Hepatic intra-arterial cetuximab in combination with 5-fluorouracil and cisplatin as salvage treatment for sorafenib-refractory hepatocellular carcinoma.

BACKGROUND: Sorafenib is the only therapy approved for advanced hepatocellular carcinoma no longer eligible for transcatheter arterial chemoembolization. Hepatic intra-arterial chemotherapy has been shown to be an effective and safe therapy for advanced hepatocellular carcinoma. Cetuximab has been administered intravenously to patients with advanced hepatocellular carcinoma, showing encouraging results in terms of its safety and toxicity profile. AIM: Our purpose was to evaluate the safety and feasibility of hepatic arterial chemotherapy with cetuximab, cisplatin and 5-fluoruracil for patients with advanced hepatocellular carcinoma, not responsive or not eligible for sorafenib therapy. PATIENTS AND METHODS: From January 2010 to January 2011, 12 patients received a 2-day course of chemotherapy consisting of repeated daily hepatic arterial administration of 20 mg of cisplatin as 2-h infusion, 5-fluorouracil at 500 mg/m(2) as 5-h infusion and cetuximab 500 mg/m(2) as 12-h infusion. Cycles were repeated every 14 days. RESULTS: After a mean of four months of therapy, computed tomography revealed five partial responses, five cases of stable disease and two of progressive disease. The toxicity profile was favourable, with no G4 gastrointestinal, hematologic or skin side-effects, or severe deterioration of liver function. CONCLUSION: Hepatic intra-arterial chemotherapy with cetuximab is a safe and feasible treatment for advanced hepatocellular carcinoma, with promising results in patients with initial poor prognosis.

Predicting and preventing cardiotoxicity in the era of breast cancer targeted therapies. Novel molecular tools for clinical issues.

Treatment of breast cancer (BC) has changed over the last decade with the advent of targeted therapies. Whereas traditional chemotherapy was directed toward all rapidly dividing cells (cancerous or not), several new anti-cancer drugs are mainly tailored to specific genetic pathways of cancer cells. Ideally, the goal of these new therapies is to improve the management of cancer with a specific targeting of the malignant cell and fewer side effects than traditional chemotherapy. Due to the initial success of this approach, an increasing number of targeted drugs entered into clinical development. However, unanticipated side effects of the new drugs, such as cardiotoxicity and heart failure, emerged from several clinical trials. The mechanisms of cardiotoxicity due to traditional chemotherapy and the one due to new drugs seem to be inherently different. In the case of BC, available targeted therapies are probably associated with the abrogation of normal molecular pathways involved in cardiomyocytes and endothelial cells survival/proliferation. The cardiac safety profile of these new drugs asks for a careful patient monitoring and follow up. Herein we will review the cardiotoxicity of BC patients receiving antiERBB2 treatment (Trastuzumab, Lapatinib), VEGF inhibitors (Bevacizumab) and tirosin-kinase inhibitors (Sorafenib, Sunitinib). We will discuss the molecular mechanisms that underlie the risk of cardiotoxicity, and we will examine the molecular tools useful for prediction of heart failure and for identification of subgroups of BC patients more susceptible to cardiac side effects induced by targeted therapies. Attention will be paid in particular to ERBB2 gene and its polymorphisms, as well as to the possible genetic risk stratification of BC patients. Finally, we will discuss the possible clinical strategies to prevent and minimizing the cardiotoxicity of targeted therapies in BC patients, focusing in particular on new drugs combination and on the emerging role of a tight partnership between cardiologists and oncologists.