The Efficacy Study on Si Ni San Freeze-Dried Powder on Sleep Phase in Insomniac and Normal Rats

Objectives. To investigate the effect of Si Ni San freeze-dried powder (SNSP) on sleep phase in insomniac and normal rats, to identify its mode of action in improving sleep, and to provide a reliable method for determining pharmacodynamic material basis of Si-Ni-San on improving sleep. Methods. Rats were deprived of sleep by using the footplate electrical stimulator to record the rats' electroencephalogram (EEG) and electromyogram (EMG) by using polysomnography (PSG) and copy insomnia model by the method of electric stimulation. Analysis on EEG and EMG was carried out to observe the effects of SNSP on the sleep phase of insomniac and normal rats. Results. Rats were treated by intragastric administration (i.g.) consecutively for seven days. The results showed that the total sleep time was extended; meanwhile, SWS2 (P < 0.01) and REMS (P < 0.05) were mainly prolonged for both insomniac and normal rats. The dates implied SNSP could significantly improve sleep. Conclusions. SNSP could prolong SWS2 and REMS, the experimental reproducibility is good, and the dates indicate that SNSP has the sedative function. Study on the effects of SNSP on sleep phases provided a basis for the further studies on effective constituents and the pharmacodynamic mechanism of SNSP.


Introduction
With the accelerated pace of modern social life and work pressure, improving sleep quality has increasingly become the focus of attention. Sleep disturbance is a common disease and a variety of diseases' associated symptom. As necessary as sleep is for life, it is an important part of the body recovery, integration and consolidation of memories, indispensable part of health.
Sedative and hypnotic chemical drugs mainly decrease slow-wave sleep 2 (SWS2) and rapid-eye-movement sleep (REMS) and relatively increase slow-wave sleep 1 (SWS1) to prolong the total sleep time (TST). After repeated administration, addiction and dependence will appear. Moreover, many adverse effects such as abstinence symptoms and rebound phenomena will appear following drug withdrawal [1]. Traditional Chinese medicines have important effects in treating insomnia and have fewer side effects compared with chemical drugs. Si Ni San freeze-dry powder (SNSP) is considered a typical medicine.
Si Ni San was first recorded in Shang Han Lun by Zhang Zhongjing in Eastern Han Dynasty, and it consisted of four herbs that are bupleurum, white peony, immature bitter orange, and licorice. It is the basic prescriptions of traditional Chinese medicine (TCM) to alleviate Shaoyang and coordinate liver and spleen. Si Ni San can disperse pathogens, alleviate mental depression, sooth the liver, regulate the spleen, and exhaust the stagnation of qi and blood. In recent years, studies found that SNSP has a unique curative effect in sedative-hypnotic and raising the quality of sleep, after the experiment of sedative hypnotic pharmacodynamics of SNSP [2][3][4][5]. According to clinical data of traditional Chinese medicine, insomnia induced by stagnation of Liverqi accounts for more than 80% of all insomnia patients. Therefore, we select a representative prescription Si Ni San with the function of relieving the depressed liver and harmonizing liver and spleen as the research objective and discuss its pharmacological effects on improving sleep. Compared with chemical drugs, Si Ni San has important effects in treating insomnia and has fewer side effects. Efficacy study on Si 2 Evidence-Based Complementary and Alternative Medicine Ni San of sleeping time of rats is carried out, which will provide a basic data for developing new traditional Chinese medicine drugs to improve sleep with high performance and low toxicity and provide information for the further studies on effective constituents and the effecting mechanism of Si Ni San.
The aim of this study is to verify the effect of SNSP on sleeping states of rats by recording the cortical electroencephalography (EEG) of insomniac rats and normal rats and calculating the total duration of each sleeping state, which will provide a reliable method for determining the pharmacodynamic material basis of Si Ni San on improving sleep. Male Wistar rats, weighing 220 ± 10 g, were purchased from the Experimental Animal Centre of Gansu University of Traditional Chinese Medicine. Before the study, the animals were acclimated for 5 to 7 days in temperature (20-22 ∘ C) and humidity (40-45%) controlled rooms with a 12 h light cycle. All experiments followed a protocol approved by the local Animal Ethics Committee and the local government.

Reagents and Chemicals.
Pentobarbital sodium (batch no. 080605) was purchased from Shanghai General Reagent Factory, Shanghai, China. It was prepared with distilled water to a 1% solution before use. Dental acrylic water (08-05-07) and dental acrylic cement (batch no. 09-07-02) were purchased from Gansu Dental Equipment Factory and benzylpenicillin sodium (batch no. A09078537) from the General Pharmaceutical Factory of the Gansu Pharmaceutical Group. Components of SNS, Bupleurum root, radix Paeoniae alba, bitter orange, and licorice were kindly authenticated by Dr. Chengyi Li, Professor of Pharmacognosy.

Preparation of Si Ni San Freeze-Dried Powder (SNSP).
The mixture (580 g) of Bupleurum root, Radix Paeoniae Alba, bitter orange, and licorice was decocted for 30 min with boiling distilled water (equal to 10-fold the weight of the mixture) and then filtered. The drug residue was decocted for 20 min with boiling distilled water (equal to 6-fold the weight of the mixture) and then filtered. Filtrates from the two decoctions were put together, concentrated to the required volume, and prepared by freeze-drying processed Si Ni San  freeze-dried powder. The constituents in Si Ni San freezedried powder were detected, and the four major ones of them (including paeoniflorin, naringin, hesperidin, and licorice acid) were quantified by HPLC (Figures 1 and 2, Table 1).

Implantation for EEG.
After the animals were anesthetized with pentobarbital sodium (45 mg/kg) and fixed in the stereotaxic apparatus, the skull was exposed. Two screw electrodes (1 mm diameter) were implanted into the skull (AP-2, R2; AP+2, R2) as cortical electrodes, and another one was placed at the center of the frontal bone (AP+5, R0) as a ground electrode. The cortical electrodes must touch the dura, but not cut it. The electrodes were connected to a socket by leads, which were fixed on the skull with dental acrylic cement [13][14][15][16]. Postoperatively, rats were put into separate plexiglass boxes and housed in an electromagnetically shielded recording chamber under standard conditions of temperature (21 ± 2 ∘ C), humidity (40%-45%), lighting (7:00-21:00 h), and ventilation. Each rat was administered intraperitoneally with 45 000 U penicillin for three days and allowed to recover for seven days. Before testing, the EEG recording cable was connected to a socket for 5.5 h for habituation to the experimental conditions. During EEG recording, the behavior of the rats was observed using a video monitoring system.

Replication of Insomniac Model in Rats.
On the 8th day after operation, the EEG signals of rats in a nonstressed state were recorded. Recording time lasted for 10 h from 08:00 to 18:00 h. The next day, animals were placed in separate plexiglass boxes (14 mm × 25 mm × 28 cm), on an electrified   grid, through which electric shocks were delivered. The shock intensity was 0.5 mA, 1 Hz, and 18 ms long [7]. The electric shocks lasted for 30 s with a 30 min interval between sessions. At the same time, the EEG signals were recorded. After the test, the EEG and EMG were analyzed by the outcome measures of W, SWS1, SWS2, and REMS using the paired Student's t-test to check if the insomniac models were replicated successfully.

The Effect of Si Ni San Freeze-Dried Powder on Sleep
Phase in Normal Rats. The animals were placed in a quiet laboratory, and the recording time lasted for 4.5 h from 09:30 to 14:00 h. Rats were housed under standard conditions of humidity (40%) and temperature (20 ∘ C). Rats' embedded recording electrodes were randomized into two groups, with fifteen rats in each group. Rats were ensured light and dark alternately for 12 h every day and allowed to recover for two days after operation. Rats were administrated with SNSP 5.0 g/kg (containing about paeoniflorin 43 mg, naringin 246 mg, hesperidin 19 mg, and licorice acid 20 mg) for seven consecutive days. Thirty min after the last administration, the EEG recording cable was connected to sixteen physiological signal recorders by a socket and a connecting line, and the sampling rate was 500.000 samples/sec. EEG and EMG signals of each rat were recorded for two days, and recording results were used averagely.

The Effect of Si Ni San Freeze-Dry Powder on Sleep Phase in Insomniac Rats.
Rats' EEG and EMG signals were recorded in a nonstressed state on the 8th day after operation, recording under nonstress state of normal rat electroencephalogram (EEG) and electromyogram (EMG) signals. The tracing time was 9:30-17:30 for total 8 h. Nine am the next day, the same rats were given the same volume of distilled water by gavage again, and then the rats were placed in a cage electric gate at the bottom of insomnia stimulator; the rats' feet were bottom stimulated for 8 h. The impact strength was 0.5 mA, 15 ms wide, and 1 Hz, during stimulus EEG, and EMG recording line can automatically interrupt it. Electrical stimulation can be started by two adjustable timers automatically. Thus, each stimulus was 30 s with intervals of 30 min to cause rats' insomnia. Tracing time was from 9:30 to 17:30 after the end of the stimulation. EEG and EMG were analyzed after the test. Animals with the reduced SWS1, SWS2, and TST were used as the experimental mice. After three days, insomnia rats were administrated with SNSP 5.0 g/kg (containing about paeoniflorin 43 mg, naringin 246 mg, hesperidin 19 mg, and licorice acid 20 mg) for seven consecutive days. Thirty min after the last administration, the EEG and EMG signals of each rat in an electrically stimulated state were recorded for 8 h from 09:30 to 17:30 h. The variation characteristics of EEG were analyzed for pre-and poststimulation and different periods of administration.

Statistical
Analysis. The first author analyzed the raw data statistically. All the results are analyzed with SPSS 17.0 using the paired Student's t-test. (Figure 4, Table 3). Results in Figure 4 and Table 3 were shown after rats were  THS (melatonin) tui hei su (melatonin is a natural hypnotic substance that is deep within the brain-like echinacea size "the pineal gland secretion of an amine hormone, so some people call it the pineal gland"); SNSD Si-Ni-San decoction (SNSD: is hypnotic-sedative herbs).

Time (min)
200.00 180.00 160.00 140.00 120.00 100.00 80.00 60.00 40.00 20.00 0.00 * * * * * * * * * * * * * * * , and SWS increased, and SWS1 was not obviously affected. After the rats were administrated with SNSP for seven consecutive days, the effects of SNSP on prolonging the total sleeping time of mice were significantly stronger than those in the control group, and the effects of SNSP on prolonging the total sleeping time of mice were significantly stronger than those In the Si Ni San decoction (SNSD) and tui hei su (THS) groups. (Figure 3, Table 2). Result in Figure 5 and Table 4 showed that significant differences were found for W, REMS SWS1, SWS2, and TST by comparing pre-with postshock (PrS and PS), indicating that the model was successful in replicating insomnia. The time of the awakening of insomniac rats decreased significantly ( < 0.01), but TST was significantly longer than preadministration with Si Ni San freeze-dried powder ( < 0.01), SWS2 increased markedly ( < 0.01), REMS increased significantly ( < 0.05), and SWS1 was not significantly longer than preadministration.   pentobarbital sodium is carried out on mice, which elucidates its pharmacological effects on improving sleep. The present study aimed to investigate the effect of SNSP at pre-and postshock (PrS and PS) on states of the sleep phase in insomniac Wistar rats using a modern experimental model. The effects of SNSP on prolonging the total sleeping time of rats were significantly stronger than those in the control group. The results showed that Si Ni San can increase markedly the sleeping time and also has a distinct pharmacological action in ameliorating insomnia as compared to synthetic drugs, because Si Ni San acts by extending SWS2 and REMS to increase the total sleeping time, and the effects of SNSP on prolonging the total sleeping time of mice were significantly stronger than those in the Si Ni San decoction (SNSD) and tui hei su (THS) groups. Si Ni San is likely to cause few side effects, and SNSP and SNSD could prolong the mouse sleeping time ( < 0.01), especially SNSP ( < 0.01), proving that SNSP has a very significant effect on insomnia treatments.

Discussion
SNSP showed an internal role in improving sleep, which has been found in the cerebrospinal fluid component analysis studies. This explains that SNSP has some unique pharmacological effects on improving sleep role and has great advantages compared to synthetic drugs [1].
This study establishes the basis for clinical use of SNS and provides experimental evidence underlying its mechanism of action. Postadministration.