ObjectiveTo explore the effects of different doses of almorexant (an dual orexin receptor antagonist) on learning and memory in Alzheimer's disease (AD) mice. MethodsForty-four APP/PS1 (model of Alzheimer’s disease; AD) mice were randomly divided into 4 groups: the control group (CON) and those that received 10 mg/kg almorexant (low dose; LOW), 30 mg/kg almorexant (medium dose; MED) and 60 mg/kg almorexant (high dose; HIGH). During the 28-day intervention period, mice received an intraperitoneal injection at the beginning of the light period (6:00 am). The effects of different doses of almorexant on learning and memory and 24-hour sleep-wake behaviour were assessed by immunohistochemical staining. The above continuous variables are expressed as the mean ± standard deviation (SD), and then univariate regression analysis and generalized estimating equations were performed to compare the groups; these results are expressed as the mean difference (MD) and 95% confidence interval (CI). The statistical software used STATA 17.0 MP. ResultsForty-one mice completed the experiment (3 died: 2 mice in the HIGH group and 1 mouse in the CON group). Compared with the CON group, the LOW group (MD=6803 s, 95% CI: 4470 to 9137 s), MED group (MD=14,473 s, 95% CI: 12,140–16,806 s) and the HIGH group (MD=24,505 s, 95% CI: 22,052–26,959 s) had significantly longer sleep durations. The Y maze results showed that LOW group (MD=0.14,95%CI: 0.078–0.20) and MED group (MD=0.14,95%CI = 0.074–0.20) mice compared to the CON group, and the low-medium dose of Almorexant did not damage the short-term learning and memory performance of APP / PS1 (AD) mice.Compared with the CON, LOW, and MED groups, the HIGH group exhibited a significant decrease in the Aβ plaque-positive area in the cortex (MD= −0.030, 95% CI: −0.035 to −0.025; MD=−0.049, 95% CI: −0.054 to −0.044; and MD=−0.07, 95% CI: −0.076 to −0.066, respectively). ConclusionThe moderate dose of almorexant (30 mg/kg) prolonged the sleep duration of APP/PS1 (AD) mice to a greater extent than the low dose (10 mg/kg) without altering learning and memory. The MED mice showed a good sleep response and a small residual effect on the next day. High-dose (60 mg / kg) almorexant impaired behavioral learning and memory performance in mice.Compared to the CON group and the LOW group, the MED group exhibited improved working memory. Thus, treatment with almorexant may reduce β-amyloid deposition in AD, slowing neurodegeneration. Additional studies are needed to determine the mechanism of action.