UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Among 1,459 autopsied patients with cancer, 12 had multifocal infarcts of the brain that appeared to be caused by intravascular coagulation. Most of these patients were women with leukemia or lymphoma, and all had a clinical course in which neurologic signs and symptoms were prominent. All had evidence of generalized brain disease (delirium and stupor or coma), and several also had focal brain disease (focal seizures, hemiparesis). All patients had laboratory evidence of coagulation abnormalities, although these were often not severe when neurologic symptoms began. Pathologically, there were multifocal hemorrhagic or ischemic infarcts in the distribution of several cerebral vessels, without a systemic source for cerebral emboli. Fibrin thrombi were identified in cerebral vessels and in vessels of several other organs. The clinical findings fit the pathologic picture, and in most instances the correct diagnosis might have been made earlier had it been considered.
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PMID:Neurologic manifestations of intravascular coagulation in patients with cancer. A clinicopathologic analysis of 12 cases. 117 2

Patients suffering from malignant disease will probably develop some metabolic abnormality of electrolytes. Hypernatremia is defined as an elevation of serum natrium over 150 mEq/l and caused by decrease of water intake, low level of ADH secretion and impaired response of kidney to ADH. Hyponatremia below 135 mEq/l of serum natrium is caused by SI-DAH, sick cell syndrome and increased loss of natrium from the kidney. On the other hand, hyperkalemia is defined as an elevation of serum kalium over 5.0 mEq/l and caused by acute tumor cell lysis syndrome, adrenal and renal insufficiency. Hypokalemia is caused by kalium loss from kidney and hypersecretion of mineral corticoid. Hypercalcemia is found in the high frequency among patients with malignant disease. Hypercalcemia is defined as an elevation of serum calcium over 11.0 mg/dl, although the most important aspect is the level of ionized calcium. The excess calcium causes defective urinary concentration with polydipsia, nausea and vomiting leading to volume depletion. At serum calcium levels about 13.8 mg/dl, there may be rapid deterioration or renal function, dehydration, coma and cardiac arrhythmias. Hypercalcemia is rarely the first manifestation of cancer. There are three principle pathogenic causes of malignant hypercalcemia, 1) hypercalcemia is a feature of several hematological cancers, including Burkitt's lymphoma, T cell leukemia, but most commonly with myeloma. The hypercalcemia in these myeloma patients is due to the secretion of an osteoclast activator, a lymphokine by the myeloma cells. 2) all patients with bony metastases have biochemical evidence of increased bone resorption. However, not all patients with bony metastases develop hypercalcemia. Probably the hypercalcemia is due partially to increased renal tubular reabsorption of calcium, mediated by a humoral factor, with activity similar to that of parathormone. 3) hypercalcemia in the patients without bony metastases is due to increased bone resorption caused by the ectopic secretion by the tumor. Mildly symptomatic patients will benefit from modest salt loading. They are dehydrated and replacement of the extracellular fluid is the first line of treatment. This may require 4-10 l normal saline/24 h. In addition, frusemide will increase calcium excretion. Calcitonin may be given subcutaneously or intravenously to refuse the mobilisation of calcium from bone. Glucocorticoids are unhelpful, but will prolong the effect of calcitonin. A diphosphonate is also useful.
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PMID:[Palliative therapy in cancer. 4. Palliation of the symptoms from a malignant tumor. (2)]. 169 56

A 57-year-old man was diagnosed to have essential thrombocythemia (ET) in July 1977. He was doing well with continual medication of carboquone but was hospitalized because of slight unconsciousness and gait disturbance in May, 1988. His laboratory data were as follows: WBC count 81,600/microliters with 55% of blasts with cytoplasmic blebs, Hb 10.2 g/dl, and platelet count 2.6 x 10(4)/microliters. Bone marrow aspiration revealed hypercellular marrow with 72.8% blasts. Chromosomal analysis showed tetraploidy with 7p+ and 19p+. Cytochemistry of blasts showed the positivity for platelet peroxidase and CDw 41. The diagnosis of acute megakaryoblastic leukemia was made. Meningeal leukemia was also suspected by the cerebrospinal fluid data, and cytarabine was intrathecally injected. Then the percent of blasts of peripheral blood gradually decreased and the data of cerebrospinal fluid improved. However, several days later the patient became comatose probably due to cerebral bleeding, and died. In this case, two possibilities were considered (1) that a blastic transformation to acute leukemia from ET, and (2) that a secondary leukemia developed as a result of the chemotherapy, independently of ET. Since there was no evidence of myelodysplastic syndrome, it was concluded that this case represented a blastic transformation of ET.
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PMID:[Acute megakaryoblastic leukemia developing 11 years after diagnosis of essential thrombocythemia]. 194 27

A 13 year-old girl was diagnosed as having acute megakaryoblastic leukemia. A serious infectious syndrome appeared during the chemotherapy, not improved by broad spectrum antibiotic therapy. A pulmonary aspergillosis was diagnosed one month later by a second bronchoalveolar lavage. A treatment with Itraconazole, a new antifungal triazole, was started. Despite this treatment, the child died after 3 days. Death was due to multiple aspergillus abscesses disseminated in the brain leading to coma and transtentorial herniation. Autopsy confirmed the cerebral aspergillus abscesses and showed also the dramatic dissemination of aspergillosis in the body. Diagnosis and treatment to aspergillosis in immunosuppressed patients should be made early to improve prognosis.
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PMID:[Fatal cerebral aspergillosis in acute megakaryoblastic leukemia]. 265 61

A 69-year-old woman with human T-cell lymphotropic virus type I (HTLV-I) positive chronic myelopathy became comatose with acute meningitis. Most of the cells in the cerebrospinal fluid were similar to those found in adult T-cell leukaemia/lymphoma, which suggests that there is a close relationship between HTLV-I and this form of meningitis.
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PMID:HTLV-I-associated meningitis. 289 63

A case of an encephalomyelitis in a child with acute lymphoblastic leukemia is reported. The patient was a 5-year-old boy who developed seizures, progressive confusion, and coma after radiation and intrathecal methotrexate therapy. Computed tomography (CT) of the brain showed bilateral hypodensities in the posterior parietal and temporal regions. At autopsy, perivascular inflammation, microglial nodules without intranuclear viral inclusions, and bilateral necrosis of the temporoparietal and hippocampal regions were seen in the brain and spinal cord. Paraneoplastic encephalomyelitis is generally recognized in adult patients with underlying malignancy but, to our knowledge, has not been reported in children with leukemia. This report should alert the clinicians to an entity that must be included in the differential diagnosis of leukemic children with progressive neurologic disorder.
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PMID:Encephalomyelitis associated with leukemia in a child. 347 99

Seventeen children and two adolescents, aged 6 months to 20 9/12 years, with poor risk leukemia were treated with a total of 38 sequential high-dose ARA-C-Asparaginase courses (HIDAC-ASNase). Each course was followed by profound myelosuppression. Fever occurred in 13.2% and infectious complications in 7.9% of courses. Other side effects were vomiting (81.6%), drug fever (55.3%), mucositis and diarrhoea (28.9%), mild hepatotoxicity (26.3%), exanthemas (18.4%), conjunctivitis (15.8%), local ASNase hypersensitivity (7.9%), athropathy (5.3%). One patient developed generalized seizures followed by coma and death. The possible association between ARA-C, the CNS symptoms and death could neither be demonstrated nor excluded. Except for the possible ARA-C related CNS toxicity, toxic effects were reversible. We consider this treatment a tolerable chemotherapeutic contribution in childhood.
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PMID:Toxicity of sequential high-dose ARA-C asparaginase treatment in childhood poor risk leukemia. 375 57

Cisplatin plus 5-FU appears to have significant additive activity in various tumors, such as head and neck carcinoma and esophageal cancer. A partial explanation for this may be drug synergism, which has been noted in the L1210 leukemia model. Based on these data, a prospective trial of weekly bolus 5-FU (15 mg/kg) and cisplatin (60 mg/m2) given every 3 weeks was initiated at Indiana University. Forty-one patients, of whom 38 are fully evaluable for response, were treated with these two drugs. Ten partial and one complete response (complete + partial response rate = 29%) were observed in the 38 evaluable patients. Thirteen additional patients had stable disease for greater than or equal to 3 months. The median durations of remission and survival time were 6 and 10.3 months, respectively. Myelosuppression was unusually severe, with granulocyte counts less than 1000/mm3 in 65% of patients, including four patients with granulocyte count nadirs less than 100/mm3. Three patients developed granulocytopenic fever, with two drug-related deaths (sepsis, hyperosmolar coma). Nearly all patients had nausea and vomiting, but this was not a treatment-limiting toxic effect in any patient. Although this combination suggests a higher response rate than usually seen with bolus iv 5-FU in colon cancer, a trial comparing 5-FU alone or with cisplatin to determine whether true synergy exists is currently underway.
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PMID:Cisplatin plus 5-FU for the treatment of adenocarcinoma of the colon. 407 11

A great deal of interest and speculation has arisen from the discovery of a specific antigen, Australia antigen, in the serum of a high proportion of patients with viral hepatitis. This antigen has been found also in the serum of some patients with other conditions, including Down's syndrome, leukemia, leprosy, chronic renal disorders, and chronic active liver disease. It is not found in the serum of normal persons. Australia antigen has been postulated as the causative agent of viral hepatitis. In most patients the antigen can be detected for less than two weeks during the acute phase of the disease. Its persistence in other conditions may be due to an impairment of the immune response. The course of acute viral hepatitis is usually uncomplicated, full recovery of liver function taking place within four to six weeks, with restoration of normal liver histology within three to four months. Follow-up studies of patients in whom hepatitis has developed during epidemics have failed to reveal evidence of subsequent chronic progressive liver disease. This suggests that most cases of chronic active hepatitis are not the result of preceding acute viral hepatitis. However, the recent finding of Australia antigen in the serum of a small number of patients raises the possibility that sporadic viral hepatitis may be one of the causes of the chronic active hepatitis. Alternatively, the presence of the antigen may be interpreted as being due to an altered immune response. The treatment of acute hepatic coma remains unsatisfactory. Several new forms of therapy have been tried in recent years in an uncontrolled way. These include multiple exchange blood transfusions, isolated pig liver perfusion, human cross-circulation, and cross-circulation with baboons. Transient improvement may follow any of these procedures, but evidence that they influence the final outcome of the disease is lacking. The rapid fluctuations in the neurological status of individual patients makes it difficult to interpret the effects of therapy. Also, until satisfactory objective criteria of degrees of coma are universally accepted it will be impossible to compare one mode of therapy with another.
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PMID:Current concepts in viral hepatitis. 552 Jul 27

Succinylated Acinetobacter glutaminase-asparaginase (SAGA) has broader antitumor activity than Escherichia coli L-asparaginase in experimental systems; moreover, drug resistance does not develop in tumor cell lines initially sensitive to this enzyme. We have investigated the pharmacology and toxicology of SAGA after both single-dose and serial daily dose injections in 20 adult patients. Glutaminase activity in plasma after i.v. injection of single doses did not follow simple first-order kinetics (half-life during the initial 24 hr was 21 +/- 9 hr. A linear relation was observed between increasing doses of SAGA and resultant levels of plasma enzyme activity and blood glutamate. Assay of whole blood which had been deproteinized immediately following phlebotomy showed that single doses of SAGA lowered glutamine only transiently to nondetectable levels; serial daily doses were required to achieve and maintain continuous glutamine depletion. Reversible depression of the central nervous system, ranging from encephalopathy to coma, occurred in a dose-related manner and was dose limiting. Other prominent reactions included respiratory alkalosis, hyperglycemia, nausea, and vomiting. Transient antitumor effects were noted in two patients with solid tumors and in two patients with leukemia. SAGA causes considerable neurotoxicity in adults which requires close patient monitoring. Phase II studies in leukemic patients are in progress.
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PMID:Phase I evaluation of succinylated Acinetobacter glutaminase-asparaginase in adults. 743 89

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