Table 1 Nanocarriers used for the treatment of various diseases in recent era
Nanoparticles | Advantages of Drug delivery approach | Disease | Reference |
|---|---|---|---|
Nano-diamonds | The transport of small interfering RNA into sarcoma (Ewing) cells can be facilitated by nano diamonds. | Cancer | [110] |
AgNPs | The process included developing a stable silver NP vector in order to create mosquito larvicides, which are medications that are used to kill mosquitos. | Dengue fever or malaria | [111] |
Polyamidoamine nanoparticles | Polyamidoamine nanoparticles act as nanocarriers, delivering anti-malarial drugs to specific areas. | Malaria | [112] |
Solid Lipid NPs | Electroporation and nanocarriers are utilized for drug delivery. | Colon cancer | [113] |
Mesoporous silica NPs | This method is a pH-sensitive drug delivery system constructed from folic acid-targeted HBP reforming MSNPs. | Cancer | [114] |
Lapatinib-loaded human serum albumin | Restriction of 4T1 cell motility, invasion, and adhesion in the brain. | Brain metastasis | [115] |
Au-Fe nanocomposite | Cytotoxicity against malignant U87MG cells was higher than against normal astrocyte cells. | Brain cancer | [116] |
Chitosan NPs | NPs exhibit cytotoxicity when used against C6 cell line and can inhibit MDCKII-MDR1 cell growth. | C6 glioma cells | [117] |
Lipid–drug-conjugated NPs | When 5-FU was synthesized with LDC nanoparticles, its efficacy in treating brain cancer was increased. | Brain cancer | [118] |