Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.1 (asparaginase)
 2,695 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Drugs of many classes have been implicated in hemorrhagic and ischemic stroke. Alcohol in moderation may have a protective effect although in greater doses may predispose to stroke. Drugs such as cocaine, amphetamines and heroin have been associated with stroke by a number of mechanisms. Antiplatelet, anticoagulant and thrombolytic therapy carry risk of hemorrhagic complications. Oral contraceptives appear to slightly increase stroke risk whereas estrogen replacement therapy may decrease it. Anabolic steroid use in athletes has been linked to stroke. The antineoplastic agent L-asparaginase has been associated with cerebral hemorrhage, ischemic infarction and venous sinus thrombosis. Infarction has been reported in association with cisplatin-based combination chemotherapy. Stroke is an infrequent but recognized complication of some forms of drug therapy and drug abuse.
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PMID:The role of drugs in the etiology of stroke. 151 72

A case of an 18-year-old woman with acute lymphoblastic leukemia who developed L-asparaginase-associated stroke and subclavian vein thrombosis is presented. The latter was also associated with a Hickman central venous catheter. Thrombotic complications occurred when plasma levels of plasminogen and antithrombin III were still markedly reduced as a result of L-asparaginase therapy, although the fibrinogen had recovered from its lower levels. The stroke was treated with fresh frozen plasma and the subclavian vein thrombosis was treated with streptokinase and fresh frozen plasma. L-asparaginase and Hickman-associated coagulopathy is reviewed and the treatment is discussed.
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PMID:Thromboembolic complications associated with L-asparaginase therapy. Etiologic role of low antithrombin III and plasminogen levels and therapeutic correction by fresh frozen plasma. 385 65

Two patients developed clinical features of intracranial bleeding--which were confirmed by computerized axial tomograms--during their induction therapy for acute lymphocytic leukemia. Coagulation studies showed clotting abnormalities including severe hypofibrinogenemia. These findings most probably were related to the effect of L-asparaginase which was part of the treatment protocol. Central nervous system leukemia, intrathecal chemotherapy, cranial irradiation, extreme leukocytosis, or thrombopenia at the time of diagnosis or day of stroke did not appear to be predisposing factors in these cases.
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PMID:Intracranial bleeding during therapy with L-asparaginase in childhood acute lymphocytic leukemia. 694 90

Coagulation disorders are common in cancer patients. In patients with solid tumors, a low-grade activated coagulation can result in systemic and cerebral arterial or venous thrombosis. Cancer treatments may also contribute to this coagulopathy, which usually, but not exclusively, occurs in the setting of advanced malignant disease. There may be TIAs or cerebral infarctions. Because of the widespread distribution of cerebral thromboses, there may be a superimposed encephalopathy; sometimes this is the only sign. Concurrent systemic thrombosis is present in many patients and is a useful clue to the diagnosis. In cerebral venous occlusion, the initial symptom is usually a headache. Except for cerebral intravascular coagulation that is unassociated with NBTE, neuriomaging studies usually demonstrate one or more parenchymal infarctions. MRI or MRV may demonstrate venous thrombosis. The laboratory evidence of coagulopathy is difficult to distinguish from the asymptomatic coagulopathy that often accompanies advanced cancer, and the test results must be interpreted cautiously. NBTE can be diagnosed by transesophageal echocardiography. There is no established treatment for the thrombotic coagulopathy associated with cancer, but anticoagulation should be considered. In leukemia and lymphoma, the coagulopathy is typically acute DIC that can lead to systemic and brain hemorrhages. It is especially common in acute myelogenous leukemias. The clinical signs of cerebral hemorrhage are fulminant and may be fatal. The bleeding usually occurs in the brain or subdural compartment, and rarely in the subarachnoid space. The diagnosis can be suspected by the clinical setting and by systemic thrombosis or hemorrhage. It can be established by examination of the peripheral smear, the platelet count, and tests of coagulation function. Therapy of acute DIC is controversial and should be individualized for the clinical setting. Cerebrovascular disorders can complicate metastatic or primary tumor in the brain, skull, dura, or leptomeninges. The clinical signs of infarction are indistinguishable from other causes of stroke, except that tumor-related venous occlusion will usually first produce signs of increased intracranial pressure. The diagnosis of tumor-related infarction can usually be established by neuroimaging studies that show infarction and may show extracerebral sites of tumor. CSF examination is useful in diagnosing leptomeningeal metastasis. A search for lung or cardiac tumor should be performed when embolic tumor infarction is suspected. Primary or metastatic tumors in the brain or dura may hemorrhage, producing the initial clinical signs of the brain tumor or a change in chronic signs induced by the tumor. There are helpful clues to a neoplastic hemorrhage on brain CT or MRI scans. The brain hemorrhage may require evacuation and the underlying tumor will usually require additional antineoplastic treatment. Hyperleukocytosis (extreme elevation of the cell count) in acute myelogenous leukemia is a less common cause of brain hemorrhage in recent years because of improved methods to lower the cell count. Cerebral arterial or venous thrombosis is sometimes the result of cancer therapy. The attribution of thrombosis to chemotherapy in many published cases is only speculative, because carefully conducted prospective studies that include investigation for other thrombotic causes are not available. The best-known associations with thrombosis are L-asparaginase, which is typically used in the induction therapy of acute lymphocytic leukemia, and combination hormonal therapy and chemotherapy for breast cancer. Radiation to the head and neck, typically administered for head and neck epithelial cancers or lymphoma, may result in delayed carotid atherosclerosis. The distribution of stenosis or occlusion is within the radiation portal and is typically more extensive than is atherosclerosis that develops in the absence of radiation. Small clinical series suggest that surgical treatment is equally effective as in nonirradiated carotid atherosclerosis. In children, the cerebral vessels can be affected by brain radiation resulting in stenosis or occlusion. Brain hemorrhages can result from chemotherapy effects on the hemostatic system or a microangiopathic anemia. Hemorrhages from radiation-induced vascular abnormalities are rare. Opportunistic infections, especially fungal infections, can complicate cancer or its treatment. Septic cerebral emboli may result in focal cerebral signs, seizures, or encephalopathy. Sometimes there is an associated hemorrhagic vasculitis or cerebritis. Rarely, mycotic aneurysms may bleed. A high index of suspicion is needed to diagnose fungal infection because of the difficulty in culturing the organism from the blood or CSF. A clinician can usually establish the cause of stroke in the cancer patient by performing a careful review of the clinical setting--including the type and extent of cancer and the type of antineoplastic therapy--in which the stroke occurred. Systemic thrombosis, embolism, or hemorrhage can be a clue to the cause, and appropriate neuroimaging and coagulation studies to aid in the diagnosis are available. Therapy may ameliorate symptoms or prevent further episodes. The identification of one of these unusual stroke syndromes that leads to the diagnosis of an occult and treatable cancer can be particularly rewarding.
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PMID:Cerebrovascular complications in cancer patients. 1269 Jun 49

Antineoplastic agents have been associated with cerebral hemorrhage, infarction and cerebral venous thrombosis. Infarctions have been reported in association with L-asparaginase, cisplatinium, methotrexate and 5-fluro-uracil. The mechanisms by which antineoplastic agents may lead to stroke include endothelium toxicity and abnormalities of coagulation factors.
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PMID:[Cerebral ischemic events and anti-cancer therapy]. 1277 66

A 10-year, retrospective review of the etiology, outcome, and complications of ischemic stroke in children from a nonurban population was conducted. Twenty-seven children were identified (14 boys, 13 girls), ages 1.25 to 17 years (mean 7.7 years). Etiologies included undetermined (22%), arterial dissection (19%), coagulopathy (15%), embolism (15%), moyamoya disease (11%), sickle cell disease (11%), isolated angiitis of the central nervous system or vasculitis (11%), or other known source (11%; two fibromuscular dysplasia, one L-asparaginase). More than one risk factor was present in five children. Seventeen (65%) children were anticoagulated, with no adverse events occurring. Nine children were anticoagulated initially with low-molecular-weight heparin. Other treatments included corticosteroids; physical, occupational, and speech therapy; and anticonvulsants for concomitant seizures. Follow-up ranged from 3 to 60 months (mean 17 months) and was as follows: 6 (22%) were normal, 9 (33%) had mild impairment, and 12 (44%) had moderate to severe deficits. There were no deaths. Neurologic complications included seizure (two), behavioral problems (two), and hemorrhagic conversion (one). In this population, the outcome from ischemic stroke was similar to that of other studies, with the majority of children demonstrating persistent neurologic deficits. Etiology could be determined for the majority of patients, with 19% having more than one risk factor.
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PMID:Childhood ischemic stroke in a nonurban population. 1583 8

Superior sagittal sinus thrombosis (SSST) has been reported to be caused by coagulopathy following oral contraceptive therapy, DIC, infection around the sinus, compression from a tumor, infiltration of tumor, and an inherited deficiency of proteins C and S, but SSST associated with hematological malignancies and L-asparaginase (L-Asp) therapy is rare. We report a case of an adult patient with acute lymphoblastic leukemia (ALL) who developed SSST during the remission induction therapy. A 25-year-old man was admitted with left facial nerve palsy and, following bone marrow aspiration and lumbar puncture, he was diagnosed as having T-ALL with CNS involvement. He received a 1-AdVP regimen as remission induction therapy and intrathecal administration of methotrexate and cytarabine. On day 29, he had a generalized convulsion and SSST was demonstrated by imaging tests. Lymphoid malignancy (ALL in particular), the use of L-Asp, CNS involvement, and intrathecal chemotherapy might be risk factors for the occurrence SSST. When a patient with those factors develops any neurological symptoms, we should pay attention to the occurrence of SSST, as well as stroke or CNS involvement, though SSST is rare.
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PMID:[Superior sagittal sinus thrombosis during remission induction therapy for acute lymphoblastic leukemia]. 1723 72

Cerebrovascular disease is common in cancer patients. Some tumors are at high risk for cerebrovascular complications. The development of cerebrovascular disease may be provoked by cancer treatment. No well-planned prospective studies about other causes of thrombosis are available, although various case reports about thrombosis related to chemotherapy have been published. L-asparaginase, cisplatin, 5-fluorouracil (5-FU) and methotrexate are anticancer agents which are reported to relate to stroke. The mechanisms by which antineoplastic agents may lead to stroke include endothelium toxicity and abnormalities of coagulation factors. Also, brain hemorrhages that could result from chemotherapy effects on the hemostatic system were reported. Besides, it is difficult to determine whether stroke is caused by chemotherapy or cancer itself. Clinicians deal not only with problems originating from cancer itself, but also with the complications resulting from its treatment. Treatment-induced cerebrovascular disorders affect quality of life and survival in cancer patients. For this reason, cancer treatment should be planned by taking into consideration the possibility of cerebrovascular complications.
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PMID:Chemotherapy and cerebrovascular disease. 1840 83

The authors describe a case of L-asparaginase induced intracranial thrombosis and subsequent haemorrhage in a newly diagnosed 30-year-old man with acute lymphoblastic leukaemia who was successfully managed by surgical intervention. At presentation, he had a Glasgow Coma Score of 7/15, was aphasic and had dense right hemiplegia. Neuroimaging revealed an acute anterior left middle cerebral artery infarct with parenchymal haemorrhagic conversion, mass effect and subfalcine herniation. He subsequently underwent left frontal craniotomy and evacuation of large frontal haematoma and decompressive craniectomy for cerebral oedema. Six months postoperatively he underwent titanium cranioplasty. He had made good clinical recovery and is currently mobilising independently with mild occasional episodes of expressive dysphasia, difficulty with fine motor movement on the right side, and has remained seizure free. This is the first documented case of L-asparaginase induced haemorrhagic stroke managed by neurosurgical intervention. The authors emphasise the possible role of surgery in managing chemotherapy induced intracranial complications.
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PMID:Neurosurgical management of L-asparaginase induced haemorrhagic stroke. 2260 98

Although there are high survival rates for children with acute lymphoblastic leukaemia, their outcome is often counterbalanced by the burden of toxic effects. This is because reported frequencies vary widely across studies, partly because of diverse definitions of toxic effects. Using the Delphi method, 15 international childhood acute lymphoblastic leukaemia study groups assessed acute lymphoblastic leukaemia protocols to address toxic effects that were to be considered by the Ponte di Legno working group. 14 acute toxic effects (hypersensitivity to asparaginase, hyperlipidaemia, osteonecrosis, asparaginase-associated pancreatitis, arterial hypertension, posterior reversible encephalopathy syndrome, seizures, depressed level of consciousness, methotrexate-related stroke-like syndrome, peripheral neuropathy, high-dose methotrexate-related nephrotoxicity, sinusoidal obstructive syndrome, thromboembolism, and Pneumocystis jirovecii pneumonia) that are serious but too rare to be addressed comprehensively within any single group, or are deemed to need consensus definitions for reliable incidence comparisons, were selected for assessment. Our results showed that none of the protocols addressed all 14 toxic effects, that no two protocols shared identical definitions of all toxic effects, and that no toxic effect definition was shared by all protocols. Using the Delphi method over three face-to-face plenary meetings, consensus definitions were obtained for all 14 toxic effects. In the overall assessment of outcome of acute lymphoblastic leukaemia treatment, these expert opinion-based definitions will allow reliable comparisons of frequencies and severities of acute toxic effects across treatment protocols, and facilitate international research on cause, guidelines for treatment adaptation, preventive strategies, and development of consensus algorithms for reporting on acute lymphoblastic leukaemia treatment.
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PMID:Consensus definitions of 14 severe acute toxic effects for childhood lymphoblastic leukaemia treatment: a Delphi consensus. 2729 79


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