Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0149871 (deep vein thrombosis)
12,364 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have treated 14-patients with metastatic tumors located in eloquent cortical areas by a stereotactic-guided keyhole craniotomy and total microsurgical excision utilizing the Pelorus stereotactic device. Patients ranged in ages from 26 to 82 years with a median age of 59 years. There were 9 women and 5 men. Ten patients presented with hemiparesis and 4 with aphasia. Primary tumor location was lung in 7, colon in 2, melanoma in 2, and breast, renal, and bone in 1 case each. Gross total resection was accomplished in all cases, with postoperative imaging confirmation of complete removal. Single metastatic tumors were removed in 12 cases, and multiple lesions in 2 cases. Twelve patients had postoperative whole brain irradiation (30 Gy/10 fractions); 2 patients had previously received whole brain irradiation, yet demonstrated tumor growth. Complete resolution of neurologic deficits was accomplished in 8 patients, 3 had improved and 2 were unchanged. One patient had resolution of preoperative deficit but developed hemiparesis secondary to a hemorrhagic infarction contralateral to the operative site. Nonneurologic morbidity includes deep venous thrombosis in 3 patients, and pneumonia in 1. Thirty-day perioperative mortality is zero, and to date no patient had died of intracranial disease. We believe that with the assistance of stereotactic localization, metastases in vital regions of the cortex can be removed with very low neurologic morbidity, and with a high proportion of patients having improvement in their level of neurologic function. The morbidity in this series compares favorably with that of stereotactic radiation series reported in the literature with local disease control and resolution of neurologic deficits that equals or exceeds stereotactic radiation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stereotactic resection of brain metastases in eloquent brain. 762 49

Primary CNS malignancies are responsible for approximately 12,000 deaths annually in the United States. There has been little change in the outcome for adults with malignant brain tumors over the past few decades, despite improvements in surgical techniques and advances in radiation therapy. These tumors are uniformly fatal one to two years after diagnosis. The morbidity and mortality of this disease arise from the effects of a locally invasive, non-metastasizing lesion. The patients may suffer from seizures, paralysis, incoordination, aphasia, confusion, memory loss, sensory deficits or visual loss, depending on the regions of the brain affected. In addition, they usually require large doses of corticosteroids early and late in their illness, and may experience disabling side effects of this treatment, such as edema, proximal myopathy, diabetes, fungal infections or deep vein thrombosis. Few patients in the older age group are able to work after the diagnosis. Most of the patients are incapable of self-care for several months before death. The localized transfer of new genes into cancer cells potentially permits the expression of proteins with specific biologic functions that may provide a means to alter the biology of tumor growth through a variety of mechanisms including increasing tumor immunogenicity, inducing the local expression of toxic agents, and sensitization of tumors to chemotherapeutic agents. Gene therapy with the transfer of the drug susceptibility gene Herpes virus thymidine kinase (HSV-TK) has shown promise in a number of animal models, including CNS tumors. This study will evaluate the use of adenovirus-mediated transfer of the HSV-TK gene into primary human brain tumors followed by systemic treatment with ganciclovir. The goals of this phase I study are to evaluate the overall safety and efficacy of this treatment and to gain insight into the parameters that may limit the general applicability of this approach. In this phase I study, patients with recurrent gliomas will receive stereotactic-guided injections of the virus into the brain tumor, followed by intravenous ganciclovir for 14 days. Patients eligible to undergo a palliative debulking procedure will receive the same treatment followed by resection on day 7. At the time of resection a second dose of virus will be administered intra-operatively into the residual, unresectable portion of the tumor, and intravenous ganciclovir will be continued for additional 14 days. Tissue removed at the time of resection will be analyzed for evidence of adenovirus infection, thymidine kinase expression and signs of inflammation. The size and metabolic activity of all tumors will be followed by volumetric MRI scans and Position Emission Tomography Scans, respectively. Patients will be enrolled in groups of three, with each group receiving successively larger doses of adenovirus. This study will quantify the toxicity of this therapy, and provide evidence as to the duration of transgene expression and virus induced inflammation.
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PMID:Treatment of advanced CNS malignancies with the recombinant adenovirus H5.010RSVTK: a phase I trial. 884 6

Hemostatic disorders are frequently observed in patients with malignancy with a significant proportion developing thrombotic and/or hemorrhagic complications including disseminated intravascular coagulation (DIC), deep venous thrombosis (DVT), and thrombocytopenia. Together, these abnormalities are the second most common cause of mortality in cancer patients, which has led many investigators to try to unravel the pathogenesis of thromboembolic disease, in the eventuality that this will lead to novel therapeutic treatments. The plasminogen activation system is one pathway that has been consistently implicated in cancer. Its relevance to cancer extends from being responsible for many of the hemorrhagic episodes that occur in cancer patients to being fundamental to many, if not all of the molecular mechanisms that define tumor progression. Recent developments of clinical significance shall be reviewed with respect to the role of the plasminogen activation system in tumor growth and metastasis dissemination and in the thrombophilic state in the cancer patient.
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PMID:The role of the plasminogen activation system in cancer. 1035 86

Cancer patients show an increased susceptibility to develop thromboembolic diseases, suggesting that disorders of coagulation are very common in this pathology. Tumor cells possess the capacity to interact with the hemostatic system, activating the coagulation cascade and stimulating the prothrombotic properties of other blood cell components; the same events while inducing a hypercoagulable state, also contribute to the processes of tumor growth, neoangiogenesis and metastatic formation. Multiple risk factors associated with malignant disease contribute to the hypercoagulability state: stasis induced by prolonged bed rest, vascular invasion by the tumor and iatrogenic complications including the use of central vein catheters and chemotherapy. Several tests have been developed to assess the hypercoagulable state, however their clinical significance still needs to be defined, especially in terms of their predictive value for thrombosis. Clinical manifestations vary from localized deep venous thrombosis (DVT) or pulmonary embolism, more generally associated with solid tumors, to disseminated intravascular coagulation, frequent in hematologic malignancies and metastatic cancer. Diagnosis of idiopathic DVT, in the absence of other risk factors, could indicate the presence of occult cancer, but the usefulness of an extensive work-up to detect malignancy in terms of cost to benefit ratio still has to be demonstrated. Patients with cancer and thromboembolism must be treated with anticoagulant therapy; a large number of studies have shown that either low molecular weight heparins or standard unfractionated heparin for the treatment of acute deep vein thrombosis in hospitalized patients are equally safe and effective; however, the first treatment has been reported to be associated with a lower mortality. After an episode of thrombosis the patients should be protected by a long term course of oral anticoagulation, remaining high the risk of recurrence for as long as the cancer is active.
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PMID:[Blood coagulation changes and neoplastic pathology]. 1107 43

Many cancer patients reportedly have a hypercoagulable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy on the coagulation cascade. Studies have demonstrated that unfractionated heparin (UFH) or low-molecular-weight heparin (LMWH) interferes with various processes involved in tumor growth and metastasis. These processes might include fibrin formation, binding of heparin to angiogenic growth factors such as basic fibroblast growth factor and vascular endothelial growth factor, modulation of tissue factor, and other mechanisms. Clinical trials have indicated a clinically relevant effect of LMWH as compared with UFH on the survival of cancer patients with deep vein thrombosis. Similarly, the impact of warfarin on the survival of cancer patients with thromboembolic disorders was demonstrated. Recent studies from our laboratory defined the role of an LMWH (tinzaparin), warfarin, anti-factor VIIa, and recombinant tissue factor pathway inhibitor in the modulation of angiogenesis, tumor growth, and tumor metastasis.
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PMID:Anticoagulants in thrombosis and cancer: the missing link. 1188 25

Many cancer patients reportedly have hypercoaguable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy on the coagulation cascade. A number of retrospective studies showed that cancer patients are at higher risk of developing venous thromboembolism. In addition to the pathological mechanisms associated with tumor-mediated increase in thrombotic events, cancer therapies including chemotherapy, immobilization, cancer surgery and the use of central venous catheters contribute toward a hypercoaguable state and are therefore independent risk factors of venous thromboembolism in cancer patients. Studies have demonstrated that unfractionated heparin or low molecular weight heparin (LMWH) interferes with various processes involved in tumor growth and metastasis. These processes might include fibrin formation, binding of heparin to angiogenic growth factors--such as basic fibroblast growth factor and VEGF--modulation of tissue factor, release of tissue factor pathway inhibitor and other mechanisms. Clinical trials have suggested an improved efficacy of LMWH, as compared with UFH on the survival of cancer patients with deep vein thrombosis. Similarly, the impact of warfarin on the survival of cancer patients with thromboembolic disorders was demonstrated. Recent studies from our laboratory defined the role of the LMWH (tinzaparin), warfarin, antifactor VIIa and recombinant tissue factor pathway inhibitor in the modulation of angiogenesis, tumor growth and tumor metastasis.
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PMID:Anticoagulants in thrombosis and cancer: the missing link. 1211 44

A hypercoagulable or prothrombotic state of malignancy occurs due to the ability of tumor cells to activate the coagulation system. It has been estimated that hypercoagulation accounts for a significant percentage of mortality and morbidity in cancer patients. Prothrombotic factors in cancer include the ability of tumor cells to produce and secrete procoagulant/fibrinolytic substances and inflammatory cytokines, and the physical interaction between tumor cell and blood (monocytes, platelets, neutrophils) or vascular cells. Other mechanisms of thrombus promotion in malignancy include nonspecific factors such as the generation of acute phase reactants and necrosis (i.e., inflammation), abnormal protein metabolism (i.e., paraproteinemia), and hemodynamic compromise (i.e., stasis). In addition, anticancer therapy (i.e., surgery/chemotherapy/hormone therapy) may significantly increase the risk of thromboembolic events by similar mechanisms, e.g., procoagulant release, endothelial damage, or stimulation of tissue factor production by host cells. However, not all of the mechanisms for the production of a hypercoagulable state of cancer are entirely understood. In this review, we attempt to describe what is currently accepted about the pathophysiology of the hypercoagulable state of cancer. We also discuss whether or not to screen patients with idiopathic deep venous thrombosis for an underlying malignancy, and whether this would be beneficial to patients. It is hoped that a better understanding of these mechanisms will ultimately lead to the development of more targeted treatment to prevent thromboembolic complications in cancer patients. It is also hoped that antithrombotic strategies may also have a positive effect on the process of tumor growth and dissemination.
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PMID:The hypercoagulable state of malignancy: pathogenesis and current debate. 1240 39

Many cancer patients reportedly are in a hypercoaguable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy or radiotherapy on the coagulation cascade. Studies have demonstrated that unfractionated heparin (UFH) or low-molecular-weight heparin (LMWH) interfere with various processes involved in tumor growth and metastasis. These include fibrin formation, binding of heparin to angiogenic growth factors such as basic fibroblast growth factor and vascular endothelial growth factor, modulation of tissue factor and, perhaps, other more important modulatory mechanisms such as enhanced tissue factor pathway inhibitor (TFPI) release and inhibition of various matrix-degrading enzymes. Clinical trials have suggested a clinically relevant effect of LMWH, compared with UFH on the survival of cancer patients with deep vein thrombosis. Similarly, the impact of warfarin on the survival of cancer patients with thromboembolic disorders was demonstrated. Studies from our laboratory demonstrated a significant role for LMWH, warfarin, anti-VIIa and LMWH-releasable TFPI on the regulation of angiogenesis, tumor growth, and tumor metastasis. Thus, modulation of tissue factor/VIIa noncoagulant activities by LMWH, warfarin, anti-VIIa or TFPI might be a useful therapeutic option for the inhibition of angiogenesis associated with human tumor growth and metastasis.
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PMID:Antithrombotics in thrombosis and cancer. 1503 Feb 87

Venous thromboembolism (VTE) is a recognized complication of malignant disease and multiple risk factors contribute to the hypercoagulability that commonly accompanies malignancy. Thromboprophylaxis with antithrombotic drugs such as the low-molecular-weight heparins (LMWHs) can be used to control the hypercoagulable state and to reduce the incidence of VTE in patients with cancer. Clinical and biochemical data suggest that LMWHs may also inhibit tumor growth, leading to a survival benefit in these patients. Many cancer patients reportedly have a hypercoaguable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy or radiotherapy on the coagulation cascade. Studies have demonstrated that unfractionated heparin (UFH) or its low-molecular-weight fractions interfere with various processes involved in tumor growth and metastasis. Clinical trials in cancer patients with thromboembolic disorders have suggested a clinically relevant effect of LMWHs (as compared with UFH) on the survival of cancer patients with deep vein thrombosis. Similarly, the impact of warfarin on the survival of cancer patients with thromboembolic disorders was demonstrated in certain tumor types. Studies from our laboratory demonstrated a significant role for LMWH, warfarin, anti-VIIa, and LMWH releasable tissue factor pathway inhibitor on the regulation of angiogenesis, tumor growth, and tumor metastasis. However, a direct anticancer effect for heparin in cancer patients without thrombosis still remains to be clinically documented.
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PMID:Low-molecular-weight heparin in thrombosis and cancer. 1508 63

Heparin as well as low-molecular-weight heparins (LMWHs) have polypharmacological actions at various levels. Earlier studies focused on the plasma anti-Xa and anti-IIa pharmacodynamics (PD) for the different LMWHs. Other important PD parameters for heparin and LMWHs might explain the diverse clinical impacts of this class of agents in thrombosis and beyond: the release of the vascular tissue factor pathway inhibitor (TFPI), inhibition of key matrix-degrading enzymes, and other mechanisms. There is much evidence for the key role of LMWHs in hypercoagulation in thrombosis and cancer, angiogenesis, and inflammatory disorders. Many cancer patients reportedly have a hypercoaguable state, with recurrent thrombosis due to the impact of cancer cells and chemotherapy or radiotherapy on the coagulation cascade. Studies have demonstrated that unfractionated heparin (UFH) or its low molecular weight fractions interfere with various processes involved in tumor growth and metastasis. Clinical trials have suggested a clinically relevant and improved efficacy of LMWHs, as compared to UFH, on the survival of cancer patients with deep vein thrombosis. Our laboratory has demonstrated a significant role for LMWHs and for LMWH-releasable TFPI on the regulation of angiogenesis, tumor growth, and tumor metastasis; we have also seen potent inhibition of matrix-degrading enzymes by LMWHs but not by TFPI. The antiangiogenesis effect of LMWHs or non-anticoagulant LMWH derivatives was shown to be reversed by anti-TFPI. Thus, modulation of tissue factor/VIIa noncoagulant activities by LMWH-releasable TFPI and the inhibitory effects on matrix-degrading enzymes beside the anticoagulant efficacy have provided an expanded clinical utility for LMWHs in angiogenesis-associated disorders, including human tumor growth and metastasis.
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PMID:Low-molecular-weight heparins in thrombosis and cancer: emerging links. 1517 49


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