UMLS:C0023473 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

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

Advances in molecular genetics in the past decade enabled us to analyze the cause of mendelian disorders at molecular level and a variety of mutations, not only in point mutations and deletion in exons but also in those occurred in regulatory elements or in RNA processing have been precisely identified. Such a variety of mutations may constitute variable clinical manifestations even in the simple mendelian disorders. On the other hand, pathogenesis of common diseases is much complicated and remains greatly to be elucidated. However, if we could use the strategies applied in the past few years for mendelian disorders, it seems to be not difficult to approach them. It is recommended to categorize a certain disease into subgroups for distinguishing their heterogenous phenotypes by clinical, biochemical and other properties. Owing to the success in making a subgroup (FAB classification), many subtype-specific translocations were found in leukemia, and then, rearrangement of relevant genes is also being shown. The best example is seen in chronic myelocytic leukemia. Since rearrangement of ABL and BCR was shown and both genes were cloned, detection of minimal residual diseases after intensive treatment became possible at 10(-6) level using RT-PCR technique. Recently developed interphase cytogenetics using FISH has visualized Ph1 translocation in metaphase cells and also in round nuclei, suggesting a potential use in monitoring the effect of certain drugs during treatment. Furthermore, very selective targeting therapy is being devised using antisense DNA.
...
PMID:[Present status of gene diagnosis in cancer]. 144 79

Recently, Molecular genetics has remarkably advanced and it is introduced in medicine. The use of recombinant DNA methods for the diagnosis of leukemias is reported with special reference to the contribution of cytogenetic findings, such as specific chromosome aberrations previously obtained. Therefore, cytogenetic studies on Ph1 chromosome and other specific aberrations found in leukemias are historically reviewed. Using Southern blotting, PFGE, PCR, and in situ chromosome mapping techniques we have analyzed many cases with CML and cases with ALL. We found M-bcr rearrangements not only in standard Ph1, but also in complex types and in Ph1 (-) ve CML. Chromosomal in situ hybridization was very informative identifying transposition of bcr and abl genes between chromosomes 22 and 9. In this connection, FISH (fluorescence in situ hybridization) technique was developed by us, which is expected to have an exceptional power of analysis. ALL had either M-bcr or m-bcr rearrangements, the latter being identified by PFGE. Next, application of PCR technique that enables to obtain more than 10(5) copies of target sequences could monitor minimal residual diseases in CML. Recently, the relevant gene were cloned respectively in FAB-M2 and APL (FAB-M3), so that detection of minimal residual diseases will be successfully performed in these types of leukemia. Finally, targeting chemotherapy using antisense sequences is prospectively described.
...
PMID:[Advances in molecular genetic diagnosis of leukemia]. 181 42

Cytogenetic analysis is considered pivotal for assessing the remission rate in CML patients on IFN therapy. On the basis of general agreement, at least 25 metaphases should be analyzed in each case. The main limitations to this approach are: 1) the small number of analyzable metaphases generally found in cytogenetic preparations from IFN-alpha-treated patients; and 2) the inability of this technique for scoring interphase cells. We compared the results of cytogenetic analysis and double-color FISH detection of bcr/abl genes fusion in 13 CML patients on IFN-alpha therapy (marrow sampling for cytogenetic and FISH analysis was carried out after 12 months in all patients and repeated after 18 months of IFN therapy in patients 4, 6, and 8). In five specimens, 20 to 25 cells were evaluable for cytogenetic examination, in another five no analyzable metaphases were scored, and in the remaining six samples two to 14 cells could be analyzed. With FISH detection at least 100 cells were easily scored in each specimen (mean number, 175). Comparing the results carried out with the two methods in different samples it emerged that cytogenetic analysis led to improper conclusions as regards the rate of Ph positivity, even in those patients where 20-25 metaphases were analyzed. Although many more cases have to be studied to establish the role of FISH analysis in Ph-positive patients, we are of the opinion that cytogenetic analysis is unfit for easily and accurately assessing the actual quality of remission in IFN-treated subjects.
...
PMID:Cytogenetic analysis is non-informative for assessing the remission rate in chronic myeloid leukemia (CML) patients on interferon-alpha (IFN-alpha) therapy. 749 36

Six patients with previously diagnosed chronic myelogenous leukemia (CML) were studied by a tri-color immunophenotyping/FISH method for direct determination of the Philadelphia (Ph) chromosome in B and T lymphocytes. Two patients had involvement of CD20-positive lymphocytes. CD3-positive lymphocytes in all patients were negative for the Ph chromosome.
...
PMID:Direct detection of the Philadelphia chromosome in CD20-positive lymphocytes in chronic myeloid leukemia by tri-color immunophenotyping/FISH. 1067 56

Metaphase DNA fluorescence in situ hybridization (metaphase-FISH) was performed on follow-up samples from 60 patients suffering from haemopoietic malignancies (acute and chronic myeloid leukaemia, acute lymphoblastic leukaemia, non-Hodgkin's lymphoma and myelodysplastic syndrome). All patients had clonal chromosomal trisomies or translocations at diagnosis, and were treated by bone marrow transplantation (BMT), chemotherapy (CT) or interferon-alpha therapy. Metaphase-FISH was performed during therapy-induced complete haematological remission (CR) (BMT and CT patients) using biotin-labelled whole chromosome paint probes. 28% of all patients in CR were shown by FISH to have abnormal metaphase cells, and 62% of this group suffered a clinical relapse. Of those with negative FISH results (72%), 12% relapsed. In three CML patients treated with BMT a small population of t(9;22)-positive cells was demonstrated. These cells disappeared during follow-up without causing a relapse. One ALL patient had abnormal cells a short time after start of therapy but was also later found FISH-negative. Furthermore, we demonstrated that metaphase-FISH is a suitable method for quantifying the proportion of abnormal cells in CML patients during interferon-alpha therapy. Metaphase-FISH was also employed to detect a local relapse in an ALL patient. Thus, metaphase-FISH was found reliable and sensitive for detection of minimal residual disease in patients with haemopoietic malignancies.
...
PMID:Metaphase fluorescence in situ hybridization (FISH) in the follow-up of 60 patients with haemopoietic malignancies. 781 2

Dual-colour FISH has been used to study two patients with chronic myeloid leukaemia (CML) associated with a normal karyotype. Co-localization of signals from BCR and ABL cosmids was observed in interphase nuclei from both patients. In one patient, analysis of metaphase spreads showed that the 3' region of the ABL gene was deleted from one chromosome 9 and inserted into chromosome 22. In a second patient 5' BCR sequences were missing from one copy of chromosome 22, and co-localized with 3' ABL sequences on chromosome 9. These results demonstrate the molecular heterogeneity of Ph-negative CML. In addition, they illustrate the potential usefulness of dual-colour FISH on interphase nuclei for monitoring the response to treatment of patients with Ph-negative CML.
...
PMID:Philadelphia-negative chronic myeloid leukaemia: detection by FISH of BCR-ABL fusion gene localized either to chromosome 9 or chromosome 22. 794 89

Detection of minimal residual disease is one of the major goals in bone marrow transplantation. We used a fluorescence in-situ hybridization technique to detect residual Philadelphia-chromosome positive cells in chronic myelogenous leukemia (CML) patients after sex-mismatch BMT. We analyzed the level of detection using probes for the BCR/ABL fusion product by comparison with results obtained with probes for the Y and X sex chromosomes. Detection of sex-mismatch chromosomes was significantly higher than that of the BCR/ABL translocation. In contrast, a higher specificity of residual tumor cell detection by the BCR/ABL probe was demonstrated because most of the sex-mismatch cells detected by FISH had a normal karyotype. Tumor-specific markers probes are thus superior and more accurate than sex-mismatch probes for detection of MRD in CML patients after BMT.
...
PMID:Detection of minimal residual disease after sex-mismatch bone marrow transplantation in chronic myelogenous leukemia by fluorescence in situ hybridization. 817 87

Metaphase-FISH was adopted for the detection of proliferating Philadelphia-positive (Ph+) residual leukaemic cells in 25 patients with chronic myeloid leukaemia treated with allogeneic bone marrow transplantation (BMT). Patients were followed up during their clinical remission for 4-50 months (median 17 months) after BMT. 80 bone marrow samples were studied. For most of the cases no fewer than 1000 metaphases were analysed. Six patients (24%) showed residual Ph+ cells during the first 6 months and two others by the end of the first year after BMT. Three patients relapsed during the study and in two of them residual Ph+ cells were detected during the first 6 months after BMT. In 17 patients no Ph+ cells were detected at any stage of follow-up and 16 (94.1%) of them continue in complete clinical and haematological remission. Our results indicate that metaphase-FISH is a reliable tool in the quantitation of proliferating residual leukaemic cells. We suggest that consecutive findings of equal amounts of residual leukaemic cells do not necessarily predict a relapse. However, their presence calls for follow-up at shorter intervals where an increasing number of these cells predicts an ensuing relapse.
...
PMID:Minimal residual disease after allogeneic bone marrow transplantation for chronic myeloid leukaemia: a metaphase-FISH study. 860 1

A relatively simple and non-toxic out-patient-based regimen for the mobilization of Philadelphia-negative (Ph-ve) mononuclear cells in chronic myeloid leukaemia (CML) was evaluated in 10 patients, nine in stable chronic phase and one in accelerated phase. They received oral hydroxyurea at a mean dose of 3.5 g/m2 daily for 7 d, followed by 300 micrograms of G-CSF daily until the last day of harvesting. In the nine chronic-phase patients the mean number of days from the end of hydroxyurea to the commencement of harvesting was 14.5 (range 10-18). The patient in accelerated phase recovered and was harvested after 6 d. The mean number of aphereses performed was 3.4. Adequate numbers of stem cells were obtained in 9/10 patients judged by our usual criteria. Side-effects were mild in comparison to published intravenous schedules. No patients lost their hair. Five (50%) patients required admission with neutropenic fever which responded to antibiotics in all cases. Four (40%) patients developed a transient rash and four (40%) experienced mild oral mucostis. This level of toxicity enabled half of the patients to be treated entirely on an out-patient basis. The harvest products were analysed for cells belonging to the leukaemic clone by conventional cytogenetics, FISH and PCR. All were PCR positive. The mean Ph positivities by cytogenetics and FISH were comparable at 18.1% and 15% respectively. Half the patients had > 98% normal metaphases. We conclude that this approach is comparable in efficacy to published intravenous regimens and significantly less toxic. It can be safely used at diagnosis before interferon therapy commences.
...
PMID:Mobilization of Philadelphia-negative peripheral blood mononuclear cells in chronic myeloid leukaemia using hydroxyurea and G-CSF (filgrastim). 885 64

Conventional cytogenetics is considered the gold standard for evaluating CML during interferon (IFN) treatment. Drawbacks to this approach are the small number of metaphases available during IFN therapy and the impossibility of scoring interphase cells. We applied, besides cytogenetics, double-color FISH (dc-FISH) detection of BCR-ABL gene fusion to monitor 20 CML patients on IFN. dc-FISH easily detected 200 cells per specimen, while with cytogenetic examination a mean of 16.1 mitoses per sample were scored. Though the correlation of dc-FISH and cytogenetic data was good (r = 0.77, p < 0.001), the discrepancy between the two methods as regards the proportion of leukemic cells in the marrow was often important dc-FISH detected a relevant proportion of BCR-ABL+ cells in three patients classified as complete cytogenetic responders and showed that, after 9-12 months of IFN treatment, a significant reduction of BCR-ABL+ cells was present in all the 20 patients tested. This might suggest that all CML patients are potentially responsive to IFN. Though more data are required, we think that dc-FISH is more informative than cytogenetic analysis for CML monitoring. Notably because of the simplicity of the procedure, this method could be easily standardized among different laboratories, thus permitting cross-comparison in therapeutic trials.
...
PMID:FISH analysis for CML monitoring? 884 Oct 98

1 2 3 4 5 6 7 8 9 10 Next >>