Long-term results of [131I]metaiodobenzylguanidine treatment of refractory advanced neuroblastoma.

Fourteen patients with advanced neuroblastoma, which was unresponsive to or had relapsed despite conventional therapy, were entered into a phase I/II trial of [131I]metaiodobenzylguanidine (131I-MIBG). Doses ranged from 1.85-8.14 GBq each (50-220 mCi), with cumulative doses of 1.85-24.20 GBq (50-654 mCi) in one to three doses. Side effects included mild nausea and vomiting and moderate myelosuppression which occurred in nine patients. Subjective responses occurred in five patients. Four patients had objective responses (one partial, two minor and one mixed). Two of these patients remain alive 80 and 60 months after beginning 131I-MIBG therapy. Comparison of the 131I-MIBG treated patients with 11 carefully matched control patients treated with an advanced current chemotherapy protocol (CCG 8605) was performed by means of Kaplan-Meier life table analysis. The 14% four-year survival with 131I-MIBG compared favorably with the 6% achieved by salvage chemotherapy. We thus believe 131I-MIBG may have a role in the management of neuroblastoma.     

Efficacy and safety of [131I]metaiodobenzylguanidine therapy for patients with refractory neuroblastoma.

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.     

The role of [131I]metaiodobenzylguanidine in the treatment of medullary thyroid carcinoma: results in five cases.

Therapeutic doses of [131I]metaiodobenzylguanidine (131I-MIBG) were administered to 5 patients, 3 men and 2 women aged from 33 to 66 years, with proven medullary thyroid carcinoma (one "intermediate" papillary/medullary tumor). The treatment procedure consisted of single doses (3.7-8.5 GBq) of 131I-MIBG given by slow i.v. infusion at 2-8 month intervals. In two advanced-stage patients the treatment played an important palliative role, ranging from an objective response (substantial, but not complete, regression of the tumor) to pain relief which was significant for these patients. In three other cases with residual/recurrent tumor, 131I-MIBG complemented conventional treatment in the attempt to effect a cure which actually was achieved in one case. The only side-effect observed was a transient, mild hematologic toxicity in some cases.     

131I]metaiodobenzylguanidine in neuroblastoma patients at diagnosis.

Treatment of resistant neuroblastoma with high dosage [131I]metaiodobenzylguanidine (131I-MIBG) appears effective since encouraging results have been obtained so far even in patients with very advanced, intensively pre-treated disease. We have already reported a stage III NB patient treated at diagnosis, who is at present in complete remission with a 4-year follow-up. To further explore the potential role of this new drug in untreated patients, we administered radionuclide to two children with stage III neuroblastoma. Both cases received 131I-MIBG at relatively low doses, and showed a significant reduction of the tumor mass and, interestingly enough, no evidence of 131I-MIBG uptake of a tracer dose in the remaining tumor. Particularly in case 1, the permanence and subsequent progression of the part of the tumor mass without 131I-MIBG uptake, after therapeutic doses of 131I-MIBG which apparently destroyed the 131I-MIBG-positive cell population, clearly suggest heterogeneity at diagnosis, with a dual neuroblastoma cell population, one with 131I-MIBG uptake and the other without. Aside from the biological implications of the heterogeneous MIBG uptake in neuroblastoma at diagnosis, our findings suggest that in stage III neuroblastoma patients even a relatively small dose of 131I-MIBG administered at diagnosis is sufficient to either completely destroy the primary tumor, as reported by our group, or to destroy that part of the tumor which shows 131I-MIBG uptake (as in the present cases), without any significant hematologic toxicity. Furthermore, a single course of 131I-MIBG at the dosage employed here does not appear to jeopardize the subsequent use of chemotherapy.(ABSTRACT TRUNCATED AT 250 WORDS)     

131I]metaiodobenzylguanidine treatment of malignant pheochromocytoma: experience of the Rome group.

Five cases of malignant pheochromocytoma (3 men and 2 women, aged 26-43 years) were treated with [131I]metaiodobenzylguanidine (131I-MIBG). One patient had a voluminous adrenal tumor and multiple distant metastases; two patients had a recurrent tumor; two others a post-surgical residual tumor. The therapeutic procedure essentially consisted of single doses (2.6-7.4 GBq) of 131I-MIBG administered by slow i.v. infusion, given in several therapeutic courses at 1-5 month intervals. The treatment resulted in a complete response in one case with residual tumor and in a partial response in the case with disseminated disease. Two cases showed stabilization of the disease, whereas therapy was ineffective in the fifth case. Nevertheless, pain relief was observed in this patient. The treatment had a very low toxicity and was well tolerated by all patients.     

Treatment of malignant pheochromocytoma with [131I]metaiodobenzylguanidine: a French multicenter study.

Six Medical Centers in France were involved in a prospective study evaluating the efficacy of [131I]metaiodobenzylguanidine (131I-MIBG) in the treatment of malignant pheochromocytoma. Fifteen patients aged from 28 to 75 years bearing tumor sites demonstrating a good MIBG uptake were included in this study. Catecholamines were elevated in 13/14 cases, VMA in 9/14 and metanephrines in 13/14. Two to 11 therapeutic activities of 131I-MIBG were administered, with a mean number of therapeutic doses per patient of 4 and a mean single activity of 4.7 GBq (range 2.9 to 9.25 GBq). Seven patients were alive, and seven patients died 6 to 29 months after their first MIBG administration (mean follow-up of 36 months); 1 patient was lost to follow-up. Two patients had a partial tumor response only, 4 had a hormonal response only, and 3 had both a partial tumor response and a hormonal response (complete in 2 cases). Six patients did not respond to the treatment, 4 of them died. Of the 9 responding patients, 4 relapsed, 3 of whom died subsequently. Haematological toxicity was always transient and mild, except in 1 case.     

Therapeutic use of [131I]metaiodobenzylguanidine in neuroblastoma: a phase II study in 26 patients. "Société Fran?aise d'Oncologie Pédiatrique" and Nuclear Medicine Co-investigators.

Seven French Medical Centers were involved in a cooperative study evaluating [131I]Metaidobenzylguanidine (131I-MIBG) therapy in advanced neuroblastoma. Children (median age 4 years) had initially a stage III (4 patients) or stage IV (22 patients) neuroblastoma. Before MIBG treatment, 14 patients had a primarily refractory disease, 10 patients were relapsing; in 8 cases, autologous bone marrow transplantation had been performed. Tumour sites were in 24 patients: 13/24 local disease, 8/24 bone metastases, and 7 bone marrow involvement. Catecholamines were elevated in 7/24 patients. The median activity of 131I-MIBG per injection ranged from 30 to 108 mCi; the number of injections varied from 1 to 5. We observed 5/10 pain palliations and 10/24 stabilizations of the disease course for 1 to 7 months with no objective volume tumour response. Haematologic toxicity caused a platelet count less than 150,000/microL in 4 patients, less than 100,000 in 1 patient and less than 50,000 in 7 patients.     

Treatment of neuroblastoma with [131I]metaiodobenzylguanidine: long-term results in 25 patients.

From 1984 to 1990 we have treated altogether 25 children with [131I]metaiodobenzylguanidine (131I-MIBG) for a refractory, relapsed or metastasized neuroblastoma. Three children had stage III and 22 children had stage IV of the disease; at diagnosis their ages were between 4 months and 10 years. Children with stage III disease had at diagnosis a median age of 3.0 years and at treatment 3.8 years. After first-line chemotherapy 2 children had achieved a complete remission (CR), while in 1 child the tumor did not respond (NR) to the initial treatment. At the time of 131I-MIBG treatment 2 children had relapsed and in the other one no further response was achievable. The children were treated by a 13.5 +/- 12.9 mCi/kg BW per course with a mean total dose of 280.7 +/- 243.9 mCi. One child achieved CR by 131I-MIBG alone, while in 2 cases no measurable success was observed. All 3 children were treated additionally by surgery, chemotherapy and bone marrow transplantation (BMT). Two children have died but one is alive and in CR. The 22 children with stage IV disease were treated in two different study groups. In group A, 14 children were studied for side-effects and response to 131I-MIBG. All children were pretreated with standard chemotherapy. Five were treated in relapse, 5 in progression and 3 at a refractory state of the disease; only 1 child was in complete remission when being treated with 131I-MIBG. Group A patients were treated with a mean of 2.4 courses, with 10.3 mCi/kg BW for each course.(ABSTRACT TRUNCATED AT 250 WORDS)     

The use of [131I]metaiodobenzylguanidine in the treatment of neuroblastoma after conventional therapy.

Eleven cases of neuroblastoma (10 males and 1 female; 9 aged 1-13 years, and two aged 17 and 38 years, respectively) ten of which were refractory to chemotherapy, were submitted to treatment with [131I]metaiodobenzylguanidine (131I-MIBG). The therapeutic procedure consisted essentially of single doses (2.6-9.5 GBq) of 131I-MIBG mostly split into two parts, administered by slow i.v. infusion and given in several therapeutic courses, usually at 1-2 month intervals. The treatment resulted in: 1 complete response, 1 partial response, 1 minor response, 4 stabilized diseases and 2 progressive diseases (two patients were not evaluable due to rapid progression of the disease). Pain relief was observed in all cases and particularly in four patients who suffered severe tumor pain. The major side-effects recorded were: hypertensive crises over a 6-day period in one case, fever lasting a few days in another and bone marrow depression in two intensively pretreated patients. A slight hematologic toxicity was observed, however, in almost all cases.     

External beam radiation therapy (EBRT) for patients with malignant pheochromocytoma and non-head and -neck paraganglioma: combination with 131I-MIBG

In patients with malignant pheochromocytoma and paraganglioma, 131I-MIBG radiotherapy can achieve an objective response rate of 30-50% with the dose limiting toxicity being hematologic. Patients with disseminated disease, who also have a few index bulky or symptomatic lesions, may benefit from the addition of targeted external beam radiotherapy alone or in combination with systemic 131I-MIBG. The records of patients with malignant paraganglioma who were treated with external beam radiotherapy at the University of Pennsylvania from February 1973 to February 2011 were reviewed in an institutional review board approved retrospective study. Of the 17 patients with tumors in the thorax, abdomen, or pelvis, 76% had local control or clinically significant symptomatic relief for at least 1 year or until death. As expected, the predominant toxicity was due to irradiation of tumor-adjacent normal tissues without clinically significant hematologic toxicity. Due to widespread systemic metastases with areas of bulky, symptomatic tumor, 5 of the 17 patients were treated with sequential 131I-MIBG (2 mCi/kg per treatment) and external beam radiotherapy to 9 sites. In these patients, all areas that were irradiated with external beam radiotherapy showed durable objective response despite all patients eventually experiencing out-of-field systemic progression requiring other treatment. Four of these patients remain alive with excellent performance status 16, 18, 23, and 24 months after external beam radiotherapy. External beam radiotherapy can be highly effective in local management of malignant paraganglioma and can be used in conjunction with 131I-MIBG due to nonoverlapping toxicities with excellent control of locally bulky tumors.     

Results of [131I]metaiodobenzylguanidine treatment in metastatic carcinoid.

The results obtained with [131I]metaiodobenzylguanidine (131I-MIBG) treatment in 6 patients affected by metastatic carcinoid are reported. 131I-MIBG was given in single doses of 3.7-8.0 GBq, reaching a maximum cumulative dose of 29.5 GBq in 4 courses. Objective responses were not observed, but in 4 cases an apparent stabilisation of the disease for more than 1 year was obtained. A subjective response regarding the carcinoid syndrome was observed in 4 cases. No response was seen in 2 cases. No adverse side-effects of any importance were observed, usually being prevented by a mild medication.     

Role of [131I]metaiodobenzylguanidine therapy in carcinoids.

From cumulative reported data the sensitivity of [131I]metaiodobenzylguanidine (131I-MIBG) scintigraphy of carcinoids appears to be greater than 60%; at our Institute 131I-MIBG scintigrams were positive in 51 of 70 patients with metastatic carcinoid. Twenty patients with symptomatic, metastatic disease have received 7.4 GBq doses of 131I-MIBG for palliation. Most of these patients had multiple large metastases showing no response to other therapies. No objective response (greater than 50% tumor volume reduction) was ever observed; however, 13 patients were relieved of symptoms, such as flushes, diarrhea, anorexia and pain. Palliation in some of these patients was meaningful and long lasting. Possible explanations for a palliative effect in the absence of objective remission are discussed. Treatment with escalating doses of stable MIBG (up to 80 mg) in 9 patients does not support the hypothesis that the palliation is due to a purely pharmacological effect. Palliation might be explained by the observation that carcinoid liver metastases may present both as hot and cold lesions; 131I-MIBG therapy will thus target exclusively at metabolically active metastases, which are responsible for the patient's symptoms.     

Summary, conclusions, and future directions of [131I]metaiodobenzylguanidine therapy in the treatment of neural crest tumors.

The role of diagnostic [131I/123I]metaiodobenzylguanidine (*I-MIBG) scintigraphy in the management of pheochromocytoma and neuroblastoma is established, but for other neural crest tumors is less defined. Radiopharmaceutical therapy of all these tumors with large activities of suitably radiolabeled MIBG is a compelling concept. In the five years since the first workshop on 131I-MIBG therapy held in Rome, the initial therapeutic promise appears to have been maintained for neuroblastoma and pheochromocytoma. A significant fraction of patients enter partial remission but complete remission is rare and relapse frequent. To date, experience with other neuroendocrine tumors and the use of 125I in place of 131I remains limited. Many promising areas remain incompletely explored. These include development of appropriate in vitro cultures and animal models, basic pharmacological mechanisms, drug interactions, macro- and microdosimetry and human clinical trials. The latter includes determining dose-limiting toxicity of 131I- and 125I-MIBG, treatment of patients at earlier times or stages of disease, optimal integration with other therapy including granulocyte-stimulating factor and marrow transplant rescue from otherwise limiting myelotoxicity. Progress to date has been slow and painstaking, but nevertheless significant, while the future holds both challenges and promise.     

Results of [131I]metaiodobenzylguanidine treatment in metastatic malignant phaeochromocytoma.

The results obtained with [131I]metaiodobenzylguanidine (131I-MIBG) treatment in 6 patients affected by metastatic phaeochromocytoma are reported. Single doses of 3.7-7.4 GBq were given, in 1-6 courses, up to cumulative doses of 5.4-37.8 GBq. Objective responses were observed in 5 patients (2 tumour shrinkages, even if small; 5 lowering of blood pressure), which were only temporary in 3 patients and stable in 2. Complete disappearance of pain was obtained in 2/2 patients. No adverse side-effects were observed. The problem of treatment strategy in situations of stable disease deserves further study.     

131I-MIBG therapy in the treatment of pheochromocytoma in children--own experiences

Three cases of pheochromocytoma in children/adolescents or young adults treated by 131I-MIBG are presented in this study. In one patient 131I-MIBG was administrated after ineffective surgical treatment and chemotherapy of a benign retroperitoneal tumor, whereas in two other patients 131I-MIBG therapy was carried out because of malignant pheochromocytoma dissemination. In a child with retroperitoneal paraganglioma decrease of tumor size and its fibrosis after 131I-MIBG therapy allowed radical surgery and complete recovery. In two other cases partial remission was achieved. All patients showed a good subjective response with improvement of the general condition and better blood pressure control. In two children adverse reactions such as leucopenia, hypothyroidism or hypogonadism were observed. The presented data confirm effectiveness and acceptable tolerance of 131I-MIBG treatment in pheochromocytoma, what is very important in pediatric patients.     

131I]metaiodobenzylguanidine therapy in 20 patients with malignant pheochromocytoma.

Twenty patients, 16 male and 4 female (aged 11-76 years), with metastatic pheochromocytoma were treated in our Institution between 1985 and 1990. Metastases occurred in all patients: at presentation in 11 patients, with a 10 to 30 month delay in 7 patients, and 9 and 28 years later respectively in 2 patients. Catecholamines hyperproduction was present in all patients. Metaiodobenzylguanidine (MIBG) uptake was found in 16 patients after a diagnostic dose and only after a therapeutic dose in 1 patient. Surgery was performed on primary tumor (18 patients) and on distant metastases (10 patients). 131I-MIBG therapy was performed in 11 patients, 9 of whom were evaluable. The cumulative activity ranged from 3.7 to 26.3 GBq (100 to 711 mCi) in 1 to 6 courses. We observed symptomatic improvement (5 patients) and partial tumor response in 2 patients, which lasted for 28 and 9 months respectively, terminating with a rapidly progressing disease involving the bone marrow. Stabilisation was observed in 3 patients. Moderate myelosuppression occurred in 4 patients. Fifteen patients died with a median survival of 16 months (range 3-60). Response to therapy was poor and further evaluation of the presently available therapeutic approaches is needed.     

Preoperative [131I]metaiodobenzylguanidine therapy of neuroblastoma at diagnosis ("MIBG de novo").

The observed response of [131I]metaiodobenzylguanidine (131I-MIBG) therapy in advanced neuroblastoma after conventional therapy had failed, the noninvasiveness of the procedure, and the high metabolic activity of untreated tumors led to a new protocol to use 131I-MIBG therapy in newly diagnosed patients instead of combination chemotherapy prior to surgery. The objectives of this study are to improve the overall outcome of patients with neuroblastoma by introducing 131I-MIBG therapy as the first therapy in the treatment schedule, in order to reduce the tumor volume, enabling adequate surgical resection and avoiding toxicity and the induction of early drug resistance. The advantages of this approach are that the child's general condition is unaffected before surgical resection is performed and that chemotherapy is reserved to treat minimal residual disease. So far, 13 patients with inoperable neuroblastoma (stage III and IV) were treated with 131I-MIBG initially and then submitted to surgery. More than 50% decrease of the volume of the primary tumor was noted in 7 of 10 evaluable patients; 8 patients have so far been operated with complete resection in 2, greater than 95% resection in 5 and 80% resection in one patient. Three patients are still undergoing 131I-MIBG treatment. The toxicity of 131I-MIBG de novo is in contrast with the previous experience of 131I-MIBG therapy after conventional therapy: only 4 patients had thrombocytopenia and only 1 of 7 patients with bone marrow involvement developed bone marrow depression.(ABSTRACT TRUNCATED AT 250 WORDS)     

Role of [131I]metaiodobenzylguanidine therapy in medullary thyroid carcinoma.

In recent years several radiopharmaceuticals have become available, offering new possibilities for the diagnosis and therapy of medullary thyroid carcinoma (MTC). For the diagnosis and follow-up 201TI-chloride and 99mTc(V)-DMSA are the tracers of choice. Imaging with [131I]metaiodobenzylguanidine (131I-MIBG) and 131I-anti-CEA or anti-calcitonin antibodies or fragments is less sensitive but very specific. These tracers can be used to evaluate their potential therapeutic use. Cumulative reported data on the diagnostic use of 131I-MIBG in 178 MTC patients indicate that overall 34.5% of medullary cancers concentrate MIBG. At The Netherlands Cancer Institute 131I-MIBG scintigraphy was positive in 8 of 23 patients with MTC. Four of these patients have received therapeutic amounts of 131I-MIBG, resulting in 1 partial remission and meaningful palliation in 3 patients with metastatic MTC. It is concluded that, although the preliminary experience suggests that the objective response of MTC to 131I-MIBG therapy is limited, the palliation provided to these patients, for whom there is little other treatment, may be very meaningful.     

Influence of initial large dose on subsequent uptake of therapeutic radioiodine in thyroid cancer patients

Fifty-two patients with differentiated thyroid cancer, following thyroidectomy were studied by administering a quantity of up to 5 mCi of [¹³¹I]sodium iodide. In most of these patients, radioiodine uptake values obtained with the subsequent therapeutic dose were markedly lower than those observed with the initial doses. This observation was verified in seven of the patients with differentiated thyroid cancer, by measuring the radioiodine uptake with a second dose of 4.5 mCi of [¹³¹I]sodium iodide. Calculations showed that the major etiology was probably therapeutic irradiation of the thyroid by the first dose.     

131I]metaiodobenzylguanidine therapy in advanced neuroblastoma.

Forty-two children with advanced neuroblastoma who either failed with first-line therapy or relapsed after achieving a complete remission, were considered for treatment with [131I]metaiodobenzylguanidine (131I-MIBG). We subdivided 42 cases into 5 groups, in accordance with the stage of disease at diagnosis, response to first-line therapy and relapse. A total of 99 courses of 131I-MIBG were administered with doses ranging from 2.8 to 6.0 GBq. One child received six courses, 3 four courses, 18 three courses, 6 two courses and 15 one course of 131I-MIBG. The total delivered dose in single measurable lesions ranged from 286 to 1691 cGy with an uptake factor ranging from 3% to 10%. We obtained a major response in primary tumors, and a long-term response was observed in 5 cases, lasting more than 2 years without further chemotherapy.