Objective:To evaluate the hemodynamic situation of the patients with moyamoya disease using MR perfusion imaging,and to explore the relationship between compensatory collateral circulation and perfusion. Methods:Seventy-two hospitalized patients with moyamoya disease were selected as typical moyamoya disease group,including 37 males and 35 females,aged 10 - 62 years old,all patients underwent cerebral angiography (DSA)and MR perfusion imaging.And 20 patients with out neurological history were used as control group.With mean transit time (MTT)image as a standard,the abnormal perfusion ranges were classified as region of interest (ROI),and the corresponding perfusion parameter values,including cerebral blood flow (CBF),cerebral blood volume (CBV),MTT and time to peak (TTP)were recorded,respectively.The cerebellum was used as a reference in this study,the perfusion parameters were standardized,and the relative ratios of the perfusion parameters (rMTT,rTTP,rCBF,rCBV)were obtained.Results:Compared with control group,the rMTT and rTTP of the patients in typical moyamoya disease group were prolonged and the rCBF was reduced (P <0.05 or P < 0.01), but the rCBV had no obvious difference (P >0.05).②Compared with the contralateral side,the rMTT and rTTP of the suffered side were prolonged,and the rCBF and rCBV were reduced (P < 0.05 or P < 0.01).Compared with chronic onset group,the rCBV and rCBF of the patients in acute onset group were reduced (P <0.05 or P <0.01),but the rMTT and rTTP had no statistically significant difference (P > 0.05).There were no significant differences in all parameters between hemorrhagic moyamoya disease group and ischemia group (P > 0.05 ). Conclusion:MR perfusion imaging can accurately evaluate the hemodynamic condition of moyamoya disease;MTT and TTP hve higher sensitivities than CBF and CBV.MR perfusion imaging can evaluate the compensation of collateral circulation of moyamoya disease and provide the objective basis for the clinician to select the proper surgical timing and the best operation methods.

Objective To evaluate transoral Orvil EEA stapler (OrVil) procedure in laparoscopic total gastrectomy for cardiac carcinoma compared with conventional anvil head method (purse-string suture).Methods From May 2014 to December 2014 20 cases were included into OrVil group,and 25 cases into purse-string suture group.Results The two groups had similar mean numbers of dissected lymph nodes [(25 ± 3) vs.(24 ± 4),t =1.067,P =0.292],the mean time of operation,intraoperative blood loss,and postoperative complications (5 vs.6,P =0.938).The length of incision was significantly shorter [(5 ±1) cm vs.(11 ± 2) cm,t =-10.724,P ＜ 0.0l] and the esophagojejunostomy time was significantly less [(28 ± 4) min vs.(39 ± 5) min,t =-7.996,P ＜ 0.01] with the use of OrVil.The time to first flatus and postoperative hospital stay were (3.7 ± 0.9) d vs.(4.4 ± 1.0) d,t =-2.485,P =0.017 and (13 ± 5) d vs.(16 ±4) d,t =-2.184,P =0.035.Conclusions OrVil is a technically safe and feasible surgical procedure for esophagojejunostomy in laparoscopy assisted total gastrectomy in the treatment of cardiac carcinoma.

Objective To investigate the effect of triptolide on the proliferation and apoptosis of human epidermal squamous cell carcinoma cell line A431 in vitro. Methods Human epidermal squamous cell carcinoma cell line A431 was cultured. After the treatment with triptolide, the inhibi-tion of cellular growth was determined by measuring MTT dye absorption of the living cells. Light mi-croscope showed morphological changes. The cell cycle and apoptosis rate were assessed by flow cy-tometry. Results Triptolide could significantly inhibit the proliferation of A431 cells in a dose- and time-dependent manner. Triptolide could also cause cell morphological changes ( the number of float-ing cells and nuclear pyknosis increase), induce cell apoptosis, and change the distribution of cell cycle phase in A431 cells. Compared with the control group, the G0/G1 phase A431 cell rate in-creased and the rate of S phase cell decreased in TP-treated group. Cell cycles were obviously inhibi-ted by triptolide in G0/G1 phase (both P<0.05). Conclusion TP could play an anti-tumor role by effectively inducing cell apoptosis and inhibiting the proliferation of A431 cells.

OBJECTIVETo develop a rapid and effective method for genomic DNA extraction with magnetic bead-based semi-automatic system.

METHODSDNA was extracted from whole blood samples semi-automatically with nucleic acid automatic extraction system.The concentration and purity of samples was determined by UV-spectrophotometer. Orthogonal design was used to analyze the main effect of lysis time, blood volume, magnetic bead quantity and ethanol concentration on the DNA yield; also the 2-way interaction of these factors.

RESULTSLysis time, blood volume, magnetic bead quantity and ethanol concentration were associated with DNA yield (P<0.05), but no interaction existed. DNA yield was higher under the condition with 15 min of lysis time, 100 μl of blood volume, 80 μl of magnetic beads and 80 % of ethanol. A significant association was found between the magnetic bead quantity and DNA purity OD260/OD280 (P=0.008). Interaction of blood volume and lysis time also existed (P=0.013). DNA purity was better when the extracting condition was 40 μl of magnetic beads, 15 min of lysis time and 100 μl of blood volume. Magnetic beads and ethanol concentration were associated with DNA purity OD260/OD230 (P=0.017 and P<0.05), the result was better when magnetic beads was 40 μl and ethanol concentration was 80 %.

CONCLUSIONThe results indicate that the optimized conditions with 40 μl magnetic beads will generate higher quality of genomic DNA from the whole blood samples.

Schisandra Chinensis Fructus (SCF) is the fruit of Schisandra chinensis (Turcz.) Baill., a perennial vine. It was first recorded in Shen Nong's herbal classic and has a long application history. Studies have shown that SCF has anti-inflammatory, protective liver, antioxidant, antibacterial and other pharmacological effects. Ancient prescriptions are commonly used in the treatment of chronic diarrhea and other intestinal diseases and diabetes. Modern clinical phar?macology features of SCF polysaccharide (SCFP) in diabetes, liver diseases, enteritis and other aspects have achieved excellent results. Gut is an important digestive organ of human body, but intestinal diseases are varied, including Crohn's disease, ulcerative colitis, intestinal flora imbalance, etc.. It is a chronic and non-specific inflammatory disease. The disease is persisted for a long time and the incidence rate is expected to rise. Most of the symptoms are recurrent diarrhea, bloody stool and abdominal pain. It is considered by the World Health Organization as a refractory disease. At present, there is little possibility of complete cure, which is closely related to complex environmental factors, eating hab?its and heredity. In recent years, clinical studies have found that SCFP has a variety of pharmacological effects on intes?tinal protection.①Reduce inflammatory factors:intestinal mucositis is a common adverse reaction in patients with chemo?therapy. The development of mucositis is related to pro-inflammatory factors such as tumor necrosis factor-α (TNF-α), interleukin-6 (IL-6), IL-1β, Interferon-γ(IFN-γ). SCFP can significantly reduce IL-6 TNF-α, IL-1β, and IL-8, as well as the accumulation of T cells in the process of resisting apoptosis, reduce the inflammatory reaction and protect the dam?age to villi and crypts, improve the symptoms of small intestinal mucositis caused by weight loss and diarrhea. ② Pro?mote immunoglobulin A secretion: intestinal mucosal immunity is the first line of defense of the body's immune system. Its main antibody is secretory immunoglobulin A, which can destroy and phagocytize microorganisms, bacteria and viruses. SCFP can improve intestinal immunity by increasing the number and activity of T lymphocytes, promoting the secre?tion of secretory immunoglobulin A, and affecting the activity of a variety of cytokines. ③ Regulation of intestinal flora:the flora in the intestine has the functions of auxiliary nutrient absorption, biological antagonism and immune regulation, and can form a natural barrier for the host's intestine. When the human intestinal flora is disordered, probiotics will be greatly reduced, harmful bacteria will proliferate and destroy the intestinal environment. Under these conditions, the intake of SCFP significantly increased the number of beneficial bacteria such as bifidobacteria and lactobacillus, and sig?nificantly decreased the number of conditional pathogens such as enterococcus and escherichia coli, indicating that SCFP can indeed regulate the intestinal disorder caused by lincomycin hydrochloride to a certain extent. This may be because beneficial bacteria in the intestine metabolize polysaccharides produce short chain fatty acids such as lactic acid and acetic acid, which reduces the pH value in the intestine and inhibits the growth of enterococcus and Escherichia coli. In conclusion, SCFP can treat and protect intestinal diseases to a certain extent, which provides a favorable basis for the treatment of intestinal diseases.

Chuanxiong Rhizoma is the dry rhizome of Ligusticum chuanxiong in the umbelliferae family. Chuanxiong Rhizoma pungent, warm, go to liver, gallbladder and pericardium. Effective in promoting blood circulation, promoting Qi, dispelling wind and relieving pain, it could treat chest pain, tingling pain in chest and flank, lump, irregular menstruation, amenorrhea, symptomatic abdominal pain, headache and rheumatic pain. Neurovascular headache is a primary disease caused by dysregulation of intracranial vascular movement and nerve function. It has the characteristics of long course, intermittent recurrent attacks, lingering and difficult to heal. Attacks are often accompanied by many plant nervous sys?tem symptoms, such as rapid breathing, accelerated heart rate, vomiting, and gastrointestinal dysfunction. Vascular nerve headache is a common clinical disease, frequently bidity. Studies have shown that Chuanxiong Rhizoma has good pharmacological effects in the treatment of vascular neuropathic headache.① The action of Qi and blood circula?tion: vascular and neurovascular headache is caused by the evil of external wind and cold and damp heat, which leads to the disconnection of the veins, the disorder of Qi and blood, the obstruction of Qi and blood channels, the loss of brain collateral, and finally causes migraine. Modern Chinese medicine points out that"wind, blood stasis, deficiency, phlegm"are the key factors of the disease. Chuanxiong Rhizoma is the medicine of Qi in the blood. It is pungent and warm. It is good at activating blood and promoting Qi, dispelling wind, relieving pain and dispelling cold, so as to achieve the effect of treating vascular headaches. ② Improve brain circulation: angioneurotic headache is caused by dysfunction of the central nervous system related to the regulation of vascular movement, which causes vasospasm or extreme vasodi?lation, and the decrease of intracranial blood flow causes cerebral ischemia and hypoxia. Sodium ferulate is a chemical component in Chuanxiong Rhizoma. It has a relatively good inhibitory effect on platelet aggregation and the release of 5-HT from platelets. It can ensure the normal contraction of intracranial and extracranial blood vessels, improve the patient's brain circulation and nerve function, so as to achieve the effect of treating angioneurotic headaches.③Sedative and analgesic effect:the volatile oil and water decoction of Chuanxiong Rhizoma have sedative and analgesic effects, and the water decoction can counteract the excitatory effect of caffeine. Studies have shown that the ATP activa?tion current of rat dorsal root ganglion neurons can be inhibited by ligustrazine in a non-competitive way, which also indi?cates that Chuanxiong Rhizoma has a good analgesic effect. In this study, the effects of Chuanxiong Rhizoma on angoneeurotic headache were reviewed, and the pharmacological effects of Chuanxiong Rhizoma were further elucidated, providing basis for clinical application and new drug development of Chuanxiong Rhizoma in the treatment of angoneeu?rotic headache.

Curcumin (Cur) is an important bioactive component of polyphenols in the rhizomes of Curcuma longa L., Tulipa gesneriana L. and other Curcuma plants. It has a wide range of pharmacological effects such as anti-tumor, anti-atherosclerosis, anti-inflammatory, and neuroprotection. Parkinson disease (PD) is a neurodegenerative disease that often occurs in the elderly. Its main pathological characteristics are the characteristic loss of substantia nigra dopaminer?gic neurons, the decrease of dopamine content in the striatum, and the formation of Lewy bodies. At present, the main methods of clinical treatment of PD include drug therapy and surgical operation, but due to its complicated pathogene?sis, they can only play a role in relieving, but cannot be completely cured. Modern pharmacological studies have shown that Cur has certain effects in the treatment of PD. ① Anti-oxidative stress: oxidative stress is closely related to the degeneration of dopaminergic neurons. Studies have found that Cur can increase the activity of superoxide dismutase (SOD) and glutathione peroxidase (GSH-Px), reduce malondialdehyde (MDA) content, thereby reducing oxidative stress damage and protecting dopaminergic neuron.②Reduce inflammation in brain tissue:neuroinflammation plays an impor?tant role in the development of PD. Reducing the level of inflammatory factors can have a certain therapeutic effect on PD. Studies have shown that high-dose Cur can reduce the levels of interleukin-6 (IL-6), IL-1β, and tumor necrosis fac?tor-α (TNF-α) in brain tissue, reduce inflammation, inhibit further neuronal damage, improve learning and memory, and exert neuroprotective effects. ③ Activation of autophagy: the abnormal accumulation of α-Synuclein (α-Syn) in Lewy bodies is closely related to PD, and autophagy dysfunction leads to α-Syn clearance obstacles and an important factor of abnormal aggregation. Cur can increase the expression of microtubule-associated protein 1 light chain 3 (LC3-Ⅱ) and lysosome-associated membrane protein 2A (LAMP2A), and reduce the protein and mRNA expression of α-Syn. It can be seen that Cur promotes the elimination ofα-Syn and protects neurons from damage by activating autophagy.④Inhi?bition of mitochondrial dysfunction:mitochondria plays a central regulatory role in the process of cell apoptosis, and mito?chondrial dysfunction is related to reactive oxygen species, energy and mitochondrial membrane potential, which may cause substantia nigra striatal neuropathy. Experiments have shown that Cur can reduce the active oxygen content in PC12 cells induced by MPP+, maintain the normal membrane potential of mitochondria, thereby stabilizing mitochondrial function and inhibiting PC12 cell apoptosis. This study summarized the action mechanism of Cur in the treatment of PD, and clarified the basis of its pharmacodynamics, providing a reference for the clinical research and new drug develop?ment research of Cur in the treatment of PD.

Betel nut is the dry and mature seed of Areca catechu L., which is originated in Malaysia and cultivated in Yunnan, Hainan and Taiwan and other tropical areas of China. It is also known as big belly, binmen, olive seed, green seed and so on. Betel nut is a dual-use resource for medicine and food, which was first contained in LI Dang's Pharma?ceutical Record. Betel nut tastes bitter, pungent, warm in nature, and belongs to the stomach and large intestine meridian. It contains a variety of chemical components such as alkaloids, phenolic compounds, polysaccharides, fatty acids, amino acids, flavonoids, minerals, terpenoids, and steroids. It has the advantages of promoting digestion, lowering blood pres?sure, anti-depression, anti-oxidation, anti-inflammatory, and anti-parasites, antibacterial and other activities. The content of total phenols in fresh fruits of areca nut was 31.1％, mainly including catechin, isorhamnetin, chrysopanthoxanthin, luteolin, tannin and other polyphenols. The commonly used methods for determination of polyphenols in areca are vanil?lin titration potassium permanganate titration and potassium ferricyanide spectrophotometry. The main activities and mechanisms of areca polyphenols include: ① Antidepressant effect: polyphenols bind to monoamine oxidase type A (MAO-A) receptors that inhibit the production of neurotransmitters, thereby increasing the content of amine transmitters in the brain and playing a therapeutic effect on depression. ② Antioxidant effect: polyphenols contain multiple adjacent hydroxyl groups, which are easily oxidized and can effectively remove superoxide anion free radical, hydroxyl free radi?cal, 1,1-diphenyl-2-picrylhydrazyl radical, showing good antioxidant activity.③Bacteriostatic effect:polyphenols can spe?cifically bind to the surface of bacteria, thus achieving bacteriostatic effect. Studies have found that betel nut polyphenols have varying degrees of inhibitory effects on a variety of bacteria. ④ Inducing apoptosis of lymphocytes: polyphenols deplete the mercaptan in lymphocytes and make them unable to survive, thus inducing apoptosis of lymphocytes.⑤Anti-aging effect: polyphenols have the effect of anti-hyaluronidase and anti-elastase, so as to protect elastin fiber and pro?mote collagen synthesis.⑥Anti-allergic effect:studies have found that polyphenols can reduce ovalbumin induced aller?gic reactions.⑦Other functions:betel nut can freshen breath, eliminate bad breath, and resist the activity of cobra venom. At present, domestic and foreign scholars' research on betel nut mainly focuses on arecoline and its carcinogenicity, mutagenicity, effects on reproductive function, addiction and toxicity to the nervous system, and there are few studies on the positive effects of betel nut, especially on it. There is less research on phenolic ingredients. Therefore, this article reviews the polyphenolic chemical constituents of betel nut, and fully excavates its pharmacological activity to provide a reasonable basis for the scientific use of betel nut.

Diabetic nephropathy (DN) is one of the most common complications of diabetes. It is an important cause of diabetes disability and death. DN is a systemic metabolic syndrome. In its pathogenesis, the interaction of various cell activities and a large number of cytokine biological activities, the activation of signal pathways and so on are involved in the development of DN. At present, the clinical treatment of DN is mainly Western medicine, but it has limitations such as strong toxicity, high side effects and poor compliance. Therefore, the discovery of natural anti-DN substances has also become an important means to treat DN. Mulberry leaves are the dry leaves of Morus alba L. It is not only a tradi?tional Chinese medicine, but also a dual-purpose medicinal material for medicine and food. It has the effects of dispelling wind and clearing heat, cooling blood and brightening eyes, tonifying and so on. Mulberry leaf polysaccharide (MLP) is a kind of high molecular compound in mulberry leaves. It has many pharmacological effects, such as hypoglycemic, antiox?idant, anti-stress, anti-virus and so on. Therefore, the pharmacological effects of mulberry leaf polysaccharides on dia?betic nephropathy are reviewed in this paper, so as to provide references for further research and application. The patho?genesis of DN is complex, and the mechanism of renal injury has not been completely clarified. The current studies believe that DN is closely related to heredity, abnormal glucose metabolism, abnormal lipid metabolism, microcirculation disorder, cytokine action, oxidative stress and so on. Relevant studies show that the pharmacological effects of mulberry leaf polysaccharide in the prevention and treatment of DN mainly include: ① Effect on transforming factor-β1 (TGF-β1):TGF-β1 has become an important cytokine involved in the formation of renal fibrosis by regulating cell proliferation and differentiation and the production of extracellular matrix (ECM). MLP can significantly inhibit TGF-β1 protein, and then inhibit the synthesis of extracellular matrix by renal interstitial fibroblasts and inhibit the realization of fibrosis.②Effect on insulin receptor substrate (IRS-1): IRS-1 is an important signal molecule at the beginning of IR signal transduction. The decrease of IRS-1 gene expression or the decrease of expression can affect the effective transmission of IR signal and lead to the development and deterioration of diabetes. MPL can significantly increase the expression of IRS-1 mRNA in liver tissue of DN rats, so as to prevent and treat DN. ③ Effect on the expression of resistin protein in adipose tis?sue. Resistin is a secretory polypeptide derived from adipose tissue and is specifically expressed in white adipose tissue and is closely related to type 2 diabetes mellitus (T2DM). Experimental studies show that MLP can effectively reduce the expression of resistin protein in white adipose tissue of T2DM rats, indicating that MLP may reduce the level of IR by inhibiting the expression of resistin in adipose tissue, thereby reducing the insulin resistance state of T2DM rats, so as to achieve the goal of treating diabetes.④Effect on adiponectin receptor 1 (AdipoR1):adiponectin can improve insulin resistance, reduce blood glucose and lipid. AdipoR1 is mainly expressed in skeletal muscle and kidney. Studies have shown that AdipoR1 is closely related to the occurrence and development of DN. The results showed that MLP could reduce the blood glucose and blood lipid level and up regulate the expression of AdipoR1 mRNA in DN rats, suggesting that MLP may delay the occurrence and development of DN. This article reviewed the pharmacological effects of mulberry leaf polysaccharides on diabetic nephropathy, and provided a useful basis for further development and utilization of mul?berry leaf polysaccharides in the treatment of DN.

Polygonati Rhizoma is the dry rhizome of Liliaceae plants Polygonatum kingianum coil ethemsl, Polygona?tum sibiricum Redoute and Polygonatum cyrtonem Hua. It tastes sweet and has a flat nature. It belongs to the spleen, lung and kidney channels. Polygonati Rhizoma contains a variety of chemical components, including polysaccharides, alkaloids, steroidal saponins, lignans, phytosterols, and so on. Polygonati Rhizoma polysaccharide (PSP) is one of the main bioactive components of Polygonati Rhizoma. It is widely used. It has the effects of enhancing immunity, anti-inflammatory, anti-virus and regulating blood lipid. In recent years, the immunomodulatory function of PSP has been paid more and more attention by researchers. PSP can play an immunomodulatory role through a variety of mecha?nisms. (1) Effects of PSP on innate immunity. ① Macrophages have a strong ability to phagocytize and clear foreign bodies. When polysaccharides bind to macrophage specific membrane receptors, the immune response will be officially activated. RAW264.7 cells can be activated by PSP MR and TLR4 mediated signal pathway to improve the pinocytosis and phagocytosis of RAW264.7 cells. ② Natural killer cell (NK cell) is a very important immune cell in the body. It is a non-specific immune killer cell naturally existing in the body. It has the dual functions of immune regulation and cytotoxic?ity. It was found that the signal pathway mediated by PSP CR3 and TRL2 may play a major role in the stimulation of NK cells. (2) Effects of PSP on adaptive immune response. ① Lymphocytes can be divided into two forms: T cells and B cells due to different differentiation and maturation sites. T lymphocytes are the general name of thymus dependent lym?phocytes. B lymphocytes differentiate and mature from animal bone marrow cells and exert their humoral immune func?tion by secreting different antibodies. It was found that PSP could activate T/B lymphocytes and increase the ratio of CD4+/CD8+in lymph cells to promote the regulation of immune system.②Thymus and spleen index refers to the level of body immunity through the development of immune organs and the functional status of immune cells. The higher the index of thymus and spleen, the higher the immune activity. A large number of studies have found that PSP can improve immune activity by promoting the proliferation of spleen lymphocytes and regulating organ index, so as to increase the weight and index of thymus and spleen induced by CY. ③ Antibody is a glycoprotein secreted by B cells after antigen stimulation and a series of proliferation and differentiation into plasma cells. Antibody production level is one of the main indicators of nonspecific immune function. PSP can not only improve the serum antibody level of mice by regulating the phagocytosis of mouse macrophages and the level of serum hemolysin, but also enhance the concentration of IL-2 secreted by spleen lymphocytes in vitro to increase the level of antibody response, and then improve the humoral immune function of the body. (3) Effect of PSP on cytokines. ① A large number of experiments have proved that PSP has a significant effect on promoting the production of interleukin (IL). PSP can combine with specific receptors on the surface of immune cells to activate various intracellular signal transduction pathways, enhance the secretion of cytokines such as IL-2, IL-4, IL-6 and IL-10 by spleen lymphocytes in vitro, make them directly kill target cells and regulate the immune function of the body at the molecular level. ② Interferon (IFN) is a special protein or glycoprotein produced by human or animal cells in response to various stimuli. It plays an important role in anti-virus, immune regulation and cell proliferation control. It was found that PSP could increase IFN-γsecreted by T cells and NK cells, activate macrophages to regulate immune function. ③ Tumor necrosis factor (TNF) is mainly produced by activated macrophages, NK cells and activated T cells. It is a cytokine with important biological activity in antitumor immune response.④ Tumor necrosis factor (TNF) is mainly produced by activated macrophages, NK cells and activated T cells. It is a cytokine with important biological activity in antitumor immune response. PSP can promote the proliferation and phagocytic activity of macro?phage RAW264.7 to reduce its apoptosis rate. By increasing the secretion of TNF-α, PSP can promote the dissociation between NF-κВprotein and IκВp65 protein after phosphorylation, so as to start the expression and transcription of related immune genes. In conclusion, PSP can improve immunity and has a good application prospect in the development of immunomodulatory drugs.