UMLS:C0598934 - FACTA Search

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Query: UMLS:C0598934 (tumor growth)
58,965 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lung cancer is the leading cause of cancer-related mortality in the United States. Patients treated with adjuvant chemotherapy have a 5-year survival rate of 25% to 70% depending on stage, whereas those with advanced disease have a median survival of approximately 8 months when treated with standard platinum-based therapy. Improvements in our understanding of cancer biology have led to the development of novel agents that more precisely affect the target of interest, allowing for a more rational approach to clinical trial design. Angiogenesis, the growth of new vessels from preexisting vessels, is a fundamental step in tumor growth and progression. Inhibition of tumor-related angiogenesis has become an attractive target for anticancer therapy. Bevacizumab, a monoclonal antibody against vascular endothelial growth factor (VEGF), is the most studied antiangiogenic agent in patients with non-small-cell lung cancer (NSCLC). There was an improvement in overall survival when bevacizumab was combined with paclitaxel and carboplatin in patients with advanced NSCLC that was not seen when bevacizumab was combined with cisplatin and gemcitabine. Studies with bevacizumab in the adjuvant and advanced setting are ongoing in patients with NSCLC. Small-molecule inhibitors targeting the VEGF receptor and the tyrosine kinase receptor have also shown promise when combined with standard chemotherapy, but their role in the treatment of patients with NSCLC remains to be determined. This article reviews clinical trials that have incorporated antiangiogenic agents in the treatment of patients with NSCLC.
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PMID:Emerging data with antiangiogenic therapies in early and advanced non-small-cell lung cancer. 1936 48

The essential role of angiogenesis in tumor growth and metastasis is well established. The key mediator of angiogenesis, vascular endothelial growth factor (VEGF), is a rational target for novel therapy. High VEGF levels correlate positively with reduced overall survival (OS) and relapse-free survival. Several molecular targeted agents that inhibit VEGF or its receptors are currently in late-stage development or available for the first-line treatment of advanced non-small-cell lung cancer (NSCLC). Bevacizumab is a humanized monoclonal antibody against VEGF that has proven efficacy when combined with different chemotherapy regimens. In the pivotal US phase III trial (E4599) combining bevacizumab with carboplatin/paclitaxel, significantly improved clinical outcomes were observed in terms of OS, progression-free survival (PFS), and response rate (RRs). Although the phase III AVAiL (Avastin in Lung Cancer) trial (BO17704) combining bevacizumab with cisplatin/gemcitabine also showed improved outcomes in terms of PFS and RR, OS data is immature. Bevacizumab is the first agent to improve clinical outcomes when combined with doublet chemotherapy and administered until disease progression. Herein, key clinical data from trials of antiangiogenic agents in the first-line treatment of NSCLC are discussed, with a focus on bevacizumab, currently the only approved antiangiogenic agent for the treatment of NSCLC. The optimal integration of these agents into current and future first-line treatment regimens will be discussed, stressing the importance of therapeutic administration until disease progression. The promising activity of antiangiogenic agents in the advanced disease setting, allied with growing understanding of their novel modes of action, holds therapeutic promise for their future application in early-stage disease.
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PMID:New options for integrating antiangiogenic therapy and platinum-based first-line chemotherapy for advanced non-small-cell lung cancer. 1941 23

Interleukin-6 (IL6) and vascular endothelial growth factor (VEGFA) are abundantly produced by glioma cells and contribute to malignancy by promoting angiogenesis, cell proliferation and resistance to apoptosis. We compared the effect of inhibiting IL6 and VEGF on U87-derived experimental glioma grown on the chick chorio-allantoic membrane (CAM) or in the brain of xenografted mice. Tumor growth was monitored by biomicroscopy and immunohistology. In vitro, IL6 knockdown had no effect on proliferation but substantially enhanced invasion. In the CAM experimental glioma, IL6 or VEGF knockdown reduced growth and vascularization of the tumors with a comparable efficiency, but increased invasion of residual tumor cells. In contrast, combined IL6/VEGF knockdown not only showed enhanced reduction of tumor growth and angiogenesis but also significantly prevented invasion of residual tumor cells. In mice, combining IL6 knockdown and Avastin treatment completely abrogated tumor development and infiltration. Molecular response of tumor cells to single or combined treatment was studied by transcriptomic profiling. Many cell cycle promoting genes and chromatin components were silenced in the double knockdown. In addition, specific migratory signatures detected in tumors under single IL6 or VEGF knockdown were partially erased in combined IL6/VEGF knockdown tumors. Our results show that treatment with a combination of IL6 and VEGF inhibitors brings synergistic antitumoral benefit and reduces global activity of major pathways of cell survival, proliferation and invasiveness in remaining tumor cells that may be induced by using VEGF or IL6 inhibitors alone.
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PMID:Combined targeting of interleukin-6 and vascular endothelial growth factor potently inhibits glioma growth and invasiveness. 1943 Nov 43

To understand the mechanisms of the effects of combination treatments, we established animal models showing antitumor activity of bevacizumab as a monotherapy and in combination with capecitabine or capecitabine and oxaliplatin and measured thymidine phosphorylase (TP) and vascular endothelial growth factor (VEGF) levels. Tumor-inoculated nude mice were treated with bevacizumab, capecitabine, and oxaliplatin, alone or in combination, after tumor growth was confirmed and volume and microvessel density (MVD) in tumors were evaluated. Levels of TP and VEGF in the tumor were examined by ELISA. Bevacizumab showed significant antitumor activity as a monotherapy in three xenograft models (COL-16-JCK, COLO 205 and CXF280). The MVD in tumor tissues treated with bevacizumab was lower than that of the control. Antitumor activity of bevacizumab in combination with capecitabine was significantly higher than that of each agent alone (COL-16-JCK, COLO 205). Furthermore, the antitumor activity of bevacizumab in combination with capecitabine + oxaliplatin was significantly superior to that of capecitabine + oxaliplatin (COL-16-JCK). TP and VEGF levels were not increased by bevacizumab or capecitabine, respectively, suggesting there are other potentially efficacious mechanisms involved. In the present study we established human colorectal cancer xenograft models which reflect the efficacy of clinical combination therapies, capecitabine + bevacizumab and capecitabine + oxaliplatin + bevacizumab. We will further investigate the mechanisms of the combination therapies using these models.
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PMID:Antitumor activity of bevacizumab in combination with capecitabine and oxaliplatin in human colorectal cancer xenograft models. 1957 62

Inhibition of hypoxia inducible factor-1 (HIF-1) is an attractive therapeutic strategy to target the tumor microenvironment. However, HIF-1 inhibitors may have limited activity as single agents and combination therapies may be required. We tested the hypothesis that HIF-1 inhibition in a hypoxic-stressed tumor microenvironment, which could be generated by administration of antiangiogenic agents, may result in a more pronounced therapeutic effect. The activity of bevacizumab, either alone or in combination with the HIF-1alpha inhibitor topotecan, was evaluated in U251-HRE xenografts. Tumor tissue was collected at the end of treatment and changes in tumor oxygenation, angiogenesis, proliferation, apoptosis, HIF-1alpha levels, HIF-1 target genes, and DNA damage were evaluated. Bevacizumab decreased microvessel-density and increased intratumor-hypoxia, but did not induce apoptosis. Moreover, bevacizumab alone caused a significant increase of HIF-1-dependent gene expression in tumor tissue. Addition of a low dose of daily topotecan to bevacizumab significantly inhibited tumor growth, relative to mice treated with topotecan or bevacizumab alone (P < 0.01). The addition of topotecan to bevacizumab was also associated with profound inhibition of HIF-1 transcriptional activity, significant inhibition of proliferation, and induction of apoptosis. Importantly, DNA damage induced by topotecan alone was not augmented by addition of bevacizumab, suggesting that increased cytotoxic activity did not account for the increased antitumor effects observed. These results strongly suggest that combination of anti-vascular endothelial growth factor antibodies with HIF-1 inhibitors is an attractive therapeutic strategy targeting in the hypoxic tumor microenvironment.
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PMID:Increased antitumor activity of bevacizumab in combination with hypoxia inducible factor-1 inhibition. 1958 28

black triangle Bevacizumab is a recombinant, humanized vascular endothelial growth factor (VEGF) monoclonal antibody that inhibits tumor growth and tumor metastases. VEGF stimulates angiogenesis in tumors, is involved in early metastatic processes, and is overexpressed in non-small cell lung cancer (NSCLC). black triangle The addition of bevacizumab to standard chemotherapy significantly delayed disease progression in two large, randomized, phase III trials in chemotherapy-naive patients with advanced, nonsquamous NSCLC. In the open-label E4599 trial, median overall survival duration was significantly extended by 2 months and median progression-free survival was significantly increased by 1.7 months when intravenous bevacizumab 15 mg/kg once every 3 weeks was added to first-line carboplatin/paclitaxel therapy compared with carboplatin/paclitaxel alone. black triangle In the double-blind AVAiL trial, median progression-free survival was significantly increased (by 0.6 and 0.4 months) by the addition of intravenous bevacizumab 7.5 or 15 mg/kg once every 3 weeks to first-line cisplatin/gemcitabine therapy compared with placebo plus cisplatin/gemcitabine. However, median overall survival duration was not significantly improved (13.6 and 13.4 months vs 13.1 months). black triangle Response rates in the E4599 and AVAiL trials were 30-35% in patients receiving bevacizumab plus platinum-based chemotherapy compared with 15% and 20% without bevacizumab. black triangle The safety and tolerability profile of bevacizumab-containing treatment regimens in patients with advanced NSCLC was generally manageable in the E4599 and AVAiL trials, and in two large, ongoing, trials (the open-label SAiL and the observational ARIES studies).
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PMID:Bevacizumab plus platinum-based chemotherapy: in advanced non-small cell lung cancer. 1962 70

Most patients diagnosed with non-small cell lung cancer (NSCLC) have advanced disease. Chemotherapy has apparently reached a plateau of effectiveness in improving survival in this subgroup of patients. Considerable efforts have been initiated to identify novel targets for new biological agents which may be safely and effectively administered to NSCLC patients. New blood vessel formation, known as angiogenesis, is a fundamental event in the process of tumor growth and metastatic dissemination. The vascular endothelial growth factor (VEGF) and its receptors play an essential role in tumor proliferation. Approaches to limit VEGF activity include monoclonal antibodies (mAbs) and small molecules inhibiting the corresponding receptor-tyrosine kinase activity. Bevacizumab, an anti-VEGF recombinant humanized mAb, is the first targeted agent which, when combined with chemotherapy, has shown superior efficacy versus chemotherapy alone as first-line treatment of advanced NSCLC. Future clinical developments of bevacizumab in NSCLC treatment include the combination with other targeted therapies in advanced disease, and the integration into the combined modality approaches for the treatment of early and locally advanced disease stages. Vandetanib, a small molecule targeting VEGF tyrosine-kinase activity, due to first indications of antitumor activity and the excellent toxicity profile seems to be a promising agent for the treatment of advanced NSCLC. Other antiangiogenic drugs, such as sorafenib, sunitinib, VEGF Trap and a new class named 'vascular disrupting agents', which includes ASA404, are being tested in ongoing clinical trials which will further define their role in the management of NSCLC. This paper reviews the state of the art and the future developments of the main antiangiogenic agents in the treatment of NSCLC patients.
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PMID:Angiogenesis inhibitors and vascular disrupting agents in non-small cell lung cancer. 1974 32

Tumor angiogenesis is an important component of cancer biology driven in part by the thesis that inhibition of tumor vessel growth would be expected to starve and thereby disrupt tumor growth. A significant portion of research on tumor angiogenesis has focused on VEGF and its blockade with the expectation that dramatic results would be demonstrated in cancer patients as previously documented in animal models. However, to date, anti-VEGF (bevacizumab, Avastin) therapy alone has demonstrated little if any antitumor activity or survival benefit in humans. Interestingly, bevacizumab in combination with chemotherapeutic agents appears to result in a modest survival benefit in patients with various malignancies. This has prompted the re-evaluation of the biological effects resulting from VEGF blockade. Recent reports indicate that inhibition of VEGF and its receptor can have dramatic and unexpected effects on mural and perivascular cells in the tumor microenvironment, leading to vascular smooth muscle cell/pericyte activation and vessel normalization/maturation. Specifically, when VEGF levels in tumors are high, recent studies suggest that this leads to reduced responsiveness of the mural cell to the related growth factor, platelet-derived growth factor. This raises the possibility that in addition to the demonstrated anti-angiogenic effect of VEGF neutralization, mural cell recruitment and thus vascular maturation might be among the most critical activities of anti-VEGF agents. This review seeks to explore how VEGF blockade impacts tumor vascular maturation and considers its implications for cancer therapy.
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PMID:VEGF as an inhibitor of tumor vessel maturation: implications for cancer therapy. 1976 18

Overexpression of vascular endothelial growth factor (VEGF) by tumor cells promotes angiogenesis, which correlates with progressive tumor growth and poor outcomes in many types of cancer. Bevacizumab inhibits VEGF to promote regression of tumor vessels by limiting blood supply and tumor growth, enhancing delivery of chemotherapy, and inhibiting formation of new vessels. Combined with chemotherapy, bevacizumab prolongs progression-free and overall survival over chemotherapy alone in patients with metastatic carcinoma of the colon and rectum; unresectable, locally advanced, recurrent or metastatic non-squamous, non-small cell lung cancer (NSCLC); and metastatic HER2-negative breast cancers (mBC). Side effects, including hypertension, proteinuria, bleeding, arterial thrombotic events, and impaired wound healing, can be clinically significant, particularly in patients with risk factors. To optimize patient outcomes, nurses should understand bevacizumab's role in cancer therapy, recognize symptoms of toxicity, and manage its side effects. This article describes the rationale for bevacizumab in the treatment of metastatic colorectal cancer, NSCLC, and mBC and discusses patient selection, treatment duration, and side-effect management to support the role of oncology nurses in caring for, educating, and enhancing treatment adherence among patients with cancer receiving bevacizumab. Two case studies are presented as examples of the complex scenarios nurses may encounter regarding these issues.
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PMID:Oncology nursing in a new era: optimizing treatment with bevacizumab. 1979 13

High-grade gliomas (HGGs) are vascular tumors that represent attractive targets for antiangiogenic therapies. In this Review, we present the rationale and clinical trial evidence for targeting angiogenesis in HGGs, focusing predominantly on agents that target vascular endothelial growth factor (VEGF) and its receptors. Bevacizumab, a humanized monoclonal antibody against VEGF, was recently approved by the FDA for treatment of recurrent glioblastoma. Bevacizumab prolongs progression-free survival and controls peritumoral edema, but its effects on overall survival remain to be determined. Other inhibitors of VEGF, VEGF receptors and other proangiogenic signaling pathways are being evaluated. Antiangiogenic therapies are well tolerated, although potentially serious adverse events can occasionally occur, and resistance to antiangiogenic therapy inevitably develops. Mechanisms of resistance include upregulation of alternative proangiogenic pathways, and increased perivascular tumor growth. Tumor progression on antiangiogenic agents is a challenging problem for which no effective salvage therapy has been identified. Combining these agents with radiation therapy, cytotoxic chemotherapy, other targeted molecular agents, or anti-invasion therapies could be helpful. The international Response Assessment in Neuro-Oncology Working Group has developed consensus treatment response criteria for HGG that account for the complex effects of antiangiogenic drugs.
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PMID:Antiangiogenic therapies for high-grade glioma. 1982 1

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