UMLS:C0027819 - FACTA Search

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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fourteen patients with refractory advanced neuroblastoma were treated with 131-I-metaiodobenzylguanidine (131-I-MIBG); all had evidence of progressive disease or recurrent disease following combination chemotherapy. One patient without gross evidence of disease, following surgical resection of recurrent neuroblastoma before therapy with 131-I-MIBG, remains healthy without regrowth of tumor 3.5 years later. Two other patients had minor responses, and one had a mixed response. Two patients remain alive 1,212 and 1,926 days following the initial 131-I-MIBG treatment; the remaining 12 patients died of progressive disease. Moderate myelosuppression was the most notable toxicity observed; mild nausea and vomiting and transient mild liver enzyme elevation were also encountered. Treatment with 131-I-MIBG produced antineoplastic activity in patients with neuroblastoma and was well tolerated. To evaluate dose escalation, alternative dosage schedules, and alternative MIBG-radioconjugates, additional trials of radiolabeled MIBG are indicated.
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PMID:131-I-metaiodobenzylguanidine treatment in patients with refractory advanced neuroblastoma. 159 Feb 75

[131I]Metaiodobenzylguanidine (131I-MIBG) is used for diagnostic scintigraphy and targeted therapy in a range of neural crest tumors, which exhibit an active uptake-1 mechanism at the cell membrane and cytoplasmatic storage in neurosecretory granules. A good and selective concentration and a long retention in the tumor, as is generally the case in neuroblastoma, are the basis for successful 131I-MIBG treatment. At The Netherlands Cancer Institute a phase II study was carried out in 53 patients with progressive recurrent disease after conventional therapy had failed. Despite the unfavorable basis for treatment, 131I-MIBG therapy induced 7 complete remissions, 23 partial remissions and arrest of disease (no change) in 10. Nine patients had progressive disease and one patient was lost to follow-up. The palliative effect of the treatment under these conditions was impressive. The duration of remissions varied from 2 to 38 months. The best results were obtained in patients with voluminous soft tissue disease. In general the treatment was well tolerated by children and the toxicity was mild, provided the bone marrow was not invaded by the disease. It is concluded that 131I-MIBG therapy has a definitive place in the treatment of neuroblastoma after conventional treatment has failed. As the invasiveness and toxicity of this therapy compare favorably with that of chemotherapy, immunotherapy and external beam radiotherapy, 131I-MIBG therapy is the best palliative treatment for patients with advanced recurrent neuroblastoma.
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PMID:[131I]metaiodobenzylguanidine therapy after conventional therapy for neuroblastoma. 182 19

Neuroblastoma and Ewing's sarcoma are examples of pediatric cancers in which disseminated disease is often present at diagnosis or develops later in spite of combination therapy. The demonstration that marrow-ablative doses of chemotherapy can increase tumor cell kill, and that autologous bone marrow can be cryopreserved and reinfused into the patient to reverse such marrow ablation, has stimulated interest in this approach to refractory childhood cancers. We present results of treating eighteen patients with recurrent neuroblastoma and Ewing's sarcoma resistant to conventional therapy. We used supralethal doses of melphalan, supported by reinfusion of previously cryopreserved autologous bone marrow. Seven of 10 neuroblastoma and six of eight Ewing's sarcoma patients had complete or partial responses, lasting for a median of 6 months (neuroblastoma) and 3 months (Ewing's sarcoma). Prolonged hospitalization, pancytopenia complicated by sepsis, and reversible gastrointestinal toxicity were the major side effects. These results suggest this approach should be tested in therapeutic trials at an earlier disease stage in children who have cancers with a predictably bad prognosis.
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PMID:High-dose melphalan therapy for the treatment of children with refractory neuroblastoma and Ewing's sarcoma. 637 12

The high risk group of patients with neuroblastoma are children over 1 year with stage IV disease. Most series report a maximum of 20% survival at 5 years. For recurrent neuroblastoma stage IV, cure rates are not reported in the literature, but they are nil. Any treatment for recurrent neuroblastoma stage IV remains a therapeutic dilemma. The outcome of radiation therapy is variable. A very important factor in tumour treatment remains tumour hypoxia, and others, such as metabolic factors, also play a role. Combined application of radiation modifiers may influence the final survival rate. In an attempt to improve the survival of recurrent neuroblastoma stage IV, hyperbaric oxygen and radioionated meta-Iodobenzylguanidine (MIBG) was used in a clinical setting. Although survival may not be used as a determinant of the usefulness of a treatment for stage IV neuroblastoma disease, a better one is not available. In this study, at 28 months, a cumulative probability of survival of 32% was recorded for patients treated with [131I]MIBG and hyperbaric oxygen compared to 12% for [131I]MIBG treatment alone. These preliminary results are promising but further studies are needed to reveal substantial therapeutic gain.
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PMID:Clinical experience with radiation enhancement by hyperbaric oxygen in children with recurrent neuroblastoma stage IV. 757 76

We examined the short-term efficacy and toxicity of high doses of intravenous deferoxamine (DFO) in children with recurrent neuroblastoma. Ten children (3 2/12-20 years, median 6 5/12 years) had measurable recurrent disease following 1-3 prior treatment regimens. DFO (120-240 mg/kg/d) was planned as a continuous i.v. infusion for five days every other week. Serum ferritins at the start of this therapy ranged from 133-->5000 ng/ml (median 611 ng/ml). Of eight patients begun at a dose of 120-150 mg/kg/d, a single patient experienced visual disturbances which resolved after DFO was discontinued. Two patients begun at 240 mg/kg/d (with serum ferritins levels of 505 and 717 ng/ml) both experienced dose-limiting toxicity including lethargy, dizziness, blurred vision and leg cramps. Although decreases in serum ferritin levels of a least 10% were noted in 4 patients, there were no partial or complete response. DFO given at a dose of 150 mg/kg/d i.v. according to this schedule appears to be ineffective as a single agent against neuroblastoma. Starting doses of 240 mg/kg/d have unacceptable short-term toxicity.
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PMID:Deferoxamine in children with recurrent neuroblastoma. 784 May 8

Administration of a tumour-seeking compound labeled with a low-energy isotope and intraoperative screening with the gamma probe (radioguided surgery, RGS) could be useful in reoperations for advanced neuroblastoma when the normal anatomy is altered. A pilot study was performed to test the feasibility of this technique. Five patients underwent six relaparotomies for recurrent stage III or IV neuroblastoma. All had been treated with intensive chemotherapy and/ or metaiodobenzylguanidine (MIBG)-I131 with or without hyperbaric oxygen. Reoperation was performed to achieve near-total (greater than 95%) excision. In all instances, active tumour was seen on the preoperative MIBG scan. Before the operation, a tracer dose of MIBG-I123 was given. At laparotomy, a search was made with the gamma probe for areas of increased activity. The gamma probe correctly identified active neuroblastoma tissue that was seen on the preoperative MIBG scan. There appeared to be a relationship between intensity of radioactivity and degree of maturation on histologic examination. This pilot study shows that RGS with MIBG and intraoperative use of the gamma probe is able to identify recurrent neuroblastoma. Whether this method is able to detect occult tumour and whether RGS will result in better outcome are the subjects of ongoing research.
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PMID:Intraoperative search for neuroblastoma by MIBG and radioguided surgery with the gamma detector. 902 10

Loss of heterozygosity (LOH) and deletion of chromosome 1p are very often found in sporadic neuroblastoma. Nevertheless, very few data are available concerning 1p LOH in familial neuroblastoma. Families with recurrent neuroblastoma are rare and analysis of chromosome 1p in these families might give useful information for identifying the putative neuroblastoma suppressor gene. We used combined cytogenetic and molecular techniques to study 1p LOH in two neuroblastoma families. Family M has 2 out of 3 children with neuroblastoma and family C has 2 children, 1 of whom has neuroblastoma and type 1 neurofibromatosis (NF1). All patients of both families showed tumour cells with chromosome 1p deletion (1pdel), but only the patient from family C also had MYCN gene amplification. In all cases the deleted chromosome 1 was of maternal origin.
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PMID:Loss of heterozygosity for chromosome 1p in familial neuroblastoma. 951 31

The antitumor activity of topotecan administered as a 72-h continuous i.v. infusion was evaluated in children with refractory neuroblastoma and sarcomas of soft tissue and bone. We also attempted to increase the dose intensity of topotecan by including an intrapatient dose escalation in the trial design. Ninety-three children (85 eligible and evaluable for response) with recurrent or refractory neuroblastoma, osteosarcoma, Ewing's sarcoma/peripheral neuroectodermal tumor, rhabdomyosarcoma, or other soft-tissue sarcomas received topotecan administered as a 72-h i.v. infusion every 21 days. The initial dose was 1.0 mg/m2/day, with subsequent intrapatient dose escalation to 1.3 mg/m2/day for those patients who did not experience dose-limiting toxicity after their first cycle of topotecan. There was one complete response in a patient with neuroblastoma (n = 26) and one partial response in a patient with Ewing's sarcoma/peripheral neuroectodermal tumor (n = 25). No complete or partial responses were observed in 17 patients with osteosarcoma, 15 patients with rhabdomyosarcoma, or 2 patients with other soft-tissue sarcomas; however, 8 patients had prolonged (15-48 weeks) stable disease while receiving topotecan. Topotecan was well tolerated. The most commonly observed toxicities were myelosuppression (dose-limiting) and nausea and vomiting. Intrapatient dose escalations were performed in 68% of the patients who received more than one cycle of topotecan, and 1.3 mg/m2/day was tolerated by 79% of the patients who received the higher dose and were evaluable for hematological toxicity. In conclusion, topotecan administered as a 72-h continuous infusion every 21 days is inactive (objective response rate, < 20%) in children with refractory or recurrent neuroblastoma and sarcomas of soft tissue or bone.
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PMID:Phase II trial of topotecan administered as 72-hour continuous infusion in children with refractory solid tumors: a collaborative Pediatric Branch, National Cancer Institute, and Children's Cancer Group Study. 951 23

We report a 28-year-old woman who presented with severe proximal muscle weakness secondary to paraneoplastic hypophosphatemia and associated with recurrent neuroblastoma. The biochemical findings included hyperphosphaturia, a reduced serum level of 1,25-dihydroxyvitamin-D3, elevated alkaline phosphatase and normocalcemia which are pathognomic for paraneoplastic hypophosphatemia. Following systemic chemotherapy and supplementation of 1,25-dihydroxyvitamin-D3 a complete remission of the neuroblastoma was achieved and all features of the paraneoplastic hypophosphatemia gradually disappeared. In the differential diagnosis of muscle weakness, hypophosphatemia should be included. Paraneoplastic hypophosphatemia associated with metastatic neuroblastoma has not been reported previously. Diagnosis, mechanism and therapy of paraneoplastic hypophosphatemia are shortly reviewed.
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PMID:Severe muscle weakness secondary to paraneoplastic hypophosphatemia in neuroblastoma. 985 9

Iodine-131 labelled anti L1-CAM antibody mAb chCE7 was compared with the effective neuroblastoma-seeking agent 131I-labelled metaiodobenzylguanidine (MIBG) with regard to (a) its therapeutic efficacy in treating nude mice with neuroblastoma xenografts and (b) its tumour targeting ability in neuroblastoma patients. The SK-N-SH tumour cells used in the mouse experiments show good MIBG uptake and provide a relatively low number of 6,300 binding sites/cell for mAb chCE7. Tumours were treated with single injections of 131I-MIBG (110 MBq) and with 131I-labelled mAb chCE7 (17 MBq) and both agents showed antitumour activity. After therapy with 131I-chCE7, the subcutaneous tumours nearly disappeared; treatment with 131I-MIBG was somewhat less effective, resulting in a 70% reduction in tumour volume. A calculated tumour regrowth delay of 9 days occurred with a radioactivity dose of 17 MBq of an irrelevant control antibody mAb 35, which does not bind to SK-N-SH cells, compared with a regrowth delay of 34 days with 131I-mAb chCE7 and of 24 days with 131I-MIBG. General toxicity appeared to be mild, as assessed by a transient, approximate 10% maximum decrease in body weight during the treatments. The superior growth inhibition achieved by 131I-chCE7 compared with 131I-MIBG can be explained by its prolonged retention in the tumours, due to slower normal tissue and plasma clearance. Cross-reaction of mAb chCE7 with L1-CAM present in normal human tissues was investigated by direct binding of radioiodinated mAb to frozen tissue sections. Results showed a strong reaction with normal human brain tissue and weak but detectable binding to normal adult kidney sections. Seven patients with recurrent neuroblastoma were sequentially imaged with 131I-MIBG and 131I-chCE7. The results underlined the heterogeneity of neuroblastoma and showed the two imaging modalities to be complementary. 131I-chCE7 scintigraphy may have clinical utility in detecting metastases which do not accumulate 131I-MIBG, and the antibody may hold potential for radioimmunotherapy, either by itself or in combination with 131I-MIBG.
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PMID:A comparison of targeting of neuroblastoma with mIBG and anti L1-CAM antibody mAb chCE7: therapeutic efficacy in a neuroblastoma xenograft model and imaging of neuroblastoma patients. 1131 5

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