cells can be increased, and the nanoparticles can be modified to achieve controlled release of the therapeutic agent triggered by different stimuli. Further research in this field can lead to greater optimization of nanoparticles, which may result in higher effectiveness of cancer treatment and a reduced likelihood of its recurrence in the future.