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

We describe two adult patients who presented with acute cerebral infarction and were found to have a hypercoagulable state due to nephrotic syndrome. One patient had a deficiency of free protein-S. The other patient had a pulmonary embolus 4 months after the stroke. Our cases demonstrate that the hypercoagulable state associated with nephrotic syndrome can be associated with cerebral arterial thrombosis and infarction in adults. Examination of the urine remains an important part of the evaluation of patients with recent stroke. The presence of severe proteinuria and a low serum albumin content should prompt consideration of a hypercoagulable state. Our experience suggests that anticoagulant drugs may be required to reduce the risk of new thrombotic events.
Stroke 1991 Jan
PMID:Cerebral infarction in patients with nephrotic syndrome. 151 97

The extent of molecular defects in the mitochondrial energy-transducing system was examined in autopsied tissues of a 14-year-old male with mitochondrial myopathy, encephalopathy, lactic acidosis, and stroke-like episodes (MELAS) in order to elucidate the underlying molecular and genetic abnormalities. The patient also had other multiorganic disorders: hypertrophic cardiomyopathy, nephrotic syndrome, and pseudohypoparathyroidism. Enzymic activities of complex I and IV were severely decreased, and those of complex III and V were mildly decreased in the mitochondria isolated from various tissues, but the severity of the deficiencies varied from tissue to tissue. In contrast, complex II and citrate synthase activities were normal or were decreased to a lesser extent than the enzymic activities of other complexes in all the tissues examined. These results suggest that the energy-transducing complexes, namely complexes, I, III, IV, and V, that contain mitochondrially synthesized subunits, were selectively affected. Immunoblot analysis demonstrated that the decreased enzymic activities were based on decreased contents of subunits in these complexes. The multiorganic manifestation of the disorder may result from wide and uneven distribution of abnormal mitochondria that have pleiotropic molecular defects in the energy-transducing complexes among the organs of the patient.
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PMID:Pleiotropic molecular defects in energy-transducing complexes in mitochondrial encephalomyopathy (MELAS). 280 15

We studied 15 patients with angiographically documented intraluminal clot in the vertebrobasilar (VB) circulation and ischemic stroke. Progressive brainstem signs were the most common presentation; the neurologic deficit was maximum at stroke onset in 4. Seven experienced their first symptoms during sedentary activities. Thirteen of the initial 15 CTs revealed infarcts in the VB territory, 7 with multiple foci. Intraluminal clot was present in the vertebral artery in 7 patients (2 bilateral), basilar artery in 7, posterior cerebral artery in 5, and superior cerebellar artery in 1. Multiple clots were seen in 5 patients. Stroke risk factors were present in the majority of cases. Although cardiac source embolism was the most common single etiology (4 patients), most patients had other causes including migraine, coagulopathy associated with malignancy and nephrotic syndrome in systemic lupus erythematosus, vertebral artery dissection with local embolism, delayed irradiation arteriopathy, and a fusiform, ectatic basilar artery. Six (40%) died within 5 months of follow-up. Intraluminal clot in the posterior circulation is a marker for multiple stroke mechanisms, not all of which are embolic. Intraluminal clot should prompt investigations into occult risk factors when no cause appears obvious.
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PMID:Intraluminal clot in the vertebrobasilar circulation: clinical and radiologic features. 292 76

Although the nephrotic syndrome is known to be a hypercoagulable state, cerebral arterial thrombosis associated with the nephrotic syndrome is an uncommon yet treatable cause of stroke syndrome in children. We report 2 children, 1 with congenital nephrotic syndrome and the other with minimal change nephrotic syndrome, who developed cerebral arterial thrombosis. The complication was fatal in 1 patient.
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PMID:Cerebrovascular complications in children with nephrotic syndrome. 307 64

From August 1974 to January 1985, 53 patients (26 men; seven Maoris) mean age 45 (SD 15) years, with diabetes mellitus for a mean of 12 (SD nine) years had a renal biopsy and were followed. Indications for biopsy were nephrotic syndrome, proteinuria, renal impairment (five) and hematuria (one). Mean plasma creatinine concentration was 0.22 (SD 0.18) mmol/L and protein excretion 3.4 (SD 2.5) g/24 h. Diabetic nephropathy was demonstrated in 39 patients and significantly associated with retinopathy and insulin dependent diabetes mellitus (IDDM). Of the 39 patients followed for 25.7 (SD 22.8) months, 18 had died (nine myocardial infarction, six uremia, two sepsis, one stroke) and nine had begun dialysis. The five-year cumulative renal survival was 28%. The presence of the nephrotic syndrome and the plasma creatinine concentration at presentation were the best predictors of survival. Diabetics with IDDM of 20 years duration, retinopathy and heavy proteinuria, who survive the other complications of their disease, are likely to have diabetic nephropathy requiring renal replacement therapy.
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PMID:Renal disease in diabetics--which patients have diabetic nephropathy and what is their outcome? 324 62

In 179 patients subjected to 186 renal transplants, 30 renal biopsies were performed due to the presence of a proteinuria over 3.5 g/24 h or due to a reduction in glomerular filtration rate. Six of these biopsies, coming from 5 patients, disclosed morphological alterations compatible with focal segmental glomeruloesclerosis. Five of these were due to recurrence of the primary disease (in four patients) and in all, massive proteinuria appeared from 1 to 23 days after transplantation. Two patients with three transplants, evolved to renal failure and required dialysis in a period 12 months as a mean. The third patient, developed a nephrotic syndrome without renal failure and died 14 months after the renal transplant due to a stroke. In the fourth patient, the nephrotic syndrome disappeared 38 days after the transplant and remained with minimal proteinuria until his last follow up visit two years later. The primary disease of the fifth patient is unknown; the nephrotic syndrome appeared 68 months after the transplant and remitted spontaneously in 2 months. The renal biopsy showed focal and segmental lesions with partial effacement of epithelial foot processes. It is concluded that focal segmental glomerulosclerosis recurrence in renal transplant occurs with early massive proteinuria and frequently leads to renal failure and graft loss in no more than two years.
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PMID:[Focal and segmental glomerulosclerosis in renal transplantation]. 773 12

Despite important new diagnostic laboratory and imaging technologies, the cause of brain infarction remains unexplained in 20% to 40% of subjects. Most stroke patients do not require extensive evaluations of coagulation, but hypercoagulability may account for a significant proportion of unexplained strokes. Hemostatic abnormalities associated with stroke may be broadly classified as familial or acquired. Principal among the familial thrombotic coagulopathies are deficiencies in concentration or function in protein-C, protein-S, and antithrombin III, but other hereditary abnormalities include sickle cell disease, homocystinuria, and dysfibrinogenemia. The acquired disorders of hemostasis associated with stroke probably constitute a larger proportion of the important stroke-related coagulopathies. In particular, the aPL antibody syndrome is now strongly associated with thrombotic events including stroke, although neither the mechanism of thrombosis nor effective therapies for this syndrome have been clearly elucidated. Many of the acquired hemostatic abnormalities exist within a special clinical setting such as with malignancy or with myeloproliferative diseases, nephrotic syndrome, and liver disease. Presumably many of these share common pathways of coagulation activation or dysfunction with the inherited disorders. Most of the hemostatic disorders in stroke are associated with dysfunction of vascular endothelium and abnormalities of or interference with the natural anticoagulant proteins: protein-C, protein-S, and antithrombin III. Improved understanding of these relationships should lead to better diagnosis and treatment for people at risk of stroke.
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PMID:Abnormalities of hemostasis in ischemic stroke. 841 25

Lipoprotein(a) [Lp(a)] is a genetically determined risk factor for atherosclerotic vascular disease. Several studies have described a correlation between high Lp(a) plasma levels and coronary heart disease, stroke, and peripheral atherosclerosis. In healthy individuals Lp(a) plasma concentrations are almost exclusively controlled by the apolipoprotein(a) [apo(a)] gene locus on chromosome 6q2.6-q2.7. More than 30 alleles at this highly polymorphic gene locus determine a size polymorphism of apo(a). There exists an inverse correlation between the size (molecular weight) of apo(a) isoforms and Lp(a) plasma concentrations. Average Lp(a) levels are high in individuals with low molecular weight isoforms and low in those with high molecular weight isoforms. Mean Lp(a) plasma levels are elevated over controls in patients with renal disease. Patients with nephrotic syndrome exhibit excessively high Lp(a) plasma concentrations, which can be reduced with antiproteinuric treatment. The mechanism underlying this elevation is unclear, but the general increase in protein synthesis caused by the liver due to high urinary protein loss is a likely explanation. Patients with end-stage renal disease (ESRD) also have elevated Lp(a) levels. These are even higher in patients treated by continuous ambulatory peritoneal dialysis than in those receiving hemodialysis. Lipoprotein(a) concentrations decrease to values observed in controls matched for apo(a) type following renal transplantation. This clearly demonstrates the nongenetic origin of Lp(a) elevation in ESRD. Both the increase in ESRD and the decrease following renal transplantation are apo(a) phenotype dependent. Only patients with high molecular weight phenotypes show the described changes in Lp(a) levels. In patients with low molecular weight types the Lp(a) concentrations remain unchanged during both phases of renal disease. As in the general population, Lp(a) is a risk factor for cardiovascular events in ESRD patients. In this patient group the apo(a) phenotype seems to be equally or better predictive of the degree of atherosclerosis than is Lp(a) concentration. Further prospective studies will be necessary to confirm these observations. Whether Lp(a) also plays a key role in the pathogenesis and progression of renal diseases needs further study. Controversial data on the role of the kidney in Lp(a) metabolism result from insufficient sample sizes of several studies. Due to the broad range and skewed distribution of Lp(a) plasma concentrations, large study groups must be investigated to obtain reliable results.
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PMID:Lipoprotein(a) in renal disease. 876 31

Lipoprotein(a) [Lp(a)] represents an LDL-like particle to which the Lp(a)-specific apolipoprotein(a) is linked via a disulfide bridge. It has gained considerable interest as a genetically determined risk factor for atherosclerotic vascular disease. Several studies have described a correlation between elevated Lp(a) plasma levels and coronary heart disease, stroke, and peripheral atherosclerosis. In healthy individuals, Lp(a) plasma concentrations are almost exclusively controlled by the apo(a) gene locus on chromosome 6q2.6-q2.7. More than 30 alleles at this highly polymorphic gene locus determine a size polymorphism of apo(a). There exists an inverse correlation between the size (molecular weight) of apo(a) isoforms and Lp(a) plasma concentrations. The standardization of Lp(a) quantification is still an unresolved task due to the large particle size of Lp(a), the presence of two different apoproteins [apoB and apo(a)], and the large size polymorphism of apo(a) and its homology with plasminogen. A working group sponsored by the IFCC is currently establishing a stable reference standard for Lp(a) as well as a reference method for quantitative analysis. Aside from genetic reasons, abnormal Lp(a) plasma concentrations are observed as secondary to various diseases. Lp(a) plasma levels are elevated over controls in patients with nephrotic syndrome and patients with end-stage renal disease. Following renal transplantation, Lp(a) concentrations decrease to values observed in controls matched for apo(a) type. Controversial data on Lp(a) in diabetes mellitus result mainly from insufficient sample sizes of numerous studies. Large studies and those including apo(a) phenotype analysis came to the conclusion that Lp(a) levels are not or only moderately elevated in insulin-dependent patients. In noninsulin-dependent diabetics, Lp(a) is not elevated. Conflicting data also exist from studies in patients with familial hypercholesterolemia. Several case-control studies reported elevated Lp(a) levels in those patients, suggesting a role of the LDL-receptor pathway for degradation of Lp(a). However, recent turnover studies rejected that concept. Moreover, family studies also revealed data arguing against an influence of the LDL receptor for Lp(a) concentrations. Several rare diseases or disorders, such as LCAT- and LPL-deficiency as well as liver diseases, are associated with low plasma levels or lack of Lp(a).
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PMID:Lipoprotein(a) in health and disease. 898 7

Cerebral venous thrombosis is an infrequent cause of childhood stroke. It is reported most frequently in the setting of acute dehydration, cyanotic congenital heart disease, or the nephrotic syndrome and it is commonly found in patients with hereditary coagulation or immunologic disorders. Thrombotic tendencies may also occur in children with iron deficiency anemia. We describe a 11-months old boy with cerebral venous thrombosis likely attributable to dehydration and iron deficiency anemia by intestinal chronic blood loss, caused by food allergy.
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PMID:[Cerebral venous thrombosis in a child with iron deficiency anemia caused by food allergy]. 931 49


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