UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Renovascular hypertension can result from renal artery lesions involving the main renal artery, or its branches. It is generally felt that the elevation of blood pressure results from excessive systemic vasoconstriction secondary to enhanced renin secretion by one or part of one kidney. Renin secretion is enhanced because of constriction of the renal artery and resultant intrarenal ischemia. Clinically patients cannot be distinguished from those with essential hypertension and diagnosis must be made with arteriography although urography and isotope renography may suggest the diagnosis. Surgical cure can be predicted if differential renal vein renin ratios lateralize but a non-lateralizing study does not necessarily mean that surgery will fail. In properly selected patients, surgical results are excellent.
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PMID:Renovascular hypertension: pathophysiology, diagnosis, and treatment. 37 21

Hypertensive crises were studied in 80 patients. In severe cases the ECG provided evidence of systolic overloading of the left ventricle with intensification of coronary circulation and development of acute myocardial ischemia. Phase analysis showed prolongation of the mechanical systole with increase of the myocardial index. In more complicated cases there was a more evident hypodynamic syndrome with marked myocardial insufficiency. Hemodynamic disturbance were marked by a sharply increased peripheral resistance with a heterogenous reaction of the cardiac output. Blood supply to the cerebral tissue reduced sharply with an increase in the resistance of cerebral vessels. Renin activity was directly related to the severity of the crisis. A sharp onset of cerebral and cardiac ischemia was marked by changes in the antigen albumin. Timely diagnosis and differentiated treatment made it possible to avoid vascular complications in hypertensive crisis.
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PMID:[Clinical aspects of hypertensive crises]. 51 73

As soon as there is evidence of left ventricular dysfunction, even before clinical signs of chronic cardiac failure (CCF) have developed, intrinsic and extrinsic compensatory mechanisms are brought into play by the body. The majority of these mechanisms are under the influence of neurohumoral systems. When neurohormonal responses persist, as in CCF, they take on a beneficial nature since they participate in adaptation of the cardiovascular system as a whole, but they are also harmful since they worsen the working conditions of the myocardium by their cardiac and peripheral effects. Hyperactivity of the noradrenergic sympathetic nervous system is seen in CCF with levels 2 to 3 times higher as compared with subjects with normal left ventricular function. The circadian rhythm of catecholamines is modified. The increase in circulatory catecholamines is all the greater when cardiac failure is advanced. This release of noradrenaline (NA) is under the control of arterial baroreceptors which normally send to the central nervous system inhibitory inflow from the sympathetic nervous system. Inhibitory tone is released in case of a fall in blood pressure. Noradrenaline acts on beta-predominant myocardial receptors (inotropic and tachycardic) and alpha-predominant vascular receptors, resulting in arteriolar vasoconstriction. There is rapid onset of down regulation of myocardial beta-receptors. This fall essentially concerns beta 1, but beta 2 also, since they may be affected according to the etiology of CCF (ischemia). The Renin Angiotensin System (RAS) is also activated by the fall in systemic blood pressure. This consists of a cascade of reactions leading to the synthesis of angiotensin II responsible for powerful vasoconstriction of all arterial areas, including the coronary vessels.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Metabolic changes in cardiac failure]. 130 Sep 20

Recovery from renal ischemia requires regeneration of damaged tubular epithelium. Previous studies have examined the expression of proto-oncogenes and growth factors after ischemia, but the response of genes coding for structural and functional genes has not been scrutinized. Rats were subjected to 40 minutes of renal artery occlusion and 60 minutes to 96 hours of reperfusion. Total RNA was isolated and mRNA for the structural protein actin, the enzymes superoxide dismutase and renin, the proto-oncogene c-fos, the nuclear protein histone H2b, and the putative marker for cell injury TRPM-2 was quantitated by Northern hybridization. Expression of the proto-oncogene c-fos was seen early but for only short duration. Histone gene expression was not markedly increased until 24 hours after ischemia, but remained increased for several days. Renin mRNA was undetectable one hour after ischemia, but was present in normal amounts at 24 and 48 hours. In contrast, superoxide dismutase mRNA was present in decreased amounts 24, 48, and 96 hours after ischemia. TRPM-2 gene expression was greatly increased 24 to 72 hours after ischemia and began decreasing at 96 hours. This selective sequence of gene expression or repression after renal ischemia might maximize the proliferative repair process. This information will be useful for designing therapies to further enhance recovery from acute renal injury.
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PMID:Differential gene expression in the recovery from ischemic renal injury. 191 Jan 24

Two infants with renal tumors and associated hypertension are presented. By using an antibody to purified human renal renin, the sites of renin production were localized immunohistochemically in each tumor. The first case was a 9-month-old girl with Beckwith-Wiedemann syndrome. She presented with bilateral renal masses and hypertension (140/90 mm Hg). Following a left nephrectomy and chemotherapy and radiotherapy, her BP returned to normal. Her tumor was a Wilms' tumor of favorable histology, composed predominantly of glomeruloid structures. Renin was localized within a part of these neoplastic glomeruloid bodies. We therefore designated this as a Wilms' tumor with glomeruloid differentiation having primary reninism. The second case was a 24-day-old girl with hypertension (140/70 mm Hg). A renal tumor was found and successfully removed. Her BP returned to normal. The tumor was histologically confirmed as a congenital mesoblastic nephroma. By indirect immunoperoxidase staining, renin was localized only in the hypertrophied juxtaglomerular cells adjacent to the residual glomeruli entrapped by the tumor. None was seen in the tumor cells. We concluded that this was a case of secondary reninism--a case of hypertension secondary to the local ischemia at the entrapped glomeruli.
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PMID:Demonstration of both primary and secondary reninism in renal tumors in children. 283 60

Many potential cadaveric kidney donors have been exposed to shock or hypotension before or during organ donation. Renin-mediated vasoconstriction has been implied in the pathogenesis of acute renal failure. High renin levels have been associated with poor graft survival under hypothermic pulsatile perfusion. An attempt was made to block renin effect with Saralasin (1-Sar-8-ala-angiotensin II), a competitive blocker. Eight conditioned mongrel dogs had their renal arteries exposed, and Saralasin, 100 microgram, was injected intra-arterially. Warm ischemia was then induced for 30 min. Thereafter, the kidney was removed and placed under hypothermic pulsatile perfusion for 24 hours, during which time Saralasin was given continuously at a rate of 1 microgram/min. The kidneys were reimplanted in the same animal on the contralateral iliac fossa, Saralasin, 100 microgram, was given intraarterially after implantation, and a contralateral nephrectomy was performed. Four control animals were given saline solution instead of Saralasin. No significant differences were noted in perfusion characteristics and postoperative creatinine values between treated and control groups. This apparent lack of protective effect of angiotensin II competitive blocker suggests that in the pathophysiology of acute renal failure other factors could be involved besides renin release.
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PMID:Failure of saralasin in preventing renal failure in ischemic transplanted kidneys. 700 66

Bicaval anastomoses in orthotopic cardiac transplantation offer the advantage of preserving the right atrial geometry. To elucidate the impact of this anastomotic technique on atrial natriuretic peptide plasma levels at rest and with exercise, nine patients were submitted to a symptom-limited supine exercise test. Atrial natriuretic peptide plasma levels in samples obtained from the right atrium were elevated at rest (274.4 +/- 60.4 pg/ml), at peak exercise (438.1 +/- 71.7 pg/ml), and thereafter (328.1 +/- 71.2 pg/ml) with respect to normal reference values of 21 +/- 1 pg/ml at rest and 92 +/- 14 at peak exercise. Renin, angiotensin, and aldosterone plasma levels were almost normal and did not indicate any pathologic processes in volume homeoostasis. Right-sided hemodynamic parameters were not correlated with atrial natriuretic peptide secretion. An adverse relationship between cold ischemic time of the donor organ and atrial natriuretic peptide release was found (r = 0.88, p < 0.0008), indicating that endocrine cardiocytes are sensitive to prolonged ischemia. Atrial natriuretic peptide release may thus be independent of the surgical approach, and other unique characteristics of the transplanted heart, such as denervation, are more likely to be responsible for elevated atrial natriuretic peptide plasma concentrations after orthotopic heart transplantation.
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PMID:Atrial natriuretic peptide release at rest and with exercise after cardiac transplantation with bicaval anastomoses. 852 69

Growing evidence points to the existence of the components of the kallikrein-kinin-system (KKS) in cardiac and vascular tissue forming systemic and local KKS pathways involving different cell types like endothelial cells, cardiomyocytes and vascular smooth muscle cells. Kinins may contribute to the regulation of the cardiovascular system in health and disease and to the pharmacological effects of cardiovascular agents via autocrine-paracrine mechanisms. Based on observations from experimental models of hypertension, hypertrophy, ischemia, remodelling and preconditioning one can assume that modulation of local KKS pathways is instrumental for endogenous cardio- and vasculoprotective mechanisms. The role of kinins as possible mediators of such protective mechanisms is not only based on the existence of their generating pathways and their release, but also on observations that kinins, when given locally or being increased by inhibition of their breakdown, exert beneficial cardiovascular effects, whereas antagonism of their receptors worsens these effects. Indispensable pharmacological tools like ACE inhibitors and kinin receptor antagonists have helped to clarify these assumptions, which are now further elucidated by molecular biology and by clinical research. Especially the wealth of experimental and clinical findings with ACE inhibitors present a continuous challenge to investigate the role of kinins in the cardiovascular system and to have a closer look at the interdependence of KKS and the Renin-Angiotensin-System (RAS). Within our decade one might not only reach a clearer molecular perception of kinins in the cardiovascular system, and their role in human health and disease, but might also come to improved innovative treatment by modulation of the KKS pathways.
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PMID:Kinins in the cardiovascular system. 885 52

The involvement of the Renin Angiotensin System (RAS) and the role of its primary effector, angiotensin II (Ang II), in etiology of myocardial hypertrophy and ischemia is well documented. In several animal models, the RAS is activated in cardiac cell types that express the receptor AT1, and/or AT2, through which the Ang II mediated effects are promoted. In this article, we briefly review recent experimental evidence on the critical role of a prominent signaling pathway, the Jak/STAT pathway in activation and maintenance of the local RAS in cardiac hypertrophy and ischemia. Recent studies in our laboratory document that the promoter of the prohormone angiotensinogen (Ang) gene serves as the target site for STAT proteins, thereby linking the Jak/STAT pathway to activation of heart tissue autocrine Ang II loop. STAT5A and STAT6, are selectively activated when the heart is subjected to ischemic injury, whereas activation of STAT3 and STAT5A is involved in myocardial hypertrophy. Blockage of RAS activation by treatment with specific inhibitor promotes a remarkable recovery in functional hemodynamics of the myocardium. Thus, activation of selective sets of STAT proteins constitutes the primary signaling event in the pathogenesis of myocardial hypertrophy and ischemia.
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PMID:The role of Jak/STAT signaling in heart tissue renin-angiotensin system. 1110 48

Renin-angiotensin system (RAS) is involved in the regulation of superoxide dismutase (SOD) and nitric oxide (NO) equilibrium, and its modulation protects hearts from ischemic dysfunction. We examined the effect of a new antisense-oligodeoxynucleotides (AS-ODNs) directed at ACE mRNA on SOD and iNOS expression during myocardial ischemia. Sprague-Dawley rats were treated with saline, AS-ODNs, or inverted-ODNs (IN-ODNs), given with liposome DOTAP/DOPE. Hearts were excised and subjected to 25 min of ischemia followed by 30 min of reperfusion. Ischemia-reperfusion in saline-treated hearts resulted in a decrease in the expression of SOD and an increase in the expression of inducible NOS (iNOS) genes concurrently with myocardial dysfunction. AS-ODNs, but not IN-ODNs, protected hearts against functional deterioration, and upregulated SOD expression and inhibited the expression of iNOS. ACE protein expression was decreased in the rat hearts of the AS-ODNs-treated group, but not in the IN-ODNs group. Thus manipulation of RAS with AS-ODNs directed at ACE mRNA can ameliorate cardiac dysfunction and modulate expression of SOD and iNOS at genomic level.
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PMID:Modulation of myocardial SOD and iNOS during ischemia-reperfusion by antisense directed at ACE mRNA. 1111 1

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