Table 2.
Summary of NPs effects in in vitro model of fibrosarcoma.
| Nanoparticles Type | Fibrosarcoma Cell Line |
Effect | Additional Comment | Reference |
|---|---|---|---|---|
| Gold NPs 127 nm |
HT-1080 | Anti-metastatic effect | NPs did not affect cells viability AuNPs interfered actin-polymerisation pathway AuNPs inhabited cells migration |
[34] |
| Silver NPs 6 nm |
WEHI164 | Cytotoxicity | IC50 of AgNPs was 2.6 μg/mL | [35] |
| Iron (II, III) oxide NPs 10 nm |
HT-1080 | Cytotoxicity | NPs had magnetic properties NPs may be used as drug delivery platform |
[36] |
| Iron (II, III) oxide NPs 10 nm, 100 nm |
HT-1080 | Cytotoxicity Genotoxicity |
NPs were coated with: -OH, -NH2, -TEOS, -AMPTS or TEOS/AMPTS functional groups Cytotoxicity and genotoxicity were function group – dependent AMPTS coated NPs were the most cytotoxic Positively charged NPs were more genotoxic than negatively charged |
[37] |
| Cerium oxide NPs 25 nm |
HT-1080 | Non-cytotoxic | [38] | |
| Cerium oxide NPs 30 nm |
WEHI164 | Cytotoxicity | Cancer cells were more susceptible to NPs than non-transformed ones NPs triggered oxidative stress NPs caused apoptosis |
[39] |
| Chromium oxide NPs | L929 | Cytotoxicity | NPs triggered oxidative stress NPs caused apoptosis |
[40] |