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Query: UMLS:C1519670 (tumor angiogenesis)
 6,052 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Vascular endothelial growth factor (VEGF) is one of the key growth factors regulating tumor angiogenesis and thus it is one of the primary targets for antiangiogenic therapy. The long-term effects of VEGF include induction of proliferation and migration of endothelial cells, tube formation and maintenance of the immature capillaries. The early effects of VEGF include vasodilation and increased permeability. We hypothesize that the early responses to VEGF can serve to develop a quantitative measure of the activity of VEGF, and therefore may be applicable for monitoring the efficacy of systemic suppression of VEGF signaling during antiangiogenic therapy. For that end we tested the ability of MRI and fluorescence microscopy to detect the early response to intradermal VEGF165 in nude mice. VEGF-induced local vasodilation and increased permeability was detected by intravenous administration of macromolecular biotin-BSA-GdDTPA(23) 30 min after intradermal administration of VEGF. Contrast leak showed saturation kinetics. Delayed contrast administration (90 min after intradermal administration of VEGF) resulted in low contrast leak and demonstrated that the saturation kinetics is not due to contrast equilibration between plasma and the interstitial space, but rather is due to suppression of vascular permeability. Permeability was restored by a second bolus of VEGF, showing that the saturation kinetics is primarily due to inactivation of the growth factor. Confocal microscopy of fluorescent BSA-FITC confirmed the permeability changes monitored by MRI. Moreover, confocal microscopy showed efficient lymphatic uptake of the extravasated contrast material specifically in regions of VEGF induced hyper-permeability.
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PMID:MRI and fluorescence microscopy of the acute vascular response to VEGF165: vasodilation, hyper-permeability and lymphatic uptake, followed by rapid inactivation of the growth factor. 1187 Sep 8

The present study emphasizes the importance of cell surface expression and secretion of heparanase (endo-beta-D-glucuronidase) in tumor angiogenesis and metastasis. For this purpose, nonmetastatic Eb mouse lymphoma cells were transfected with the predominantly intracellular human heparanase or with a readily secreted chimeric construct composed of the human enzyme and the chicken heparanase signal peptide. Eb cells overexpressing the secreted heparanase invaded a reconstituted basement membrane to a much higher extent than cells overexpressing the intracellular enzyme. Cell invasion was inhibited in the presence of laminaran sulfate, a potent inhibitor of heparanase activity and experimental metastasis. The increased invasiveness in vitro was reflected in vivo by rapid and massive liver colonization and accelerated mortality. In fact, mice inoculated with cells expressing the secreted enzyme succumb because of liver metastasis and dysfunction, as early as 10 days after s.c. inoculation of the cells, when their tumor burden did not exceed 1% of body weight. Cell surface localization and secretion of heparanase markedly stimulated tumor angiogenesis, as demonstrated by a 4-6-fold increase in vessel density and functionality evaluated by MRI of tumors produced by cells expressing the secreted vs. the nonsecreted heparanase, consistent with actual counting of blood vessels. Altogether, our results indicate that the potent proangoigenic and prometastatic properties of heparanase are tightly regulated by its cellular localization and secretion. The increased potency of the secreted enzyme makes it a promising target for anticancer drug development.
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PMID:Cell surface expression and secretion of heparanase markedly promote tumor angiogenesis and metastasis. 1209 47

Dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) is performed after the administration of intravenous contrast medium to noninvasively access tumor vascular characteristics. DCE-MRI techniques utilizing low-molecular-weight contrast media have successfully made the transition from methodological development to preclinical and clinical validation and are now rapidly becoming mainstream clinical tools. DCE-MRI using macromolecular contrast medium (MMCM) can also assay microvascular characteristics of human tumor xenografts. MMCM approval for human use will occur soon. The success of both techniques depends on their ability to demonstrate quantitative differences of contrast medium behavior in a variety of tissues. Evidence is mounting that kinetic parameters correlate with immunohistochemical surrogates of tumor angiogenesis, including microvessel density, and with pathologic tumor grade. DCE-MRI is being applied to monitor the clinical effectiveness of a variety of treatments, including antiangiogenic drugs. Kinetic parameter changes following treatment have correlated with histopathological outcome and patient survival. This article reviews the current clinical status of low-molecular-weight DCE-MRI and reviews the potential of MMCM techniques for evaluating human tumors. Ongoing challenges faced by DCE-MRI as clinical and research tools will be explored.
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PMID:Dynamic contrast-enhanced MRI in clinical oncology: current status and future directions. 1235 56

Studies on tumor angiogenesis and antiangiogenic therapies are commonly performed with tumor heterotransplants in nude mice. To monitor therapeutic effects, improved noninvasive analyses of functional data are required, in addition to the assessment of tumor volume and histology. Here, we report on sequential monitoring of vascularization of human squamous cell carcinomas growing as heterotransplants in nude mice using MRI. Using a custom-developed animal coil in a conventional whole-body 1.5 T MRI scanner, dynamic T1w sequences were recorded after i.v. injection of Gd-DTPA in tumors grown for 17, 21, 25, 29 and 33 days. Amplitude and the exchange rate constant (k(ep)) were calculated according to a 2-compartment model, discriminating intravascular and interstitial spaces, and correlated with tumor size and histology. High-resolution imaging of small heterotransplants from 100 to 1,000 mm(3) was achieved, clearly discriminating vital and necrotic areas. Preceding the development of necroses, which were hyperintense in T2w images and confirmed with histology, a local decrease of amplitude and k(ep) values was observed. Significantly higher amplitudes were found in tumor periphery than in central parts, correlating well with the vascular pattern obtained by immunocytochemistry. Tumor size correlated negatively with amplitude, probably as a result of increasing necrotic areas, whereas the reason for the observed increase of k(ep) value with tumor size remains unclear. These data demonstrate that dynamic MRI is an excellent method for noninvasive assessment of tumor vascularization in small animals using a clinical whole-body scanner with little technical modifications. This technique provides functional data characterizing essential features of tumor biology and is thus appropriate for monitoring antiangiogenic therapies.
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PMID:Dynamic T1-weighted monitoring of vascularization in human carcinoma heterotransplants by magnetic resonance imaging. 1253 27

The natural history and survival of breast cancer are extremely variable although the advances and improvement in treatment in recent years led to a lower mortality. In fact, in spite of the administration of systemic adjuvant therapy, women with metastatic lymph nodes at diagnosis have a risk of disease progression at 5 years of 40-50%. The disease heterogeneity and the intrinsic tumor cell resistance to therapies are determining factors of the problem. The role of parameters as tumor size, grading, vascular spread, axillary lymph node status, are well defined. However the increasingly early diagnosis and changes in clinical practice have led to the need for non morphologic parameters as estrogen and progesteron receptors, cell proliferation index, labelling index, growth factors tumor-dependent genes (p53, HER2), cell cycle regulators (cyclins). Specific cellular and molecular alterations are studied to identify diagnosticoinstrumental images (MRI) of tumor angiogenesis, the cause of the different tumor aggressiveness. In the surgical and consequently clinico-oncologic approach there is the problem of the interpretation and prognostic role of sentinel lymph node when it is positive for micrometastasis only, if diagnosed by immunohistochemistry.
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PMID:Biological factors and therapeutic modulation in breast cancer radiotherapy. 1269 49

Antiangiogenic therapy is a promising new strategy to inhibit tumor growth and formation of metastases. VEGF (vascular endothelial growth factor) is known to be the most important proangiogenic factor, necessary for the development of new tumor vessels. Specific inhibitors of the VEGF receptor tyrosine kinases, like PTK787/ZK222584 (PTK/ZK), have shown antitumoral and antiangiogenic activity in several animal models. Ongoing early clinical trials with antiangiogenic compounds reveal the need for diagnostic methods to detect their biological activity. Pro-angiogenic growth factors like VEGF and bFGF (basic fibroblast growth factor), soluble variants of proangiogenic receptors like sFLT-1 and sTIE-2, as well as endothelial activation markers like sE-Selectin, can be measured in the serum and plasma of patients by the ELISA technique. They were detected in various malignant diseases to assess their use as surrogate markers in tumor angiogenesis. In different clinical Phase I trials with antiangiogenic compounds, these soluble markers were used to detect dose levels for biological activity. Soluble markers of tumor angiogenesis can be used as prognostic markers in various malignancies like colon cancer or multiple myeloma. Furthermore, they correlated with disease activity, prognosis and imaging techniques for the detection of vascular changes. In clinical Phase I trials with specific inhibitors of the VEGF receptor tyrosine kinases, VEGF serum levels increased in patients treated with higher doses, indicating increasing tumor hypoxia. Taking results from imaging techniques such as dynamic enhanced MRI into account, optimal doses for biological activity could be concluded. New biological treatment techniques will need new diagnostic methods to assess their specific biological activity in patients. Soluble markers and imaging techniques are useful tools for the detection of hypoxia under antiangiogenic treatment. Nevertheless, these techniques are still experimental. Therefore, further clinical evaluation is necessary.
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PMID:Soluble markers for the detection of hypoxia under antiangiogenic treatment. 1282 Mar 65

Advances in imaging provide new insights into the pathophysiology of many diseases. Established imaging technologies such as MRI, CT, PET, and ultrasound are routinely applied to determine features of tumor blood vessels that distinguish them from normal blood vessels. These techniques yield information on blood flow, blood volume, and vessel permeability. Often, an intravenously injected imaging contrast agent without affinity to a specific target structure is applied to enable detection of malignant lesions. One of the emerging innovations in diagnostic imaging is the evolution of molecular imaging techniques. Molecular imaging is a noninvasive approach to determine the expression of indicative marker molecules of the tumor angiogenesis process. Meanwhile, this approach has been established for all imaging modalities and may further improve sensitivity of diagnostic tumor imaging. Another goal is to provide information with respect to drug treatment monitoring and therapeutic vascular targeting strategies.
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PMID:Molecular imaging of tumor angiogenesis. 1515 21

Many novel antiangiogenic agents are currently in various phases of clinical testing. These agents tend to be cytostatic, and therefore few responses are observed with conventional imaging by computerized tomography. Furthermore, toxicity with these agents is seen when the maximum-tolerated dose is combined with chemotherapy. Hence, there is a need to develop imaging strategies that can determine the minimum and optimum biologically active doses. There is increasing awareness of the need to obtain evidence of drug activity through the use of surrogate markers of the biologic mechanism of action during early clinical trials, in addition to determining the pharmacokinetics, toxicity profile, and maximum-tolerated dose. One of the major impediments to the rapid development of antiangiogenic agents in the past has been the lack of validated assays capable of measuring an antiangiogenic effect directly in patients. Recently, dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) has emerged as a useful technique for noninvasive imaging of tumor vasculature in preclinical and clinical models. The problem of tumor heterogeneity remains to be addressed. The major challenge is the standardization of the technique worldwide for the purpose of early clinical studies that are likely to be multicenter. Convincing data on correlations between changes observed through molecular imaging and changes in tumor angiogenesis, and hence tumor biology, are still lacking. Whether this would translate into a survival advantage remains to be seen. The ultimate test of the surrogate biological end points determined by molecular imaging will occur in randomized phase III trials. Results of the first randomized trial that showed a survival advantage in favor of antiangiogenic agents were released at the American Society of Clinical Oncology meeting in 2003. There it was reported that the combination of 5-fluorouracil, leucovorin, and irinotecan (Camptosar; Pfizer Pharmaceuticals; New York, NY) with anti-vascular endothelial growth factor antibody (bevacizumab-Avastin; Genentech, Inc.; South San Francisco, CA) was superior to the chemotherapy regimen alone when used to treat patients with metastatic colorectal cancer. However, until further phase III clinical trials confirm these results, surrogate end points of clinical efficacy of the newer agents are urgently needed so that development of ineffective drugs can be halted early. This review briefly discusses the role of molecular imaging in general, and DCE-MRI in particular, in relation to treatment with antiangiogenic agents and highlights some of the difficulties encountered in this area.
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PMID:Molecular imaging of antiangiogenic agents. 1570 11

Maintaining homogeneous perfusion in tissues undergoing remodeling and vascular expansion requires tight orchestration of the signals leading to endothelial sprouting and subsequent recruitment of perivascular contractile cells and vascular maturation. This regulation, however, is frequently disrupted in tumors. We previously demonstrated the role of tumor-associated myofibroblasts in vascularization and exit from dormancy of human ovarian carcinoma xenografts in nude mice. The aim of this work was to determine the contribution of stroma- and tumor cell-derived angiogenic growth factors to the heterogeneity of vascular permeability and maturation in MLS human ovarian carcinoma tumors. We show by RT-PCR and by in situ hybridization that VEGF was expressed by the tumor cells, while angiopoietin-1 and -2 were expressed only by the infiltrating host stroma cells. Vascular maturation was detected in vivo by vasoreactivity to hypercapnia, measured by BOLD contrast MRI and validated by immunostaining of histologic sections to alpha-smooth muscle actin. Vascular permeability was measured in vivo by dynamic contrast-enhanced MRI using albumin-based contrast material and validated in histologic sections by fluorescent staining of the biotinylated contrast material. MRI as well as histologic correlation maps between vascular maturation and vascular permeability revealed a wide range of vascular phenotypes, in which the distribution of vascular maturation and vasoreactivity did not overlap spatially with reduced permeability. The large heterogeneity in the degree of vascular maturation and permeability is consistent with the differential expression pattern of VEGF and angiopoietins during tumor angiogenesis.
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PMID:Functional and molecular mapping of uncoupling between vascular permeability and loss of vascular maturation in ovarian carcinoma xenografts: the role of stroma cells in tumor angiogenesis. 1588 Apr 97

A new approach to improve the reliability of dynamic susceptibility contrast MRI for the evaluation of brain tumor hemodynamics in the presence of contrast agent extravasation is described. This model-based technique simultaneously estimates the voxel-wise tumor residue function and the temporal extravascular T(1) changes following contrast agent leakage. With these estimates the model corrects the measured MRI signal, which is then used to calculate tumor hemodynamic parameters. The feasibility of this technique is demonstrated with computer simulations that cover a wide range of hemodynamic conditions and by application to eight tumor-bearing rats. The simulations demonstrate that the corrected hemodynamic parameters precisely matched the actual values with a maximum percentage error of 4.2% compared to 68.6% for the uncorrected parameters. The corrected parameters are also essentially independent of the tumor hemodynamic state and degree of contrast extravasation. Consistent with these improvements, significant differences between corrected and uncorrected parameters, calculated from a gradient-echo sequence, are shown in a rat 9L gliosarcoma model. This method combined with the hemodynamic parameters derived from GE and SE sequences shows promise as a new tool to evaluate tumor angiogenesis and its therapy.
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PMID:Improving the reliability of obtaining tumor hemodynamic parameters in the presence of contrast agent extravasation. 1590 88


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