View clinical trials related to Neoplasm Metastasis.
Filter by:Preliminary studies with a variety of vaccines suggest target accessibility (potential immunogenicity) in a variety of solid tumors to immune directed approaches. In an effort to overcome limitations of immunostimulatory cancer vaccines, Gradalis has designed a novel autologous vaccine to address inability to fully identify cancer associated antigens, antigen recognition by the immune system (i.e. antigen-->immunogen), effector potency, and cancer-induced resistance. In an effort to overcome limitations of immunostimulatory cancer vaccines, we designed a novel dual-modulatory autologous whole cell vaccine, Vigil™, incorporating the rhGMCSF transgene and the bifunctional shRNAfurin (to block proprotein conversion to active TGFb1 and b2) to 1) address the inability to fully identify cancer associated antigens, 2) effect antigen recognition by the immune system, 3) enhance effector potency, and 4) subvert endogenous cancer-induced immune resistance. We have also completed the Phase I assessment of Vigil™ vaccine in 30 advanced solid tumor patients (1.0 x 10^7 cells/injection/month for a maximum of 12 vaccinations) who have not experienced any significant adverse effects following 144 vaccinations, including 6 patients with colorectal carcinoma. Plasmid functionality, immune biomarker response, and preliminary evidence of anticancer activity have been observed. This is a two-part Phase II study of the Vigil™ autologous vaccine. Six patients will be enrolled into the Part 1 of the study to receive intradermal autologous Vigil™ cancer vaccine (1.0 x 10^7 cells/injection; maximum of 12 vaccinations). Part 2 of the study will be a randomized Phase II study of sandwich or adjuvant chemotherapy and intradermal autologous Vigil™ cancer vaccine (1.0 x 10^7 cells/injection; maximum of 12 vaccinations) versus sandwich or adjuvant chemotherapy and placebo in patients with colorectal carcinoma with either synchronous or metachronous liver metastases (CLM +/= pulmonary metastases) following resection +/= ablation with curative intent.Sandwich therapy indicates a combination of both pre-operative and postoperative chemotherapy as opposed to neo-adjuvant (all chemotherapy prior to surgery) or adjuvant (all chemotherapy following surgery) therapy. A minimum harvest aliquot to produce 4 monthly injections will be required for entry into the study. Patients in whom insufficient tissue (<4 doses) is collected or whose vaccine fails manufacturing release criteria will not receive vaccine.
This is a Phase I safety trial of bifunctional shRNA-STMN1 (pbi-shRNA™STMN1) BIV (bilamellar invaginated vesicle) lipoplex (LP), pbi-shRNA™ STMN1 LP administered by a single intratumoral (IT) injection. Patients with superficially accessible advanced cancer following prior therapies will be entered into the study following a modified dose escalation design based on the demonstrated safety of our previous clinical experience (BB-IND 13744) with the same liposome and vector DNA backbone expressing a different transgene (of which doses up to 7 mg DNA IV/single dose have been administered). Patients will accrue in 4-patient escalation cohorts using a modified Fibronacci escalation schema (100%-50%-33%-33%) at a starting intratumoral dose of 0.010 mg/kg of DNA through a dose of 0.053 mg/kg DNA intratumoral / single dose. Should a single, but not more than two (2), ≥ Grade 3 Dose Limiting Toxicity (DLT) occur in any cohort, following mandated review (see below) an additional two (2) patients will be accrued at that dose (total of six). If more than one ≥ Grade 3 toxicity occurs in any cohort, the preceding dose cohort will be expanded to six (from four) and if < 2/6 patients experience ≥ Grade 3 toxicity, that dose will be the Phase II recommended dose. Should no ≥ Grade 3 toxicity occur in any cohort (other than Grade 3 local injection site reaction), an additional two (2) patients will be treated at 0.053 mg/kg DNA intratumoral / single dose.
People with brain metastases from melanoma are offered different treatment options after local treatment of their brain metastases via surgery or stereotactic irradiation. Depending on the treating institution and the clinician involved a patient may or may not be offered whole brain radiotherapy (WBRT) after their brain metastases are excised or treated with stereotactic irradiation. This trial seeks to determine if WBRT reduces the spread of brain metastases and lengthens the time to recurrence. The trial also examines the effect of WBRT on quality of life and brain functions such as memory, speech and concentration. Participants will be randomised after local treatment of their brain metastases to either WBRT or observation. 220 people will be recruited from sites in Australia, Norway, the UK, the US and other international sites.
About a third of patients with breast cancer are usually treated by hormone pills called tamoxifen and aromatase inhibitors. Aromatase inhibitors are drugs that stop female hormone production. Female hormone or estrogen is an important hormone for the growth of breast cancer cells. Letrozole is one of the aromatase inhibitors that is approved by the FDA and has been used to treat breast cancer since 1997. However, hormone pills usually work for about 6-10 months in most patients. Later on, breast cancer will start to grow again. This condition when hormone pills or endocrine therapy no longer work is called "endocrine resistant" breast cancer. The scientists here at University of Maryland have discovered how these cancer cells can become resistant to hormone pills. In our laboratory tests, the investigators found that lapatinib and everolimus can reverse this resistance and make letrozole work again. However, it is not known if the drugs can reverse the resistance in humans. The purpose of this study is to find out whether the combination of letrozole, lapatinib, and everolimus is effective in women with breast cancer when hormone pills no longer work. Lapatinib is an anti-cancer drug that is already approved by the Food and Drug Administration (FDA). It is the standard of care for the treatment of a particular type of breast cancer called human epithelial growth factor receptor 2 (HER2)-positive breast cancer. HER2 is a protein involved in the growth of some cancer cells. This study will also include patients with HER2-negative breast cancer. This means that the cancer cells in these patients do not depend on the HER2 protein. The use of lapatinib in these patients is considered experimental. Everolimus is also an anti-cancer drug that is approved by the FDA for kidney cancer. Initial studies in mice and later studies in women with breast cancer have shown that everolimus may also slow the growth of breast cancer. The use of everolimus is experimental in this study.
The purpose of this study is to assess the efficacy, safety, and tolerability of GRN1005 in patients with brain metastases from non-small cell lung cancer (NSCLC).
The purpose of this study is to to evaluate the correlation of overall objective response according to RECIST v1.1. criteria evaluated by conventional imaging techniques, morphologic response by CT, and histopathologic response in patients with resectable hepatic metastasis secondary to colorectal cancer treated with bevacizumab in combination with XELOX.
Oral curcumin (complex C3, Sabinsa Corp, Utah) will be given to patients with inoperable colorectal metastases who will be commencing standard care oxaliplatin-based (FOLFOX) chemotherapy for up to 12 cycles(approximately 6 months) of treatment. Primary measurements focus on safety and tolerability. These will be recorded in real-time and report the number and severity of adverse events. Secondary measurements will include efficacy, (measured by response rate with RECIST and overall survival in months) supported by biomarker analysis.
The purpose of this study is to assess the feasibility, safety and efficacy of High Intensity Focused Ultrasound (HIFU) patients undergoing hepatectomy for colorectal liver metastases. This is a phase I/II study.
This is a phase II study to see how useful study drug AUY922 is in patients with metastatic pancreatic cancer who have received or are intolerant to first-line chemotherapy. AUY922 is an intravenous drug that blocks a protein called heat shock protein 90 (Hsp90). Hsp90 works by keeping a number of other proteins stable and active, including many proteins that are involved in tumor growth and death. When Hsp90 is blocked from working, it is believed that many of the other proteins that it stabilizes will also be blocked, which will cause tumor growth to slow or stop. During the study, patients will visit the clinic once a week, every 4 week cycles to receive AUY922 intravenously and to have tests and procedures done. As part of the study, archived tumor tissue will be collected and patients will be asked to have blood samples taken for pharmacokinetic testing. Patients will be invited to take part in an optional banking of blood samples for future studies. The primary hypothesis of this study is that AUY922 improves disease control rate compared with what would be expected from best supportive care.
The purpose of this study is to assess the efficacy, safety, and tolerability of GRN1005 in patients with brain metastases from breast cancer. For patients with HER2 positive metastatic breast cancer, GRN1005 will be assessed in combination with Trastuzumab (Herceptin®) as per standard-of-care practice. In addition, this study will evaluate the ability of 18F-FLT to determine if the amount of change in the uptake in the brain metastases from breast cancer after GRN1005 treatment, correlates with intra-cranial response (for patients enrolled at NCI).