Absence of chemotherapy-induced alopecia with paclitaxel in a case of hypothyroidism: case report

Nanocarriers in cancer clinical practice: a pharmacokinetic issue

The advent of nanocarriers for drug delivery has given rise to new intriguing scenarios in the cancer field. Nanocarriers indeed partly overcome the limits of traditional cytotoxic drugs principally changing the pharmacokinetic behavior of the parental drug. The peculiar characteristics of these systems strongly minimize the adverse reactions and ensure a more precise release of the compound to the tumor site. Several nanocarriers have been developed for the delivery of cytotoxic drugs such as paclitaxel and doxorubicin in order to improve both the outcome and the patients' quality of life. The aims of this review are to describe in detail the pharmacokinetics of nanocarriers, already marketed or in advanced clinical phases, for paclitaxel and doxorubicin, to highlight the main differences with the parental drugs, and to underline, in a critical manner, benefits and disadvantages related to the use of these new drug delivery systems.

Drug delivery design for intravenous route with integrated physicochemistry, pharmacokinetics and pharmacodynamics: illustration with the case of taxane therapeutics

This review is aimed at combining the published data on taxane formulations into a generalized Drug Delivery approach, starting from the physicochemistry and assessing its relationships with the pharmacokinetics, the biodistribution and the pharmacodynamics. Owing to the number and variety of taxane formulation designs, we considered this class of cytotoxic anticancer agents of particular interest to illustrate the concepts attached to this approach. According to the history of taxane development, we propose a classification as (i) "surfactant-based formulations" first generation, (ii) "surfactant-free formulations" second generation and (iii) "modulated pharmacokinetics drug delivery systems" third generation. Since our objective was to make the link between (i) the physicochemistry of the drug and carrier and (ii) the efficacy and safety of the drug in preclinical animal models and (iii) in human, we focused on the drug delivery technologies that were tested in clinic.