| Pegylated silica-core gold nanoshells (pSGNs) in vivo with external near-infrared (NIR) laser irradiation. |
Experimental nanoparticle-induced intraperitoneal hyperthermia and targeted photoablation in treating ovarian cancer. |
Wu et. al. [103] |
| Thermosensitive hydrogel system (PTX/PECT(gel)) assembled by PTX (paclitaxel)-loaded amphiphilic copolymer |
Thermosensitive hydrogel system used in experimental for sustained intraperitoneal chemotherapy of peritoneal carcinomatosis. |
Xu et. al. [21] |
| Nanovehicles based on anti-CD133 antibodies bioconiugated to carbon nanotubes loaded with platinum (Pt) –prodrugs |
Nanovehicles used as a novel target strategy for hyperthermic intraperitoneal chemotherapy on mouse melanoma B16 PC model. |
Nowacki et. al. [32] |
| Curcumin loaded polymeric micelles (Cur-M) |
Anti-Tumor Activity of Curcumin by Polymeric Micelles in Thermosensitive Hydrogel System tested in Colorectal Peritoneal Carcinomatosis Model |
Zhang et al. [131] |
| Paclitaxel-loaded pH-responsive expansile nanoparticles (Pax-eNP) |
Expansile nanoparticles used in in vitro and in vivo murine models of malignant peritoneal mesothelioma |
Colson et al. [142] |
| Paclitaxel loading nanoparticle (PLA) by ultrasonic emulsification |
Nanoparticles tested in vitro on rat ovarian carcinoma cells and in vivo on PC induced in F344 rats |
Lu et al. [132] |
| Combination of 5-fluorouracil (5-FU) loaded polymeric micelles and cisplatin (DDP) in biodegradable thermosensitive chitosan (CS) hydrogel |
Nanosystems tested on colorectal peritoneal carcinomatosis mouse model |
Yun et al. [133] |
