UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Photodynamic therapy utilizes the tumor localizing drug dihematoporphyrin ether and red laser light to produce both direct tumor cell destruction via damage to mitochondrial membranes, and also indirect cell kill via destruction of the tumor vasculature. As a first step towards examining the mechanistic relationship between metabolic and vascular effects of photodynamic therapy, murine RIF-1 tumors were treated with a subcurative treatment (500 J/cm2). Tumor metabolic status was monitored using in vivo 31P NMR before, during and after the treatment. The tumor blood flow immediately before and after treatment was measured by direct intratumor injection of D2O saline and observation of the tracer signal clearance from the tumor via 2H NMR. During the photodynamic therapy treatment, significant decreases were observed for the nucleoside triphosphate concentrations, tumor pH and tumor blood flow, while inorganic phosphate concentrations increased. Animals treated with laser light alone and those not given any treatment, demonstrated no significant changes in tumor metabolic status, tumor pH or tumor blood flow. Further studies are required to determine whether tumor blood flow or metabolic status is affected first.
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PMID:Effect of photodynamic therapy on RIF-1 tumor metabolism and blood flow examined by 31P and 2H NMR spectroscopy. 239 Apr 55

Immunoconjugates of monoclonal antibodies with drugs, isotopes, or toxins are currently being investigated for their therapeutic effect on tumors. However, all have problems of access of the immunoconjugate to the tumor, particularly with solid tumors. To address this problem, we have used aminopterin-monoclonal antibody (AMN-mAb) conjugates combines with murine tumor necrosis factor (mTNF-alpha), which is known to have specific effects on tumor vasculature. In a murine model, well-established tumors (measuring 1.0-1.4 cm in diameter) were either totally eradicated or considerably reduced in size with combined therapy--a greater effect than with either mTNF-alpha or AMN-mAb used alone. The mechanisms involved in the improved antitumor effect were investigated using in vitro assays, autoradiography, and biodistribution experiments. mTNF-alpha was found both to increase the cytotoxic activity of the conjugate in vitro and to increase in vivo tumor localization of mAb up to 5-fold. The timing of mTNF-alpha administration was crucial to effects on tumor localization; mTNF-alpha given with mAb caused the greatest increase in localization and mTNF-alpha given well before mAb decreased localization. mTNF-alpha also reduced the toxicity to mice of AMN-mAb depending on the timing of injection. These results indicate that mTNF-alpha has a useful role in potentiation of immunoconjugate therapy but shows the need for careful planning of the dose regimen.
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PMID:Effect of tumor necrosis factor on the antitumor efficacy and toxicity of aminopterin-monoclonal antibody conjugates: parameters for optimization of therapy. 239 67

Indium-111-labeled AUA1 tumor-associated monoclonal antibody raised against an antigen of colon adenocarcinoma was used to evaluate the effect of ionizing radiation on antibody uptake by the LoVo adenocarcinoma cell line grown as a xenograft in nude mice. Tumors were exposed to single doses of external X-irradiation of between 400 and 1600 cGy followed, 24 h later, by administration of specific or nonspecific antibody. Animals were sacrificed 3 days after antibody administration. At doses higher than 400 cGy, tumor uptake with both specific and nonspecific antibody was significantly increased. No difference in changes in tumor volume was observed between the groups receiving irradiation and the controls. Specific antibody uptake by tumors was always significantly higher than nonspecific having an approximate 4-fold binding advantage. Vascular permeability and the vascular volume of irradiated and control tumors was measured 24 and 72 h after irradiation, using iodine-125-labeled nonspecific antibody and labelling of the red blood cells in vivo with 99mTcO4. At doses higher than 400 cGy, vascular permeability in the tumor 24 h after irradiation was significantly increased (P less than 0.05), while the vascular volume decreased (P less than 0.001) compared to control values. However at 72 h after irradiation there was no difference between treated and control groups. The results obtained in this study suggest a potential value of external irradiation to increase monoclonal antibody uptake by tumors governed mainly by the increased vascular permeability of the tumor vasculature soon after the irradiation exposure.
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PMID:Enhancement of monoclonal antibody uptake in human colon tumor xenografts following irradiation. 240 14

A model for the study of tumor angiogenesis within the rabbit brain is presented. Implantation of the VX2 carcinoma provides a reproducible tumor accompanied by angiogenesis. The authors report the sequential growth, histology, tumor neovascularization, and vascular permeability of this tumor following its intracerebral implantation. Tumor angiogenesis correlates with the rapid and logarithmic intracerebral tumor growth. The proliferation of blood vessels in the tumor and the organization of tumor cells around tumor vessels are described. Breakdown of the blood-brain barrier (detected by Evans blue leakage) starts in the early stages of tumor development and becomes prominent as the tumor vasculature and size increase. This model is useful for experimental studies of angiogenesis.
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PMID:Neovascularization and tumor growth in the rabbit brain. A model for experimental studies of angiogenesis and the blood-brain barrier. 245 89

Complementary antitumor treatments are required to increase the cure rate achieved by surgery and/or radiotherapy by avoiding future recurrences and metastases. The growth of most solid tumors, particularly carcinomas, depends upon the simultaneous development of internal tumor vasculature to allow the proliferation of tumor cells. Inhibition of tumor vascularization is an indirect means of limiting tumor expansion. Daily administration of cortisone and maltose tetrapalmitate (MTP) abolished growth of implanted syngeneic C3HBA mammary tumor. Gross and macroscopic examination of these tumors revealed that tumor growth was prevented. Histological examination demonstrated lack of vascularization within the neoplastic tissue. We believe that this combination in an appropriate form could provide a prophylactic treatment regimen after conventional antitumor treatments in humans.
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PMID:Prophylactic antiangiogenic tumor treatment. 247 30

Vascular permeability factor (VPF) is a 40-kilodalton disulfide-linked dimeric glycoprotein that is active in increasing blood vessel permeability, endothelial cell growth, and angiogenesis. These properties suggest that the expression of VPF by tumor cells could contribute to the increased neovascularization and vessel permeability that are associated with tumor vasculature. The cDNA sequence of VPF from human U937 cells was shown to code for a 189-amino acid polypeptide that is similar in structure to the B chain of platelet-derived growth factor (PDGF-B) and other PDGF-B-related proteins. The overall identity with PDGF-B is 18%. However, all eight of the cysteines in PDGF-B were found to be conserved in human VPF, an indication that the folding of the two proteins is probably similar. Clusters of basic amino acids in the COOH-terminal halves of human VPF and PDGF-B are also prevalent. Thus, VPF appears to be related to the PDGF/v-sis family of proteins.
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PMID:Vascular permeability factor, an endothelial cell mitogen related to PDGF. 247 87

Magnetic resonance (MR) methods have been used to study the metabolic and vascular response of model tumors to tumor necrosis factor (TNF). Magnetic resonance measurements demonstrated acute reductions in tumor blood flow, measured from tumor uptake of D2O, and in tumor adenosine triphosphate (ATP), measured by 31P magnetic resonance spectroscopy (MRS) following administration of TNF. The decrease in ATP generally followed reduction in tumor blood flow, and therefore was probably due to ischemia caused by damage to tumor vasculature. Superficial human tumors have been studied by MRS to characterize their 31P spectra, and to measure metabolic changes during therapy. The ratio of the intensities of the phosphomonoester (PME) and ATP resonances (PME/ATP) was much higher in tumors than in the normal tissue displaced by the tumors. During therapy, decreases in PME/ATP were detected that paralleled, but did not anticipate, decreases in tumor size. In some cases, a transient increase in PME/ATP was detected during therapy, which did not correlate with changes in tumor size, and which may reflect stimulation of cell growth in some tumor zones.
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PMID:Response of tumors to therapy studied by 31P magnetic resonance spectroscopy. 260 30

The fundamental principles of pheochromocytoma management are reviewed. These are a high index of clinical suspicion; biochemical confirmation of the diagnosis; preoperative localization and pharmacologic treatment with alpha-adrenergic blockers (and occasionally with beta-adrenergic blockers and/or alpha-methylparatyrosine); meticulous anesthesia and intraoperative cardiovascular monitoring; and attention to the surgical principles of wide exposure, careful dissection and complete exploration, early interruption of tumor vasculature, and delivery of the tumor with the capsule intact. For malignant lesions, the roles of pharmacologic management (alpha- and beta-adrenergic blockade, alpha-methylparatyrosine, and drugs for heart failure, diabetes, and pain), teleradiotherapy, radiopharmaceutical treatment with I-131 MIBG and chemotherapy (with cyclophosphamide, vincristine, and dacarbazine) are discussed.
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PMID:Management of pheochromocytoma. 266 82

In order to investigate whether direct effects on tumor vasculature may contribute to induction of necrosis of solid tumors in vivo, agents and combinations with an established different capacity to induce tumor necrosis were studied for their effects on endothelial cells in vitro. Tumor necrosis serum caused a marked inhibition of [3H]thymidine incorporation by bovine umbilical cord endothelial cells after 4 h coincubation. Endotoxin was less inhibitory, whereas detoxified endotoxin and recombinant human tumor necrosis factor (rTNF) were hardly active in concentrations that can be achieved in vivo. Combinations of rTNF and (detoxified) endotoxin caused synergic inhibition. By 24 h effects of the separate agents and synergic effects of the combinations were much stronger. The nontoxic dsRNA, poly(A.U), also had inhibitory activity, and acted synergistically with rTNF. Morphologically, a combination of endotoxin and rTNF but not the separate constituents induced marked cell detachment by 24 h, an indication of cell death. Whereas both endotoxin and rTNF inhibited DNA synthesis of human endothelial cells, the agents did not act synergistically on these cells. The ability of the agents and the combinations to affect endothelial cells in culture appeared to be well in line with their capacity to induce tumor necrosis. Data suggest that direct (synergic) effects on endothelium may contribute to the induction of vascular damage in tumors by (combinations of) the agents. The fact that endothelial cell death is only induced by the combinations and not by the separate agents in vivo, may be a cause of the greater therapeutic activity of the combinations in vivo. The synergy between rTNF and the other agents indicates that the agents act by different mechanisms.
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PMID:Synergic action between tumor necrosis factor and endotoxins or poly(A.U) on cultured bovine endothelial cells. 270 38

The effect of the vasodilator hydralazine on tumor vascular function has been evaluated in C3H/He mice bearing subcutaneously implanted SCCVII squamous cell carcinoma. Changes in microregional perfusion following hydralazine administration were observed using a double fluorescent staining technique. Hydralazine-induced alterations in tumor blood flow were measured using laser Doppler flowmetry. The results obtained indicate that hydralazine causes a dose-dependent reduction in functional tumor vasculature implying complete flow stasis and/or vascular collapse in some vessels. Fifteen minutes after a dose of 10 mg/kg intravenously, perfusion in 36 +/- 5% (SEM) of tumor vessels was completely abolished. In addition to cessation of perfusion in individual vessels, hydralazine eliminated flow in large patches of vasculature distributed non-uniformly throughout the tumor. Hydralazine (10 mg/kg i.v.) resulted in a 67 +/- 5% (SEM) reduction in tumor red blood cell (RBC) flow as measured by laser Doppler techniques. The mean number of moving red blood cells declined by 35 +/- 8%, suggesting a reduction in microvascular volume. These results support the hypothesis that following hydralazine administration, perfusion stops completely in some blood vessels probably as a result of vascular collapse or flow stasis.
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PMID:Histological evidence for nonperfused vasculature in a murine tumor following hydralazine administration. 277 68

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