View clinical trials related to Hepatic Metastases.
Filter by:The oscillations of ultrasound (US) contrast agent microbubbles under their activation by US waves engender a modulation of the permeability of biological barriers amplifying hence the extravasation of drugs and/or fluorescent markers through a process known as sonoporation. In such a way, the bioavailability of the therapeutic agent is augmented only in the area where US waves are focused. The objective now is to translate this therapeutic approach to the clinic by performing a feasibility study with the development of a therapy regime optimized for hepatic metastases of colorectal cancer. In order to demonstrate the clinical feasibility of the therapeutic approach based on ultrasound and microbubbles, we will focus on patients with liver metastases of colorectal cancer treated with monoclonal antibodies in combination with chemotherapy.
Determine wether 24 months treatment with everolimus prolongs progression free survival rate (based on a central assessment) after embolisation ou chemoembolisation for liver metastases. - H0 a 24 months progression free survival rate less than 35% is unacceptable - H1 a 24 months progression free survival rate greater than 35% would show that everolimus treatment is beneficial, the expected 24 months progression free survival rate being 50%
The main purpose of this study is to determine if high doses of radiation using proton beam can be given safely with low and acceptable side effects. We will also gather information to determine the ability of proton beam to destroy cancer cells in the liver. There are two types of external radiation treatments (proton beam and photon beam). Proton beam radiation is a very accurate kind of treatment that has been shown to affect less normal tissue than a regular radiation beam. The accuracy allows us to more safely increase the amount of radiation delivered to eliminate cancer and may potentially reduce the side effects normally experienced with standard radiation therapy.