Aim To investigate the effect of polysac-charide of Cistanche deserticola ( CDPS) on the impro-ving ability of synaptic plasticity in memory acquisition impairment model mice induced by scopolamine. Methods The KM mice were randomly divided into six groups:scopolamine group, control group, CDPS-treated (25, 50, 100 mg·kg-1 ) group and donepezil group. Memory acquisition impairment model in mice was established with i. p. scopolamine (4 mg·kg-1 ) only once, and orally administered CDPS (25, 50, or 100 mg · kg-1 ) daily for 6 weeks before scopolamine injection. Experimental groups were subjected to step-down test and Morris water maze test. Western blot and RT-PCR analysis were used to examine the expression of GAP-43 , SYP and PSD-95 . Transmission electron
microscope was used to observe the change of synaptic number and structures. Results CDPS (25,50,100 mg·kg-1 ) could shorten the incubation period of mice in the water maze test. Control group and CDPS-treated group swam longer in Q3 than scopolamine group. Mo-reover, CDPS (50,100 mg·kg-1 ) could significantly reduce the error times and extend the incubation period in the step-down test. The results of Western blot and RT-PCR showed that CDPS significantly improved the expression of GAP-43 at the dose of 25 ,50 mg · kg-1 and SYP at the dose of 25,50, 100 mg·kg-1 in hip-pocampus of mice. However, the biochemical assays did not reveal a significant difference in the basal hipp-ocampal levels of the PSD-95 . The ultra-thin speci-mens of hippocampus showed that the number of syn-
apse was increased in CDPS-treated group. Conclu-sions Scopolamine can induce the learning and mem-ory deficits in mice to make related protein expression abnormalities in hippocampus mice, thus this causes the change of synaptic plasticity, which leads to a change in the ability of learning and memory. And CDPS can improve the expression of SYP and GAP-43 ,
increase number of synapses, recover synaptic plastici-ty, and improve the ability of learning and memory in mice.

Objective To evaluate the relationship between the changes in gray matter volume ( GMV) in different brain regions in the early postoperative period and the development of chronic pain after radical mastectomy. Methods Forty-four American Society of Anesthesiologists physical status Ⅰ or Ⅱpatients, aged 25-64 yr, scheduled for elective radical mastectomy, were divided into 3 groups according to the numeric rating scale ( NRS) score within 3 months after surgery: severe chronic pain group ( NRS score≥3, group SEP), slight chronic pain group (NRS score=1 or 2, group SLP) and no chronic pain group ( NRS score=0, group NP ) . All the patients underwent whole brain MRI scan within 7 days after surgery. MRI data processing and analysis were carried out using SPM8-based VBM software package and REST 1. 8 software. Results There were 17 cases in group SEP, 10 cases in group SLP and 17 cases in group NP. Compared with group NP, GMV in the right postcentral gyrus was significantly decreased, and GMV in the right superior frontal gyrus was increased in group SEP ( P＜0. 01) . Conclusion The changes in GMV in the right postcentral and superior frontal gyrus in the early postoperative period may be related to the development of chronic pain after radical mastectomy.