UMLS:C0023473 - FACTA Search

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Query: UMLS:C0023473 (chronic myeloid leukemia)
18,916 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We assessed pulmonary function and exercise tolerance in 10 BMT patients. Their underlying disorders were as follows; chronic myeloid leukemia 5 cases, acute lymphoblastic leukemia 2 cases, aplastic anemia, acute myeloid leukemia and non-Hodgkin's lymphoma one case each. Their mean age was 26 +/- 9 years old. When the patients were healthy and free of serious complications and anemia, arterial blood gas examination, pulmonary function tests and incremental treadmill exercise test were examined repeatedly. Although %VC and FEV1.0% kept within normal range, PaO2 at rest, %DLCO, VO2max, VO2max/kg and O2-pulsemax remained low at one year after BMT. There were significant correlations between VO2max and O2-pulsemax [r = 0.955 (p < 0.001)], %VC [r = 0.758 (p < 0.02)], VE/VO2max [r = -0.749 (p < 0.02)] and delta SaO2/VO2/kg [r = -0.731 (p < 0.02)], suggesting that exercise intolerance in BMT patients may be based on both cardiac and gas exchange abnormalities. To evaluate cardiac dysfunction, we compared exercise parameters obtained at an exercise level of 75% predicted heart rate max in five age-matched normal subjects to those in six BMT patients who did not demonstrate desaturation during exercise. As a result, the mean values of VO2max/kg and O2-pulse/m2 in BMT patients were significantly lower than those in normal subjects, suggesting that cardiac dysfunction may be due to insufficiency of stroke volume during exercise. It is concluded that exercise intolerance in BMT patients may be mainly due to cardiac dysfunction.
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PMID:[Pulmonary function and exercise tolerance in patients treated with bone marrow transplantation (BMT)]. 128 28

Leukocyte acid phosphatase and its isoenzyme composition was studied in leukemic patients to determine the specificity of different isoenzymes in leukemic leukocytes. It was found that leukocyte acid phosphatase content is significantly increased in ALL, AML, and CML patients, while CLL patients had decreased levels of acid phosphatase. The distribution and intensity of leukocyte ACP isoenzymes vary in respective leukemic condition. Thus isoenzyme 'O' was predominant in AML and CML, while isoenzymes 1, 2 and 3 predominated in ALL. The lack of predominance of isoenzyme 3 was a feature in CLL patients. It was concluded that the isoenzyme patterns, though promising, presented inconclusive picture for diagnosis purpose and further studies on immunochemical characteristics of these isoenzymes are warranted to ascertain their cell specificity.
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PMID:Total leukocyte acid phosphatase and its isoenzymes in patients with leukemia. 129 3

Between April 1982 and July 1990, 101 patients underwent allogeneic or syngeneic bone marrow transplantation at the Mayo Clinic. This patient population consisted of 30 with acute nonlymphocytic leukemia, 25 with acute lymphoblastic leukemia, 29 with chronic granulocytic leukemia, and 17 with other diseases (aplastic anemia in 7, myelodysplastic syndrome in 5, and lymphoma in 5). The results achieved in our patients who underwent transplantation in first complete remission of both acute nonlymphocytic leukemia and acute lymphoblastic leukemia compare favorably with previously reported results. Only 1 of 15 patients (7%) with acute nonlymphocytic leukemia and 2 of 8 patients (25%) with acute lymphoblastic leukemia who underwent transplantation in first complete remission had a relapse. Thus, we recommend early bone marrow transplantation during initial complete remission for patients with either of these disorders who have adverse prognostic factors. In contrast, of 12 patients with either acute nonlymphocytic leukemia or acute lymphoblastic leukemia who underwent transplantation during relapse, 11 died within 6 months. Therefore, such patients should be offered new experimental treatments. Our patients with chronic granulocytic leukemia fared better when they underwent transplantation early during the course of their disease rather than during the accelerated or blast phase. Prospective studies are needed to determine the best approach in these patients.
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PMID:Mayo Clinic experience with allogeneic and syngeneic bone marrow transplantation, 1982 through 1990. 154 82

Since the translocation breakpoint t(15;17) (q22;q21) in acute promyelocytic leukemia (APL) occurs within the retinoic acid receptor-alpha (RARA) gene, the expression of many genes normally regulated by RARA may be affected by this translocation. To identify genes that may be aberrantly expressed in APL, a subtraction cDNA library of an APL patient with t(15;17) was constructed. A cDNA, pRD1, specifically expressed in APL was identified. DNA sequence analysis of pRD1 showed that this gene is similar to the DNA sequence of annexin VIII, a gene which encodes a vascular anticoagulant. The annexin VIII gene was assigned to chromosome 10, which indicates that specific expression of this gene in APL is not directly involved in the t(15;17) breakpoint region. We have analyzed the expression of annexin VIII gene in nine t(15;17)-positive APL patients and one APL patient with a chromosome 17q-abnormality. We found that all APL samples expressed high levels of the annexin VIII gene. Expression of the annexin VIII gene in all other leukemias, including acute myelogenous leukemia, chronic myelogenous leukemia, chronic lymphocytic leukemia, and acute lymphoblastic leukemia, was undetectable, except in one patient with acute myelogenous leukemia in which a very low level of expression was detected. Annexin VIII is highly expressed in the APL cell line, NB4. Its expression was significantly reduced after 8 hours of all-trans retinoic acid (ATRA) treatment, whereas the expression of RARA increased several-fold within 4 hours postinduction. Thus, increased expression of RARA preceded the downregulation of annexin VIII after ATRA induction, suggesting an inverse relationship between RARA and annexin VIII expression. Since increased expression of the fusion transcript was seen after ATRA induction and an APL without a t(15;17) translocation expressed high levels of annexin VIII, it appears that increased expression of annexin VIII in APL is not related to the fusion transcript. Therefore, dysregulation of the RARA gene may be related to the overexpression of annexin VIII in APL.
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PMID:Specific expression of the annexin VIII gene in acute promyelocytic leukemia. 131 14

The anti-proliferative effects of selenium were studied both in vivo and in vitro. At a selenium concentration of 0.6 micrograms/ml, cells from patients with ALL-L1, L2 and AML-M1, M3 and M5 were more sensitive than cells from patients with CML. Cells from patients with AML-M2, CLL and leukaemic lymphoma were least sensitive. Normal bone marrow or peripheral blood cells were not sensitive to selenium at this concentration. In the mouse leukaemia models (L797, L615, L7712), the sensitivity of leukaemic cells were: L797 (93% cytotoxicity) greater than L615 (49.7% cytotoxicity) greater than L7712 (4.4% cytotoxicity). Sodium selenite injected i.p. increased the longevity of L797-inoculated mice. Administration of 40 micrograms selenium daily for 7 days resulted in a significant increase in the longevity of mice inoculated with 10(5) L797 cells. However, no remarkable increase of the longevity was observed in either L615- or L7712-inoculated mice after treatment with sodium selenite for 7 days. Treatment of the HL-60 leukaemic cell line with selenium caused a dose- and time-related decrease in DNA, RNA and protein syntheses as measured by [3H]-thymidine, [3H]-uridine and [3H]-leucine uptake respectively. The inhibitory effect of selenium on DNA synthesis was reversed when selenium was removed from the medium, demonstrating that selenium-induced inhibition of DNA synthesis was due to interference with DNA biosynthesis rather than DNA template damage. These results suggest that the anti-leukaemic effect of sodium selenite is associated with inhibition of DNA replication, transcription and translation.
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PMID:The anti-leukaemic effects and the mechanism of sodium selenite. 131 17

Leukemic cells from seventy patients with various types of human leukemias were examined for expression of the WT1 gene, the Wilms' tumor gene located at chromosome 11p13. WT1 was expressed in 7 of 16 cases of acute lymphoblastic leukemia, 15 of 22 with acute myelogenous leukemia and 8 of 10 in blast crisis of chronic myelogenous leukemia. No detectable WT1 RNA was found in chronic leukemias, including chronic lymphocytic leukemia, plasma cell leukemia, hairy cell leukemia and chronic myelogenous leukemia in chronic phase. The expression pattern of WT1 in these human leukemia samples indicates the involvement of this gene in the early stage of hematological cell differentiation.
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PMID:Expression of the Wilms' tumor gene (WT1) in human leukemias. 131 88

Philadelphia chromosome (Ph') was detected at presentation in 10 out of 110 patients with acute lymphoblastic leukemia (ALL) and five of 168 patients with acute myelogenous leukemia (AML). Two other ALL patients who had studies at relapse were also included in the analyses. One of the 12 Ph'-positive (Ph+) ALL patients had simultaneous expression of myeloid-associated antigen on the leukemic blasts, while all the five AML patients coexpressed markers of lymphoid cells. Double labeling of the cells with myeloperoxidase and CD10 on three Ph+ AML cases showed that most leukemic blasts expressed either myeloperoxidase activity or CD10 but not both. Cross-lineage gene rearrangements of T-cell receptor (TCR) beta-chain gene were detected in three of the eight Ph+ ALL patients tested. All the four Ph+ AML cases studied showed immunoglobulin heavy chain gene rearrangements, and three of them also had simultaneous rearrangements of TCR beta-chain gene. The results revealed that Ph+ acute leukemia in this study belonged either to ALL or mixed lineage leukemia, and none was pure AML. This finding is contrary to that of acute blast crisis of chronic myelogenous leukemia in which the majority of patients had myeloid transformation. Rearrangements of bcr were detected in four of the 10 Ph+ ALL and three of the four Ph+ AML patients tested. No significant difference was noted in the clinical or hematologic manifestations among Ph+ leukemia with or without bcr rearrangements.
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PMID:Characterization of Philadelphia-chromosome-positive acute leukemia by clinical, immunocytochemical, and gene analysis. 132 82

We report 14 cases of leukemia cutis registered at Department of Dermatology, Veterans General Hospital Over a period of 18 years. There were one patient with acute lymphocytic leukemia (ALL), one with chronic lymphocytic leukemia (CLL), seven with acute monocytic leukemia (AMOL), one with acute myelomonocytic leukemia (AMML), and four with chronic myelocytic leukemia (CML). Multiple papules and nodules were the most frequent clinical lesions. Metastatic skin lesions occurred most commonly on legs (71%), followed by arms (64%), back (50%), anterior chest (50%), scalp (14%), and face (14%). The feet (7%) were rarely involved while palms and soles were rarely involved. Cutaneous leukemic lesions may be concomitant with or after, but never before the diagnosis of systemic leukemia in our series has had such change. In general, the histopathology of leukemia cutis showed diffuse or nodular infiltration of leukemic cells in the dermis and subcutaneous tissue, often typing of leukemia relays on more confirmative studies of peripheral smear and bone marrow biopsy. Leukemia cutis seems to be dissemination of systemic leukemia to the skin, and the presence of cutaneous leukemic lesions are associated with a very poor prognosis. Most patients (85%) died within 4 months after appearance of skin metastasis.
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PMID:[Leukemia cutis: clinical and histopathological analysis of 14 cases]. 133 Feb 53

The objective of this study was to develop a simplified method for the simultaneous analysis of cellular karyotype and phenotype which would permit the identification of cell origin. We studied 6 patients with AML, 3 with CML (one of which was in blastic transformation) and one ALL. We used a method in which the suspension of bone marrow cells was incubated in TC 199 medium with colchicine and with hypotonic solution formed from glycerol, NaCl, KCl, CaCl2, MgCl2 and sucrose. The slides were prepared from this cell suspension by cytospin and stained for peroxidase, PAS, esterases and iron. The karyotype was studied by direct method and culture. It was possible to relate the cytogenetic marker with cytochemistry characteristics in the same cell in 3 cases, showing the feasibility of cytochemistry techniques in cytogenetical preparations. The best preparations were found through peroxidase. The presence of iron granules allowed identification of erythroblastic lineage in the combined staining. Mitosis with a marker chromosome of leukemic clone in an AML cell with negative peroxidase probably showed a proliferation of more primitive precursor not sufficiently differentiated to show markers.
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PMID:Simplified method for the analysis of cellular karyotype and phenotype in leukemias. 134 Oct 1

Forty patients with Ph-positive blastic phase (BP) (28 patients) or chronic phase (CP)-CML (3 patients) and relapsed adult acute lymphoblastic leukemia (ALL) (9 patients) with cytogenetical translocations [t(8;14):2 patients; t(4;8):2 patients; t(4;11):3 patients; t(9;22):2 patients], received an intensive conventional chemotherapy. During early recovery from marrow aplasia, when WBC reached 0.3-1.5 x 10--9/L, peripheral blood stem cells (BSC) were collected by 4-8 leukapheresis consecutively. BSC collected from the 2/3 patients with CP-CML resulted Ph-negative and PCR negative. In 8 out of 26 BP-CML patients, BSC resulted Ph-negative and in two cases PCR negative. Of the nine ALL patients, 6 patients lost the cytogenetic translocations, one patient died during aplasia, two patients did not have cytogenetic modifications and died in few weeks of leukemia and one patient out of six responding patients relapsed before transplant. After complete recovery, 15 patients (BP-CML:8 patients; CP-CML:2 patients; ALL:5 patients) were subsequently given high-dose therapy (VP-16 +/- Cy+TBI in single dose) followed by reinfusion of "normal" BSC. Both the patients in CP-CML and 5/5 patients with ALL maintain clinical and cytogenetic remission; all the patients transplanted in BP-CML relapsed 5-18 months post-transplant. It is concluded that intensive conventional chemotherapy employed in CML and ALL can lead to a precocious overshoot of cytogenetically normal BSC.
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PMID:Intensive conventional chemotherapy can lead to a precocious overshoot of cytogenetically normal blood stem cells (BSC) in chronic myeloid leukemia and acute lymphoblastic leukemia. 135 2

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