UMLS:C0038454 - FACTA Search

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Query: UMLS:C0038454 (stroke)
147,016 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Although embolism is known as a common complication in the early growing stage of atrial myxoma, development of further neurologic disorders after the removal of tumor is rarely encountered. Arterial aneurysm formation and metastatic tumor growth represent the two disorders that had been reported in the literature. Based on the pathogenesis of hematogeneous disseminating, atrial myxoma may lodge its fragment or its adherent thrombus on intracranial vessels to produce cerebral infarct. Besides, several reports have indicated that myxoma emboli in the cerebral vessels may invade the vessel wall to produce delayed disorders. Embolization from atrial myxoma is now recognized as a potentially treatable cause of cerebral infarct. However, the long-term course following resection of the tumor remain complicated, partly due to these inconsistent delayed complications, or the therapeutic dilemma. We report a case with delayed intracranial aneurysm formation and reviewed the literature. A 67-year old woman with a past history of left cerebral infarction was transferred to our hospital for further evaluation of her gross hematuria. Infarction of the left kidney was then demonstrated by angiography. A left atrial myxoma was found in a echocardiographic screen, and the patient received a successful resection of the myxoma subsequently. Unfortunately, three episodes of stroke developed in a half year after the operation of the cardiac myxoma.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Delayed intracranial aneurysm of left atrial myxoma--a case report]. 225 5

Thromboxane (Tx) A2 is a biologically potent and chemically unstable metabolite of prostaglandin endoperoxides. Recent developments in measurement techniques and the availability of both selective inhibitors of Tx synthetase and TxA2 receptor antagonists have facilitated the implication of TxA2 as a physiological modulator and as a mediator in thrombotic, vasospastic, and bronchospastic conditions. TxA2 is synthesized by platelets and contributes to platelet activation and irreversible platelet aggregation in physiological hemostasis and in thrombosis (e.g., unstable angina, stroke). TxA2 is also synthesized in intestinal, pulmonary, and renal tissues by cells other than platelets. Particularly in these tissues, TxA2 appears to act as a physiological modulator of changes in blood flow distribution and airway caliber. Strong stimuli for TxA2 release from these tissues may initiate ulcer, pulmonary hypertension, bronchoconstriction, and renal vasoconstriction. Evidence supports participation of TxA2 and/or TxA2 receptors in modulation of natural cytotoxic cell cytotoxicity, in tumor growth and metastasis, in complications of pregnancy (e.g., preeclampsia), and in the progression of ischemic injury after coronary artery occlusion. This evidence supports pivotal involvement of TxA2 in pathophysiology and provides a strong rationale for pursuing TxA2-blocking strategies in drug development.
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PMID:Overview of physiological and pathophysiological effects of thromboxane A2. 294 37

Hypoxia is a pathophysiological condition that occurs during injury, ischemia, and stroke. It is characterized by a decrease of reactive oxygen intermediates and a change of the intracellular redox level. In tumors hypoxia is regarded as a trigger for enhanced growth and metastasis. Here we report that in HeLa cells, hypoxic conditions induce the transcriptional activation of c-fos transcription via the serum response element. Mutations in the binding site for the ternary complex factor Elk-1 and the serum response factor abolished this induction, indicating that a ternary complex at the serum response element is necessary for the induction of the c-fos gene under hypoxia. The transcription factor Elk-1 was covalently modified by phosphorylation in response to hypoxia. Furthermore this hyperphosphorylation of Elk-1, the activation of mitogen-activated protein kinase (MAPK), and the induction of c-fos transcripts were blocked by PD98059, a specific inhibitor of mitogen-activated protein kinase kinase/extracellular signal-regulated protein kinase kinase 1. An in vitro kinase assay with Elk-1 as substrate showed that MAPK is activated under hypoxia. The activation of MAPK corresponds temporally with the phosphorylation and activation of Elk-1. Thus, a decrease of the intracellular reactive oxygen intermediate level by hypoxia induces c-fos via the MAPK pathway. These results suggest that the intracellular redox levels may be directly coupled to tumor growth, invasion, and metastasis via Elk-1-dependent induction of c-Fos controlled genes.
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PMID:Hypoxia induces c-fos transcription via a mitogen-activated protein kinase-dependent pathway. 928 59

Pituitary apoplexy in patients with pituitary macroadenomas can occur either spontaneously or following various interventions. We present a case of a 71-year-old woman who developed third, fourth, and sixth cranial nerve palsies following administration of the four hypothalamic releasing hormones for routine preoperative testing of pituitary function. The MR examination showed interval tumor growth with impression of the floor of the third ventricle. There were also changes in signal intensity characteristics of the mass, suggestive of intratumoral bleeding. A transsphenoidal surgery with subtotal resection of the pituitary adenoma was performed. Microscopical examination revealed large areas of necrosis and blood surrounded by adenomatous tissue. Third, fourth, and sixth cranial nerve palsies completely resolved within 4 months. We conclude that MR imaging is useful in the demonstration of pituitary apoplexy following preoperative stimulation tests, but we suggest that these tests should be abandoned in patients with pituitary macroadenomas.
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PMID:Apoplexy of a pituitary macroadenoma with reversible third, fourth and sixth cranial nerve palsies following administration of hypothalamic releasing hormones: MR features. 1099 50

Abciximab (ReoPro) is a mouse-human chimeric monoclonal antibody Fab fragment of the parent murine monoclonal antibody 7E3, and was the first of these agents approved for use as adjunct therapy for the prevention of cardiac ischemic complications in patients undergoing percutaneous coronary intervention (PCI). Abciximab binds with high avidity to both the non-activated and activated form of the GPIIb/IIIa receptor of platelets, the major adhesion receptor involved in aggregation. Additional cardiovascular indications for abciximab are unstable angina, carotid stenting, ischemic stroke and peripheral vascular diseases. Abciximab also interacts with two other integrin receptors; the a av b b3 receptor, which is present in low numbers on platelets but in high density on activated endothelial and smooth muscle cells, and a aMb b2 integrin which is present on activated leukocytes. Cell types that express integrins GPIIb/IIIa and a av b b3 such as platelets, endothelial and tumor cells have been implicated in angiogenesis, tumor growth and metastasis. Since abciximab interacts with high avidity to integrins GPIIb/IIIa and a av b b3, it is reasonable to assume that it may possess anti-angiogenic properties in angiogenesis-related diseases, as well as anti-metastastatic properties in case of disseminating tumors expressing the target integrin receptors.
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PMID:Potential future clinical applications for the GPIIb/IIIa antagonist, abciximab in thrombosis, vascular and oncological indications. 1103 55

The development of small molecule kinase inhibitors as potential cancer therapeutics is an area of intense interest, and a subset of these agents target cyclin-dependent kinase (CDK) activity. Ten distinct CDKs (1-9, 11), when paired with their cyclin activators, are integral to such diverse processes as cell cycle control, neuronal development, and transcriptional regulation. Mutation and/or aberrant expression of certain CDKs and their regulatory counterparts are associated with uncontrolled proliferation and tumorigenesis. As such, CDK selective inhibitors (CDKIs) that attenuate or prevent tumor growth have been developed. Recently, interest in the therapeutic potential of CDKIs has expanded to include neurodegenerative diseases, where dysregulated CDK activity has been linked to the pathogenesis of Alzheimer's disease (AD), amyotrophic lateral sclerosis (ALS), and stroke. Specifically, aberrant activation of cell cycle CDKs or CDK5 is associated with apoptosis and neuronal dysfunction in response to various neuronal stressors. To date, CDKIs have shown promise as neuroprotective agents in the research laboratory and, in the future, may prove useful in the neurology clinic.
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PMID:Cyclin-dependent kinase inhibitors: cancer killers to neuronal guardians. 1257 Jun 97

The goal of endocrine therapy in breast cancer is to block the action of estrogen on the tumor cells either by inhibiting estrogen from binding to the specific estrogen receptor or by inhibiting its synthesis. Tamoxifen, a selective estrogen receptor modulator, is the standard endocrine treatment for hormone receptor-positive breast cancer, both in the adjuvant and metastatic settings. Tamoxifen inhibits the binding of estrogen to the receptor, resulting in inhibition of hormone action. However, as tamoxifen is also weakly estrogenic, it may not be optimally effective and increases the risk of endometrial cancer and stroke. Furthermore, patients may be refractory or may become resistant to tamoxifen treatment. Since aromatase inhibitors (AI) block the synthesis of estrogen and have no intrinsic estrogenic activity, they have the potential to be more effective than tamoxifen. Their different mechanism of action and chemical structures may also circumvent tamoxifen resistance. Consequently, AIs are currently being evaluated as an alternative to tamoxifen treatment. A preclinical model has recently been developed to compare the efficacy of AIs and antiestrogens in different treatment schemes and to assist in the design of clinical trials. Current studies with the MCF-7Ca xenograft model are exploring the effects of combination and sequential therapy on tumor growth. The efficacy of AIs in the treatment of hormone receptor-positive breast cancer was first demonstrated in five multicenter second-line trials enrolling several hundreds of postmenopausal patients with metastatic breast cancer who had failed tamoxifen treatment. More recently, anastrozole demonstrated efficacy at least equivalent to that of tamoxifen in first-line randomized, phase III clinical trials in postmenopausal women with hormone receptor-positive or unknown metastatic breast cancer, whereas letrozole demonstrated superiority. The steroidal AI exemestane is currently under evaluation. Letrozole is the only AI to have been studied in a randomized, phase III trial in the neoadjuvant setting. In this trial, more patients underwent breast-conserving surgery with letrozole than with tamoxifen. Smaller phase II studies also suggest that both anastrozole and exemestane are active in the neoadjuvant setting. Because neoadjuvant trials permit temporal sampling of breast tissue, substudies in the phase III trial with letrozole have examined the impact of such biomarkers as estrogen receptor, progesterone receptor and epidermal growth factor receptor family members, HER-1 and HER-2, on patient response. AIs are currently under evaluation in the adjuvant setting, and preliminary results of the Arimidex, Tamoxifen Alone or in Combination (ATAC) trial have been reported. AIs have proven as safe as tamoxifen in trials in patients with metastatic breast cancer. Ongoing clinical trials in the adjuvant setting include companion studies of end-organ effects, particularly bone metabolism and lipid metabolism evaluations. Quality-of-life assessments are also parts of major clinical trials. A head-to-head quality-of-life assessment of anastrozole compared with letrozole demonstrated patient preference for letrozole. These assessments also clearly indicated the eagerness of patients to participate actively in treatment decisions
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PMID:Challenges in the endocrine management of breast cancer. 1465 38

Despite chemotherapy, median survival of patients with advanced pancreatic cancer (APC) remains poor. Gemcitabine (GEM) remains standard treatment. Numerous phase II studies have suggested that combination therapies may improve response rates. Mitomycin C (MMC) when used as a single agent may have response rates comparable to other cytotoxic drugs. Therefore, MMC could be an interesting drug to be combined with GEM. This study aimed to assess the feasibility, toxicity and efficacy of GEM combined with MMC in patients with APC. Between April 1997 and January 2002, 55 consecutive patients were treated with GEM 800 mg/m2 i.v., days 1, 8 and 15, and MMC 8 mg/m2 i.v., day 1, every 4 weeks in an outpatient setting. Patient characteristics included: M/F 34/21, median age of 58 years, ECOG PS 0-2. A median of 3 cycles was administered. The most frequent toxicity was thrombocytopenia grade III/IV in 54% of patients. Ten patients experienced dyspnea+/-X-ray-proven pneumonitis (n=2). One of these patients developed a hemolytic uremic syndrome after the sixth application of MMC. There was one early death as a consequence of a stroke. The objective response rate was 29% (95% confidence interval: 17-43). Eighteen patients had stable disease resulting in an overall tumor growth control of 62%. Time to progression was 4.7 months and median overall survival was 7.25 months. We conclude that, except for thrombocytopenia, the combination of GEM and MMC is well tolerated. These results compare favorably to single-agent chemotherapy with GEM or the combination of 5-fluorouracil plus MMC. Furthermore, this regimen is cost-effective and, since it can be given on an outpatient basis, contributes to the quality of life.
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PMID:Gemcitabine and mitomycin C in advanced pancreatic cancer: a single-institution experience. 1520 99

Aquaporin-4 (AQP4) is the major water channel in the brain, expressed predominantly in astroglial cell membranes. Initial studies in AQP4-deficient mice showed reduced cellular brain edema following water intoxication and ischemic stroke. We hypothesized that AQP4 deletion would have the opposite effect (increased brain swelling) in vasogenic (noncellular) edema because of impaired removal of excess brain water through glial limitans and ependymal barriers. In support of this hypothesis, we found higher intracranial pressure (ICP, 52+/-6 vs. 26+/-3 cm H2O) and brain water content (81.2+/-0.1 vs. 80.4+/-0.1%) in AQP4-deficient mice after continuous intraparenchymal fluid infusion. In a freeze-injury model of vasogenic brain edema, AQP4-deficient mice had remarkably worse clinical outcome, higher ICP (22+/-4 vs. 9+/-1 cm H2O), and greater brain water content (80.9+/-0.1 vs. 79.4+/-0.1%). In a brain tumor edema model involving stereotactic implantation of melanoma cells, tumor growth was comparable in wild-type and AQP4-deficient mice. However, AQP4-deficient mice had higher ICP (39+/-4 vs. 19+/-5 cm H2O at seven days postimplantation) and corresponding accelerated neurological deterioration. Thus, AQP4-mediated transcellular water movement is crucial for fluid clearance in vasogenic brain edema, suggesting AQP4 activation and/or up-regulation as a novel therapeutic option in vasogenic brain edema.
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PMID:Aquaporin-4 facilitates reabsorption of excess fluid in vasogenic brain edema. 1520 68

The primary function of the glycoprotein hormone erythropoietin (Epo) is to promote red cell production by inhibiting apoptosis of erythrocytic progenitors in hemopoietic tissues. However, functional Epo receptors (Epo-R) have recently been demonstrated in various nonhemopoietic tissues indicating that Epo is a more pleiotropic viability and growth factor. Herein, in vitro and in vivo effects of Epo in the brain and the cardiovascular system are reviewed. In addition, the therapeutic impact of Epo in oncology is considered, including the question of whether Epo might promote tumor growth. Convincing evidence is available that Epo acts as a neurotrophic and neuroprotective factor in the brain. Epo prevents neuronal cells from hypoxia-induced and glutamate-induced cell death. Epo-R is expressed by neurons and glia cells in specific regions of the brain. Epo supports the survival of neurons in the ischemic brain. The neuroprotective potential of Epo has already been confirmed in a clinical trial on patients with acute stroke. With respect to the vasculature, Epo acts on both endothelial and smooth muscle cells. Epo promotes angiogenesis and stimulates the production of endothelin and other vasoactive mediators. In addition, Epo-R is expressed by cardiomyocytes. The role of Epo as a myocardial protectant is at the focus of present research. Epo therapy in tumor patients is practiced primarily to maintain the hemoglobin concentration above the transfusion trigger and to reduce fatigue. In addition, increased tumor oxygenation may improve the efficacy of chemotherapy and radiotherapy. However, tumor cells often express Epo-R. Therefore, careful studies are required to fully exclude that recombinant human Epo (rHuEpo) promotes tumor growth.
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PMID:Beneficial and ominous aspects of the pleiotropic action of erythropoietin. 1532 61

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