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)

A forty-two years old male underwent an aortic arch replacement for an emergency treatment of dissecting aortic aneurysm (DeBakey type I). Separate cardiopulmonary bypass was used with main arterial inflow cannula inserted to right femoral artery. After the operation, ischemia of the right lower extremity led to acute renal failure due to myonephropathic-metabolic syndrome. Peritoneal dialysis, hemodialysis, and continuous arterio-venous hemofiltration were performed. Renal failure improved gradually. At the diuretic phase serum calcium concentration began to rise. Inspite of large amount of fluid and furosemide injection it became higher and finally reached to 20 mg/dl level. Calcitonin injection (320 mu/day) was very effective. In 2 months after surgery serum creatinine and calcium concentrations went down to normal range. Abnormalities in calcium metabolism are frequent in rhabdomyolysis-induced acute renal failure. However, it is rare to encounter such a remarkable hypercalcemia as seen in this patient. When treating MNMS we should pay attention to the changes of serum calcium concentration.
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PMID:[Dissecting aortic aneurysm associated with myonephropathic-metabolic syndrome and hypercalcemia]. 202 21

Four cases of secondary hyperparathyroidism were treated by total parathyroidectomy with autotransplantation into the sternocleidomastoid muscle. These total parathyroidectomy patients are presented to demonstrate the reliability of parathyroid autotransplantation into the sternocleidomastoid muscle. Our technique is described in detail, and all procedures were successful. In one case, the patient was found, in retrospect, to have an adenoma in the transplanted parathyroid tissue. When the patient developed graft-dependent hypercalcemia, a portion of the graft was easily excised under local anesthesia and the patient became normocalcemic. Parathyroid tissue should be transplanted into the sternocleidomastoid muscle rather than other sites because of easy accessibility, one operative site, less graft ischemia, a low incidence of infection, and a high success rate due to excellent blood supply.
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PMID:Autotransplantation of parathyroid tissue into sternocleidomastoid muscle. 335 95

Thiazide diuretic drugs act in the distal convoluted tubule (DCT) to inhibit a Na+Cl- cotransporter and enhance reabsorption of luminal calcium. The density of receptors for thiazides in the rat DCT is known to be increased by adrenocortical steroids, furosemide, and bendroflumethiazide, but decreased by ischemia. Because the DCT is a physiologic site of action by calcitonin and parathyroid hormone, this study examined the effects of these calcitropic hormones in thyroparathyroidectomized Sprague-Dawley rats on (1) the density of the rat thiazide receptor (TZR), as quantitated by binding of (3H)metolazone to renal membranes, and (2) urinary electrolyte excretion rate. Salmon calcitonin (sCT) (20 to 100 ng/h) (1) increased the density of the renal TZR twofold, an effect that is maximal by 6 h after sCT administration, and (2) decreased urinary calcium excretion rate. Adequate dietary calcium must be provided for the effects of sCT to be observed. Regression analysis demonstrated that renal TZR density correlated negatively with total urinary calcium excretion rate but not with plasma calcium ion concentration. In addition, neither rat calcitonin (rCT), at doses that cause hypocalcemia, nor parathyroid hormone, at doses that cause hypercalcemia, produce direct effects on TZR density in the DCT of the thyroparathyroidectomized rat. Our findings indicate that upregulation of TZR by sCT, which occurs independently of plasma calcium-ion concentration, is likely via a calcitonin-like receptor other than that for rat calcitonin itself.
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PMID:Effects of calcium-modulating hormones on thiazide receptor density. 882 21

In experiment on rats functional overload (36 hours of water depression) helps in establishing the fact that the kidney subjected to the actions of non-specific factors of transplantation (ischemia, denervation, delymphatization) restores its ability to keep osmotic haemostasis to the 17th day. The same alterative factors against a background of hypercalcemia is not accompanied by the restoration of osmoconcentration functions to the 30th day of the experiment. One of the causes of this phenomenon may be the increase in the velocity of filtration in the kidney.
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PMID:[The osmolar concentrating function of the kidneys under the influence of nonspecific transplantation factors against a background of hypercalcemia]. 902 99

Although hypercalcemia may cause drowsiness, lethargy, weakness, confusion and coma it rarely causes seizures or cerebral infarction. The patient presented had a clinical evolution from hallucinosis to a generalized tonic-clonic seizure, and subsequent cortical blindness with occipital cerebral ischemia as evidenced by SPECT and MRI scans. EEG revealed occipital PLEDs. With reversal of hypercalcemia, there was a return of vision, resolution of EEG epileptiform activity, although with some residual occipital infarction. This case, in concert with a literature review of hypercalcemia, reveals examples of occipital and watershed ischemia, blindness, seizures and hypertension, a pattern markedly similar to that of eclampsia. Furthermore, medications such as magnesium sulfate, believed to reverse cerebrovasospasm responsible for the eclamptic neurologic findings, may counter the effects of hypercalcemia at a cellular level, lending support to a calcium-mediated injury in eclampsia.
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PMID:Reversible hypercalcemic cerebral vasoconstriction with seizures and blindness: a paradigm for eclampsia? 966 11

Revascularization of a limb after a severe and prolonged period of ischemia may be associated with high rates of mortality and amputation, because of the development of a postrevascularization syndrome, regardless the cause of occlusion (ischemia, trauma, iatrogenic) or the methods used to achieve reperfusion (fibrinolysis, surgery, resuscitative therapy). This "revascularization" syndrome includes several complications, both local (explosive swelling of the limb, compartment syndrome and skeletal muscle infarction (rhabdomyolysis) and general (acidosis, hypercalcemia, hypovolaemic shock, renal, hepatointestinal and pulmonary failures, arrhythmias and cardiac arrest (multiple organ dysfunction). Current therapies are directed against complications after they occurred, once revascularization is completed: fasciotomy, mannitol and diuretics administration for forced diuresis, fluid administration to correct hypovolaemia, use of resins, insulin and glucose or haemodialysis to deal with hypercalcemia, administration of buffers (THAM, bicarbonate) to correct acidosis, control of hypercalcaemia with orthophosphates and calcitonin.... Nevertheless, a substantial percentage of the injury is generated upon reperfusion and the muscle may remain viable after prolonged period of ischemia. Intra and extraacellular swelling, tissue acidosis, free radical mediated damage, loss of adenine nucleotide precursors, and intracellular calcium overload have been suggested to be the mechanisms responsible for reperfusion injury. Careful control of both the composition and the physical conditions of the initial reperfusion (controlled reperfusion) may result, in selected cases, in improvements in the metabolism, structure and function of the limb after reperfusion.
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PMID:Local and systemic consequences of severe ischemia and reperfusion of the skeletal muscle. Physiopathology and prevention. 977 43

In healthy subjects, the 3 known pancreatic trypsinogens, which are endopeptidases belonging to the chymotrypsin superfamily, are activated by enterokinase and partial autoactivation in the duodenum. The premature activation of trypsinogen in the pancreatic interstitium, with the subsequent activation of other pancreatic zymogens, is believed to lead to the autodigestion of the gland, this being the first event in acute pancreatitis. The mechanisms that lead to trypsinogen, activation in acute pancreatitis are largely unknown. However, ischemia, hypercalcemia and the activation of cathepsin B (by cholecystokinin) are thought to be of importance. The easiest and most reliable way to assess trypsinogen activation is the measurement of the activation peptide, TAP, in urine, plasma, pancreatic tissue or ascitic fluid. In the animal model of acute pancreatitis, TAP in ascites and pancreatic tissue has been shown to correlate with the presence and extent of necroses. It has proven to be a good marker for the severity of pancreatitis and is a useful marker in examining the pathophysiology and possible treatment modalities in the animal model of acute pancreatitis. Studies on TAP in human acute pancreatitis were most commonly focused on urinary TAP. Within a 48-hour time frame after the onset of the disease, TAP was a good predictor of the severity of acute pancreatitis. The main advantage over other markers, such as CRP, is that TAP is the earliest marker of necrosis to be increased. Also, increased levels of TAP in ascitic fluid were shown to correlate well with pancreatic necroses. In our experience, plasma TAP was found to have a "diagnostic window" within the first 3 days predicting pancreatic necroses. Positive TAP gave a very good positive prediction and a high specificity towards the development of pancreatic necroses, but did not differ between necrotizing pancreatitis with systemic complications or uncomplicated necrotizing pancreatitis. We therefore think that plasma TAP is a very good marker for local complication in acute pancreatitis and its routine measurements may help to identify patients at a high risk within the first days of the disease.
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PMID:Mechanism and role of trypsinogen activation in acute pancreatitis. 1057 41

Stanniocalcin (STC) is a glycoprotein hormone originally found in bony fish, in which it regulates calcium/phosphate homeostasis and protects against hypercalcemia. The recently characterized human STC shows about 70% homology with fish STC. We previously reported a constitutive expression of STC in terminally differentiated neurons. Here, we show that exposure of human neural-crest-derived cell line Paju to hypercalcemic culture medium induced expression of STC. Treatment of Paju cells with recombinant human STC increased their uptake of inorganic phosphate. Paju cells expressing STC by cDNA transfection displayed increased resistance to ischemic challenge and to elevated intracellular free calcium induced by treatment with thapsigargin. An up-regulated and redistributed expression of STC was observed in neurons surrounding the core of acute infarcts in human and rat brains. Given that mobilization and influx of calcium is considered a main neurotoxic mechanism following ischemia, our results suggest that the altered expression of STC contributes to the protection of cerebral neurons against hypoxic/ischemic damage. Manipulation of the STC expression may therefore offer a therapeutic approach to limit the injury after ischemic brain insults.
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PMID:Stanniocalcin: A molecular guard of neurons during cerebral ischemia. 1072 97

Induction of acute pancreatitis follows a uniform mechanism independent of the different etiologic factors such as gallstones, alcohol, ischemia, hyperlipidemia, hypercalcemia, hereditary and others. Each cause seems to affect primarily the acinar cell, resulting in premature intracellular activation of trypsinogen and other digestive enzymes. Activated enzymes and oxygen free radicals injure the acinar cell and cause a release of cytokines and vasoactive mediators, attract inflammatory cells and activate the vascular endothelium as well as the expression of adhesion molecules. The disturbance of the pancreatic microcirculation induces a progression from edematous to necrotizing pancreatitis independent of the early intracellular events, including protease activation. Specific therapy must be directed towards microperfusion failure as a secondary pathogenetic step, since the initial enzyme activation and cytokine release is irreversible by the time of clinical presentation. In experimental designs comparable to the clinical situation the following therapeutic principles have proven beneficial: increase of blood fluidity by dextran, inhibition of leukocyte-endothelium interaction by ICAM-1 antibodies, and blockade of local vasoconstriction by endothelin-receptor antagonists.
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PMID:[New pathophysiologic knowledge about acute pancreatitis]. 1078 41

Sodium-hydrogen ion exchange (NHE) is one of the principal mechanisms of restoring intracellular pH following ischemia and reperfusion. However, up-regulation of the NHE process results in a compensatory increase in the activity of the sodium-calcium exchanger. Intracellular hypercalcemia, resulting from the exchange of sodium for calcium, precipitates myocardial stunning and cell death. It has been postulated that NHE inhibition can protect the ischemic/reperfused myocardium, and preclinical studies have uniformly supported this concept. The Guard During Ischemia Against Necrosis (GUARDIAN) trial suggested benefits of NHE inhibition in subjects undergoing coronary artery bypass grafting (CABG). The sodium-hydrogen eXchange inhibition to Prevent coronary Events in acute cardiac conDITIONs (EXPEDITION) trial will further explore the use of cariporide in a randomized, controlled trial of CABG subjects at risk of myocardial necrosis.
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PMID:The role of sodium-hydrogen ion exchange in patients undergoing coronary artery bypass grafting. 1269 76

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