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

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

The concentrations of homovanillic acid (HVA), hydroxymethoxyphenylethyleneglycol (HMPG), and vanillylmandelic acid (VMA) were determined in lumbar cerebrospinal fluid (CSF) specimens. The study population consisted of the following groups: control subjects with malignancies of nonneuroectodermal origin (mostly leukemia in remission), neuroblastoma (extracranial and intracranial or cranial metastases), brain tumors (neuroectodermal and glial), and retinoblastoma. A significant increase in the CSF concentration of HVA was observed in patients with brain tumors (neuroectodermal), neuroblastoma (intracranial or cranial metastases), and retinoblastoma when compared with age-matched controls. In contrast, HMPG and VMA concentrations did not differ from controls except in patients with neuroblastoma (intracranial or cranial metastases) and brain tumors (neuroectodermal) who had significant elevations in HMPG and VMA, respectively. An inverse correlation was noted between the CSF concentration of HVA and clinical response to therapy. Nonresponding patients exhibited increases in HVA when compared with pretreatment values. These data suggest that the quantitative determination of catecholamine metabolites in lumbar CSF is an effective method for diagnosing intracranial tumors of neuroectodermal origin and assessing their response to therapy.
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PMID:Elevation of cerebrospinal fluid catecholamine metabolites in patients with intracranial tumors of neuroectodermal origin. 359 13

Studies of the presenting height of children with malignancies have produced conflicting results, from an excess of taller patients to an excess of shorter patients. The problems of measurement bias, inadequate comparison populations, small numbers of patients, subgroup analyses, and overreliance on simple significance tests are all possible reasons for the variation in results. To clarify this issue, we studied heights at diagnosis of 3657 children and adolescents aged under 18 years. Their malignancies included acute lymphoblastic leukaemia, non-Hodgkin's lymphoma, Hodgkin's disease, acute non-lymphoblastic leukaemia, osteosarcoma, retinoblastoma, neuroblastoma, Wilms' tumour, rhabdomyosarcoma, and Ewing's sarcoma. Compared with published standards for the heights of children in control populations, no significant deviation from population norms was found for patients in any of the 10 disease categories after proper adjustment for multiple significance testing.
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PMID:Height at diagnosis of malignancies. 360 84

A survey of 2704 eyes with intraocular tumors in patients who were evaluated on the Oncology Service at Wills Eye Hospital showed that 126 of the tumor-containing eyes (5%) had tumor-induced elevated intraocular pressure (IOP) at the time of diagnosis of the tumor. Of the 2111 eyes with uveal melanomas, secondary IOP elevation was present in 55 (3%). Secondary IOP elevation was present in 7% of eyes with iris melanoma, 17% with ciliary body melanoma, and 2% with choroidal melanoma. The most common mechanism of elevated IOP was tumor invasion of the angle in the case of iris melanomas, pigment dispersion and tumor invasion of the angle in the case of ciliary body melanomas, and iris neovascularization in the case of choroidal melanomas. Of the 256 eyes with uveal metastases, secondary IOP elevation was found in 12 eyes (5%). Secondary IOP elevation was present in 64% of eyes with iris metastases, 67% with ciliary body metastases, and 1% with choroidal metastases. The most common mechanism of elevated IOP was tumor invasion of the angle in the case of iris and ciliary body metastases, and angle closure in the case of choroidal metastases. There were 303 eyes with retinoblastoma, 17% of which had elevated IOP which was secondary to iris neovascularization in 70% of cases and to an angle closure without neovascularization in 27%. Several other intraocular tumors including lymphoma, leukemia, medulloepithelioma, melanocytoma, and adenoma of the iris pigment epithelium were occasionally associated with secondary elevated IOP.
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PMID:Prevalence and mechanisms of secondary intraocular pressure elevation in eyes with intraocular tumors. 365 52

Cellular and humoral markers of malignancy play several roles at many levels in the evaluation and staging of children with cancer. Cytogenetic analysis of constitutional cells can be used to determine the genetic risk of developing certain cancers, such as retinoblastoma and Wilms' tumor in high-risk families. Urinary metabolites of neuroblastoma have been studied not only for accurate diagnostic ability in children with "small round cell" tumors, but as a screen for the presence of the tumor in large normal populations. Markers are valuable as prognostic factors at the time of cancer diagnosis; for example, the use of cell surface antigens and cytogenetics in leukemia phenotyping, leading to alterations in initial therapy. Once found at diagnosis, both specific and nonspecific markers can then be utilized to follow the regression and recurrence of a malignancy, such as serum ferritin in neuroblastoma or lactate dehydrogenase in non-Hodgkin's lymphoma. Presence of cell surface antigens to which monoclonal antibodies can be directed are becoming increasingly helpful in both tumor localization, such as in radioisotope scanning, and in therapeutic intervention, such as in purging autologous bone marrow of malignant cells prior to use as a rescue after massive cytoreduction. Finally, cellular markers have lead to a better understanding of the basic biology of particular neoplasms; for example, gene rearrangements in lymphoma, which will ultimately lead to better diagnostic and therapeutic ability.
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PMID:The use and significance of biologic markers in the evaluation and staging of a child with cancer. 371 38

Sixty-six cases of multiple primary neoplasms in children in Japan were collected, including 8 cases of our own. These could be divided into 19 synchronous and 47 metachronous multiple neoplasms. Metachronous or multiple primary neoplasms comprised leukemia, osteosarcoma, mesenchymal sarcoma, epithelial carcinoma and others in contrast to synchronous neoplasms which consisted of many pairs of embryonic tumors. The presumptive factors for multiple primary neoplasms suggested radiotherapy-associated cancers in 30%, radiochemotherapy-associated in 13%, chemotherapy-associated in 34%, and genetic factor-related in 36% of cases. Chromosomal analysis was performed in 12 cases. Three of 4 leukemias revealed major karyotypic abnormalities in the leukemic cells. No 13q14, deletion was detected in 5 cases with multiple primary neoplasms developed with retinoblastoma. Frequent incidence of sister chromatid exchange (SCE) was detected in cultured fibroblasts or lymphocytes from one of 3 cases of second primary neoplasms associated with chemotherapy. The time interval between both neoplasms ranged from 2 to 15 years in the majority of cases. Chemotherapy-associated multiple primary neoplasms seemed to appear more quickly than radiotherapy-associated multiple primary neoplasms. Seven children out of 459 long-term survivors of childhood cancer developed multiple primary neoplasms during the period from 5 to 20 years after diagnosis of the first tumor at the National Cancer Center Hospital, Tokyo. The relative risk was suggested to be 14 times higher than the expected incidence of childhood cancer in Japan. Refinement of treatment, long-term monitoring and protective procedures for high-risk patients against multiple primary neoplasms are therefore warranted.
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PMID:[Second malignant neoplasms in childhood]. 372 68

One hundred and two cases of neonatal cancers, representing 2% of all paediatric malignancies, were seen during a 60 year period at The Hospital for Sick Children, Toronto, Canada. The neonatal cancers included neuroblastoma (47%), retinoblastoma (17%), soft tissue sarcoma (12%), central nervous system tumours (9%), leukaemia (8%), and a few cases of Wilms' tumour, liver tumour, and miscellaneous tumours. The overall mortality from disease was 41%. Patients with retinoblastoma, Wilms' tumour, and neuroblastoma had the best prognosis. Forty three patients (42%) survived their neonatal cancers; all were treated with surgery or radiochemotherapy, or both, but none suffered long term major handicaps as a result of treatment. There was one instance of second malignancy of the thyroid gland induced by radiation. We conclude that although neonatal cancers are difficult management problems, many patients can be cured. Physicians should discuss with parents the possible risks associated with treatment before treatment is begun.
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PMID:Malignant tumours in the neonate. 381 32

64 second neoplasms, occurring after therapy of malignant tumors or leukaemia in childhood, came to light in the course of a collaborative group investigation. Most frequent initial diseases were acute lymphoblastic leukaemia (n = 19), Morbus Hodgkin (n = 9), and retinoblastoma (n = 8), whereas osteosarcoma (n = 13), cancer of the thyroid (n = 10) and acute non-lymphoblastic leukaemia (n = 8) were predominant among the second malignant neoplasms. In 36 of 50 irradiated children there was a clear relationship between the localisation of the second neoplasm and the earlier irradiated zone. In other cases, in particular in children with retinoblastoma as initial disease or neurofibromatosis, genetic influences on the origin of the second neoplasms come into question. The preponderance of Morbus Hodgkin after acute lymphoblastic leukaemia (n = 7) must be regarded as extraordinary; in 6 of the 7 children the second neoplasm appeared after a very short interval. A distinct effect of previous treatment with cytostatics on the occurrence of second neoplasms was not seen. The differing time intervals between the occurrence of the first and the second neoplasms in the separate subgroups point toward heterogenous causes being involved in the development of second neoplasms.
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PMID:[Secondary neoplasms following tumor and leukemia therapy in childhood. Report of 64 cases]. 386 17

A variety of primary and secondary tumors can involve the optic nerve head. Examples of primary optic disc tumors include capillary, cavernous and racemose hemangiomas, astrocytomas, and melanocytomas. Secondary optic disc tumors include metastatic carcinoma, leukemia, and those which invade the nerve head from adjacent structures (choroidal melanoma, retinoblastoma, and meningioma). These tumors may produce a variety of clinical features and are discussed in this review. Included also are histopathologic correlations and guidelines for management of the individual entities.
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PMID:Tumors of the optic nerve head. 388 51

A possible causal association between chromosome structural change and neoplastic transformation has long been mooted, particularly since chromosomal changes occur frequently in the cells of a variety of malignancies. Only in recent years, however, has the evidence in support of this contention begun to appear convincing, and this has followed from the application of developments in cytogenetic techniques. The advent of methods for revealing specific bands in the human metaphase complement has enabled all the chromosomes and many chromosomal regions to be unambiguously identified, and the recent application of prophase banding methods gives further improvements in resolution. With these techniques, specific constitutional chromosomal deletions or translocations have been discovered in inherited cases of retinoblastoma (del.13q14), Wilms' tumour with aniridia (del.11p13) and renal-cell carcinoma (t(3:8) (p21:q24)), in which each of the chromosomal changes appears to be a dominant factor in inheriting a predisposition to a tissue-specific tumour. A heritability for cancer predisposition is also associated with the inherited chromosomal instability syndromes of Bloom's, Fanconi's anaemia and ataxia telangiectasia, although specific chromosomal changes have not been reported to be associated with the neoplasms in such individuals, except in some cases of lymphoma and leukaemia in ataxia telangiectasia. Specific chromosomal translocations have, however, been recorded in a variety of malignancies, with a particular involvement of chromosomes 22, 14, 8, 15, 17 and 21. However, although many hundreds of patients with the specific 9/22 rearrangement seen in chronic myeloid leukaemia and also those with the 14/8 rearrangement in Burkitt's, and other, lymphomas have been described, no single case in which these rearrangements were present as constitutional changes has been reported. The possible nature of the changes seen at the cytogenetic level in terms of gene content of the chromosomes involved is discussed.
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PMID:Cytogenetics of heritability in cancer. 629 35

Non-random tumour-specific chromosomal abnormalities have been observed in cells of many different human tumours. In Wilms' tumour (WT) and retinoblastoma, a chromosomal deletion occurs germinally or somatically and has been considered an important step in tumour development. One class of potential cellular transforming genes comprises the cellular homologues of the transforming genes of highly oncogenic retroviruses. A remarkable concordance between the chromosomal location of human cellular oncogenes and the breakpoints involved in acquired chromosomal translocations is becoming apparent in various cancers: the oncogenes c-mos, c-myc and c-abl are located at the breakpoints that occur in acute myeloblastic leukaemia, Burkitt's lymphoma and chronic myelocytic leukaemia respectively. Thus when the oncogene c-Ha-ras1 was localized to the short arm of human chromosome 11 (refs 6-8; region 11p11 leads to p15 and not 11p13 as stated in ref. 5), it was proposed as a possible aetiological agent in the aniridia-WT association (AWTA) that results from a deletion of 11p13 (although a transforming gene recently isolated from a WT cell line (G401) was shown not to be homologous to either c-Ha-ras or c-Ki-ras9). We have now looked for deletion or rearrangement of c-Ha-ras1 in the DNA from four subjects with del(11p13)-associated predisposition to Wilms' tumour, aniridia, genitourinary abnormalities and mental retardation. We report here that in no case is c-Ha-ras1 deleted, and we have further refined its location to 11p15.1 leads to 11p15.5. On the basis of enzyme studies and direct gene dosage determination for c-Ha-ras1 and beta-globin in neoplastic and non-neoplastic tissues from one patient, we conclude that deletion of the normal counterpart of 11p cannot account for the development of the tumour.
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PMID:c-Ha-ras1 is not deleted in aniridia-Wilms' tumour association. 631 28


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