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Brief Title: Phase II Trial of Pentostatin and Targeted Busulfan
Official Title: Phase II Trial of Pentostatin and Targeted Busulfan as a Novel Reduced Intensity Regimen for Allogeneic Hematopoietic Stem Cell Transplantation Using Laboratory-Guided (CD4-guided) Immunosuppression.
Study ID: NCT00496340
Brief Summary: The objective of this trial is to determine whether a regimen of pentostatin and busulfan (IV) can facilitate engraftment of human leukocyte antigen (HLA) partially compatible siblings and unrelated donor transplants by using CD4+ laboratory-guided immunosuppression among 41 transplant patients meeting the inclusion criteria.
Detailed Description: Pentostatin (deoxycoformycin) is a purine analogue that is currently indicated for the treatment of chemo-naïve or interferon-refractory hairy cell leukemia. Pentostatin represents an ideal agent for conditioning recipients before allogeneic hematopoietic cell transplantation (HCT) due to its significant effect on lymphocytes and relatively reduced myelosuppression as compared to other purine analogues. It is a potent inhibitor of the enzyme adenosine deaminase (ADA) whose activity is generally more pronounced in T lymphocytes as compared to their B counterparts. Also, pentostatin has been shown, though its immunomodulatory effect to be active in patients with steroid-refractory acute graft versus host disease (aGVHD). Pentostatin-based regimens have been studied as a conditioning strategy for patients undergoing allogeneic stem cell transplantation. Chan et al. evaluated 18 myelodysplastic syndrome (MDS) patients ineligible for standard allogeneic transplantation. In that series, patients received conditioning with a preparative regimen of photopheresis day -7 and -6, pentostatin 4 mg/m\^2 by continuous infusion day -5 and -4, and total body irradiation 600 centigray (cGy) in 3 fractions day -3 and -2, followed by allogeneic stem cell infusion from 6/6 or 5/6 HLA-matched related donors or 6/6 HLA-matched unrelated donors. Sixteen of 18 (89%) patients developed full donor chimerism, with no day +100 transplant-related mortality (TRM). Grade 2 to 4 aGVHD and extensive chronic graft versus host disease (GVHD) developed in 19% and 18% of patients, respectively. Disease relapse occurred in 2 patients. At a median follow-up of 14 months (range, 1-35 months), the 1-year failure-free and overall survival were 64% and 65%, respectively. These findings clearly suggest that Pentostatin-based regimens are capable of achieving a successful donor engraftment and durable disease-remission with significantly lesser transplant toxicity and grade 2 to 4 acute GVHD. Pavletic et al., demonstrated that Pentostatin induces significant lympho-depleting effects with a promising safety, supporting its use as a conditioning regimen in non-myeloablative strategies with hematopoietic cell infusions as early as 7 days after initiation of Pentostatin. Busulfan was available primarily as an oral formulation until recently. The oral drug has variable bioavailability that has been linked to erratic gastrointestinal absorption from patient to patient. In a phase I trial, Andersson et al evaluated an IV Bu formulation using dimethylacetamide and PEG400 as the solvent. This is the formulation currently marketed in the USA (Busulfex ESP Pharma). Fifteen patients with advanced hematologic malignancies were treated with BU every 6 hours for a total of 16 doses followed by cyclophosphamide (CY) 60mg/kg for 2 doses and hematopoietic cell transplant. The first BU dose given was by IV. The starting IV dose was 0.08mg/kg which was then escalated to 0.2, 0.4, and finally to 0.8mg/kg in cohorts of 3 patients each. Six hours after the start of the IV BU infusion, the patients began to receive oral BU 1mg/kg every 6 hours for 15 doses. Pharmacokinetic profiles were obtained to determine an equivalent exposure of IV BU to the oral BU dose of 1mg/kg. It was noted that the toxicity profile and rates of engraftment were similar to that of the oral drug (i.e., no additional toxicities were found attributable to the solvents). An IV dose of 0.8mg/kg gave an equivalent AUC (but with less variability) as the oral dose of 1mg/kg with a mean AUC of 1189 micrometer (uM)-min (range 964-1547uM-min; 24h DIE 4756uM-min \[range 3856-6188uM-min\]). Thus, 0.8mg/kg was chosen by the investigators as the dose to proceed to phase II testing. A subsequent phase II multicenter trial in 61 patients with a variety of hematologic malignancies using 0.8mg/kg every 6 hours x 16 doses of IV BU and 120mg/kg CY prior to hematopoietic stem cell transplant. Pharmacokinetic analyses were also done. Once again, it was shown that the toxicity and outcome data was similar to that published for the oral BU. There were no patients with seizures. Lung toxicities occurred in two patients, one with diffuse alveolar hemorrhage (DAH) and one with interstitial pneumonitis (IP); the latter patient had a history of lung irradiation. Grade 1-2 nausea and emesis occurred in 43% and grade 3 in 7%. Mucositis was grade 2 in 44%, Grade 3 in 26% and lasted a median of 6 days. There were five (8%) cases of veno-occlusive disease (VOD), which was fatal in two (3%). Treatment related mortality at 100 days was 9.8%. The AUC was \<1500 uM-min (24h DIE \<6000uM-min) in 55%; 86% of patients maintained an AUC between 800 and 1500uM-min (24h DIE 3200-6000uM-min). The AUC at dose 1 and dose 9 were similar indicating a consistent dose-to-dose behavior. The authors concluded that IV BU in this setting was well tolerated and demonstrated excellent antitumor efficacy, likely resulting from predictable pharmacokinetics. Based on these and other studies, IV administration has become the preferred route for BU when given in the high dose transplant setting. Fernandez, et al. evaluated the use of IV Bu (Busulfex® ESP Pharma) in either a once daily or twice daily dosing schedule when given as a part of BUCY regimen (BU: 3.2 mg/kg and CY 120mg/kg) prior to transplant. In both dosing schedules, there was little variability in the dose-to-dose levels and the pharmacokinetics of the first dose could predict the data on subsequent doses. In the twice-daily group, AUC 3390uM-min (2400- 4678uM-min; 24h DIE 6780uM-min \[4800-9356uM-min\]) and the once daily group the AUC 5561uM-min (4412 - 7368uM-min). The pharmacokinetic profiles (AUC, CL, Cmax and t 1/2) were similar from dose to dose. In the twelve patients studied, the following grade 3 toxicities were reported: mucositis, anorexia, infection, epistaxis and hyperglycemia. Two patients died: one from sepsis from presumed fungal infection and one sudden cardiac death. One patient developed mild, reversible VOD. Daily dosing of IV Bu results in similar outcomes and toxicity profile compared to oral dosing and ease in delivering a targeted exposure of BU. The importance of being able to target BU exposure has been illustrated in the above discussion of reports correlating BU pharmacokinetic parameters with its toxicity and efficacy. Thus, by utilizing a once daily IV dose, targeted to prespecified levels, BU therapy can be optimized to limit toxicity and maximize efficacy. To see if the AUC of IV Bu was correlated to adverse effects, Andersson and colleagues treated 36 chronic myelogenous leukemia (CML) patients with either fixed or adjusted dose BuCy. The first 25 patients were given a fixed dose of Bu 0.8mg/kg every 6 hours. In the subsequent 12 patients, doses were adjusted to achieve an AUC of 1250uM-min (24h DIE 5000uM-min). At steady state, the population median AUC was 1265uM-min (range, 816-1905uM-min \[24h DIE 5056uM-min; 3264-7620uM-min\]). They found that the probabilities of developing gastrointestinal toxicity, hepatotoxicity, mucositis, and acute GVHD all increased with increasing AUC. The 26 patients within AUC of 950 - 1520uM-min (24h DIE 3800-6080uM-min) had a decreased incidence of death compared with the 10 patients outside this range. There were no cases of hepatic veno-occlusive disease or seizures. These were small numbers but did indicate a trend towards achieving an optimal systemic exposure by delivering individualized doses and a suggestion of a "therapeutic window" for Bu in this setting. The importance of being able to target BU exposure has been illustrated in the above discussion of reports correlating Bu pharmacokinetic parameters with its toxicity and efficacy. Thus, by utilizing a once daily IV dose, targeted to prespecified levels, Bu therapy can be optimized to limit toxicity and maximize efficacy. Rituximab is an anti-CD20 human-mouse chimeric monoclonal antibody indicated for the treatment of relapsed or refractory, low-grade or follicular, CD20-positive, B-cell NHL. The use of rituximab, as monotherapy, results in significant responses and durations of response in patients with indolent non-Hodgkin's lymphoma (NHL); its efficacy improves even further when used in combination with chemotherapy for both indolent and aggressive NHL. Responses to rituximab treatment vary by the histologic subtype of NHL. In patients with low-grade follicular lymphoma, response rates are approximately 70% to 75% with first-line therapy. On the other hand, patients with diffuse B-cell large-cell lymphoma (DBLCL), single-agent rituximab results in response rates of 30% to 40% have been reported. Rituximab significantly increases response rates when used in combination with cyclophosphamide, doxorubicin, vincristine, and prednisone. CD20 is not expressed by hematopoietic stem cells, and therefore, we hypothesize that treatment with rituximab is safe and would not inhibit engraftment produced by these early progenitors. Treatment with rituximab may successfully eliminate minimal residual disease, further delaying or preventing disease relapse and potentially extending the duration of survival in CD20+ expressing malignancies.
Minimum Age: 18 Years
Eligible Ages: ADULT, OLDER_ADULT
Sex: ALL
Healthy Volunteers: No
H. Lee Moffitt Cancer Center & Research Institute, Tampa, Florida, United States
Name: Marcie Riches, MD
Affiliation: H. Lee Moffitt Cancer Center and Research Institute
Role: PRINCIPAL_INVESTIGATOR