Efficacy and safety of rasagiline in Chinese patients with early Parkinson’s disease: a randomized, double-blind, parallel, placebo-controlled, fixed-dose study

Parkinson’s disease (PD) is a progressive neurodegenerative disorder caused by the loss of dopaminergic neurons of the substantia nigra pars compacta, which produces dopaminergic innervations to the striatum [1]. The cardinal features of PD include bradykinesia, muscular rigidity, resting tremor, and postural instability, which lead to disturbances of gait and falls [2]. PD prevalence in China is estimated at 1.7% in individuals aged 65 years or older [3]. A more recent meta-analysis estimated the overall prevalence and annual incidence in China to be 16–440 per 100,000 and 1.5–8.7 per 100,000 people, respectively [4].

Therapeutic agents for the motor symptoms of PD include levodopa (a precursor in dopamine synthesis), dopamine agonists and inhibitors of monoamine oxidase B (MAO-B), the major enzyme responsible for the oxidative metabolism of dopamine in the human brain. MAO-B inhibitors slow the loss of endogenous dopamine as monotherapy and also reduce the elimination of dopamine produced from levodopa when used as an adjunct therapy with levodopa [5]. Selegiline (or L-deprenyl) [6] is a first generation MAO-B inhibitor currently available in China. It is associated with high incidence of sleep disorder and taking it with a tyramine diet may increase hypertensive reactions [7, 8].

Rasagiline [N-propargyl-1(R)-aminoidan] is a potent, highly selective, and irreversible inhibitor of MAO-B, and shows good effectiveness for the treatment of PD in the Caucasian population. The clinical efficacy, safety and tolerability of rasagiline administration as monotherapy or adjunct therapy to levodopa have been established in several clinical studies. The TEMPO [9, 10] and ADAGIO [11] studies were randomized, double-blind, placebo-controlled, phase III trials of rasagiline as monotherapy for early PD; both studies demonstrated that rasagiline treatment is associated with lower total Unified Parkinson’s Disease Rating Scale (UPDRS) score [10], less functional decline [9] and reduced deterioration in the change of UPDRS score [11]. Moreover, a post-hoc analysis demonstrated that treatment with 1 mg/day rasagiline maintains motor function at baseline levels for over a year [12]. Nevertheless, current available study data fully support the improvement of rasagiline on motor symptoms of PD, there is still no clear evidence to indicate the effect of rasagiline on slowing the progression of PD [13].

No studies have specifically examined and manifested the efficacy, tolerability and safety of rasagiline monotherapy in Chinese patients with PD, although the efficacy of rasagiline administration as adjunct therapy to levodopa in this population has been confirmed [14, 15]. Therefore, this randomized, double-blind, parallel, placebo-controlled, fixed-dose study aimed to evaluate the efficacy and safety of rasagiline in Chinese patients with early PD not treated with levodopa.

The participants in this study were relatively young (mean age 59 years) with slight impairment in motor function, mild disease severity, and good cognitive function. In addition, all participants presented signs and symptoms of PD including tremor, rigidity, and bradykinesia and less than 10% exhibited postural disturbances. These characteristics are comparable with the symptoms observed in early PD patients.

The clinical efficacy, safety, and tolerability of rasagiline have been demonstrated in monotherapy studies of PD patients without treated by any anti-Parkinson medications [9‐11]. This is the first study to investigate the efficacy and safety of rasagiline in early Chinese PD patients.

In the primary efficacy analysis, the reduction in mean UPDRS total score was significantly greater in the rasagiline group (3.2 points) than in the placebo controls (0.2 points). This difference of 3 points was slightly lower than 4.2 points observed after 26 weeks monotherapy with 1 mg/day rasagiline in Caucasian patients in the TEMPO study [10] but comparable to that reported by the ADAGIO study of Caucasian people (3.01 point difference) but treated with 1 mg/d rasagiline for a longer study period of 36 weeks [11]. Notably, the TEMPO study enrolled patients whose disease severity was Hoehn and Yahr stage 3 or lower, whereas the ADAGIO study included subjects with stage 2.5 or lower, same as in the current study. Although this study was limited to 26 weeks, a post-hoc analysis of the ADAGIO trial determined that the beneficial effects of rasagiline on UPDRS total score are maintained at 36 and 72 weeks, respectively, with motor function maintained at baseline levels for over a year [12, 23]. Furthermore, a follow-up study to the TEMPO trial found that 46% of patients could remain on rasagiline monotherapy for 2 years, i.e. without addition of other dopaminergic agents, with only 25% of patients progressing to Hoehn and Yahr stage 3 at 5.4 years [22]. Thus, the above findings in Chinese patients with early PD are consistent with those reported for Caucasian patients.

Next, the present study revealed that mental function assessed by the UPDRS I subscale, but not daily activities or motor symptoms assessed by the UPDRS II and III subscales, showed a significant improvement in the rasagiline group at week 26 compared with placebo treated patients. However, it should be noted that numerical values for UPDRS II and UPDRS III were in favor of rasagiline. Furthermore, UPDRS III (motor subscale) showed significantly higher value in the rasagiline group compared with placebo controls, a difference close to reaching statistical significance (P = 0.064). The current data are thus not entirely consistent with previous reports in Caucasian populations. The ADAGIO trial found that compared with placebo, 1 mg/day of rasagiline for 36 weeks resulted in significant improvements in all three UPDRS subscale scores [23]. The TEMPO study also reported significant differences between the rasagiline (1 mg/day) and placebo groups in the motor and activities of daily living subscales of UPDRS, although no difference was found in the mental subscale in contrast to the above results [10]. The lack of significant effects on UPDRS III and UPDRS II in this trial may be due to the small sample size, with this study being underpowered to detect real effects. Furthermore, the UPDRS is a relatively insensitive measure in subjects with early disease and may not capture improvement in motor and activities of daily living especially those manifestations with slight impairment since the average HYSS scores were lower as around 1.6 [24]. Disease severity may have also contributed to the lack of effects on UPDRS III and UPDRS II in this study, since a previous meta-analysis concluded that rasagiline has a greater effect in patients with more severe PD, i.e. individuals showing baseline UPDRS scores ≥27 [21], whereas the rasagiline group in the present study had a mean baseline UPDRS score of 26.14 ± 1.46. Interestingly, inconsistencies with the assessment of UPDRS total score and Hoehn and Yahr stage were observed in this study with TEMPO and ADAGIO (present study: 26, 1.6; TEMPO: 25, 1.9; ADAGIO: 20, 1.5). This evaluation discrepancy may also contribute to the slight inconsistency for China study UPDRS subscale assessment with TEMPO and ADAGIO. However, our study and other previous studies consistently confirm the efficacy of rasagiline monotherapy in early PD patients.

The ratio of responders was also higher in the rasagiline group than in the placebo group (borderline significance), as was also reported in the TEMPO study [10]. This study found no significant effect of rasagiline on CGI-S and CGI-I. However, the PRESTO study found an improvement in CGI after treatment for 26 weeks with 1 mg/day rasagiline [25]. The reasons for the apparent discrepancy between this trial and the PRESTO study are unknown, although the subjective nature of the CGI (which results in inconsistency) [26] and the smaller sample size in this study may have been contributing factors by reducing the statistical power.

Rasagiline has been reported to improve non-motor symptoms [23, 27, 28] and the quality of life [29, 30] in patients with PD. In the present work, the participants’ self-rated health (EQ-5D VAS) was significantly improved in the rasagiline group compared with placebo treated patients. Although there were no significant differences in any of the PDQ-39 dimensions between the rasagiline and placebo groups, it was evident that the improvements observed after 26 weeks were only in the rasagiline group for cognition, emotional wellbeing and stigma. The TEMPO study observed an improvement of patient’s quality of life, as reflected by the PDQUALIF summary score, in individuals treated with rasagiline [10].

In this study, incidence rates of TEAEs were comparable between the rasagiline and placebo groups, and the majority of TEAEs were mild or moderate. The two TEAEs with an incidence ≥5% in both groups were accidental overdose and PD progression. With regard to tolerability, the proportion of withdrawals in the rasagiline group was low (11%), and there were few withdrawals due to AEs. In addition, there were no clinically relevant changes or differences over time between the two treatment groups in vital signs, weights or electrocardiographic findings.

This study had some limitations. First, the sample size was small, and the study may have been underpowered to detect the actual differences between the rasagiline and placebo groups. Secondly, the study lasted only 26 weeks. Therefore, long-term efficacy and safety of rasagiline in a bigger Chinese populations remain to be established.

In conclusion, 1 mg/day of rasagiline monotherapy for 26 weeks is effective to improve the global health status of Chinese patients with early PD. Furthermore, rasagiline is safe and well tolerated.