Belt R J, Haas C D, Kennedy J, Taylor S
Cancer. 1980 Aug 1;46(3):455-62. doi: 10.1002/1097-0142(19800801)46:3<455::aid-cncr2820460306>3.0.co;2-n.
Hydroxyurea was administered by means of two schedules designed to provide continuous 72-hour exposure of tumor cells to therapeutic drug levels. Toxicity and pharmacokinetics were determined for both an oral pulse dose schedule (every 4 hours x 18 doses) and continuous intravenous (IV) infusion for 72 hours. The maximal tolerated dose (MTD) was 800 mg/m2 every 4 hours for the oral route and 3.0 mg/m2/min x 72 hours for IV infusion. Granulocytopenia was dose-limiting for both schedules and correlated well with plasma-HU levels. Serial sampling of normal bone marrow (10 patients) and tumor tissue (3 patients) showed a modest degree of synchronization induced by continuous IV infusion of hydroxyurea. Interindividual pharmacokinetic variations severely limit the usefulness of the oral pulse schedule as a potential means of synchronizing cells. Hydroxyurea administered by continuous IV infusion may be useful as a synchronizing agent in humans.
羟基脲通过两种给药方案给药,旨在使肿瘤细胞持续72小时暴露于治疗药物水平。测定了口服脉冲剂量方案(每4小时一次,共18剂)和持续静脉输注72小时的毒性和药代动力学。口服途径的最大耐受剂量(MTD)为每4小时800mg/m²,静脉输注为3.0mg/m²/分钟×72小时。两种方案的剂量限制性毒性均为粒细胞减少,且与血浆羟基脲水平密切相关。对正常骨髓(10例患者)和肿瘤组织(3例患者)的连续采样显示,持续静脉输注羟基脲可诱导适度的同步化。个体间药代动力学差异严重限制了口服脉冲方案作为同步细胞潜在手段的实用性。持续静脉输注羟基脲可能作为一种同步剂在人类中有用。