Active clinical trials for "Neoplasms, Second Primary"

This is a randomized ,opened, prospective controlled trial of clinical effectiveness for Icotinib as the adjunctive treatment after surgery in stage I-IIIB lung adenocarcinoma patients with epidermal growth factor receptor gene mutation

It is a non-randomized pilot study.The allocation will be determined by patients or their immediate family members who were cooperative with physician's interpretations on the disease progression and updated information of cutting of edge treatment, the financial affordability, availability of treatment plans, possible tolerance or risks etc.The purpose of this study is to investigate the clinical efficacy and toxicity of autologous cellular immunotherapy combined with hyperthermia in abdominal and pelvic malignancies or metastases patients. Furthermore, to characterize response to different regimens,the investigators intent to explore the predictive and prognostic biomarker, as well as the changes in immune repertoire.

Tyrosine Kinase inhibitors (TKIs) have become standard of care in patients with EGFR mutations in non-small cell lung cancer and other EGFR-mutated cancers. However, TKIs are well-known to cause cutaneous adverse events, including acneiform eruptions. Moderate to severe acneiform eruptions are often associated with severe pruritus and pain. Current treatment recommendations rely on expert consensus. Moderate and severe reactions requiring systemic therapy, usually tetracycline antibiotics or isotretinoin. No randomized trial has compared the relative effectiveness of tetracyclines versus isotretinoin. The objective of this unblinded, randomized trial is to compare tetracyclines to isotretinoin for treatment of moderate to severe acneiform eruptions in cancer patients on tyrosine kinase inhibitors. The primary aim of this clinical trial is to elucidate which systemic treatment is more effective in clearing acneiform eruptions caused by TKIs. The results of this study will add to the literature in this field and will aid in developing evidence based clinical guidelines.

The study aims to evaluate if adding vertebroplasty to radiotherapy, in the treatment of spine metastasis from breast and prostate cancer, is preferable to radiotherapy alone. The investigators hypothesize that, by combining vertebral augmentation with cement and radiotherapy, they could achieve an enhancement in pain relief and level of activities, as well as a decrease in the side effects of multiple medications used for pain control.

To observe the effect of thalidomide combined with megestrol acetate on lymphocyte, inflammatory factor regulation and nutritional status in patients with advanced malignant tumors.

This phase I trial studies the side effects of dynamic contrast enhanced magnetic resonance imaging (DCE-MRI) in patients with advanced breast or pancreatic cancer with metastases to the liver or lung. Diagnostic procedures, such as DCE-MRI, may help measure a patient's response to treatment

Trial Hypothesis: Acute, progressing lethal neurooncological process can be transferred into chronic and non-lethal, the survival rates and life quality can be improved by of control of tumor cells (TCs) quantity and targeted regulation of effector functions of tumor stem cells (TSCs). Brief Description: The first line therapy of brain metastases of breast cancer (BMBC) involves allogeneic haploidentical hematopoietic stem cells (HSCs), dendritic vaccine (DV) and cytotoxic lymphocytes (CTLs). TCs and TSCs are isolated from BMBC sample. Dendritic cells are isolated from peripheral blood mononuclear cells and cultured. Tumor sample provides tumor specific antigens to prepare DV. CTLs are obtained from peripheral blood after DV administrations. HSCs are harvested from closely related donor after granulocyte-colony-stimulating factor (G-CSF) administration. Allogeneic HSCs are administered intrathecally 5 times every 2 weeks, at day 1, 14, 28, 42, 56. DV is given 3 times every 2 weeks (day 14, 28, 42) subcutaneously in four points. CTLs are administered every 2 weeks for 3 months, then 3 times every 1 month intrathecally. Six months after the therapy completion, the efficiency is evaluated and the cohort demonstrating efficiency continues the therapy, while cohort demonstrating no efficiency is transferred to active comparator arm. Second line therapy involves DV with recombinant proteins, CTLs and autologous HSC with modified proteome. Autologous HSCs are mobilized by G-CSF. Carcinogenesis-free intracellular pathways of signal transduction able to respond to targeted regulation of therapeutic cell systems with specific properties, are detected in TSCs using complete transcriptome profiling of gene expression, proteome mapping and profiling of proteins, bioinformation and mathematical analysis and mathematical modeling of protein profiles. To find key oncospecific proteins in TSCs and TCs, the targets for TSCs regulation are detected, as well as protein ligands able to regulate reproductive and proliferative properties of TSCs. Using these data of TCs and TSCs proteins, the cell preparations to initiate adoptive immune response are prepared: DV loaded with recombinant proteins analogous to key tumor antigens, CTLs and autologous proteome-based HSCs. Autologous HSCs, DV and CTLs are administered as in the first line therapy.

This clinical trial was designed to investigate the efficiency and toxicity of tomotherapy for refractory brain metastases.

RATIONALE: Identifying genes that increase a person's susceptibility to second cancers may help the study of cancer treatment. PURPOSE: This study is looking at genetic susceptibility and risk of second cancers in patients who have undergone stem cell transplant for cancer.

Trial Hypothesis: Acute, progressing lethal neurooncological process can be transferred into chronic and non-lethal, the survival rates and life quality can be improved by of control of tumor cells (TCs) quantity and targeted regulation of effector functions of tumor stem cells (TSCs). Brief Description: The first line therapy of brain metastases of lung cancer (BMLC) involves allogeneic haploidentical hematopoietic stem cells (HSCs), dendritic vaccine (DV) and cytotoxic lymphocytes (CTLs). TCs and TSCs are isolated from BMLC sample. Dendritic cells are isolated from peripheral blood mononuclear cells and cultured. Tumor sample provides tumor specific antigens to prepare DV. CTLs are obtained from peripheral blood after DV administrations. HSCs are harvested from closely related donor after granulocyte-colony-stimulating factor (G-CSF) administration. Allogeneic HSCs are administered intrathecally 5 times every 2 weeks, at day 1, 14, 28, 42, 56. DV is given 3 times every 2 weeks (day 14, 28, 42) subcutaneously in four points. CTLs are administered every 2 weeks for 3 months, then 3 times every 1 month intrathecally. Six months after the therapy completion, the efficiency is evaluated and the cohort demonstrating efficiency continues the therapy, while cohort demonstrating no efficiency is transferred to active comparator arm. Second line therapy involves DV with recombinant proteins, CTLs and autologous HSC with modified proteome. Autologous HSCs are mobilized by G-CSF. Carcinogenesis-free intracellular pathways of signal transduction able to respond to targeted regulation of therapeutic cell systems with specific properties, are detected in TSCs using complete transcriptome profiling of gene expression, proteome mapping and profiling of proteins, bioinformation and mathematical analysis and mathematical modeling of protein profiles. To find key oncospecific proteins in TSCs and TCs, the targets for TSCs regulation are detected, as well as protein ligands able to regulate reproductive and proliferative properties of TSCs. Using these data of TCs and TSCs proteins, the cell preparations to initiate adoptive immune response are prepared: DV loaded with recombinant proteins analogous to key tumor antigens, CTLs and autologous proteome-based HSCs. Autologous proteome-modified HSCs, DV and CTLs are administered as in the first line therapy.