Child and Adolescent Psychiatry Unit, Department of Psychiatry and Medical Psychology, University of Navarra Clinic, Pio XII, s/n, 31008 Pamplona, Spain.
CNS Drugs. 2013 Sep;27(9):743-51. doi: 10.1007/s40263-013-0086-6.
There are limited head-to-head data comparing the efficacy of long-acting amfetamine- and methylphenidate-based psychostimulants as treatments for individuals with attention-deficit hyperactivity disorder (ADHD). This post hoc analysis provides the first parallel-group comparison of the effect of lisdexamfetamine dimesylate (lisdexamfetamine) and osmotic-release oral system methylphenidate (OROS-MPH) on symptoms of ADHD in children and adolescents.
This was a post hoc analysis of a randomized, double-blind, parallel-group, dose-optimized, placebo-controlled, phase III study.
The phase III study was carried out in 48 centres across ten European countries.
The phase III study enrolled children and adolescents (aged 6-17 years) who met Diagnostic and Statistical Manual of Mental Disorders, Fourth Edition, Text Revision criteria for a primary diagnosis of ADHD and who had a baseline ADHD Rating Scale IV (ADHD-RS-IV) total score of 28 or higher.
Eligible patients were randomized (1:1:1) to receive a once-daily, optimized dose of lisdexamfetamine (30, 50 or 70 mg/day), placebo or OROS-MPH (18, 36 or 54 mg/day) for 7 weeks.
In this post hoc analysis, efficacy was assessed using the ADHD-RS-IV and Clinical Global Impressions-Improvement (CGI-I) scale. Responders were defined as those achieving at least a 30% reduction from baseline in ADHD-RS-IV total score and a CGI-I score of 1 (very much improved) or 2 (much improved). The proportion of patients achieving an ADHD-RS-IV total score less than or equal to the mean for their age (based on normative data) was also determined. Endpoint was the last on-treatment visit with a valid assessment. Safety assessments included treatment-emergent adverse events (TEAEs) and vital signs.
Of the 336 patients randomized, 332 were included in the safety population, 317 were included in the full analysis set and 196 completed the study. The mean (standard deviation) ADHD-RS-IV total score at baseline was 40.7 (7.31) for lisdexamfetamine, 41.0 (7.14) for placebo and 40.5 (6.72) for OROS-MPH. The least-squares (LS) mean change (standard error) in ADHD-RS-IV total score from baseline to endpoint was -24.3 (1.16) for lisdexamfetamine, -5.7 (1.13) for placebo and -18.7 (1.14) for OROS-MPH. The difference between lisdexamfetamine and OROS-MPH in LS mean change (95% confidence interval [CI]) in ADHD-RS-IV total score from baseline to endpoint was statistically significant in favour of lisdexamfetamine (-5.6 [-8.4 to -2.7]; p < 0.001). The difference between lisdexamfetamine and OROS-MPH in the percentage of patients (95% CI) with a CGI-I score of 1 or 2 at endpoint was 17.4 (5.0-29.8; p < 0.05; number needed to treat [NNT] 6), and the difference in the percentage of patients (95% CI) achieving at least a 30% reduction in ADHD-RS-IV total score and a CGI-I score of 1 or 2 was 18.3 (5.4-31.3; p < 0.05; NNT 6). The difference between lisdexamfetamine and OROS-MPH in the percentage of patients (95% CI) with an ADHD-RS-IV total score less than or equal to the mean for their age at endpoint was 14.0 (0.6-27.4; p = 0.050). The overall frequency of TEAEs and the frequencies of decreased appetite, insomnia, decreased weight, nausea and anorexia TEAEs were greater in patients treated with lisdexamfetamine than in those treated with OROS-MPH, whereas headache and nasopharyngitis were more frequently reported in patients receiving OROS-MPH.
This post hoc analysis showed that, at the doses tested, patients treated with lisdexamfetamine showed statistically significantly greater improvement in symptoms of ADHD than those receiving OROS-MPH, as assessed using the ADHD-RS-IV and CGI-I. The safety profiles of lisdexamfetamine and OROS-MPH were consistent with the known effects of stimulant medications.
目前仅有有限的头对头数据比较长效苯丙胺类和哌醋甲酯类精神兴奋剂作为治疗注意缺陷多动障碍(ADHD)的疗效。本事后分析提供了首个比较赖氨酸苯丙胺二甲硫酸盐(司来吉兰)和奥昔哌甲酯控释口服溶液(OROS-MPH)对儿童和青少年 ADHD 症状影响的平行组比较。
这是一项随机、双盲、平行分组、剂量优化、安慰剂对照、III 期研究的事后分析。
III 期研究在欧洲十个国家的 48 个中心进行。
III 期研究纳入了符合精神障碍诊断与统计手册,第四版,文字修订版原发性 ADHD 诊断标准且 ADHD 评定量表 IV(ADHD-RS-IV)总分≥28 的儿童和青少年(6-17 岁)。
符合条件的患者以 1:1:1 的比例随机分配(每天一次,优化剂量)接受司来吉兰(30、50 或 70mg/天)、安慰剂或 OROS-MPH(18、36 或 54mg/天)治疗 7 周。
在本事后分析中,采用 ADHD-RS-IV 和临床总体印象-改善量表(CGI-I)评估疗效。应答者定义为 ADHD-RS-IV 总分至少降低 30%,CGI-I 评分为 1(明显改善)或 2(大有改善)的患者。还确定了 ADHD-RS-IV 总分等于或低于基于正常数据的年龄平均值的患者比例。终点是最后一次有有效评估的治疗访视。安全性评估包括治疗期间出现的不良事件(TEAE)和生命体征。
在 336 名随机患者中,332 名患者纳入安全性人群,317 名患者纳入全分析集,196 名患者完成了研究。司来吉兰、安慰剂和 OROS-MPH 的 ADHD-RS-IV 总分基线平均值(标准差)分别为 40.7(7.31)、41.0(7.14)和 40.5(6.72)。ADHD-RS-IV 总分从基线到终点的最小二乘(LS)均值变化(标准误差)分别为司来吉兰-24.3(1.16)、安慰剂-5.7(1.13)和 OROS-MPH-18.7(1.14)。LS 均值变化(95%置信区间[CI])从基线到终点,司来吉兰和 OROS-MPH 在 ADHD-RS-IV 总分上的差异有统计学意义,有利于司来吉兰(-5.6[-8.4 至-2.7];p<0.001)。LS 均值变化(95%CI)在 ADHD-RS-IV 总分终点时,司来吉兰和 OROS-MPH 治疗的患者中 CGI-I 评分为 1 或 2 的比例差异为 17.4(5.0-29.8;p<0.05;需要治疗的人数[NNT]为 6),在 ADHD-RS-IV 总分至少降低 30%且 CGI-I 评分为 1 或 2 的患者比例差异为 18.3(5.4-31.3;p<0.05;NNT 为 6)。LS 均值变化(95%CI)在 ADHD-RS-IV 总分终点时,司来吉兰和 OROS-MPH 治疗的患者中 ADHD-RS-IV 总分等于或低于其年龄平均值的比例差异为 14.0(0.6-27.4;p=0.050)。司来吉兰治疗的患者与 OROS-MPH 治疗的患者相比,治疗期间报告的不良事件(TEAE)总体频率和食欲减退、失眠、体重减轻、恶心和厌食 TEAEs 的频率更高,而头痛和鼻咽炎在接受 OROS-MPH 治疗的患者中更频繁报告。
本事后分析表明,在所测试的剂量下,与接受 OROS-MPH 治疗的患者相比,接受司来吉兰治疗的患者 ADHD 症状改善的统计学意义更大,采用 ADHD-RS-IV 和 CGI-I 评估。司来吉兰和 OROS-MPH 的安全性特征与兴奋剂药物的已知作用一致。
