Vokes E E, Moormeier J A, Ratain M J, Egorin M J, Haraf D J, Mick R, Weichselbaum R R
Department of Medicine, University of Chicago, IL 60637-1470.
Cancer Chemother Pharmacol. 1992;29(3):178-84. doi: 10.1007/BF00686249.
Cisplatin (CDDP), 5-fluorouracil (5-FU), and hydroxyurea (HU) have individually demonstrated activity against several solid tumors, act synergistically with each other in vitro, and may act as radiation sensitizers. Therefore, we designed a phase I study to determine the maximally tolerated dose of cisplatin as given in addition to our previously described combination of 5-FU, HU, and concomitant radiotherapy (XRT). Patients exhibiting advanced solid tumors requiring palliative XRT were eligible. The regimen consisted of 1 g HU given p.o.b.i.d. on days 1-5, 600 mg/m2 5-FU given i.v. daily by continuous infusion (c.i.) on days 1-5, escalating doses of cisplatin starting at 10 mg/m2 daily given by c.i. on days 1-5, and involved-field XRT carried out on days 1-5. The cycle was repeated every 14 days until the target XRT dose had been reached. In all, 19 patients were entered at the first dose level, and cumulative grade 3-4 myelosuppression was seen in 16 subjects. As no dose escalation was feasible, the chemotherapy was subsequently altered by using the above regimen for cycles 1, 3, 5, and 7 and substituting the less myelosuppressive regimen of 1 g HU given p.o.b.i.d. on days 1-5, 400 mg/m2 5-FU given i.v. daily by c.i., and 100 mg leucovorin given p.o.4 h on days 1-5 for cycles 2, 4, and 6. On this alternating program, 28 patients were treated with escalating doses of CDDP. The dose-limiting toxicity was again myelosuppression, which was prohibitive at a CDDP dose of 20 mg/m2 daily. In the final phase of the protocol, 30 subjects were treated with the above alternating-cycle regimen at a CDDP dose of 20 mg/m2 daily and a decreased HU dose of 500 mg p.o.b.i.d. in an attempt to circumvent the myelosuppression associated with this dose of CDDP. Although severe acute toxicity (cycles 1 and 2) was observed less frequently, cumulative toxicity (all cycles) remained pronounced. The other major toxicity encountered was mucositis, which was particularly pronounced in patients receiving radiation to the head and neck and following leucovorin-containing cycles. Plasma concentrations of free platinum did not correlate with the CDDP dose, possibly due to the narrow range of doses given. Pharmacodynamic modeling demonstrated that the CDDP dose and the HU dose were associated with leukopenia. Antitumor activity was demonstrated in a number of solid tumors particularly non-small-cell lung cancer and head and neck cancer.(ABSTRACT TRUNCATED AT 400 WORDS)
顺铂(CDDP)、5-氟尿嘧啶(5-FU)和羟基脲(HU)各自已证明对多种实体瘤有活性,在体外彼此协同作用,并且可能作为放射增敏剂。因此,我们设计了一项I期研究,以确定在我们先前描述的5-FU、HU联合同步放疗(XRT)方案基础上加用顺铂的最大耐受剂量。有晚期实体瘤需要姑息性XRT的患者符合条件。该方案包括在第1 - 5天口服给予1g HU,每日2次;在第1 - 5天通过持续静脉输注(c.i.)每日静脉给予600mg/m² 5-FU;顺铂剂量从第1 - 5天每日10mg/m²开始递增,通过c.i.给药;以及在第1 - 5天进行受累野XRT。每14天重复一个周期,直至达到目标XRT剂量。总共19例患者在第一个剂量水平入组,16例患者出现3 - 4级累积骨髓抑制。由于无法进行剂量递增,随后对化疗方案进行了调整,在第1、3、5和7周期使用上述方案,在第2、4和6周期将骨髓抑制作用较小的方案替代为:在第1 - 5天口服给予1g HU,每日2次;通过c.i.每日静脉给予400mg/m² 5-FU;以及在第1 - 5天口服给予100mg亚叶酸钙,4小时一次。在这个交替方案中,28例患者接受了递增剂量的CDDP治疗。剂量限制性毒性再次是骨髓抑制,当CDDP剂量为每日20mg/m²时,骨髓抑制作用难以耐受。在方案的最后阶段,30例患者接受了上述交替周期方案治疗,CDDP剂量为每日20mg/m²,HU剂量减至每日口服500mg,每日2次,试图规避与该剂量CDDP相关的骨髓抑制。尽管严重急性毒性(第1和2周期)的发生率较低,但累积毒性(所有周期)仍然很明显。遇到的另一种主要毒性是粘膜炎,在接受头颈部放疗的患者以及含亚叶酸钙周期的患者中尤为明显。游离铂的血浆浓度与CDDP剂量无关,可能是由于给药剂量范围较窄。药效学模型表明,CDDP剂量和HU剂量与白细胞减少有关。在一些实体瘤中显示出抗肿瘤活性,特别是非小细胞肺癌和头颈部癌。(摘要截短至400字)
