Kaminski M S, Fig L M, Zasadny K R, Koral K F, DelRosario R B, Francis I R, Hanson C A, Normolle D P, Mudgett E, Liu C P
Department of Internal Medicine, University of Michigan Medical Center, Ann Arbor 48109-0724.
J Clin Oncol. 1992 Nov;10(11):1696-711. doi: 10.1200/JCO.1992.10.11.1696.
This study was undertaken to evaluate the tumor targeting, toxicity, and therapeutic potential of the anti-B-cell-reactive monoclonal antibody MB-1 (anti-CD37) labeled with iodine 131 given in a nonmarrow ablative dose range in B-cell lymphoma patients who relapsed after chemotherapy.
Twelve patients with MB-1-reactive tumors were infused first with 40 mg of trace-labeled (3 to 7 mCi) MB-1. Ten patients who had no serious toxicity postinfusion and who had successful tumor imaging on serial gamma scans then received at least one 40-mg radioimmunotherapy (RIT) dose (25 to 161 mCi). Tracer estimates of delivered whole-body dose (WBD) were used in prescribing a millicurie RIT dose for seven patients.
Eleven patients had positive tumor imaging after a tracer dose, including patients with bulky tumors and/or large tumor burdens (> or = 1 kg) +/- splenomegaly. However, overall sensitivity for the detection of known tumor sites was only 39%. In six of eight patients with dose-assessable tumors, the radiation dose to at least one tumor was 1.1 to 3.1 times higher than to any normal organ, excluding the spleen for a 40-mg tracer dose. Tracer-dose toxicities included reversible glossal edema in one patient, grade 3 hepatic transaminasemia in another, and early drops in both circulating B and T cells (with decreases in B cells more pronounced) in nearly all patients. RIT toxicity was primarily myelosuppression (especially thrombocytopenia), which had a delayed onset and protracted recovery (without significant recovery until at least 2 months post-RIT). Grade 3 myelosuppression in two of two patients who were treated at a tracer-projected 50-cGy WBD level (133 and 149 mCi) precluded further planned RIT dose escalation. Less myelosuppression was generally observed in patients who were treated at < or = 40-cGy WBD levels. Antimouse antibodies developed in two patients. Six patients had tumor responses post-RIT. Four had responses that lasted more than 1 month (2 to 6 months), which included one complete response, one partial response, one minor response, and one mixed response. Responses seemed to occur more frequently in imaged tumors than in nonimaged tumors. The most durable response occurred in a patient who had the best antibody targeting to tumor.
Although 131I-MB-1 has limited diagnostic value, it can produce tumor responses at nonmarrow ablative RIT doses. Further studies that focus on improving tumor targeting with this or other B-cell-reactive radiolabeled antibodies and on ameliorating the myelosuppression associated with the RIT-dosing approach used in this trial are warranted.
本研究旨在评估在化疗后复发的B细胞淋巴瘤患者中,给予非骨髓清除剂量范围的131碘标记的抗B细胞反应性单克隆抗体MB-1(抗CD37)的肿瘤靶向性、毒性和治疗潜力。
12例患有MB-1反应性肿瘤的患者首先输注40mg微量标记(3至7mCi)的MB-1。10例输注后无严重毒性且在系列γ扫描中肿瘤成像成功的患者随后接受至少一剂40mg放射免疫治疗(RIT)剂量(25至161mCi)。7例患者在规定毫居里RIT剂量时使用了全身剂量(WBD)的示踪剂估计值。
11例患者在给予示踪剂量后肿瘤成像呈阳性,包括有巨大肿瘤和/或大肿瘤负荷(≥1kg)伴或不伴脾肿大的患者。然而,已知肿瘤部位检测的总体敏感性仅为39%。在8例可评估剂量肿瘤的患者中,6例患者至少一个肿瘤接受的辐射剂量比任何正常器官高1.1至3.1倍(40mg示踪剂量时脾脏除外)。示踪剂剂量的毒性包括1例患者出现可逆性舌水肿,另1例患者出现3级肝转氨酶血症,几乎所有患者循环B细胞和T细胞均早期下降(B细胞下降更明显)。RIT毒性主要是骨髓抑制(尤其是血小板减少),其起病延迟且恢复缓慢(RIT后至少2个月才出现明显恢复)。在以示踪剂预测的50-cGy WBD水平(133和149mCi)治疗的2例患者中,2例出现3级骨髓抑制,这使得进一步计划的RIT剂量增加无法进行。在WBD水平≤40-cGy治疗的患者中,一般观察到的骨髓抑制较轻。2例患者产生了抗鼠抗体。6例患者在RIT后出现肿瘤反应。4例患者的反应持续超过1个月(2至6个月),包括1例完全缓解、1例部分缓解、1例轻微缓解和1例混合缓解。反应似乎在成像肿瘤中比在未成像肿瘤中更频繁出现。最持久的反应发生在抗体对肿瘤靶向性最佳的1例患者中。
尽管131I-MB-1的诊断价值有限,但它在非骨髓清除RIT剂量下可产生肿瘤反应。有必要进行进一步研究,重点是用这种或其他B细胞反应性放射性标记抗体改善肿瘤靶向性,以及改善与本试验中使用的RIT给药方法相关的骨髓抑制。
