View clinical trials related to Small Cell Lung Cancer.
Filter by:The purpose of this study is to compare two types of care - standard oncology care and standard oncology care with early palliative care (started soon after diagnosis) to see which is better for improving the experience of patients and families with advanced lung and non-colorectal GI cancer. The study will use questionnaires to measure patients' and caregivers' quality of life, mood, coping and understanding of their illness.
Pazopanib is a new cancer drug that works by limiting the growth of new blood vessels in tumours. About half of patients who take pazopanib develop high blood pressure (hypertension). This side effect can make patients have to reduce or stop their cancer treatment, and can cause other health problems. The aim of this study is to find out exactly how the drug causes high blood pressure.
This was a 2-arm, open-label, phase 2 study of pegylated arginine deiminase (ADI-PEG) 20 in subjects with relapsed sensitive or refractory small cell lung cancer (SCLC). ADI-PEG 20 was administered intramuscularly (IM) at a fixed dose of 320 IU/m^2 once weekly for a 4-week cycle. The primary objective was to assess clinical efficacy with a primary endpoint of tumor response by Response Evaluation Criteria in Solid Tumors (RECIST) version 1.1 after 4 weeks. Secondary objectives were to assess the safety, pharmacodynamics, and immunogenicity of ADI-PEG 20, as well as clinical efficacy with a secondary endpoint of overall survival.
Pazopanib is a drug that inhibits proteins thought to be important for new blood vessel formation. This drug has been used in other cancer research studies and information from those studies suggests that pazopanib may help block proteins that are important for the growth, invasion, and spread of cancer cells.
This an an open-label study to define the safety profile and the maximum tolerated dose and confirm the clinical effective dose of palifosfamide-tris given intravenously in combination with etoposide and carboplatin in a wide range of cancers which etoposide and carboplatin are normally given. Once the maximum dose of palifosfamide-tris is determined,a Phase II study using the 3 agents combined will begin.
The purpose of this study is to test safety and efficacy of this combination treatment (IMGN901, carboplatin and etoposide) in patients with solid tumors and extensive stage small cell lung cancer.
Lung cancer is currently the leading cause of cancer death in both men and women in Europe, with an estimated 250000 new cases diagnosed in 2005. The continued poor outcome of patients indicates that the current recommended regimens are falling short. In addition, many of the commonly used chemotherapy agents are associated with severe nonhematologic toxicities that are often cumulative and nonreversible and impair quality of life in this essentially palliative setting. Therefore, agents with novel mechanisms of action and superior safety profiles need to be investigated. More than 50% of lung cancer shows carcinoembryonic antigen (CEA) expression and anti-CEA radioimmunotherapy (RAIT) could be used. The investigators group showed that pretargeted RAIT (PRAIT) using bispecific antibody (bsMAb) can deliver a higher radiation dose to a tumor than a directly radiolabeled anti-CEA antibody, and shows improved anti-tumor efficacy. This clinical trial is designed to assess PRAIT using an entirely new recombinant anti-CEA bsMAb and a 177Lu-labeled peptide for the treatment of CEA-expressing small cell lung cancers (SCLC) or CEA-expressing Non Small Cell Lung Carcinoma (NSCLC)
Patients treated with radiation therapy for lung tumors can experience inflammation after treatment. This study hopes to evaluate the use of breath analysis to evaluate changes in the composition of exhaled breath in patients undergoing radiotherapy. If changes can be detected, this may ultimately serve as biomarkers for identifying patients at highest risk for radiation-induced lung injury (radiation pneumonitis).
Small cell lung cancer (SCLC) is a chemotherapy and radiotherapy sensitive tumor, but with very high rates of relapse and metastasis, resulting in a very poor outcome. Among limited-stage patients, the relapse rate is at least 80% and among extensive-stage patients, the relapse rate is 95-98%. The impetus to develop more effective therapies against novel targets in SCLC is therefore high. Hsp-90 inhibitors are a new class of drugs with important anti-malignant potential in a variety of tumor types because of the reliance of multiple oncoproteins on Hsp90 function. Although small cell neuroendocrine tumors generally carry many mutated oncoproteins, without clearly defined clients for Hsp90 mediating inhibitor effects in these cells, a recent study demonstrated that Hsp90 inhibition causes massive apoptosis by activating the intrinsic apoptotic pathway in a number of SCLC cell lines. SCLC is a particularly attractive target for apoptosis inducing drugs because of high growth rates and evidence of molecular alterations affecting apoptotic mechanisms. STA-9090 is a novel, small-molecule inhibitor of Hsp90. Unlike earlier generations of Hsp90 inhibitors, STA-9090 has been shown to be a potent inducer of apoptosis in a variety of cell lines and has anti-tumor activity in multiple types of human xenografts. As was seen with other Hsp90 inhibitors, STA-9090 also induces apoptosis in a number of SCLC cell lines. Based on the anti-tumor potential seen pre-clinically with Hsp90 inhibition, the potent effects of STA-9090 seen pre-clinically as compared with other inhibitors in the same class, as well as early data suggesting safety and tolerability of this drug in the Phase I setting, we propose to study the single-agent activity of STA-9090 in a Phase II trial of patients with relapsed or refractory small cell lung cancer.
The purpose of this study is to determine whether or not CTCs can be detected in blood samples taken from patients diagnosed with small cell lung cancer. The purpose is to compare CTC analysis to tumor samples to look for differences.