The influence of bile salt on the chemotherapeutic response of docetaxel-loaded thermosensitive nanomicelles

Hyaluronic acid-ceramide (HA-CE)-based self-assembled nanoparticles were developed for intravenous docetaxel (DCT) delivery. In this study, physicochemical properties, cellular uptake efficiency, and in vivo targeting capability of the nanoparticles developed were investigated. DCT-loaded nanoparticles composed of HA-CE and Pluronic 85 (P85) with a mean diameter of 110-140 nm were prepared and their morphological shapes were assessed using transmission electron microscopy (TEM). DCT release from nanoparticle was enhanced with increasing P85 concentrations in our in vitro model. Blank nanoparticles exhibited low cytotoxicity in U87-MG, MCF-7 and MCF-7/ADR cell lines. From cellular uptake studies, the nanoparticles developed enhanced the intracellular DCT uptake in the CD44-overexpressing cell line (MCF-7). The nanoparticles were shown to be taken up by the HA-CD44 interaction according to DCT and coumarin 6 (C6) cellular uptake studies. The multidrug resistance (MDR)-overcoming effects of DCT-loaded HA-CE/P85-based nanoparticles were also observed in cytotoxicity tests in MCF-7/ADR cells. Following the intravenous injection of DCT-loaded cyanine 5.5 (Cy5.5)-conjugated nanoparticles in MCF-7/ADR tumor-bearing mice, its in vivo targeting for CD44-overexpressing tumors was identified by non-invasive near-infrared (NIR) fluorescence imaging. These results indicate that the HA-CE-based nanoparticles prepared may be a promising anti-cancer drug delivery system through passive and active tumor targeting. Copyright © 2011 Elsevier Ltd. All rights reserved.

Docetaxel is an effective treatment approved in five key cancers, but its effectiveness in clinical practice can be compromised by sub-optimal side-effect management. The aim of this review was to investigate the extent of the published work on specific docetaxel-related side effects and to provide, where possible, evidence-based recommendations for their prevention and management. PubMed and the American Society of Clinical Oncology (ASCO) databases were systematically searched for articles published in English over the past 5 years and 2 years, respectively, and pertaining to six side effects identified as being common to the majority of docetaxel regimens and indications and of particular relevance to the oncology nurse. The Cochrane library was also searched. A total of 103 citations were identified, 14 of which discussed strategies for the prevention or management of febrile neutropenia (n=6), hypersensitivity reactions (3), fluid retention (1) and nail changes (4). No articles were identified that related to asthenia or neuropathy. Based on the literature review, evidence/guidelines-based advice for the use of G-CSF in febrile neutropenia is provided. The evidence base with respect to the other side effects does not permit the formulation of recommendations. It is the experience of the authors, however, that the severity of symptoms experienced by patients is generally mild and the side effects are for the most part easily managed with prophylactic and supportive care measures. It is, therefore, important to share and build on experiences, through research and discussion, to maximise the healthcare professional's ability to offer the best standard of care to patients.

Oral delivery of protein or polypeptide drugs remains a challenge due to gastric and enzymatic degradation as well as poor permeation across the intestinal epithelia. In this study, liposomes containing bile salts were developed as a new oral insulin delivery system. The primary goal was to investigate the effect of cholate type, particle size and dosage of the liposomes on the hypoglycemic activity and oral bioavailability. Liposomes containing sodium glycocholate (SGC), sodium taurocholate (STC) or sodium deoxycholate (SDC) were prepared by a reversed-phase evaporation method. After oral administration, all liposomes elicited a certain degree of hypoglycemic effect in parallel with an increase in blood insulin level. The highest oral bioavailability of approximately 8.5% and 11.0% could be observed with subcutaneous insulin as reference for SGC-liposomes in non-diabetic and diabetic rats, respectively. Insulin-loaded liposomes showed slower and sustained action over a period of over 20 h with peak time around 8-12h. SGC-liposomes showed higher oral bioavailability than liposomes containing STC or SDC and conventional liposomes. The hypoglycemic effect was size-dependent with the highest at 150 nm or 400 nm and was proportionally correlated to the administered dose. The results supported the hypothesis of insulin absorption as intact liposomes. Copyright © 2012 Elsevier B.V. All rights reserved.