Pediatric Psychopharmacology Unit (ACC-725), Massachusetts General Hospital, Boston, MA 02114, USA.
Int J Mol Med. 2010 Feb;25(2):261-5.
The delivery systems of two long-acting formulations of methylphenidate (MPH) were designed for different durations. Diffucaps bead-delivery system (DBDS)-MPH was designed to last 8 h and osmotically controlled-release oral delivery system (OROS)-MPH was designed to last 12 h. While the plasma pharmacokinetics and timing of efficacy have been studied, the corresponding central nervous system dopamine transporter (DAT) occupancies are unknown. In this study, 21 healthy volunteers underwent PET imaging with 11C Altropane before and after administration of oral doses of DBDS-MPH and OROS-MPH. Each subject received 40 mg DBDS-MPH and 36 mg OROS-MPH on different days. PET imaging occurred at 10 h after dosing. Each subject was injected with 5 mCi of 11C Altropane and serial images of the brain were acquired over 60 min with a Siemens HR+ PET camera. Binding potentials (BP, k3/k4) were calculated from time-activity curves using the simplified reference region method with cerebellum as reference. Transporter occupancy was calculated by standard methods. At 10 h, plasma d-MPH levels were lower (3.8+/-1.2 vs. 5.2+/-2.0) and brain DAT occupancy was lower (34.8+/-12.9 vs. 44.3+/-11.8) for DBDS-MPH than OROS-MPH. Across the range of values, for each unit of change in plasma d-MPH level there was a larger change in DAT occupancy with the DBDS-MPH formulation than with the OROS-MPH formulation. As predicted from previous pharmacokinetic and efficacy data, the average plasma level and DAT occupancy of 36 mg OROS-MPH was >40 mg DBDS-MPH at 10 h. Moreover, a relatively small difference in plasma levels (1.4 ng/ml at 10 h) was associated with a more impressive difference in DAT occupancy ( approximately 10% at 10 h).
两种长效哌甲酯(MPH)制剂的给药系统设计的持续时间不同。Diffucaps 珠控释系统(DBDS)-MPH 的设计持续时间为 8 小时,而渗透压控制释放口服递送系统(OROS)-MPH 的设计持续时间为 12 小时。虽然已经研究了血浆药代动力学和疗效出现的时间,但相应的中枢神经系统多巴胺转运体(DAT)占有率尚不清楚。在这项研究中,21 名健康志愿者在口服 DBDS-MPH 和 OROS-MPH 之前和之后接受了 11C-Altropane 的 PET 成像。每个受试者在不同的日子里接受 40mg DBDS-MPH 和 36mg OROS-MPH。PET 成像在给药后 10 小时进行。每个受试者注射 5mCi 11C-Altropane,并用西门子 HR+ PET 相机采集 60 分钟的脑连续图像。使用简化参考区法,以小脑为参考,从时间活性曲线中计算结合潜力(BP,k3/k4)。通过标准方法计算转运体占有率。在 10 小时时,DBDS-MPH 的血浆 d-MPH 水平较低(3.8+/-1.2 比 5.2+/-2.0),大脑 DAT 占有率较低(34.8+/-12.9 比 44.3+/-11.8)。在整个范围内,对于血浆 d-MPH 水平的每单位变化,DBDS-MPH 制剂的 DAT 占有率变化大于 OROS-MPH 制剂。根据先前的药代动力学和疗效数据预测,在 10 小时时,36mg OROS-MPH 的平均血浆水平和 DAT 占有率>40mg DBDS-MPH。此外,血浆水平的微小差异(10 小时时为 1.4ng/ml)与 DAT 占有率的显著差异相关(10 小时时约为 10%)。
