View clinical trials related to Neoplasms, Second Primary.
Filter by:This study will test the investigational antibody, MEDI6469 (anti-OX40), in combination with stereotactic body radiation in breast cancer patients that have liver or lung metastases and have received systemic therapy and have progressive disease. The investigators hypothesize that SBRT directed at metastatic breast cancer lesions will result in a systemic anti-tumor immune system response. This amplified and directed immune response could result in anti-tumor responses.
The purpose of this study is to evaluate efficacy and safety of mFOLFOX6+bevacizumab and mFOLFOX6+cetuximab for liver only metastasis from KRAS Exon 2 wild type (under protocol 1.0-1.2 edition) and RAS wild type (under protocol 2.0 edition) colorectal cancer.
The correlation between the values of angiogenesis-related growth factors in plasma and efficacy, and biomarkers relevant as prognostic factors or predictive factors for sensitivity or resistance to treatment will be examined exploratively.
A new bone-seeking radiopharmaceutical drug, called Radium-223 dichloride (formerly known as "Alpharadin"), is currently under development. It is an injectable aqueous solution containing radium-223, a radionuclide that emits radiation of another quality and with a different distribution than radiopharmaceuticals currently in use. After injection of the drug into the blood, a large portion of the drug will accumulate in the bones, and irradiate the skeletal metastases. The drug is expected to be retained longer in the painful sites of bone than in other sites of the body, and may alleviate pain through its radiation. Radium-223 is expected to be both efficacious as regards the targeted localised irradiation, and also to have a favourable safety profile. The radiopharmaceutical drug Radium-223 has not been given to humans before. In this first clinical study in man, a so-called phase I study, the safety, tolerance and the toxicity of various radioactivity doses of Radium-223 will be evaluated.
The surface molecule CCR5 is found on tumor cells within liver metastases of colorectal cancer. Inhibition of this molecule leads to a reduction in growth signals for tumor cells and subsequent slowed or halted tumor growth. The agent for the inhibition of CCR5 has already received FDA approval for treatment of HIV and has shown little side effects and toxicities even on long term treatment. Therefore CCR5-inhibition has the potential of providing non-toxic tumor growth inhibition.
Colorectal cancer (CRC) is the second leading cause of cancer deaths in the United States. About 90% of CRC related deaths are due to metastatic spread—mostly to the liver and lungs. With adequate multidisciplinary patient selection, CRC liver and lung metastasectomy significantly improves survival and offers the best chance for a cure. However, patients with limited lung or liver metastases are clinically underserved and poorly scientifically studied. The individual indication for resection and the decision making for adjuvant systemic therapies remains a challenge. More sensitive techniques to detect occult disease are needed for metastatic CRC (mCRC) patients, and perioperative analysis of circulating tumor cells (CTCs) may provide an outstanding opportunity to develop such innovative methods. We hypothesize that CTCs are enriched during CRC liver and/or lung metastasectomy, and that they can be isolated and characterized in an attempt to identify novel therapeutic targets. CTCs are believed to be causing metastasis and may provide a non-invasive alternative to organ biopsies for the detection, characterization and monitoring of solid cancers. CTC numbers have been shown to be a strong predictor of Progression Free Survival and Overall Survival for mCRC patients. The CellSearch system (Veridex LLC, Ratinas, NJ, USA) currently is the only FDA approved test for the evaluation of CTC numbers in metastatic breast, prostate and colorectal cancer. However, the rarity of CTCs in the blood leads to limited capture efficiency and the CellSearch system fixes cells, preventing further molecular characterization of CTCs by functional assays and primary cell culture. In this protocol the CellSearch system will be compared to a new technology, called the Flexible Micro Spring Array (FMSA) device, developed by Dr. Zheng, Department of Bioengineering, Penn State University, University Park. This novel approach enables size-exclusion based filtration for viable CTC enrichment. The FMSA device is inexpensive, works rapidly, and retains viable CTCs for further biological study. Using both the CellSearch system and the FMSA device, we will determine the kinetics of CTC shedding into circulation, develop an effective system for isolation, enumeration, and further enrichment CTCs, and use this system to find characteristics of different CTC populations.
Melanoma is a life-threatening cancer which poses a significant health burden, especially when metastatic or spreading to areas other than the original tumor growth. Although various treatment options are currently available for melanoma, melanomas that have metastasized widely to the skin pose a significant clinical challenge as the available therapies have limited effect. This study proposes the use of a topically applied compound named diphenylcyclopropenone (DPCP) which has been shown to be effective in treating melanoma patients whose diseases have spread widely throughout the skin. DPCP works by having a patient's own immune system, which is usually used to fight infections, attack cancerous cells. This compound has commonly been used to treat other conditions such as warts and hair loss throughout the world for many years and is known to cause limited side effects. Altering a patient's own immune system through topical treatments has also been shown to benefit patients with other cancers that have metastasized to skin such as breast cancer. In this study, the investigators will use DPCP to treat cutaneous metastases of various cancers including melanoma. Our overall intention is to get a better understanding of effective immune responses in the skin that may mediate metastatic cancer regression or cure.
The purpose of this study is to assess the feasibility of selecting personalized therapies for colon cancer patients who have failed standard treatments, using a new methodology based on the determination of a profile of chemosensitivity by comprehensive genetic expression analysis from tumor samples.
The folate receptor is over-expressed on many types of cancer cells and new folate receptor targeted therapies are being developed to target cancer cells that over-express the folate receptor. As with other targeted therapies, it is important to develop diagnostic tests that will provide accurate information on folate receptor status and aid in selecting patients that may benefit from folate-targeted therapy.
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%