A new radiopaque embolizing agent for the treatment of endoleaks after endovascular repair: influence of contrast agent on chitosan thermogel properties.

A new injectable radiopaque embolizing agent has been developed, based on chitosan thermogelling properties. Different commercial contrast agents (Isovue®, Visipaque®, and Conray®) were associated with chitosan-ß-glycerophosphate. Their impact on gelation kinetic, mechanical properties, radiopacity, and cytotoxicity was tested to evaluate the best candidate and its feasibility for the treatment of endoleaks after endovascular aneurysm repair (EVAR). Addition of contrast agents did not prevent gelation at body temperature, but it significantly increased the viscosity of the solution before gelation, delayed gelation, and reduced the gelation rate. However, using chitosan with a high degree of deacetylation and 20 vol % contrast agent made it possible to obtain a gel with rapid gelation that was visible during X-ray based guided intervention. Hydrogels exhibit relatively low mechanical properties, which are only slightly modified by the addition of contrast agents. In vitro studies have demonstrated rapid release of contrast agents from hydrogels when immersed in a saline solution (>50% within 4 h). This is suitable for embolization, as radiopacity is required only to follow the embolization procedure, while long-term radiopacity would hamper further imaging and endoleak detection. Cytotoxicity and osmolality testing of extracts demonstrated some toxicity of products released by the gel during the first few hours, which is mainly related to their hypertonicity. After the first 24 h incubation, hydrogels released no more cytotoxic compounds, suggesting that the hydrogel rapidly becomes biocompatible. Altogether, this study suggests that the new radiopaque thermogels present interesting characteristics as embolizing agents for EVAR, although their mechanical properties require improvement.

A new injectable radiopaque chitosan-based sclerosing embolizing hydrogel for endovascular therapies.

Endovascular repair of abdominal aortic aneurysms with a stent graft is limited by the persistence or recurrence of endoleaks. These are believed to be related to the recanalization of the aneurismal sac by endothelialized neochannels, which could lead to late type I and II endoleaks. Embolization has been proposed to treat or prevent endoleaks, but presently commercialized embolizing materials have several drawbacks and do not fully prevent endoleak recurrence. A novel chitosan hydrogel that is injectable, radiopaque and contains sodium tetradecyl sulfate (STS), a well-known sclerosing agent, was developed in order to combine blood flow occlusion and endothelium ablation properties. chitosan/STS hydrogels were characterized and optimized using rheometry, scanning electron microscopy, swelling and ex vivo embolization assay. They were shown to exhibit rapid gelation and good mechanical properties, as well as sclerosing properties. Their potential for the embolization of aneurysms was subjected to preliminary in vivo evaluation in a bilateral iliac aneurysm model (three dogs) reproducing persistent endoleaks after endovascular aneurysm repair (EVAR). At 3 months no endoleak was detected in any of the three aneurysms treated with chitosan/STS hydrogels. In contrast, type I endoleaks were detected in two of the three aneurysms treated with chitosan hydrogels. Generally, chitosan/STS hydrogels have great potential as embolizing and sclerosing agents for EVAR and possibly other endovascular therapies.