Spots Global Cancer Trial Database for Combination Targeted Radiotherapy in Neuroendocrine Tumors

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Trial Identification

Brief Title: Combination Targeted Radiotherapy in Neuroendocrine Tumors

Official Title: Combination Targeted Radiotherapy in Neuroendocrine Tumors

Study ID: NCT01099228

Conditions

Neuroendocrine Tumors

Interventions

131-I MIBG and 111-In pentetreotide

131-I MIBG and In-111 DOTATATE

Study Description

Brief Summary: The primary aim of this project is to determine, what fraction of individuals with neuroendocrine tumors would show substantially improved tumor dosimetry with combined agent therapy compared to "best" single agent therapy and determine the magnitude of the potential tumor radiation dose increase.

Detailed Description: RESEARCH PLAN / BACKGROUND AND SIGNIFICANCE: Tumors originating from the neuroendocrine system, although relatively rare, may be life threatening. In cases where the disease has metastasized, the 5 year survival is very poor. 131I meta-iodobenzylguanidine (MIBG)and 90Y DOTA-D-Phe1-Tyr3-Octreotide (DOTATOC) are two radiopharmaceuticals that have shown promise as therapeutic agents in patients with metastatic neuroendocrine tumors. However, delivering sufficient radiation dose to the tumor to obtain objective anti-tumor responses or cure with these radiopharmaceuticals is challenging because of the allowable dose limits imposed by radiation damage to normal tissues. Organ biodistribution and kinetics of 90Y DOTATOC and 131I MIBG are substantially different, which leads to different critical organs for these agents, the kidney for Y90Y DOTATOC and the red marrow for 131I MIBG. We propose to investigate a mechanism to increase the radiation dose delivered to tumors without exceeding "critical" radiation dose to normal organs by combining 90Y DOTATOC and 131I MIBG. AIMS / OBJECTIVES: The primary aim of this project is to determine, what fraction of individuals with neuroendocrine tumors would show substantially improved tumor dosimetry with combined agent therapy compared to "best" single agent therapy and determine the magnitude of the potential tumor radiation dose increase. METHODS: To achieve this, we plan to perform serial scintigraphic imaging procedures to measure patient specific bone marrow, kidney, and tumor biodistribution and kinetics for 111In Pentetreotide and 131I-MIBG in adults and children with neuroendocrine tumors. Then, using the program we have already developed, we will input the individual dosimetry measures for bone marrow, kidney and tumor to determine the optimal amounts of administered radioactivity for the combination of 131I MIBG plus 90Y DOTATOC or 131I MIBG alone.