View clinical trials related to Small Cell Lung Cancer.
Filter by:Small cell lung cancer (SCLC) is an aggressive disease that is characterized by rapid growth and the early development of metastases. Patients typically respond to initial chemotherapy but quickly experience relapse, resulting in a poor long-term outcome. Therapeutic innovations that substantially improve survival have historically been limited, and reliable, predictive biomarkers are lacking. Ongoing research has advanced the understanding of molecular categories and the immunologic microenvironment of SCLC, which in turn has helped improve disease classification and staging. Considering the role of molecular alterations has not yet fully to be defined in the treatment of SCLC, there is an urgent recognition that molecular alterations in the SCLC are important to predict response and survival for novel therapies and ongoing clinical trials. Advances in research have revealed critical information regarding biologic characteristics of the disease, which may lead to the identification of vulnerabilities and the development of new therapies. Further research focused on identifying biomarkers and evaluating innovative therapies will be paramount to improving treatment outcomes for patients with SCLC. In summary, identification of (genetic) biomarkers in SCLC is increasingly essential to perform molecular diagnostics and individualized treatments. This project aims to create a registry of patients with SCCL to further the characterization of molecular alterations and develop (novel) treatments based on the detection.
This phase II study is designed to investigate the efficacy and safety of BL-B01D1 monotherapy, SI-B003 monotherapy, and BL-B01D1+SI-B003 combination therapy in patients with extensive-stage small cell lung cancer.
The study treatment will consist of a platinum drug (carboplatin or cisplatin per investigator's choice) plus etoposide plus durvalumab plus monalizumab every 3 weeks for 4 cycles. After 4 cycles, subjects will continue maintenance treatment with durvalumab plus monalizumab every 4 weeks until disease progression, unacceptable toxicity, decision to stop study treatment, or withdrawal of consent. Patients who have received one prior cycle of treatment before enrolling on the study will receive a total of 4 cycles with monalizumab, durvalumab, and chemotherapy. There will be a safety lead-in phase, including 6 to 12 patients, to confirm the safety of the proposed dose of monalizumab to use in combination with chemotherapy and durvalumab.
This is pilot study to establish a rapid autopsy program in Small Cell Lung Cancer (SCLC) at the Indiana University Simon Comprehensive Cancer Center and outline the components necessary for tumor tissue collection.
24 participants are expected to be enrolled for this open,Single-armed clinical trial to evaluate the safety and efficacy of the recombinant herpes simplex virus Ⅰ, R130 in patients with relapsed/refractory advanced solid tumors.
To evaluates the effectiveness and safety of Surufatinib combined with Serplulimab plus chemotherapy for the first-line treatment of ES-SCLC, and maintenance therapy are Surufatinib combined with Serplulimab
Phase Ia: single-dose escalation study: accelerated titration combined with traditional "3+3" dose. Sample size is correlated with the DLT occurring in each dose group. 4 dose groups are expected; the first dose group is the accelerated titration group, which includes only 1 subject; subsequent dose groups are in traditional "3+3" dose increments, with 3-6 subjects in each group; a total of 10-19 subjects are expected in all dose groups. If the DLT is still not present in the highest dose ,the safety monitoring committee(SMC) to determine if it is necessary to continue incrementally to a higher dose.
This is an open-label, non-randomized, single-center, phase II study to evaluate the efficacy, toxicity and, tolerability of pre-specified dose attenuated chemotherapy regimens in lung cancer patients with comorbidities.
The scope of the PICASSO project is to apply an innovative patient-based pan-omic approach to immune-assays, that will include multi-omics tumour characterization (genome, proteome, transcriptome), blood immune-cells and cytokine profiling, serological screening for paraneoplastic autoantibodies, clinical and metabolic measurements. The PICASSO project is aimed to validate in real world population the predictive role of SCLC transcriptomic classification (particularly, I-SCLC subtype) and to explore correlations with dynamic changes in peripheral blood immunity. Additionally, investigators expected to validate the predictive/prognostic role of emerging new variables, including metabolic-induced meta-inflammation alterations and subclinical auto-immunity.
This is a multi-center, open-label, dose-escalation and cohort-expansion phase I clinical study to evaluate the safety and tolerability, pharmacokinetics profile, efficacy and immunogenicity of IMM2520 in subjects with advanced solid tumors.