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Compound
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Target Concepts:
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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A monoclonal antibody (Ki-M6) against the CD 68 antigen, which labels cells of the monocyte/macrophage system, was tested on Bouin-fixed, paraffin-embedded samples of normal, reactive and neoplastic tissues by an avidin-biotin-peroxidase complex method, with the aim of establishing its value in diagnostic pathology. In normal human tissues, Ki-M6 reactivity was confined to the so-called resident macrophages populating normal organs under physiological conditions. Moreover, restricted reactivity against cells of macrophage lineage was observed in reactive and inflammatory lesions. Granulocytes, monocyte/macrophage-related immune accessory cells, and other analysed normal tissue structures did not reveal any reactivity. Ki-M6 was strongly reactive with the cases of benign (4/4) and malignant (15/15) fibrous histiocytomas, in addition to the true histiocytic lymphomas (3/3). Cases of granular cell tumour (2/3) showed strong reactivity with Ki-M6, whereas only few immunoreactive cells, with weak staining, were seen in the other Ki-M6-positive neoplasms [neurofibroma (3/3), benign schwannoma (1/2),
ganglioneuroma
(1/1), malignant schwannoma (5/9), melanoma (9/28), dermatofibrosarcoma protuberans (1/1), myelomonocytic
leukaemia
(3/3)]. Among the epithelial malignancies tested (47 cases), Ki-M6 was positive only in renal cell carcinoma (11/14). Malignant lymphomas of the Hodgkin (56 cases) and non-Hodgkin type (67 cases) were uniformly non-reactive. From these data, Ki-M6 appears to be an excellent marker of monocyte/macrophage-related cells and appears to be a reliable indicator for fibrous histiocytomas and true histiocytic malignancies. The availability of this additional antibody capable of staining routinely processed tissue is of practical interest.
...
PMID:Immunohistochemical characterization of Ki-M6 monoclonal antibody in Bouin-fixed, paraffin-embedded sections of normal and neoplastic human tissues. 185 Aug 96
This review will summarize the rationale for pursuing investigations into the use of retinoids for pediatric patients with cancer, describe the phase I results of all-trans-retinoic acid (ATRA) in children, and discuss the results of a series of preclinical and clinical pharmacokinetic studies of ATRA. The prognosis for children with advanced stage neuroblastoma, the most common extracranial solid tumor of childhood, has remained poor despite significant increases in the intensity of multi-modality therapy. Observations that neuroblastoma has the potential in vivo to differentiate into the more mature neuronal phenotype of a
ganglioneuroma
or to spontaneously regress, combined with the ability of ATRA to induce differentiation of neuroblastoma cell lines in vitro, suggests that neuroblastoma may be a prime candidate for a retinoid-based approach to differentiation therapy. We previously performed a standard pediatric phase I trial of ATRA and defined the maximum tolerated dose (MTD) in children to be 60 mg/m2/day, significantly lower than the MTD in adult patients. Pharmacokinetic results revealed that the plasma half-life of ATRA was short (45 min) relative to 13-cis-RA (12-24 h), and that plasma drug exposure decreased significantly by day 28 of daily drug administration. Preclinical studies using an i.v. formulation of ATRA in a Rhesus monkey pharmacokinetic model then demonstrated that ATRA is eliminated by a capacity-limited (saturable) process. This elimination process was rapidly induced within the first week of daily i.v. ATRA administration, and suggested that an intermittent schedule of drug administration might allow for down-regulation of the elimination process. These pre-clinical studies formed the basis for investigating whether an intermittent schedule of ATRA administration would allow for repeated periods of relatively higher plasma drug concentrations. Preliminary results of two clinical trials using intermittent schedules of administration suggest that this approach may result in significantly higher plasma drug exposure over time. Plans to study the role of intermittent schedules of ATRA administration in pediatric phase II trials in patients with neuroblastoma are underway.
Leukemia
1994
PMID:Clinical and pharmacokinetic studies of all-trans-retinoic acid in pediatric patients with cancer. 780 20
This review will summarize the rationale for pursuing investigations into the use of retinoids for pediatric patients with cancer, describe the phase I results of all-trans-retinoic acid (ATRA) in children, and discuss the results of a series of preclinical and clinical pharmacokinetic studies of ATRA. The prognosis for children with advanced stage neuroblastoma, the most common extracranial solid tumor of childhood, has remained poor despite significant increases in the intensity of multi-modality therapy. Observations that neuroblastoma has the potential in vivo to differentiate into the more mature neuronal phenotype of a
ganglioneuroma
or to spontaneously regress, combined with the ability of ATRA to induce differentiation of neuroblastoma cell lines in vitro, suggests that neuroblastoma may be a prime candidate for a retinoid-based approach to differentiation therapy. We previously performed a standard pediatric phase I trial of ATRA and defined the maximum tolerated dose (MTD) in children to be 60 mg/m2/day, significantly lower than the MTD in adult patients. Pharmacokinetic results revealed that the plasma half-life of ATRA was short (45 min) relative to 13-cis-RA (12-24 h), and that plasma drug exposure decreased significantly by day 28 of daily drug administration. Preclinical studies using an i.v. formulation of ATRA in a Rhesus monkey pharmacokinetic model then demonstrated that ATRA is eliminated by a capacity-limited (saturable) process. This elimination process was rapidly induced within the first week of daily i.v. ATRA administration, and suggested that an intermittent schedule of drug administration might allow for down-regulation of the elimination process. These pre-clinical studies formed the basis for investigating whether an intermittent schedule of ATRA administration would allow for repeated periods of relatively higher plasma drug concentrations. Preliminary results of two clinical trials using intermittent schedules of administration suggest that this approach may result in significantly higher plasma drug exposure over time. Plans to study the role of intermittent schedules of ATRA administration in pediatric phase II trials in patients with neuroblastoma are underway.
Leukemia
1994 Nov
PMID:Clinical and pharmacokinetic studies of all-trans-retinoic acid in pediatric patients with cancer. 796 27
Diagnostic imaging still plays a key role in the follow-up of oncologic patients. In particular, in hemolymphoproliferative disorders, diagnostic imaging is used to differentiate the complications of integrated treatment from possible relapses. Integrated treatments have lengthened the survival of these patients and therefore such long-term complications as secondary--especially solid--tumors are now more frequently observed. We report on two such cases whose onset followed by 6 and 5 1/2 years the end of the initial treatment: the patients had been cured for acute lymphatic leukemia and Hodgkin's lymphoma. In the
leukemia
patient, CT and MRI demonstrated a large mediastinal mass, which had been an occasional finding at chest film. CT correctly diagnosed the mass and suggested extrapulmonary and extramediastinal localization, since fat cleavages were normal. MRI allowed better characterization of the mass which was isointense to muscle independent of TR. Disease relapse was excluded and surgery allowed the complete ablation of the
ganglioneuroma
. In the lymphoma patient, a left hypochondrium mass was supposed as an abdominal relapse from Hodgkin's lymphoma. CT allowed the correct diagnosis of gastric adenocarcinoma to be made on the basis of the mass multifocality and marked enhancement, of the infiltration of liver and hepatogastric ligament lymph nodes and finally of peritoneal involvement. Secondary solid tumors are no remote finding in the follow-up of the patients treated for lymphoproliferative disorders. Diagnostic imaging must allow the differential diagnosis especially from relapses and must use the techniques which are most capable of doing so.
...
PMID:[Secondary solid neoplasms in young patients treated for lymphoproliferative diseases: computed tomography findings]. 814 67
Segmental jumping translocations are chromosomal abnormalities in treatment-related leukemias characterized by multiple copies of the ABL and/or MLL oncogenes dispersed throughout the genome and extrachromosomally. Because gene amplification potential accompanies loss of wild-type p53, we examined the p53 gene in a case of treatment-related acute myeloid leukemia (t-AML) with MLL segmental jumping translocation. The child was diagnosed with
ganglioneuroma
and embryonal rhabdomyosarcoma (ERMS) at 2 years of age. Therapy for ERMS included alkylating agents, DNA topoisomerase I and DNA topoisomerase II inhibitors, and local radiation. t-AML was diagnosed at 4 years of age. The complex karyotype of the t-AML showed structural and numerical abnormalities. Fluorescence in situ hybridization analysis showed multiple copies of the MLL gene, consistent with segmental jumping translocation. A genomic region including CD3, MLL, and a segment of band 11q24 was unrearranged and amplified by Southern blot analysis. There was no family history of a cancer predisposing syndrome, but single-strand conformation polymorphism (SSCP) analysis detected identical band shifts in the
leukemia
,
ganglioneuroma
, ERMS, and normal tissues, consistent with a germline p53 mutation, and there was loss of heterozygosity in the ERMS and the t-AML. Sequencing showed a CGA-->TGA nonsense mutation at codon 306 in exon 8. The results of this analysis indicate that loss of wild-type p53 may be associated with genomic instability after DNA-damaging chemotherapy and radiation, manifest as a complex karyotype and gene amplification in some cases of t-AML.
...
PMID:Association of germline p53 mutation with MLL segmental jumping translocation in treatment-related leukemia. 961 38
Necropsy was performed on a 22-month-old male Fischer 344 rat (Rattus norvegicus) that had weight loss and was icteric. Examination revealed a large, smooth, circumscribed, tan mass located at the cranial border of the right kidney. Microscopically, the mass consisted almost entirely of well-differentiated ganglion cells mixed with satellite and Schwann cells within a neurofibrillar matrix. The cells displaced the adrenal medulla and were partially surrounded by a thin rim of compressed adrenal cortex. Focal areas of hemorrhage and infiltrates of leukemic mononuclear cells were evident throughout the mass, but pheochromocytes were not detected. On the basis of findings during histologic examination, a diagnosis of adrenal medullary
ganglioneuroma
was made. Mononuclear cell
leukemia
was also diagnosed in the adrenal gland and was evident in lymphoid organs such as the spleen and mesenteric lymph nodes.
Ganglioneuroma
is rarely seen in rats and can be differentiated from more common complex pheochromocytomas, which consist of fewer neural components (< 80% of the mass). In rats, ganglioneuromas can develop in the central nervous system, pituitary gland, and thyroid gland. Differential diagnoses for a primary neoplasm of the adrenal gland should include carcinomas and adenomas of the adrenal cortex, and pheochromocytomas, neuroblastomas, and ganglioneuromas of the adrenal medulla.
...
PMID:Ganglioneuroma in the Adrenal Gland of a Rat. 1245 76
We are presenting a case associated with papillary thyroid carcinoma, renal cell carcinoma, invasive mammary carcinoma, chondrosarcoma, benign
ganglioneuroma
, and numerous colon adenomas. The patient had a family history of colon cancer, kidney and bladder cancers, lung cancer, thyroid cancer,
leukemia
, and throat and mouth cancers. She was diagnosed with colonic villous adenoma at the age of 41 followed by thyroid, renal, and breast cancers and chondrosarcoma at the ages of 48, 64, 71, and 74, respectively. Additionally, we included a table with the most common familial cancer syndromes with one or more benign or malignant tumors diagnosed in our case, namely, FAP, HNPCC, Cowden, Peutz-Jeghers, renal cancer, tuberous sclerosis, VHL, breast/other, breast/ovarian, Carney, Werner's, Bloom, Li-Fraumeni, xeroderma pigmentosum, ataxia-telangiectasia, osteochondromatosis, retinoblastoma, and MEN2A.
...
PMID:Thyroid, Renal, and Breast Carcinomas, Chondrosarcoma, Colon Adenomas, and Ganglioneuroma: A New Cancer Syndrome, FAP, or Just Coincidence. 2708 12
