A Facile Way To Improve the Bioavailability of Nanomedicine Based on the Threshold Theory.

One of the most significant barriers to the clinical transformation of nanomedicines is low drug distribution in solid tumors due to quick clearance of nanomedicine after injection. Studies have revealed that the distribution of nanomedicine in tumor sites can be considerably improved when the number of nanoparticles supplied in a short period surpasses the threshold. Most routinely employed nanomaterials have dose-related safety concerns. To resolve this problem, we use highly biocompatible albumin to construct blank nanoparticles and doxorubicin loading nanoparticles. Under the guidance of the threshold theory, when the quantity of drug loading nanoparticles is constant, the drug delivery effectiveness improves with the addition of blank nanoparticles. This enhanced impact was verified both in vitro and in vivo. The area under the curve of the high dose group (19.5 × 10 11 ) is 2.5 times higher than that of the low dose group (6.5 × 10 11 ). In addition, the drug distribution of the high dose group at the tumor site was also improved by 1.5 times compared with the low dose group. The results of histopathological sections also showed that the administration of excess blank nanoparticles within 24 h has no damage to the animals. This study contributes to the clinical transition of nanomedicine by providing fresh ideas for anticancer nanomedicine research.