Background: Lish-6 has been used for treatment pharyngitis, flu and throat disease. Lish-6 is composed from Eugenia caryophylla. Thumb, Saussurea lappa C.B. Clark, Schizostachoum chinense. Rendle, Glycyrrhiza uralensis. Fisch, Gentiana algida Pall, Terminalia chebula. Retz. Anti-fever properties of these plants and their bio-active compounds have extensively been studied. Aim: To determine the anti-fever effects of Lish-6. Marerials and Methods: Fever was induced by intravenous administration of lipopolysaccharide (LPS) at concentration of 0.5 mg/kg. Lish-6 was given orally at concentration of 92 mg/kg, 1 and 6 hours after the LPS administration. Rectal temperature wa measured 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 hours after the LPS administration. Paracetamoli was given orally at concentration of 50 mg/kg. Blood levels of Prostaglandin E2 (PGE2) and interleukin-6 (IL-6) interleukin-1β (IL-1β) were determined by enzyme linked immune sorbent assay using rat kits. Lung tissue was examined by histopathological analysis. Results: The body temperature of rats in the normal group was 35.0±1.10С, while in the control group, periodic fever was caused by the effect of lipopolysaccharide (p=0.001). But in the Lish-6 drug group, rectal temperature decreased steadily (p=0.05). In addition, the IL-1β cytokine in the normal group was 3.24±0.31 ng/L and increased by 60.5% in the control, indicating the development of the pathological model, while this parameter decreased by 31% in the Lish-6 drug group (p=0.05). IL-6 cytokine in the normal animals was 21.1±0.2 pg/L and increased by 19.04% in the control, indicating the development of the pathological model, while this parameter decreased by 8.3% in the Lish-6 drug group (p =0.05). PGE2 in the normal group was 43.2±0.3 ng/L, and it increased by 62.7% in the control group, indicating the development of a pathological model, while this parameter decreased by 53.3% in the Lish-6 drug group (p=0.05). Conclusion Lish-6 traditional drug has the effect of reducing rectal temperature, IL-1β, PGE2 and IL-6 cytokines during lipopolysaccharide-induced febrile pathology model.

Background: Erkhem-8 medicine is a composed Crocus Sativus L, Lagotis integrifolia, Gentiana barbata froel etc, used for the treatment of respiratory diseases, specially pneumonia and fever or hot disease in Mongolian Traditional Medicine. Aim: The effects of Erkhem-8 medicine to determine the some sourcebook study results. Materials and Methods: An evaluation of its effects on wind, bile, and phlegm was conducted using Traditional Mongolian Medicine methods (Dagvatseren B, 1996). In order to clarify the structure and composition of Erkhem-8 traditional medicines, and the treatment of lung fever from traditional medical sources. Text and source-study and comparison method were used in the study. Results: The study found that Erkhem-8 medicine demonstrated a varying capacity to suppress wind, bile, and phlegm, with bile suppression being the most significant at 0.68, followed by wind suppression at 0.58, and phlegm suppression at 0.16. Erkhem-8 is composed of 8 ingredients, which are safflower Carthamus tinctorius L, gmeline Bostaurus domesticus, Schizostachoum chinense Rendle, wood Santalum album L, Odontitis rubra Baung.Opiz, flora Gentiana decumbens L, herba Lagoti sintegrifolia Schischk, flora Aconitum Kusnezoffii Reichenb. These herbs themselves have a variety of biological activities, including reduce heat, pain relief, anti-oxidant and anti-tumor, anti-inflammation activity. Conclusions 1. The study found that Erkhem-8 exhibited the highest suppression of bile (0.68), followed by wind (0.58), and phlegm (0.16), indicating its effectiveness in modulating these elements. 2. Most of the raw materials included in the composition of Erkhem-8 medicine have a bitter and sweet taste and have the ability to remove heat, especially heat of the solid organs, i.e. heat of the lungs, liver, blood, specially pneumonia and fever or hot disease in Traditional Mongolian Medicine.

Background: Lish-6 has been used for treatment pharyngitis, flu and throat disease. Lish-6 is composed from Eugenia caryophylla Thumb, Saussurea lappa C.B.Clark, Schizostachoum chinense Rendle, Glycyrrhiza uralensis Fisch, Gentiana algida Pall, Terminalia chebula Retz. Anti-fever properties of these plants and their bio-active compounds have extensively been studied. Aim: To determine the pain relief and antibacterial effects of Lish-6. Materials and Methods: To conduct acute toxicity study using V.B. Prozorovsk method. Average lethal dose, lethal and maximum nonlethal doses were determined. Acetic acid (1%-0.1 ml) was injected into the rat abdominal cavity to induce pain. Wistar rat of either sex (n = 6) weighing 18–22g were used. All animals were withdrawn from food 2h before the start of experiment and were divided in five groups. Group I was injected with normal saline (10ml/kg) as control, Diclodenk was given orally at concentration of 25 mg/kg. Group II III, IV, V and VI were injected with Lish-6 was given orally at concentrations of 9.2, 18, 36, 92, 184 mg/kg injection of acetic acid. The number of abdominal constrictions (writhes) were counted of acetic acid injection for the period of 20 min. To determine the antibacterial effect by dilution method. Results: Average lethal dose of Lish-6 was found to be LD50=0.92 (0.6-1.04) g/kg suggesting that it is slightly toxic animals. Control group animals abdominal constrictions 72.4±8.8. Lish-6 concentrations of 9.2, 18, 36, 92, 184 mg/kg group animal reduced acitic acid induced pain by 41.9-78.7% suggesting that it is pain relief effect (p<0.001). 4 g of Lish-6 medicine is active against gram-positive bacteria (S.aureus, Streptococcus pneumonia). However, it is inactive against gram-negative bacteria. In other words, Lish-6 medicine inhibits the growth of methicillin-resistant and non-resistant S.aureus bacteria at a dose of 500 mg. It was also found to inhibit Streptococcus pneumonia at a dose of 250 mg. Conclusion Average lethal dose of Lish-6 was found to be LD50=0.92 (0.6-1.04) g/kg suggesting that it is slightly toxic animal. Lish-6 reduced acitic acid induced pain by 41.9-78.7% suggesting that it is pain relief effect. Lish-6 traditional drug has an antibacterial effect.

Background: In traditional medicine, the Shimshin-6 formulation, which consists of Rheum undulatum L., Hippophae rhamnoides L., Zingiber officinalie Roscoe, Saussurea Lappa C.B.Clark, Sal ammoniacum, Tronae veneni, is recommended for women experiencing menstrual retention disorders. In recent years, Shimshin-6 has been widely used to promote postpartum uterine involution for women and our study aimed to evaluate and determine the acute and chronic toxicity effects of Shimshin-6. Aim: To evaluate and substantiate the acute and chronic toxicity effects of Shimshin-6. Materials and Methods: The acute toxicity of Shimshin-6 was evaluated using the rapid method described by V.B. Prozorovsky (1978) by administering intraperitoneal injections of the medicinal extract in white mice to determine the lethal dose. The active dose was determined following the methodology of I.P. Zapadnyuk (1983). Chronic toxicity was evaluated in Wistar rats according to the OECD 407 (2008) guidelines. The test animals were administered Shimshin-6 in tablet form (90 mg/kg and 180 mg/kg) and decoction form (tang) (162 mg/kg) daily for 60 days. At the end of the experiment, biochemical and complete blood analyses were conducted, along with histopathological examination of major organs. The study was conducted with ethical approval granted by the Ethics Committee of the Mongolian National University of Medical Sciences (MNUMS) on October 25, 2024. Results: The LD50 for Shimshin-6 tablets was 4.47 (3.39–5.1) g/kg, indicating low acute toxicity based on the K.K. Sidorov classification. The LD50 for the decoction form was 8.1 (7.1–9.4) g/kg, suggesting it is non-toxic. Regarding chronic toxicity, platelet count was significantly reduced compared to the healthy control group: Shimshin-6 tablet group: 46% reduction at 90 mg/kg and 29.7% reduction at 180 mg/kg. Shimshin-6 decoction group: 60.5% reduction at 162 mg/ kg. Additionally, hemoglobin levels in the decoction group (162 mg/kg) decreased by 15.7% (p<0.05). Biochemical analysis showed a 36.3% reduction in total cholesterol (LDL-C) levels in the tablet group (180 mg/kg) and decoction group (162 mg/kg) compared to the control (p<0.05). Conclusion Shimshin-6 tablets showed low acute toxicity in experimental mice. However, long-term administration may lead to a reduction in platelet count.

: The “Zidraga-6” prescription, which is widely used in traditional medicine, was selected and technologically developed, and formed into capsule medicine. Zidraga-6 capsule was prepared using six different herbal Capsicum annuum L. Holarrhena antidysenterica Wall ex, Atragene sibirica L, Embelia ribes Burm, Terminalia chebula Retz, and Kaempferia galanga L. Goal: This study was conducted to standardize and determine the safety and quality parameters of the Zidraga-6 capsule. Materials and Methods: Quality (moisture, total ash) and safety parameters were determined by Mongolian National First Pharmacopoeia methods. The content of the main biologically active compounds in the Zidraga-6 capsule was identified using TLC. In addition, the content of biologically active compounds is determined by UV spectrophotometer methods. The results were processed using basic biostatistical methods, calculating the arithmetic mean (M), standard deviation (δ), and standard error (m) using the SPSS 20.0 program. The ethical approval for the study was obtained by a decision of the Ministry of Health - Medical Ethics Review Committee on research on May 23, 2023 (23/029). Results: The presence of p-methoxycinnamate, gallic acid, oleanolic acid, and capsaicin in the Zidraga-6 capsule drug was detected by the TLC method, and their Rf values were 0.26, 0.24, 0.82, and 0.45, respectively. The average weight of Zidraga-6 capsules was 0.4±0.019 g, moisture was 9.63±0.09%, disintegration was 6.48±0.37 minutes, dissolution was 94.68±2.85%. The content of methods biologically active compounds in the Zidarga-6 capsule was determined total triterpene saponins as 1.89±0.19% by UV spectrophotometric methods. Conclusion We determined quality and safety parameters of the Zidraga-6 capsule were defined and the Mongolian National Pharmacopoeia monograph’s draft for the Zidraga-6 capsule was developed.

Background: The global urgency for environmentally friendly technologies has steadily intensified, and as a result, the synthesis of silver nanoparticles with antibacterial properties derived from medicinal plants traditionally used to combat bacterial infections has garnered significant interest. Goals: This research endeavors to synthesize silver nanoparticles utilizing Jidanga and Banzdo plants, widely recognized in traditional medicine, while elucidating their physical, chemical attributes, and biological potential. Methods: The physicochemical characteristics of these silver nanoparticles, synthesized through phytosynthesis, were meticulously examined via various analytical techniques. Ultraviolet and visible light spectrophotometry (UV/Vis), Photon Cross Correlation Spectroscopy (PCCS), Atomic Force Microscope (AFM), Infrared Spectroscopy (FTIR), and X-ray Crystallography (XRD) were employed for comprehensive analysis. Additionally, their antitumor efficacy was assessed via MTT assay utilizing RAW264.7 cell cultures, while antibacterial properties were evaluated through agar diffusion tests against selected bacterial strains. Results: Silver nanoparticles exhibited distinctive UV/Vis absorption peaks at 407-426 nm, affirming their composition. PCCS measurements revealed nanoparticles with hydrodynamic diameters spanning from ~100 nm to ~450 nm, while AFM imaging showcased spherical nanoparticles ranging from ~35 nm to ~97 nm. Crystallography analysis identified both simple cubic and polycrystalline structures. FTIR analysis unveiled the presence of organic compounds adsorbed onto the nanoparticle surfaces, in addition to silver bonds. Notably, the aqueous and ethanolic extracts of Banzdo plants demonstrated dose-dependent inhibition of RAW264.7 cell growth via the MTT assay. Furthermore, the silver nanoparticles exhibited antibacterial activity against a range of test bacteria with inhibition zones spanning 1-4 mm. Conclusion This study successfully synthesized silver nanoparticles utilizing Jidanga and Banzdo plants from traditional medicine, comprehensively characterizing their physicochemical attributes and demonstrating their biological activity. These findings hold promise for the future utilization of phytosynthetically derived silver nanoparticles.

BACKGROUND. The Mongolian traditional medicine Anar-5 is excellent for weak digestion and helps with stomach irritation, loss of appetite, and resulting body weakness. Anar-5 blends punicagranatum, cinnamomum cassia presl, piper longum, cardamom and alpiniaofficinarum. We are establish an experimental animal of chronic gastritis to investigate the effect of traditional medicine Anar-5 on rats gastric mucosa. Methods: In this study, the protective effect preparation in sixty five healthy, male wistar rats were treated with intragastric administration of ammonia water 0.1%. To rats in three experiments for 2 week, 4 week, and 6wk, gastric tissues were examined histopathologically for atrophic changes and blood’s gastrin produced by preparation treatment. Results: After the treatment of animals blood’s gastrin was significantly different from that in control group (p<0.05), and the gastric mucosal inflammation was infiltration of inflammatory cells, decreased thickness of lamina propria. Conclusion: Treatment with preparation from Anar-5 protectived by the chronic gastritis and gastric atrophy.

Traditional medicine has been used in the treatment of heatmodels Lider- 7 (Sophora alopecuroides, Gardenia Jasmenoides, Terminalia bellarica, Inula helenum, Terminalia chebula Retz, Lagotisglauca, Gentiana decumbens) acute virulence weighing 25-30 grams of white mouse peritoneal cavity through the study of the preparation, planting using the average fatal dose determined. Byeryezovskayaanalysis is LD50 = 8.9 ±1.2. According to the results of low malignant. Sophora alopecuroides of the heat reduction, wound healing, thigh and anti-rheumatic and bronchial gland secretions to reduce emissions and increase, such as anti- inflammatory and anti-bacterical activity. Inula helenum member of biologically active substances contained in essential fatty alantolakton, anti-bacterical anti-parasite without reduce fever and inflammation activity. Gardenia Jasmenoides CCL4-created by the prevention of chronic liver and ethanol extracts of rats to treat inflammation of the stomach caused effects, and antioxidant. Terminalia bellarica extracted from the seeds of anti-HIV, malariya and antifungals, and anti-bacterial effects. Terminalia chebula Retz pain and antioxidant, and anti-bacterial (Streptococcus mutans, Staphylacoccusaureus, Klebsiela pneumonia) anti- virus (herpes simplex), endothelial cells and virus protection, and blood glucose levels revealed that action. Gentiana decumbens of the antioxidant action of drugs is an important raw material.

IntroductionNowadays the risk factors for thrombosis include blood stasis, vessel wall injury, and hypercoagulability, as proposed by Virchow over 150 years ago. We chose to study affect of Zomoshin 6 tan to the model of thrombosis formed in experimental animal. It was written in books and sudar that it has action of treating some type’s disease such as blood diluting, meeting frozen blood and treating some gynecological disease.PurposeTo study affect of Zomoshin-6 tan deep vein thrombosis model formed in experimental animal.Material and Methods30 male rats of wistar bread with 180-220 gram of weight for control group, experimental group or Zomoshin-6 tan and comparative group Warfarin. Thirty rats were equally divided into 3 groups: Group 1 received saline alone, Group 2 received Zomoshin-6 (200 mg/kg), and Group 3 received Warfarin as a positive control (0.25 mg/kg), seven days prior to the assessment of thrombus formation. Thrombus formation was also assessed histopathologically. Thrombi were detected in all rats after experimentallyinduced thrombosis.ResultsHistological analysis demonstrated the presence of thrombosis in the interior vena cava (IVC) of the control group, which contained fibrin, erythrocytes, and leucocytes and obstructed the lumen. Only a small amount of fibrin clot, containing a few leucocytes and large numbers of erythrocytes, were observed in the Zomoshin-6-treated group. The thrombus formed in the IVC of Warfarin-treated animals consisted of fibrin clot, which was mostly attached to the wall, with few leucocytes but abundant erythrocytes. These findings suggest that Zomoshin-6 is an effective antithrombotic agent.Conclusion:Zomoshin-6 tan has an action of inhibing thrombosis forming of vein in experimental animal.

This study was carried out to investigate the pharmacological effects of aqueous extracts from the traditional Mongolian medicinal herb, the root of Caraganajubata pall poir, on liverfibrosisinduced carbon tetrachloride (CCl4) in rats. Liverfibrosis was assessed by histological observations and serum enzyme activities. Treatment with aqueous extract of Caraganajubata significantly reduced the levels of liver ASAT and ALAT. Aqueous extract of Caraganajubata root inhibits fibrosis and reduced serum enzyme in rat liverinduced by CCl4.