UMLS:C0027819 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0027819 (neuroblastoma)
27,800 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Metaiodobenzylguanidine (MIBG) is a guanethidine derivative that is selectively concentrated in sympathetic nervous tissue. MIBG labeled with 123I or 131I has proven to be a specific and sensitive tool for detection of primary and metastatic pheochromocytoma and neuroblastoma. Eleven patients, with refractory stage IV neuroblastoma were treated with a total of 23 courses of 131I-MIBG, 100-400 mCi/m2/course. Total activity administered per course ranged from 90-550 mCi; maximum cumulative radioactivity per patient was 1356 mCi. The 131I-MIBG was given as a 2 hour infusion. Total body dose was calculated from whole body activity measurements, ranging from 73-250 cGy. The main toxicity was thrombocytopenia, with platelet nadirs to less than 25,000/microL in 5/23 courses (5 patients), all occurring in patients with greater than 25% replacement by tumor in the bone marrow. Neutropenia to a nadir of less than 500/microL was seen in only 2 patients, both with greater than 50% bone marrow replacement after 2 and 4 courses of 131I-MIBG, respectively. Tumor doses were calculated in patients with an evaluable measurable lesion, and ranged from 312-6329 cGy per course. Two of the eleven patients had partial responses, with one long-term survivor with stage IV neuroblastoma with no evidence of active disease now 4 years off treatment. Two other patients survive with stable disease after 3 treatments, at 3+ and 5+ months. Seven patients died with progressive disease. This study shows that treatment with 131I-MIBG is safe and can be effective in refractory neuroblastoma, particularly in patients who do not have extensive bone and bone marrow involvement.
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PMID:Efficacy and safety of [131I]metaiodobenzylguanidine therapy for patients with refractory neuroblastoma. 182 27

Computed tomography (CT) and 123I- or 131I-meta-iodo-benzyl-guanidine (MIBG) scintigraphy were compared for accuracy in tumor detection in 47 patients with neuroectodermal neoplasms. MIBG concentration was found in 12 of 13 pheochromocytomas, 12 of 12 neuroblastomas, 5 of 9 carcinoids, and 1 of 4 glomus tumors. MIBG uptake was not observed in medullary thyroid carcinomas, oat-cell carcinomas, Merkel tumors, 1 gastrinoma, and 2 unclassified neuroectodermal neoplasms. With regard to the different tumor manifestations, the sensitivity in detecting pheochromocytomas, neuroblastomas, and carcinoids was 87%, 77%, and 100% for CT, and 83%, 100% and 71% for MIBG scintigraphy, MIBG scintiscan was superior in the detection of small adrenal pheochromocytomas (less than 1 cm diameter) and in the depiction of small bone metastases and bone marrow infiltration from neuroblastoma. In all, 25 cycles of high-dose MIBG therapy were performed in eight patients with surgically incurable tumors (4 malignant pheochromocytomas, 1 neuroblastoma, 3 carcinoids). The total therapeutic activity applied was 3.55-43.29 GBq 131I-MIBG. Tumor kinetics of MIBG were investigated before and during treatment. One patient with metastatic pheochromocytoma has been in complete remission for a follow-up period of 36 months since completion of treatment, and another patient is in partial remission. Tumor reduction or no change was observed in four patients. Two patients died of non-concentrating recurrence and metastases.
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PMID:[Diagnosis and therapy of neuroectodermal tumors]. 253 1

From January 1993 to January 1994, scintigraphy with 123I-MIBG and/or 131I-MIBG were performed in 22 patients and their scintigraphic usefulness was evaluated. Iodine-123 MIBG and 131I-MIBG scintigrams were obtained 24 hours after injection of 222 MBq of 123I-MIBG and 48 hours after injection of 20 MBq of 131I-MIBG, respectively. In two patients with pheochromocytoma, the 123I-MIBG and 131I-MIBG scans were performed and both images were compared. In a patient with single intraadrenal pheochromocytoma, the lesion not detected with 131I-MIBG was clearly visualized with 123I-MIBG. In the other patient with multiple metastatic pheochromocytoma, much more lesions were distinctly demonstrated on the 123I-MIBG images than on the 131I-MIBG images. All of the lesions were detected with 123I-MIBG in a patient with pheochromocytoma, 3 patients with neuroblastoma and a patient with medullary thyroid cancer. Most of the normal adrenal glands (86%) were visualized on the 123I-MIBG scintigrams, in 7 patients without neural crest tumor and adrenal diseases, while 131I-MIBG scintigraphy failed to visualize normal adrenal glands in 2 hypertensive patients. The main reason for the superiority of 123I-MIBG to 131I-MIBG is considered to be as follows: 1) higher specific activity of 123I-MIBG. 2) the larger amount of 123I-MIBG used. 3) gamma ray energy of 123I is ideal for gamma camera. In conclusion, 123I-MIBG appears to be a more suitable imaging agent than 131I-MIBG in depicting neural crest tumors.
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PMID:[Detection of neural crest tumors by 123I-MIBG scintigraphy]. 783 4

The author reviewed present status and progress of endocrine nuclear medicine including thyroid, parathyroid, adrenocortical, adrenomedullary and somatostatin receptor imaging and also radionuclide therapy of Basedow's disease, metastatic foci of post-operative thyroid cancer and malignant neural crest tumor. Relatively new imaging agents include 99mTc-MIBI and 99mTc-tetrofosmin for parathyroid imaging and 111In-pentetreotide for somatostatin receptor imaging. It is hoped that therapy of malignant neural crest tumors such as metastatic pheochromocytoma and neuroblastoma with 131I-MIBG and somatostatin receptor imaging will be available in Japan as soon as possible.
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PMID:[Present status and progress of endocrine nuclear medicine]. 1008 59

Radioiodinated metaiodobenzylguanidine [(131)I-MIBG] is commonly used to treat resistant neuroblastoma or metastatic pheochromocytoma [MP] with little non-hematopoietic toxicity. We describe here transient sialoadenitis, a previously unreported complication. Ten patients [9 neuroblastoma and 1 MP] received 12-18 mCi/kg of (131)I-MIBG. Five patients had bilateral parotid swelling, two with associated buccal discomfort within 24 hr of injection which subsided within 48 hr. Grade 3 or 4 serum amylase elevation was documented in 8/8 patients tested [median 1,336; range: 576-8,830 U/L] which normalized [25-125 U/L] within 4-14 [median 5.5] days. Serum lipase remained normal. Patients did not develop subsequent dry mouth or dysphagia.
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PMID:Transient sialoadenitis: a complication of 131I-metaiodobenzylguanidine therapy. 1797 18

The overexpression of MYC, which occurs in many tumors, dramatically disrupts the equilibrium between activation and repression of the oncogenic MYC/MYC-associated protein X (MAX)/MAX dimerization protein 1 (MXD1) network, favoring MYC-MAX complexes and thereby impairing differentiation and promoting cell growth. Although for some time it has appeared that MAX is necessary for both the activation and repression of the axis, recent evidence shows that MYC retains considerable biologic function in the absence of MAX. The presence of germline MAX mutations in patients with hereditary pheochromocytoma supports the predominant role of MAX as a negative regulator of the network and suggests that MYC deregulation plays a role in hereditary cancer predisposition. This finding also confirms the importance of impairment of the MYC/MAX/MXD1 axis in the development of aggressive neural tumors, because MYCN overexpression is an established genetic hallmark of malign neuroblastoma, and it is likely that MXI1 plays a relevant role in the development of medulloblastoma and glioblastoma. Finally, the likely malignant behavior of tumors with mutations in MAX points to MYC as a candidate therapeutic target in the treatment of metastatic pheochromocytoma.
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PMID:MAX and MYC: a heritable breakup. 2270 1

A Tc MDP bone superscan occurs when osseous activity is extremely intense and genitourinary and soft tissue activity is not identified. A similar phenomenon has been described with metaiodobenzylguanidine (MIBG) in metastatic pheochromocytoma and neuroblastoma. We present a case of metastatic paraganglioma resulting in an MIBG superscan. Neuroendocrine bone metastasis alters the biodistribution of MIBG such that the liver, heart, and urinary bladder are not well visualized. Our case occurred in association with neurofibromatosis type 1 and in the absence of an identified primary tumor.
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PMID:MIBG superscan of metastatic paraganglioma occurring with neurofibromatosis type 1. 2345 26

¹²³ I-meta-iodo benzyl guanidine (MIBG) scans are considered the gold standard imaging in neuroblastoma; however, flouro deoxy glucose positron emission tomography (FDG-PET) scans have increased sensitivity in adults with pheochromocytoma/paraganglioma. We describe a pediatric patient initially considered to have localized neuroblastoma based on anatomical imaging and ¹²³ I-MIBG scan, but subsequent investigations revealed germline succinate dehydrogenase complex iron sulfur subunit B (SDHB) mutation-associated pheochromocytoma with multiple FDG-avid skeletal metastases. We then compared ¹²³ I-MIBG and FDG-PET scans in children with metastatic pheochromocytoma/paraganglioma. FDG-PET was superior to ¹²³ I-MIBG scan for the detection of skeletal metastases (median number of skeletal lesions detected 10 [range 1-30] vs. 2 [range 1-26], respectively; P = 0.005 by t-test). FDG-PET should be considered the functional scan of choice in children with pheochromocytoma/paraganglioma.
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PMID:Failure of MIBG scan to detect metastases in SDHB-mutated pediatric metastatic pheochromocytoma. 2840 92

Metaiodobenzylguanidine (MIBG) is structurally similar to the neurotransmitter norepinephrine and specifically targets neuroendocrine cells including some neuroendocrine tumors. Iodine-131 (I-131)-labeled MIBG (I-131 MIBG) therapy for neuroendocrine tumors has been performed for more than a quarter-century. The indications of I-131 MIBG therapy include treatment-resistant neuroblastoma (NB), unresectable or metastatic pheochromocytoma (PC) and paraganglioma (PG), unresectable or metastatic carcinoid tumors, and unresectable or metastatic medullary thyroid cancer (MTC). I-131 MIBG therapy is one of the considerable effective treatments in patients with advanced NB, PC, and PG. On the other hand, I-131 MIBG therapy is an alternative method after more effective novel therapies are used such as radiolabeled somatostatin analogs and tyrosine kinase inhibitors in patients with advanced carcinoid tumors and MTC. No-carrier-aided (NCA) I-131 MIBG has more favorable potential compared to the conventional I-131 MIBG. Astatine-211-labeled meta-astatobenzylguanidine (At-211 MABG) has massive potential in patients with neuroendocrine tumors. Further studies about the therapeutic protocols of I-131 MIBG including NCA I-131 MIBG in the clinical setting and At-211 MABG in both the preclinical and clinical settings are needed.
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PMID:Current Consensus on I-131 MIBG Therapy. 3010 Sep 38