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

Ten homozygous sickle cell patients, aged from 4 to 20 years, underwent a periodic red blood cells transfusion program. Indications were = one stroke or more in 4 cases, repeated severe painful crisis in 2 cases, and for others = chronic anaemia induced by hypersplenism, priapism, chronic leg ulceration, dwarfism with delayed sexual maturation. Transfusion program lasted from 6 months to 6 years. In 7 cases, a phlebotomy preceded the transfusion by the same venipuncture in order to reduce the inevitable iron overload progression. Clinical benefit was clear in the following cases: lack of painful crisis with return to school, leg ulceration healing, growth and weight increase, onset of puberty. Benefit is more difficult to assess in the other observations and, particularly, in stroke. No red cell antibodies were found. An HIV contamination occurred in 3 children. All transfused patients during a period exceeding one year developed iron overload, needing a daily chelation by intramuscular deferoxamine in two of them.
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PMID:[Long-term blood transfusion in sickle-cell anemia]. 361 65

The use of chronic transfusions in patients with sickle cell disease is now the common practice after a stroke has occurred, in order to prevent the highly probable recurrence. Clinical studies show that chronic transfusion prevents the recurrence of a stroke. Review of the natural history of sickle cell disease indicates, however, that the mortality and morbidity associated with hemoglobin SS disease are quite high. Use of chronic transfusion, given before the occurrence of stroke and other irreversible organ damage, can be considered as an alternative to the conservative management of sickle cell disease. Chronic transfusion has become practicable since the recent advances in chelation therapy have essentially eliminated the risk of secondary iron overload.
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PMID:Chronic transfusions in patients with sickle cell disease. Indications and problems. 403 43

The indications and management of blood transfusion in the haemoglobinopathies have been reviewed. The sickle cell diseases that require transfusion support are sickle cell anaemia, sickle haemoglobin-C and -D diseases and sickle beta-thalassaemia. Homozygous beta-thalassaemia (Cooley's anaemia) is the major problem among the thalassaemias. The pathophysiology of the sickle cell disorders is largely based on the secondary effects of increased blood viscosity, whereas in the thalassaemias the defect is ineffective haematopoiesis. In the former the major problems occur as manifestations of vaso-occlusive crises with disseminated bone and abdominal pain, priapism, stroke and leg ulcers. Bone infarction and aseptic necrosis occur but the widespread bone changes, underdevelopment and haemochromatosis that complicate the thalassaemia are not prominent. Transfusion therapy in the sickle cell diseases is mainly episodic and is guided by the frequency of crises and the severity of vaso-occlusive complications. Partial exchange transfusion and the maintenance of haemoglobin A concentrations at 40 to 50 per cent is frequently indicated. In the thalassaemias, maintenance of haemoglobin levels is essential for normal growth and development. The problem of haemochromatosis is very serious. With hypertransfusion regimens the haemoglobin and haemotocrit are maintained above 12-13 g/dl and 35 per cent. The resulting benefit appears to be reduced blood volume, less iron turnover, and less intestinal iron absorption. The splenomegaly in these disorders is frequently associated with hypersplenism requiring well-timed splenectomy. Chronic and intensive chelation is necessary to prevent the ravages of iron overload. The availability of automated equipment for in vivo and ex vivo blood cell separation has brought new possibilities for improving the management of these haemoglobinopathies. It is feasible, but not as yet practical, to offer transfusions of neocytes (red cells with a mean age of 30 days) which have a 50 per cent longer survival than routine red cell preparations (mean age of 60 days). Neocytes can be prepared ex vivo from fresh routine blood donations using blood cell separator devices. The result is reduced transfusion requirements. A more recent suggestion for using the new technology is to remove the patient's oldest and most abnormal corpuscles on the basis of buoyant density and replacing them with neocytes . Thus the short-lived abnormal red cells would be removed before they could unload their iron. With automation it is possible to perform these procedures on an outpatient basis.
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PMID:Transfusion support for haemoglobinopathies. 637 80

Chelation therapy with deferoxamine is effective in preventing the risk of transfusional iron overload, but treatment failure is common because of noncompliance. To reduce the transfusional iron load, we have evaluated longterm erythrocytapheresis in 14 subjects with sickle cell disease and stroke (11) or other complications (3) as an alternative to simple transfusion. Subjects were treated with erythrocytapheresis using the Haemonetics V50 (Haemonetics Corp, Braintree, MA) to maintain the target pretransfusion hemoglobin S (Hb S) level less than 50% for 6 to 71 months. The transfusional iron load and the donor blood usage were analyzed for a 6- to 36-month study period and were compared with similar data from a subset of 7 subjects previously treated with conventional (target Hb S < 30%) and modified (target Hb S < 50%) simple transfusion protocols. The effect of erythrocytapheresis on iron accumulation was determined by assessment of serum ferritin levels in the absence of iron chelation. The mean transfusional iron load and donor blood usage with erythrocytapheresis were 19 +/- 14 mg iron/kg/yr (range, 6 to 50) and 188.4 +/- 55.2 mL packed-red blood cells (RBC)/kg/yr (range, 107 to 281), respectively. Of 6 subjects receiving no iron chelation therapy, 5 maintained normal or nearly normal serum ferritin levels during 11 to 36 months of erythrocytapheresis. In comparison with conventional simple transfusion and modified simple transfusion, erythrocytapheresis reduced iron loading by 87% (P < .01) and 82% (P < .01), respectively, but increased donor blood usage by 23% and 73%, respectively. Subjects with pre-erythrocytapheresis Hb levels > or = 8.0 g/dL had lower iron accumulation (P < .001) and less donor blood usage (P < .005) than subjects with Hb levels < or = 8.0 g/dL. Although donor blood usage is increased in comparison with simple transfusion, long-term erythrocytapheresis markedly reduces or prevents iron accumulation. This form of transfusion therapy allows the cessation of iron chelation in well-chelated subjects and, if used as the initial form of transfusion therapy, may prevent long-term complications of sickle cell disease without risk of iron overload and the need for chelation therapy.
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PMID:Erythrocytapheresis therapy to reduce iron overload in chronically transfused patients with sickle cell disease. 811 Oct 53

Management of transfusion therapy in sickle cell disease patients with acute complications is often made difficult because of confusing indications, a variety of methods, disparate goals, and varying needs for maintenance transfusion. In priapism, acute chest syndrome, many major surgical procedures, toxemia of pregnancy, and cerebrovascular accidents, the target hemoglobin A level should be made as close to 100% as possible by mechanized red blood cell exchange. If mechanized exchange is unavailable, manual exchange should be instituted. Hemoglobin A should be maintained at greater than 60% to 70% by periodic simple transfusion until patients are fully recovered. Stroke patients should undergo maintenance transfusions for at least 3 years and perhaps 5 to 12 years. Physicians and patients should be aware of the transfusion-related risks of hepatitis and HIV infection. Alloimmunization and iron overload should be minimized in patients requiring frequent transfusions and chelation therapy should be utilized for iron overload.
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PMID:Transfusion therapy in sickle cell disease patients: methods and acute indications. 812 Apr 39

Magnetic resonance (MR) marrow signal in the axial and appendicular skeleton of 13 transfusion-dependent and chelated pediatric patients with sickle cell anemia (SSD) was compared with marrow signal in six non-transfusion-dependent patients with SSD. Hepatic, pancreatic, and renal MR signal were also evaluated. Indication for hypertransfusion therapy was primarily prior history of stroke. Transfusion-dependent patients had evidence of iron deposition throughout the imaged marrow and the liver, despite deferoxamine chelation therapy. Non-transfusion-dependent patients did not demonstrate grossly apparent signs of iron overload. Red marrow restoration was present in the spine, pelvis, and long bones and, in some patients, within the epiphyses. Marrow edema secondary to vaso-occlusive crises was evident in the metaphyses and diaphyses of long bones in areas of both red and fatty marrow and was best seen using fat-saturated T2-weighted imaging techniques.
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PMID:MR marrow signs of iron overload in transfusion-dependent patients with sickle cell disease. 857 Mar 14

Anthracyclines are the most frequent cause of iatrogenic congestive heart failure ranging from acute reversible minor, irreversible reduction in the left ventricular ejection fraction and death despite preventive measures. Sensitive methods are needed to detect earliest preclinical cardiotoxicity along with the development of new protective agents. Thirty breast cancer patients were randomly treated with q 21 120 mg/m2 Epirubicin (EPI) x 3, alone (10 patients), or + ICRF-187 (1000 mg/m2) (10 patients) or + C0Q10 (50 mg/day) (10 patients) and monitored by Thoracic Electrical Bioimpedance (TEB) cardiography before (T0) and at the end of chemotherapy (T1), then at 1, 3, 6 months of follow up (F1, F2, F3). a) The group treated with EPI alone showed, between F1-F2, a significant (p < 0.05) decrease in Stroke Index (S1). Acceleration Index (ACI) and a significant (p < 0.05) increase in Systemic Vascular Resistance Index (SVRI), while between F2 and F3 it showed a significant (p < 0.05) recovery in S1 and ACI. b) The group treated with EPI + ICRF-187 showed, between F1 and F2 a significant decrease in S1 and ACI (p < 0.05, p < 0.01 respectively) and a significant (p < 0.05) increase in SVRI: between F2-F3 ACI had a significant (p < 0.05) recovery: c) The group treated with EPI +C0Q10 showed no modification in Sl, ACI, and SVRI during the study. The ejection Fraction (EF) remained unchanged during the study in all the groups. C0Q10 seems to prevent early decreases in cardiac performance and contractiling, thus avoiding an SVRI increase, while ICRF-187 did not. Since ICRF-187 acts by binding iron, we deem that the earliest cardiac involvement, may occur before iron overload; therefore the role of ICRF-187 and C0Q10 in acute or chronic heart toxicity was correlated with high-dose anthracycline and needs to be further investigated.
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PMID:Early detection of the anthracycline-induced cardiotoxicity. A non-invasive haemodynamic study. 906 98

Pulmonary disease, including thromboembolic problems, accounts for a large portion of the morbidity of sickle cell disease. Chronic transfusion therapy is now a part of long-term treatment of sickle cell patients with stroke and chest syndrome. The resultant iron overload must be treated with chelation therapy using deferoxamine. Poor compliance with subcutaneous chelation therapy has necessitated intravenous deferoxamine treatment. We describe two patients with sickle cell disease on such a regimen, who became hypoxic as a result of pulmonary thromboembolism, secondary to venous thrombophlebitis. The thrombophlebitis and subsequent pulmonary embolism probably reflect the hypercoagulable state seen in sickle cell and are not due to the deferoxamine therapy.
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PMID:Pulmonary embolism developing in patients with sickle cell disease on hypertransfusion and IV deferoxamine chelation therapy. 938 84

Cerebrovascular accidents (CVA) as a complication of sickle cell disease occur most frequently in childhood. Life-long transfusion prevents recurrent stroke, but inevitably leads to iron overload. Although effective chelation exists, many patients are not compliant. Erythrocytapheresis, an automated method of red blood cell exchange, was evaluated as an alternative to control transfusion-related iron load. Eleven patients with sickle cell anemia and a history of stroke were converted from simple transfusion to pheresis. Total time on pheresis for the group averaged 19 months (range 4-36 months). No significant complications occurred with a mean pre-pheresis hemoglobin S (Hb S) level of 44%. Blood utilization increased by an average of 50%. The effect of pheresis on serum ferritin depended on the patient's pre-pheresis ferritin level and chelation regimen. Ferritin levels remained stable for chelated patients with ferritin levels > or = 5,000 ng/ml, but decreased in a chelated patient with a pre-pheresis ferritin level of 4,000 ng/ml. For non-chelated patients with significant pre-pheresis iron load, ferritin levels remained stable. No patient on chelation prior to pheresis was able to discontinue deferoxamine. However, one patient with pre-pheresis ferritin of 500 ng/ml maintained serum ferritin levels < 200 ng/ml for 36 months of pheresis without chelation. Pheresis is more expensive than simple transfusion unless the cost of chelation and organ damage from iron overload are considered. Erythrocytapheresis is a safe method of controlling Hb S levels and limiting or preventing iron load in chronically transfused sickle cell patients.
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PMID:Erythrocytapheresis limits iron accumulation in chronically transfused sickle cell patients. 972 73

Although blood transfusion (BT) therapy remains a key component of the weaponry used to treat acute and chronic sickle cell disease complications, its indications and modalities are currently the focus of a critical reappraisal prompted by the introduction of hydroxyurea, recent improvements in allogeneic bone marrow transplantation, and increasing attention to safety concerns. Expected benefits of each BT should be carefully weighed against the risks of infections, immunologic complications, and iron overload. Simple or exchange BT can be used. In emergency situations, the only effective means of improving tissue oxygenation and limiting blood vessel occlusion is dilution or removal of HbS by simple or exchange BT, respectively; simple BT is indicated in severe anemia or acute hypovolemia and exchange BT in acute vasoocclusive crisis or acute infection. In nonemergency situations, long-term exchange BT programs geared to maintain the HbS level around 30% are used to stabilize existing lesions and to prevent recurrences; they have been proved effective in preventing recurrent stroke in patients who are not candidates for allogeneic bone marrow transplantation. Situations in which BT therapy is widely used despite controversy regarding its value and modalities include the prevention of complications of pregnancy, the prevention of perioperative complications, and the prevention of recurrences of severe vaso occlusive crisis in patients eligible for hydroxyurea therapy. Advances have been made in the minimization of BT-related complications (alloimmunization, viral infections, iron overload) through critical appraisal of the need for each BT, careful selection of the most appropriate blood product, and a change in BT technique resulting in a reduction in the number of blood donors.
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PMID:[Transfusion in sickle cell anemia]. 1008 82


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