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)

The amounts of tissue factor (TF) expressed by brain microvascular endothelial cells (BMECs) from normotensive Wistar-Kyoto rats (WKY) and spontaneously hypertensive rats (SHR) were compared after stimulating the cells with different doses of lipopolysaccharide (LPS), thrombin, phorbol myristic acid (PMA), Ca(2+)-ionophore (A23187), or tumor necrosis factor (TNF) and interleukin-1 (IL-1). Treatment of cultured BMECs from WKY and SHR with all of these factors dose-dependently increased their total amount of TF; no substantive differences in the levels of enhanced TF expression were observed between WKY and SHR BMECs. We conclude that stimulated endothelium from rats with hypertension, a major stroke risk factor, is not hyperresponsive with respect to TF expression when compared to normotensive controls.
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PMID:Comparison of stimulated tissue factor expression by brain microvascular endothelial cells from normotensive (WKY) and hypertensive (SHR) rats. 147 6

Monophosphoryl lipid A (MPL) is a nontoxic lipid A derivative that maintains many of the beneficial immunomodulatory activities of the parent lipopolysaccharide molecule, including the induction of tolerance to endotoxin. The hemodynamic effects of Salmonella minnesota MPL (300 mg/kg) and S. minnesota lipopolysaccharide (300 micrograms/kg) were compared in 20 minipigs. Decreases in cardiac output and arterial pressure and increases in pulmonary artery pressure and lactic acidosis were significantly greater in animals treated with lipopolysaccharide. These changes were associated with peak tumor necrosis factor (TNF) levels of 1373 +/- 79 U/ml in animals treated with LPS and 157 +/- 31 U/ml in animals treated with MPL. Ten minipigs were subsequently randomized to receive S. minnesota MPL (30 micrograms/kg) or diluent intravenously 48 hours before receiving S. minnesota lipopolysaccharide (300 micrograms/kg IV). MPL significantly attenuated lipopolysaccharide-induced decreases in mean arterial pressure, cardiac index, stroke volume index, and mixed venous oxygen saturation. At baseline, no significant difference could be seen in TNF levels between diluent and MPL pigs. TNF levels peaked 2 hours after LPS infusion at 1190 +/- 156 U/ml in diluent pigs and at 539 +/- 126 U/ml in MPL pigs (p less than 0.05). Each of the pigs pretreated with MPL survived endotoxic shock, whereas only one of the five diluent pigs survived. These observations are consistent with the induction of endotoxin tolerance by pretreatment with MPL.
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PMID:Monophosphoryl lipid A attenuates the effects of endotoxic shock in pigs. 158 79

Rats produced more TNF activity in cerebrospinal fluid (CSF) than in blood after intracerebroventricular (i.c.v.) injection of lipopolysaccharide (LPS). After intravenous (i.v.) LPS, blood TNF levels exceeded CSF levels. Thus, brain cells appear to produce TNF in response to LPS. Rats with the stroke-risk factors hypertension or combined hypertension and genetic stroke-proneness produce more TNF in response to a provocative dose of LPS i.v. than control animals free of these risk factors. The possible relevance to stroke vulnerability is discussed.
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PMID:Lipopolysaccharide-induced production of tumor necrosis factor activity in rats with and without risk factors for stroke. 202 11

Ponies with electromagnetic blood flow transducers implanted around the main pulmonary and left main coronary arteries, were used to evaluate effects of chronic sublethal endotoxin on cardiac output (CO), stroke volume, and left coronary blood flow (LCBF). Plasma thromboxane (TX), as indicated by TXB2, prostacyclin as indicated by 6-keto-prostaglandin (PG) F1 alpha, and hematologic and blood chemical values also were evaluated. Over 24 hours, 2 groups of ponies were given progressively increasing IV and intraperitoneal doses of Escherichia coli lipopolysaccharide (LPS) at 0, 6, 12, and 18 hours. Group 1 was not treated and group 2 was treated with flunixin meglumine, before each LPS insult. Initial LPS inoculation in group 1 led to 10-fold increases in TXB2 and 6-keto-PGF1 alpha values by 30 and 90 minutes, respectively. These eicosanoid values returned to base line by 6 hours after each insult. Although repeated LPS injections stimulated recurring high plasma concentrations of 6-keto-PGF1 alpha, TXB2 production became less with each successive LPS insult. Cardiac output decreased to 55% to 60% of base-line values in association with increased 6-keto-PGF1 alpha values. Left coronary blood flow could not be evaluated accurately. Severe lactic acidosis developed in group 1. Group-2 ponies remained clinically normal, indicating protection of cardiovascular function and peripheral perfusion with flunixin meglumine. Seemingly, flunixin meglumine helped to maintain acceptable cardiovascular function and tissue perfusion during endotoxemia. Flunixin meglumine given to healthy ponies had no effect on cardiovascular function.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Equine endotoxemia: cardiovascular, eicosanoid, hematologic, blood chemical, and plasma enzyme alterations. 330 60

We have characterized the acute cardiopulmonary response following smooth (055:B5) or rough strain (J5 and Re595) lipopolysaccharide (LPS) infusion (1 microgram/kg over 10 minutes) in the conscious sheep. All LPS strains induced in a pronounced increase in mean pulmonary artery pressure within 10 minutes of infusion and arterial PO2 fell between 20 and 30 torr. Cardiac output and stroke volume declined following LPS challenge while systemic vascular resistance increased. Heart rate exhibited a biphasic pattern, with an initial increase followed by a return to baseline and a subsequent elevation. Calculated oxygen consumption increased significantly following LPS infusion. Coincident with these cardiopulmonary events, the arterial neutrophil count declined precipitously, greater than 98% over 30 minutes, with a more rapid decline with the rough strains. Results indicate that the acute cardiopulmonary effects noted are components of a systemic inflammatory reaction elicited by LPS and the lipid A portion of LPS may be responsible for initiating the response.
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PMID:Acute cardiopulmonary manifestations of smooth and rough strain lipopolysaccharide infusion in the conscious sheep. 409 43

Three isozymes of nitric oxide (NO) synthase (EC 1.14.13.39) have been identified and the cDNAs for these enzymes isolated. In humans, isozymes I (in neuronal and epithelial cells), II (in cytokine-induced cells), and III (in endothelial cells) are encoded for by three different genes located on chromosomes 12, 17, and 7, respectively. The deduced amino acid sequences of the human isozymes show less than 59% identity. Across species, amino acid sequences for each isoform are well conserved (> 90% for isoforms I and III, > 80% for isoform II). All isoforms use L-arginine and molecular oxygen as substrates and require the cofactors NADPH, 6(R)-5,6,7,8-tetrahydrobiopterin, flavin adenine dinucleotide, and flavin mononucleotide. They all bind calmodulin and contain heme. Isoform I is constitutively present in central and peripheral neuronal cells and certain epithelial cells. Its activity is regulated by Ca2+ and calmodulin. Its functions include long-term regulation of synaptic transmission in the central nervous system, central regulation of blood pressure, smooth muscle relaxation, and vasodilation via peripheral nitrergic nerves. It has also been implicated in neuronal death in cerebrovascular stroke. Expression of isoform II of NO synthase can be induced with lipopolysaccharide and cytokines in a multitude of different cells. Based on sequencing data there is no evidence for more than one inducible isozyme at this time. NO synthase II is not regulated by Ca2+; it produces large amounts of NO that has cytostatic effects on parasitic target cells by inhibiting iron-containing enzymes and causing DNA fragmentation. Induced NO synthase II is involved in the pathophysiology of autoimmune diseases and septic shock. Isoform III of NO synthase has been found mostly in endothelial cells. It is constitutively expressed, but expression can be enhanced, eg, by shear stress. Its activity is regulated by Ca2+ and calmodulin. NO from endothelial cells keeps blood vessels dilated, prevents the adhesion of platelets and white cells, and probably inhibits vascular smooth muscle proliferation.
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PMID:Nitric oxide synthase isozymes. Characterization, purification, molecular cloning, and functions. 751 53

The stroke risk factor hypertension may function as a predisposing agent by increasing the vulnerability of blood vessels to thrombosis or hemorrhage. The research here demonstrates that cerebrovascular endothelial cells (EC) from spontaneously hypertensive (SHR) and Wistar-Kyoto normotensive (WKY) rats exhibit similar levels of adhesiveness for syngeneic peripheral blood monocytes (e.g., 22.53 +/- 1.32 and 24.35 +/- 1.16%, respectively). Monocyte adhesion to SHR EC was dramatically increased by treatment of EC with lipopolysaccharide, interferon-gamma, or interleukin-1 beta and tumor necrosis factor-alpha (e.g., 106, 68, and 171%, respectively). Identical treatment of WKY EC also increased adhesion albeit at significantly lower levels than observed on concomitantly tested SHR EC (e.g., 47.8, 12.7, and 60.7%, respectively). Allogeneic combinations of monocytes and EC again demonstrated significantly more upregulation of adhesion by treatment of SHR EC than WKY EC. Characterization of these adhesive interactions revealed the interplay of adhesion pathways, which include lymphocyte functional antigen-1/intercellular adhesion molecule-1 (ICAM-1), Mac-1/ICAM-1, and very late activation antigen-4/vascular adhesion molecule-1 as well as other undetermined mechanisms. In summary, these findings indicate hypertension may enhance responsiveness of endothelium to factors that promote monocyte adhesion.
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PMID:Monocyte adhesion to cerebromicrovascular endothelial cells derived from hypertensive and normotensive rats. 752 99

Increased arterial blood pressure following a pyrogenic reaction has been reported in previous studies, however the mechanism of this hypertension has not been examined in detail. The present study investigated the effects of both intravenous (IV) and intracerebroventricular (ICV) injection of lipopolysaccharide (LPS) from E. coli on body temperature (Tb), mean arterial pressure (MAP), heart rate (HR), cardiac output (CO), calculated total peripheral resistance (CTPR), stroke volume (SV) and plasma levels of adrenocorticotropin (ACTH) and arginine vasopressin (AVP) in conscious, chronically instrumented sheep. IV injection of LPS (1 microgram) increased Tb in a biphasic manner from 38.7 +/- 0.1 to 39.5 +/- 0.2 degrees C after 50 min and to 39.9 +/- 0.2 degrees C after 130 min, and MAP increased biphasically from 64 +/- 1 to 70 +/- 4 mmHg after 40 min and to 78 +/- 3 mmHg after 130 min. CO initially decreased from 4.4 +/- 0.1 to 3.5 +/- 0.1 after 40 min followed by a secondary rise to 4.8 +/- 0.1 l/min after 100 min. This occurred together with a large, biphasic increase in CTPR from 14.5 +/- 1.0 to 22.0 +/- 2.0 mmHg/l/min at 40 min, and to 18.1 +/- 0.1 mmHg/l/min at 120 min. HR increased from 68 +/- 4 to 97 +/- 4 b/min and SV decreased from 65 +/- 2 to 41 +/- 4 ml/beat during the first phase of activation. Plasma ACTH increased from 22 +/- 9 to 1043 +/- 175 pg/ml after 80 min, and plasma AVP increased from 0.7 +/- 0.2 to 12 +/- 4.0 pg/ml after 60 min. ICV injection of LPS produced a long-lasting increase in Tb and MAP, but had no effect on HR or plasma AVP. Plasma ACTH increased from 30 +/- 12 to 427 +/- 110 pg/ml. These changes suggest that intravenous pyrogenic infection produces a potent vasoconstrictor action in sheep to increase blood pressure, possibly mediated by the actions of AVP within the CNS, or other pyrogenically released vasoconstrictor factors. Furthermore, the duration of activation of the cardiovascular system following peripheral and central LPS administration is different, which together with the contrasting effects on ACTH and AVP, indicate the involvement of several hypertensive mechanisms.
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PMID:Pyrogenic stimulation of vascular resistance in conscious sheep. 762 27

Effects of amrinone (AMR), a phosphodiesterase inhibitor, alone and in combination with dobutamine (DOB), on hemodynamics and O2 delivery were studied during porcine endotoxemia. Pentobarbital-anesthetized pigs were randomly administered either Escherichia coli lipopolysaccharide (endotoxin) or equivolumetric .9% NaCl (control) as a continuous infusion for 4 h. From 2 to 4 h (T = 120-240 min) of endotoxin infusion, pigs were randomly administered one of the following treatments; AMR infusion (40 micrograms/kg/min) (AMRlow); DOB (10 micrograms/kg/min) (DOB); AMR infusion (40 micrograms/kg/min) + DOB (AMRlow+DOB); AMR bolus (.75 mg/kg) followed by AMR infusion (40 micrograms/kg/min) (AMRhigh); or AMR bolus (.75 mg/kg) followed by infusion (40 micrograms/kg/min) + DOB (AMRhigh+DOB). Myocardial samples were obtained at the end of the experiment and flash-frozen for beta-adrenergic receptor analysis. Endotoxin significantly (p < .05) decreased cardiac index, right ventricular ejection fraction, stroke volume index, maximum rate of rise of left ventricular pressure (dP/dtmax), mean arterial pressure, and O2 delivery, and increased pulmonary vascular resistance and mean pulmonary arterial pressure (p < .05). AMRlow+DOB significantly (p < .05) increased cardiac index, dP/dtmax, right ventricular ejection fraction, stroke volume index, O2 delivery and consumption, and decreased mean pulmonary arterial pressure, pulmonary vascular resistance, mean arterial pressure, and systemic vascular resistance. beta-Adrenergic receptor density (Bmax) and binding equilibrium dissociation constant (KD) for [3H]dihydroalprenolol were not affected by endotoxin or any treatment (p < .05). Endotoxin-induced hemodynamic deterioration and decreased O2 delivery was attenuated by AMRlow+DOB. Potential applications of this combination may exist in treatment of septic patients with inadequate myocardial performance and reduction in O2 delivery complicated by pulmonary hypertension.
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PMID:Amrinone combined with dobutamine improves hemodynamics and oxygen delivery without down-regulation of cardiac beta-adrenergic receptor density in porcine endotoxemia. 777 3

Neuropeptide Y (NPY), a sympathetic and platelet-derived vasoconstrictor, acts both directly and by potentiating adrenergic responsiveness and therefore may be beneficial in endotoxic shock, where suppressed vascular responsiveness to adrenergic agents is a key factor. This was studied in anesthetized rats. First, infusion of a nonhypotensive dose of endotoxin (lipopolysaccharide, LPS) markedly suppressed the pressor response to increasing doses of norepinephrine (NE), angiotensin II, and vasopressin but did not suppress the response to NPY. Second, in rats rendered hypotensive by intravenous LPS, continuous NE infusion (0.1-1.0 microgram.kg-1 x min-1 started 5 min after LPS for 1 h) did not alter hemodynamics. In contrast, 5 nmol.kg-1 x min-1 of NPY (equipotent to 0.1 microgram.kg-1 x min-1 of NE in normal rats) increased mean arterial pressure (MAP, from 64 to 114% of baseline), total peripheral resistance index (TPRI, from 64 to 154% of baseline), and left ventricular stroke work index (from 36 to 73% of baseline), without changing cardiac index (CI). Third, in a similar experimental protocol, pretreatment of the hypotensive rats with phentolamine blocked the pressor effect of NE infusion, but only partially attenuated the response to NPY. Finally, addition of low-dose NPY to NE infusion improved survival following a lethal dose of LPS compared with treatment with NE alone (P < 0.01). Thus, unlike other vasoconstrictors tested, NPY-mediated vasoconstriction is preserved during endotoxemia. The beneficial effect of NPY is mediated by increased TPRI without reduction in CI; both NPY receptor-mediated vasoconstriction and potentiation of adrenergic responsiveness may be involved.
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PMID:Neuropeptide Y infusion improves hemodynamics and survival in rat endotoxic shock. 790 7

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