View clinical trials related to Chordoma of Sacrum.
Filter by:In this study the investigators will study the effects of neoadjuvant radiation therapy (RT), in the form of either proton therapy or stereotactic body radiation therapy (SBRT), on the Circulating tumor DNA (ctDNA), radiographic changes and radiomics, and the validity of these findings will be compared using the current gold standard- pathologic findings. The purpose of this work is to explore whether the biomarkers may be used diagnostically to better understand radiographic changes following RT. The investigators hypothesize that ctDNA levels in combination with imaging biomarkers identified through radiomics will be a sensitive and specific tool for predicting histopathologic response to RT.
This study evaluates the intratumoral administration of escalating doses of a novel, experimental drug, INT230-6. The study is being conducted in patients with several types of refractory cancers including those at the surface of the skin (breast, squamous cell, head and neck) and tumors within the body such (pancreatic, colon, liver, lung, etc.). Sponsor also plans to test INT230-6 in combination with anti-PD-1 and anti-CTLA-4 antibodies.
There are two types of external radiation treatments; proton beam and photon beam radiation. What type of therapy participants will receive will depend upon the location of their tumor. Standard treatment would involve receiving either proton or photon radiation delivered by a three dimensional (3-D) conformal radiation technique. 3-D conformal radiation therapy is a technique where the beams of radiation used in the treatment are shaped to match the tumor in order to avoid damaging the healthy surrounding tissue. Standard treatment also may include photon radiation delivered by intensity modulated (IMRT) technique. In this research study we are using an investigational technique to deliver proton radiation therapy called intensity modulated proton radiation treatment (IMPT) which is used to target cancer while sparing healthy tissue. With IMPT (and standard IMRT), radiation intensity can be turned down during the treatment. This control over the intensity of the radiation dose has the potential to provide accuracy and allows us to more safely increase the amount of radiation delivered to the tumor. This accuracy may potentially reduce side effects that patients would normally experience with 3-D proton radiation therapy. Surgery is often an important component of the treatment for these tumors and may be integrated with the IMPT.