Table 1.
Effects of selected graphene-based nanomaterials on treatment of cancer, infectious diseases, and other diseases.
| Nanocomposites | Effects | Refs. |
|---|---|---|
| GO | toxicity to MDA-MB-231 cells | [114] |
| GO | inhibition of E. coli | [121] |
| GO | inhibition of E. coli and S. aureus | [125] |
| GO | protection of A549 and TC28a2 cells against Rubella virus infection | [119] |
| GO | antiangiogenic effect in primary human endothelial Huvec cells | [128] |
| COOH-CO–99mTc | imaging agent | [129] |
| Pluronic–COOH-GO–ZnO | toxicity to U87MG and U138MG cells | [130] |
| PEG–GO + NIR irradiation | growth inhibition of HT29 cells (wound closure ability) | [134] |
| GO, PCA–CA–GO, PCA–CA–FA–GO | inhibition cell cycle at G2/M phase of HepG2 cells depolarization of mitochondrial membrane potential upregulation of ROS |
[137] |
| benzofurazans modified GO | inhibition of biofilm formation (S. aureus, E. coli, P. aeruginosa) cytotoxic to HCT-116 cells | [127] |
| functionalized (poly-l-lysine, CS, alginate, dextran, PEG, PVP, polyetherimide, AlO(OH) loaded with urease B, ovalbumin) GO | activation of cellular and humoral immunity | [122] |
| Ag−GO | kills B. subtilis, E. faecalis, MRSA, S. aureus, E. coli, S. marcescens, Shigella sp., Salmonella sp., S. liquefaciens, Proteus sp., E. cloacae, and P. aeruginosa | [140] |
| Cu−GO | inhibition of S. mutans biofilm formation alterations in biofilm architecture damaged production and distribution of exopolysaccharides dysregulated expression of exopolysaccharide-associated genes |
[142] |
| Au–GO | antioxidative activity ↑ cell viability of MSCs ↓ activity of platelets ↑ cell motility and differentiation of various MSCs-derived cell types ↓ induction of fibrotic formation ↓ M1 macrophage polarization ↑ induction of M2 macrophage ↑ endothelialization |
[145] |
| TiO2–GO + NIR irradiation | inhibition of S. mutans hyperthermia ROS generation |
[143] |
| polyaniline–MnOx–GOQDs + irradiation (365 nm) | antimicrobial activity to E.coli and S. aureus oxidative stress via generation of ·OH radicals and photogenerated holes |
[144] |
| PEG–GO loaded with anticancer drugs | controlled release of drugs and bioimaging | [132] |
| FA–GO loaded with Pt anticancer drugs | ↑ cumulative release rate of drugsinhibition SKOV3 cells | [136] |
| FA–GO loaded with raloxifene | pH-dependent drug release cytotoxic to MCF-7 and MDA-MB-231 cells |
[135] |
| mannose–CS–GO loaded with ulvan | pH-dependent-controlled release and targeted delivery to U87 cells | [131] |
| Pluronic−GO loaded with DOX | apoptosis of U251 cells impact on MAPK signaling pathway activation of caspase-3 in U251 cells |
[139] |
| Au@Ag–Fe3O4–GO loaded with DOX | covalent binding to anti-HER2 antibody active and passive targeting of SKBR3 cells pH-dependent drug release |
[146] |
| Fe3O4@PEG–GO loaded with DOX | pH-dependent drug release ↑ apoptotic effects against MCF-7 cells |
[151] |
| PVP–Fe3O4–GO loaded with quercetin | pH-dependent drug release ↑ toxicity to MDA MB 231 cells |
[147] |
| β-cyclodextrin–cholic acid–hyaluronic acid–Fe3O4–GO loaded with camptothecin | multiple targeting (hepatic, CD44-receptor) ↑ local chemo-photothermal effects apoptosis of hepatocellular carcinoma cells release of drug |
[148] |
| SPION–PCL/CS–GO loaded with 5-FU + magnetic field | ↑ tumor site temperature ↓ plating efficiency of the cells ↑ Bax/Bcl-2 ratio↓ growth of CT-26 cells |
[149] |
| γ-Fe2O3–GO–MitP loaded with MTX | release of drug ↓ ATP production ↓ mitochondrial membrane potential impairment of mitochondrial functions activation of apoptosis |
[150] |
| citric acid–CS–TEPA–rGO | inhibition of biofilm formation (S. aureus, P. aeruginosa) (wound dressings) | [155] |
| Ag–rGO | photoantimicrobial activities inactivation of S. aureus under blue-light irradiation |
[160] |
| Zn–hydroxyapatite–rGO | ↑ antibacterial activity ↑ enhanced alkaline phosphatase activity ↑ proliferation of mesenchymal stem |
[161] |
| ZnO–rGO | enhanced catechin release at acidic pH antiproliferative effect inhibition of biofilm formation ↑ ROS generation ↑ cell membrane damage ↑ cytochrome C release ↑ apoptosis |
[162] |
| FA–Au–rGO +NIR irradiation | improved generation of 1O2 high photothermal conversion efficiency destruction of MCF-7 cells |
[159] |
| arabinoxylan–CS–rGO loaded with sulfadiazine | controlled release of drug | [156] |
| Pluronic–rGO loaded with buprenorphine | prolonged release of drug (treatment of chronic pain in osteoarthritis) | [157] |
| Pluronic–rGO loaded with lidocaine | prolonged release of drug (prolonged effects of local anesthesia) | [158] |