The role of nanobiotechnology in identification and treatment lung cancer

Masoum Abniki,1,* Fatemeh ashrafi,2 Shabnam akbari,3 Sadaf shahmoradi,4

1. M.Abniki , Msc of Biotecnology , Department of Biotecnology, Faculty of Basic Sciences, Islamic Azad University Damghan
2. F.Ashrafi , Assistant professor , Department of Microbiology, Faculty of Basic Sciences, Islamic Azad University,North T
3. Sh.Akbari , Msc of Biotecnology , Department of Biotecnology, Faculty of Basic Sciences, Islamic Azad University Damghan
4. S.Shahmoradi, Bachlor of Microbiology, Department of Micrbiologyo, Faculty of Basic Sciences, Islamic Azad University,No



Nanotechnology is the engineering of functional systems at the molecular scale. therefore, it is possible to combine nanotechnology with industrial applications, semiconductor products, biotech industries, and nanodrugs. it is capable of playing a major role in the treatment of brain, cardiovascular, and other diseases. the advantages of nanodrugs are high selectivity, target identification, and direct effect on target cells, so that the neighboring and other cells are spared. the present paper focused on the origin of nanoscience and how this science was developed in the field of medicine.


In this article, we will look at nano technology in the treatment of lung cancer, and introduce conventional methods. among these, nanoparticles can be found on metals, electromagnetic particles, nano-polymers, and nano-biopolymers.


Biomedicine, nanotechnology, bionano, and nanomaterials, either separately or in combination, play a significant role in biomedicine. future generations of pharmaceutical and biomedical products will definitely be at the nano or molecular scale. in such products, drugs can carry effective substances and each substance can be released at a specific time to produce its effect.


According to studies, nanotechnology is capable of providing us with a new window on the world of medicine, the most important part of which is drug delivery. the first phase kinetics can reduce the toxicity and enhance the effect and efficiency of the drug. in addition, absorbent biopolymers can last longer in the target zone. many positive effects can be possible by combining the biopolymers with nanomedicine.


Nano, biomedicine, nanotechnology, drug delivery system