scholarly journals Pivotal Role of Dosimetry in High Activity 131i Mibg Therapy in Patients Affected by High Risk Relapsed Refractory Neuroblastoma: Towards a Deeper Metastatic Response Understanding

2021 ◽  
Author(s):  
Bartolomeo Cassano ◽  
Milena Pizzoferro ◽  
Silvio Valeri ◽  
Claudia Polito ◽  
Salvatore Donatiello ◽  
...  
Keyword(s):  
High Risk ◽  
Clinical Outcome ◽  
High Activity ◽  
Absorbed Dose ◽  
Complete Response ◽  
Whole Body ◽  
High Dose ◽  
Red Marrow ◽  
Activity Therapy ◽  
Mibg Therapy

Abstract Background: Dosimetry in molecular radiotherapy for personalized treatment is assuming a central role in clinical management of aggressive/relapsed tumors. High-Risk relapsed/refractory metastatic Neuroblastoma (HRrrm-NBL) has a poor prognosis and high-activity 131I-mIBG therapy could represent a promising strategy.The aim of this study was to report the absorbed dose to whole-body (DWB), red marrow (DRM) and lesions (DLesion) correlated to clinical outcome.Methods: 14 patients affected by HRrrm-NBL were treated with high-activity 131I-mIBG therapy (two administrations separated by 15 days). The first administration was weight-based whereas the second one was dosimetry-based (achieving 4 Gy to whole-body). In all patients DWB and DRM has been assessed; 9/14 patients were selected for DLesion evaluation (for a total of 13 lesions). Treatment response was classified in Progression and Stable Disease (PD and SD), Partial and Complete Response (PR and CR) and correlated to the value of DLesion value.Results: The cumulative DWB, DRM and DLesion ranged from [1.49; 4.45], [0.99; 2.56] and [44.17; 585.75] Gy. After treatment 3, 2, 4 and 5 patients showed CR, PR, SD and PD respectively showing a correlation between the clinical outcome and DLesion with a threshold at 80 Gy.Conclusions: Our experience shows feasibility of high activity therapy of 131I MIBG in rrmHR-NBL children as two administration intensive strategy. Dosimetric approach allowed a tailored high dose treatment maximizing the benefits of radionuclide therapy for pediatric patients with a safety profile. The assesment of DLesion contributed to have a deeper understaning of metabolic treatment effects.

scholarly journals MUKnine OPTIMUM protocol: a screening study to identify high-risk patients with multiple myeloma suitable for novel treatment approaches combined with a phase II study evaluating optimised combination of biological therapy in newly diagnosed high-risk multiple myeloma and plasma cell leukaemia

BMJ Open ◽  
2021 ◽  
Vol 11 (3) ◽  
pp. e046225
Author(s):  
Sarah Brown ◽  
Debbie Sherratt ◽  
Samantha Hinsley ◽  
Louise Flanagan ◽  
Sadie Roberts ◽  
...  
Keyword(s):  
Multiple Myeloma ◽  
High Risk ◽  
Plasma Cell ◽  
Phase Ii ◽  
Whole Body ◽  
Cell Leukaemia ◽  
High Dose ◽  
Newly Diagnosed ◽  
Genetic Changes ◽  
Novel Treatment

IntroductionMultiple myeloma (MM) is a plasma cell tumour with over 5800 new cases each year in the UK. The introduction of biological therapies has improved outcomes for the majority of patients with MM, but in approximately 20% of patients the tumour is characterised by genetic changes which confer a significantly poorer prognosis, generally termed high-risk (HR) MM. It is important to diagnose these genetic changes early and identify more effective first-line treatment options for these patients.Methods and analysisThe Myeloma UK nine OPTIMUM trial (MUKnine) evaluates novel treatment strategies for patients with HRMM. Patients with suspected or newly diagnosed MM, fit for intensive therapy, are offered participation in a tumour genetic screening protocol (MUKnine a), with primary endpoint proportion of patients with molecular screening performed within 8 weeks. Patients identified as molecularly HR are invited into the phase II, single-arm, multicentre trial (MUKnine b) investigating an intensive treatment schedule comprising bortezomib, lenalidomide, daratumumab, low-dose cyclophosphamide and dexamethasone, with single high-dose melphalan and autologous stem cell transplantation (ASCT) followed by combination consolidation and maintenance therapy. MUKnine b primary endpoints are minimal residual disease (MRD) at day 100 post-ASCT and progression-free survival. Secondary endpoints include response, safety and quality of life. The trial uses a Bayesian decision rule to determine if this treatment strategy is sufficiently active for further study. Patients identified as not having HR disease receive standard treatment and are followed up in a cohort study. Exploratory studies include longitudinal whole-body diffusion-weighted MRI for imaging MRD testing.Ethics and disseminationEthics approval London South East Research Ethics Committee (Ref: 17/LO/0022, 17/LO/0023). Results of studies will be submitted for publication in a peer-reviewed journal.Trial registration numberISRCTN16847817, May 2017; Pre-results.

Hematologic Toxicity of High-Dose Iodine-131–Metaiodobenzylguanidine Therapy for Advanced Neuroblastoma

2004 ◽  
Vol 22 (12) ◽  
pp. 2452-2460 ◽  
Author(s):  
Steven G. DuBois ◽  
Julia Messina ◽  
John M. Maris ◽  
John Huberty ◽  
David V. Glidden ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Radiation Dose ◽  
Red Cells ◽  
Whole Body ◽  
High Dose ◽  
Hematologic Toxicity ◽  
Severe Thrombocytopenia ◽  
Hematopoietic Stem ◽  
Iodine 131 ◽  
Mibg Therapy

Purpose Iodine-131–metaiodobenzylguanidine (131I-MIBG) has been shown to be active against refractory neuroblastoma. The primary toxicity of 131I-MIBG is myelosuppression, which might necessitate autologous hematopoietic stem-cell transplantation (AHSCT). The goal of this study was to determine risk factors for myelosuppression and the need for AHSCT after 131I-MIBG treatment. Patients and Methods Fifty-three patients with refractory or relapsed neuroblastoma were treated with 18 mCi/kg 131I-MIBG on a phase I/II protocol. The median whole-body radiation dose was 2.92 Gy. Results Almost all patients required at least one platelet (96%) or red cell (91%) transfusion and most patients (79%) developed neutropenia (< 0.5 × 103/μL). Patients reached platelet nadir earlier than neutrophil nadir (P < .0001). Earlier platelet nadir correlated with bone marrow tumor, more extensive bone involvement, higher whole-body radiation dose, and longer time from diagnosis to 131I-MIBG therapy (P ≤ .04). In patients who did not require AHSCT, bone marrow disease predicted longer periods of neutropenia and platelet transfusion dependence (P ≤ .03). Nineteen patients (36%) received AHSCT for prolonged myelosuppression. Of patients who received AHSCT, 100% recovered neutrophils, 73% recovered red cells, and 60% recovered platelets. Failure to recover red cells or platelets correlated with higher whole-body radiation dose (P ≤ .04). Conclusion These results demonstrate the substantial hematotoxicity associated with high-dose 131I-MIBG therapy, with severe thrombocytopenia an early and nearly universal finding. Bone marrow tumor at time of treatment was the most useful predictor of hematotoxicity, whereas whole-body radiation dose was the most useful predictor of failure to recover platelets after AHSCT.

Holmium-166 (166Ho)-DOTMP Skeletal Targeted Radiotherapy (STR™) with Melphalan and Autologous Peripheral Stem Cell Transplant (PBSCT) for Multiple Myeloma (MM).

Blood ◽  
2004 ◽  
Vol 104 (11) ◽  
pp. 922-922 ◽  
Author(s):  
Mark Goodman ◽  
William I. Bensinger ◽  
Sergio Giralt ◽  
Donna Salzman ◽  
Katherine L. Ruffner ◽  
...  
Keyword(s):  
Phase I ◽  
Phase Ii ◽  
Hemorrhagic Cystitis ◽  
Conditioning Regimen ◽  
Complete Response ◽  
Phase Iii ◽  
High Dose ◽  
Cell Transplant ◽  
Red Marrow

Abstract Background: 166Ho-DOTMP is a beta-emitting radiophosphonate that localizes specifically to the bone surfaces and can deliver high dose radiation both to the bone and bone marrow. Follow-up data from 3 clinical trials with STR as conditioning for patients with MM undergoing autologous PBSCT are presented. Methods: In 2 Phase I/II dose-escalation trials, 83 patients received a dose of 166Ho-DOTMP STR calculated to deliver 20, 30, or 40 Gy to the red marrow; 82 pts received melphalan (140 or 200 mg/m2) ± 8 Gy TBI (n=25), followed by PBSCT. As of June, 2004, 77 subjects have been followed for at least 48 months. In a separate Phase II dosimetry trial, 12 patients received two 30 mCi tracer doses of 166Ho-DOTMP STR to determine the reproducibility of biodistribution and pharmacokinetics (PK). All pts received a 25 Gy therapy dose with concurrent IV hydration and continuous bladder irrigation, followed by 200 mg/m2 melphalan and PBSCT. These patients have been followed for at least 18 months. Results: Up to 2.3 Ci/m2, 166Ho-DOTMP STR was given in the Phase I/II trials; 29/83 (35%) patients achieved complete response (CR) and overall response rate (CR + PR) was 64% (7 pts not evaluable). The Kaplan-Meier estimate of median survival is 5.2 years for all 83 patients. In patients who are at least 4 years post transplant who achieved a CR, the survival is 74% (n=27). In patients who achieved less than a CR at least 4 years ago, the survival is 34% (n=44). Dose-related radiation-induced kidney toxicity presented in some patients more than 6 months post-therapy. The dose of 166Ho-DOTMP STR in the Phase II dosimetry trial was 550 to 860 mCi/m2, 166Ho-DOTMP. Currently, 18 months of follow-up reveals no occurrence of hemorrhagic cystitis or > Grade 2 elevated creatinine. A CR rate of 17% with an overall survival of 92%, was observed. In 10 patients who received 166Ho-DOTMP STR 750 mCi/m2 ± 10% in the Phase I/II trial, the CR rate was 40%, and the 4-year survival was 70%. Monitoring for safety and duration of response is ongoing in all 3 trials. Conclusion: Follow-up from the Phase I/II trials confirms that 166Ho-DOTMP STR provides favorable efficacy and safety as part of the conditioning regimen for patients with MM undergoing PBSCT. A Phase III, randomized multicenter study is now open to enrollment, comparing the safety and efficacy of 166Ho-DOTMP STR plus melphalan to melphalan alone as conditioning for PBSCT in subjects with primary refractory MM who have failed to respond to induction therapy, including high-dose dexamethasone, and are within 18 months of diagnosis.

A Phase I Study Of Myeloablative Radioimmunotherapy Using Iodine-131 Anti-CD45 Antibody Followed By Autologous Stem Cell Transplantation For High-Risk B-Cell and T-Cell Non-Hodgkin Lymphoma and Hodgkin Lymphoma

Blood ◽  
2013 ◽  
Vol 122 (21) ◽  
pp. 3333-3333 ◽  
Author(s):  
Ryan D. Cassaday ◽  
Oliver W. Press ◽  
John M. Pagel ◽  
Joseph G. Rajendran ◽  
Theodore A. Gooley ◽  
...  
Keyword(s):  
Stem Cell ◽  
T Cell ◽  
High Risk ◽  
Phase I ◽  
B Cell ◽  
Hodgkin Lymphoma ◽  
Dose Escalation ◽  
Absorbed Dose ◽  
High Dose ◽  
Normal Organ

Abstract Background High-dose therapy and autologous stem cell transplant (ASCT) remains the standard of care for many high-risk/relapsed B-cell non-Hodgkin lymphomas (B-NHL), T-cell NHL (T-NHL) and classical Hodgkin lymphoma (HL), yet most will not achieve sustained remissions. High-dose anti-CD20 radioimmunotherapy (RIT) and ASCT has been successfully employed to address this challenge in B-NHL, yet relapse still occurs potentially due to blockade of target sites by circulating rituximab (R). RIT options are limited for patients with T-NHL and HL. Preclinical data indicate that targeting the panhematopoietic antigen CD45 with RIT can successfully circumvent R blocking in B-NHL and target a variety of T-NHL histologies (Gopal, 2008 & 2009). We thus performed a phase I trial using high-dose anti-CD45 RIT and ASCT for B-NHL, T-NHL, and HL. Methods Patients were ≥18 years old with relapsed, refractory, or high-risk B-NHL, T-NHL, or HL and had acceptable organ function with an ECOG performance status of 0-1 and no detectible human anti-mouse antibodies. They could not have received ≥20 Gy of prior radiation (RT) to critical organs or prior ASCT within 1 year, or prior allogeneic transplant at any time. All patients first received anti-CD45 antibody (BC8) trace-labeled with 131I followed by gamma camera imaging to evaluate biodistribution and estimate organ-specific absorbed doses. Patients then received 131I-BC8 at an absorbed dose determined by the following: Patients with prior RT >20 Gy or prior ASCT started at 10 Gy to the dose-limiting normal organ (Arm A), while others started dose escalation at 20 Gy (Arm B). Subsequent dose escalation/de-escalation followed a two-stage approach (Storer, 2001). ASCT occurred after sufficient radiation decay, and G-CSF was started on day 1. Dose limiting toxicity (DLT) was determined by Bearman grade III/IV events. The primary objective was to estimate the maximum tolerated dose, defined as that yielding a DLT rate of 25%. Responses were scored using standard criteria (Cheson, 2007). Results Between August 2009 and March 2013, 15 patients were treated. Median age was 62 years (range 20-71); stage III/IV = 11 (73%); median prior regimens = 3 (range 2-12), including 1 prior ASCT; chemorefractory disease (i.e., <PR to the most recent chemotherapy) = 8 (53%); histologies were HL (n = 6), B-NHL (n = 6), and T-NHL (n = 3; see Table). The mean administered 131I activity was 646 mCi (range 344-1064 mCi; 23.9 GBq, range 12.7-39.4 GBq). The liver was the dose-limiting normal organ in 12 patients (2.41-3.98 cGy/mCi). The absorbed dose was escalated to 14 Gy for patients in Arm A (n = 3) and 30 Gy in Arm B (n = 12). Neutrophil (>500/μl) and platelet (>20 K/μl) engraftment occurred a median of 8 (range 10-20) and 12 (range 8-26) days after ASCT, respectively. No DLTs, non-relapse deaths, or non-hematologic toxicities > NCI-CTCAE v3 grade 3 have been observed. Currently, 11 (73%) patients are alive and 7 (47%) are progression-free with a median follow-up of 12 months. Seven (54%) of 13 patients with measurable disease at enrollment had objective disease responses, including 3 of 3 with T-NHL, 3 of 6 with HL, and 1 of 1 with follicular lymphoma (FL; see Table). Conclusion Myeloablative doses of 131I targeted to CD45 are safe and feasible in patients with lymphoma, with no DLTs observed after delivery of up to 30 Gy to the liver. Objective disease responses in heavily-treated B-NHL, T-NHL, and HL were observed. This work has led to current studies using yttrium-90 as the therapeutic radionuclide (given its longer beta pathlength and absence of gamma emission) in anti-CD45 RIT for lymphoma. Disclosures: No relevant conflicts of interest to declare.

scholarly journals Personalized dosimetry for a deeper understanding of metastatic response to high activity 131I-mIBG therapy in high risk relapsed refractory neuroblastoma

2021 ◽  
Vol 0 (0) ◽  
pp. 0-0
Author(s):  
Bartolomeo Cassano ◽  
Milena Pizzoferro ◽  
Silvio Valeri ◽  
Claudia Polito ◽  
Salvatore Donatiello ◽  
...  
Keyword(s):  
High Risk ◽  
High Activity ◽  
131I Mibg ◽  
Mibg Therapy

PRIMARY HYPOTHYROIDISM IN A HIGH-RISK NEUROBLASTOMA PATIENT AFTER 131I-MIBG THERAPY: A CLINICAL CASE REPORT AND LITERATURE REVIEW

2021 ◽  
Vol 100 (3) ◽  
pp. 258-266
Author(s):  
D.T. Utalieva ◽  
◽  
S.B. Babakhanova ◽  
E.Yu. Ilyina ◽  
N.A. Andreeva ◽  
...  
Keyword(s):  
Case Report ◽  
High Risk ◽  
Literature Review ◽  
Clinical Case ◽  
Molecular Genetic ◽  
High Risk Patient ◽  
Primary Hypothyroidism ◽  
High Dose ◽  
131I Mibg ◽  
Mibg Therapy

In recent decades, there has been marked progress in understanding the biology of the most common extracranial solid tumor of childhood – neuroblastoma (NB), which led to a significant improvement in treatment outcomes due to stratification of patients into risk groups, intensification of treatment of patients with metastatic disease and the presence of unfavorable molecular genetic markers. Survivors who have received multimodal therapies, including chemotherapy, high-dose therapy and autologous peripheral stem-cell transplantation, 131I-metaiodobenzylguanidine (131I-MIBG) therapy, radiation therapy, and immunotherapy have a high risk of developing long-term side effects of treatment (LT SE). The study of the nature and frequency of LT SE after completion of therapy in patients with NB is important to ensure the quality of life and minimize severe health disorders. This article presents a literature review and description of a clinical case report of primary hypothyroidism in a high-risk patient with NB who received multicomponent treatment, including 131I-metaiodobenzylguanidine therapy due to the persistence of MIBG-positive foci after the induction chemotherapy.

Frontline High Dose Chemotherapy Supported by Autologous PBSCT Might Improve Survival In Elderly Patients (≥60 Years) with High Risk Diffuse Large B-Cell Lymphoma (DLBCL)

Blood ◽  
2010 ◽  
Vol 116 (21) ◽  
pp. 5190-5190
Author(s):  
Vadim Ivanov ◽  
Diane Coso ◽  
Jerome Rey ◽  
Therese Aurran-Schleinitz ◽  
Anne-Marie Stoppa ◽  
...  
Keyword(s):  
High Risk ◽  
Older Patients ◽  
Complete Response ◽  
Secondary Malignancy ◽  
High Dose ◽  
Line Treatment ◽  
Front Line ◽  
First Line ◽  
Risk Patients ◽  
Autologous Pbsct

Abstract Abstract 5190 Limited data is available concerning feasibility and efficacy of high dose therapy (HDT) supported by autologous PBSCT in elderly patients with non-Hodgkin lymphoma (NHL). In young patients with poor prognostic features intensification supported by PBSCT as a part of first-line treatment suggests survival benefit. It is not clear if the same strategy is applicable to the older patients. The Institute Paoli-Calmettes database was reviewed for all DLBCL patients who received BEAM followed by PBSCT in patients >=60 years old between January 1998 and January 2010 (13 years). All patients were HIV-negative and received BEAM intensification as a part of front-line treatment. All of them were in a complete response after CHOP or R-CHOP induction prior to autograft. Thirty six auto-transplanted patients were identified (median age 63 y, range 60–68). This cohort was compared with closely matched group of 43 patients of same age range, who received first-line CHOP or R-CHOP regimen without intensification in the same 13-year interval. Only patients in a complete response after first line were included. As frontline autoPBSCT was performed in high-risk patients, the group without HDT was naturally privileged in the terms of Ann-Arbor stage and aaIPI index. There was significant difference in the localised vs disseminated disease (stage I-II: 53,4% in no-HDT vs 14% in HDT group, p=0,00025) and aaIPI (0-1: 72% in no-HDT vs 28% in HDT, p=0,000086) between the two groups. Factors evaluated included treatment-related mortality (TRM), overall survival (OS) and event-free survival (EFS). There were no transplant-related deaths in the HDT group. The estimated 5-year OS was 81,3% (95% CI 62,5-91,9 %) and 10-year OS was 65% (95%CI 34,2-86,9%) for HDT group compared to 91,5% (95% CI 77,5-97,1%) and 58,4% (95% CI 20–88,8%) in the no-HDT group (p=NS). There were 8 events (6 relapses and 2 secondary malignancy deaths) in the HDT group and 11 events (9 relapses and 2 secondary malignancy deaths) in no-HDT (5-year EFS 77,6% (95% CI 60,3-88,8%) vs 78,3% (95%CI 62,3-88,8%), p=NS)). We conclude that front-line autologous PBSCT with BEAM conditioning can be safely performed in patients aged 60 years or above with DLBCL after CHOP of R-CHOP induction. There was no difference in OS and EFS between cohorts with and without intensification even if the auto-transplantation procedure was reserved for the high risk patients only. The first-line HDT with autologous PBSCT in older patients with high-risk IPI score might improve survival in this group and produce results similar to those in the low-risk group. Disclosures: No relevant conflicts of interest to declare.

A Phase II Trial of Myeloablative I-131-Tositumomab, Etoposide and Cyclophosphamide Followed by Autologous Transplantation for B-Cell Non-Hodgkin's Lymphoma

Blood ◽  
2012 ◽  
Vol 120 (21) ◽  
pp. 811-811
Author(s):  
Ajay K. Gopal ◽  
Ted A. Gooley ◽  
Joseph Rajendran ◽  
John M. Pagel ◽  
Darrell R. Fisher ◽  
...  
Keyword(s):  
B Cell ◽  
Phase Ii ◽  
Research Funding ◽  
Phase Ii Trial ◽  
Autologous Transplantation ◽  
Prospective Trial ◽  
Absorbed Dose ◽  
Whole Body ◽  
High Dose ◽  
Hematopoietic Stem

Abstract Abstract 811 Background: High-dose therapy and autologous hematopoietic stem cell transplantation (ASCT) is the standard of care for many patients (pts) with high-risk or relapsed B-cell non-Hodgkin lymphoma (B-NHL). Despite the use of transplant, relapse is likely for most with indolent or mantle cell lymphoma (MCL) as well as for aggressive B-NHL recurring after rituximab (R)-based chemotherapy. Total body irradiation (TBI) has been incorporated into ASCT regimens to overcome chemotherapy resistance and improve outcomes, but studies to date indicate that escalation of TBI is not feasible due to toxicity in non-target organs. We hypothesized that radioimmunotherapy (RIT) could supplant TBI and identified the maximally tolerated dose (MTD) of high-dose RIT using I-131-tositumomab that could be safely combined with high-dose etoposide (VP-16) and cyclophosphamide (CY) prior to ASCT (Press, Blood 2000). We now present the mature data of a large prospective phase II trial at the MTD of high-dose I-131-tositumomab, VP-16, and CY. Methods: Pts were eligible if they were <60 years of age, had MCL in first remission or any relapsed/refractory B-NHL, an ECOG PS of 0–1, acceptable organ function, >2×106 autologous CD34+ peripheral blood stem cells/kg collected, <20 Gy prior radiation to critical organs, and no human-anti-mouse-antibodies. All pts underwent outpatient biodistribution studies using tositumomab (1.7 mg/kg, n= 64 or 485mg flat dose, n= 43) labeled with ∼10mCi I-131 followed by serial quantitative gamma camera imaging to calculate individualized organ-specific absorbed dose estimates. Pts then received therapeutic infusions of I-131-tositumomab to deliver 25Gy to the critical normal organ receiving the highest radiation absorbed dose. When residual radiation was <7mR/hr at 1m (median 10 days) pts received 60mg/kg VP-16 followed 48 hours later by 100mg/kg CY. ASCT occurred when residual radiation was <2mR/hr at 1m. Toxicity was scored on the Bearman transplant scale and CTCAE 2.0. Response followed standard criteria. Results: Between June 1999 and April 2011 107 pts were transplanted on this protocol. Baseline characteristics included: median age 52 yrs (range 32–60), stage III/IV = 104 (97%), median number of prior regimens = 3 (range 1–11), prior R = 98 (92%), R refractory = 35 (33%), chemoresistant disease (defined as < a partial response [PR] to the most recent regimen) = 41 (40%), >1 extranodal site = 36 (33%), elevated LDH = 46 (42%). Histological strata: Indolent 43% (45 follicular lymphoma [FL], 1 lymphoplasmacytic lymphoma), MCL = 31%, Aggressive 27% (27 diffuse large B-cell including 12 with transformed disease, 2 Burkitt's). Dose limiting critical normal organs receiving up to 25Gy included lung (71), liver (29), kidney (6), and heart (1) from a median administered I-131 activity of 557 mCi (range 231–1353) resulting in a median whole body dose of 4.4Gy. ASCT occurred an average of 14 days after the I-131-tositumomab infusion with a median of 5.9×106 CD34/kg (range 2–20×106 CD34/kg). An unsupported ANC>500/μL and platelets >20K/μL occurred at a median of day 12 and day 13, respectively. Bearman toxicity of grade III/IV was observed in 6 pts (5.6%) with 3 (3%) non-relapse deaths (all cardiopulmonary toxicity) by day 100. Pulmonary toxicity of ≥ grade 4 CTCAE occurred in 10 (9%) pts. Responses to therapy included: CR/CRu = 87 (81%), PR = 8 (7%), SD = 11 (10%), and PD = 1 (1%). Currently, 76 (71%) pts are alive with 59 (55%) progression-free. The estimated 5-year overall survival (OS), progression-free survival (PFS) and relapse were 72%, 56%, and 36%, respectively (figure, median follow up of 5.2 years). Five-year OS/PFS estimates for the 3 histological groups included indolent (81%/61%), aggressive (69%/51%), and MCL (57%/52%). MCL pts with relapsed/refractory disease had a 5-year OS/PFS of 55%/42%. Multivariable analysis only identified chemoresistant disease as associated with death (HR 3.07 (1.46–6.44, p=.003) and relapse or death (HR 2.12 (1.17–3.86, p=.01). Secondary AML/MDS occurred in 1 patient to-date. Conclusions: This largest prospective trial of myeloablative RIT demonstrates that I-131-tositumomab delivering 225Gy to critical organs along with high-dose VP-16 and CY prior to ASCT is feasible and effective with toxicities comparable to TBI-based regimens. These data provide the foundation for future approaches incorporating RIT into transplant conditioning regimens for lymphoma. Disclosures: Gopal: GSK: Research Funding; Spectrum: Research Funding. Off Label Use: high-dose use of I-131-tositumomab. Rajendran:GSK: Research Funding. Pagel:GSK: Research Funding. Maloney:GSK: Research Funding. Press:GSK: Research Funding.

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