1.The pharmacology study result of kidney inflammation treatment active preparation
Davaasambuu T ; Chimgee TS ; Khashchuluu B ; Bayaraa S ; Odchimeg B ; Bayanmunkh A ; Lkhagva L ; Khurelbaatar L
Mongolian Medical Sciences 2014;169(3):55-58
IntroductionNumber of kidney acute and chronic disease is increasing rapidly in the world and becoming the majorcause of death even population employment capacity is invalid. Statistical report of Mongolian Ministryof Health last 5 years statistic kidney disease is in the 3rd of non-contagious disease Synthetic andchemical medicines used for this sort of disease would have side effects in some cases. Plants, animalsand minerals biologically active substances, side effects need to produce new drugs, has attracted theattention of researches.GoalIdentifying pharmacology act of new granule medicine preparation.Material and Methods: The effects of the medicinal substances were investigated on “WISTAR” linesof white rat. Pathological model of nephritis was formed by injected the rats with kanamycin sulfate(Mondodoev.A.J, Lameza.S.B, Bartonov.E.A, 1988). The experimental animals were given any of thenew granular herbal medicine and compared to the rats given Nefromon. After treatment the creatinine,urea acid and MDA in the serum were determined. MDA is identified by an amount of concentration andmethod (Stalinaya. I.D. 1977).ResultCreatinine amount of disease model group of kidney illness created by kanamycin sulfate is comparedwith healthy group animals and 1.64 times, carbamide amount is 4.25 times, rest of the azote’s 2.73are increased and comparing the experiment group creatinine amount is 1.65 creatinine amount is 1.65decreased comparing with disease model group.ConclusionWhen compound ingredients preparation creates experiment animal kanamycin sulfate oxidantdominates, intensify the kidney cell active, decrease the carbamide and creatinine and decrease thekidney cell necrosis.
2.Investigation of bile secretion and hepatoprotective effects of “Sillichol” biological active product
Badamtsetseg S ; Davaasambuu T ; Oyunchimeg B ; Battulga B ; Odchimeg B ; Sosorburam B ; Chimgee TS ; Ariunsaikhan TS ; Lkhagva L ; Hurelbaatar L
Mongolian Medical Sciences 2016;176(2):52-59
AbstractIntroduction: In recent years, researchers have paid attention to the biological active products fromraw materials of animal origin. Lyophilized bovine bile and bovine liver hydrolyze and varieties ofplants have been used for increase secretion of bile in traditional systems of medicine of variouscountries. We investigated that beneficial effects of new product particularly its treatment liverdamage, improve regeneration process of damaged liver cell, effects on bile secretion, bile bilirubin,and bile cholesterol and plasma cholesterol levels. Moreover, we investigate physical, chemicalcapacity and drafted a MNS document.Goal: To complete pharmacological, technological and standardization study of Sillichol biologicalactive product.Material and MethodsSeveral biochemical methods were used for determination of chemical compounds in liverhydrolysate and lyophilized bile. The product was formed in combined powder form by dried stirringmethod and it was capsuled by NJP-1200 capsule machine. Litchfield-Wilcoxon’s method was usedto study the acute toxicity effect. The median lethal dose (LD50) value was calculated using themethod of Pearson and toxicity level of was determined according to classification of Sidorov K.K(1973). Human equivalent dose (effective dose) was calculated with according to FDA guidancefor drug-dose conversion. Acute hepatitis – Carbon tetrachloride (CCl4) induced liver damage inrats (Skakun et al, 1984); Bile secretion effect was determined by method of Rozuet Jousse, 1980.All value expressed as mean S.E obtained from n number of experiments. The Student’s t-testfor unpaired observation between control and experimental samples was carried out for statisticalevaluation of a difference; p values of 0.05 or less were considered as statistically significant.ResultsTotal nitrogen, amino nitrogen, fat, ash and solution index were measured in liver hydrolysate.The results were accepted standard requirements of MNS 6484:2014. Bovine bile was dried byLabconco freezone L12 freeze drier in Drug Research Institute. The product named Sillichol wasformed combined powder form and capsuled №0 capsule. From the result of preclinical study, ourinvestigational new product is included in practically non-toxic class according to toxicity classificationby Sidorov (1750 mg/kg). Sillichol biological active product was increase bile level which is producedin liver cells and decreased bile cholesterol levels by 2.3-8.0% in the test group compared with thecontrol and reference groups.Conclusion: The biological active product was improving regeneration process of liver cells,normalize cell structure, effect to the anti-inflammatory in damaged liver cells.
3.Effect of Immunos on immune response cells by azathioprine Induced immunosuppression in mice
Davaasambuu T ; Oyunchimeg B ; Bayanmunkh A ; Sosorburam B ; Odchimeg B ; Badamtsetseg B ; Lkhagva L ; Khurelbaatar L
Mongolian Medical Sciences 2018;186(4):47-51
Background:
Herbal medicines continue to be widely used as natural promoters of good health, as immune-modulators
in recent years. This situation is directly related to the rapid growth of natural based products, the decrease of chemical synthesized products and as well as the increase of natural substance consumption.
Objective:
The purpose of this survey was to study influence of Immunos herbal medicines on immune system in the
experimental and preclinical circumstances.
Materials and Methods:
The immune deficiency was to created by Azathioprine through 5 days in the white mice after that control
group, preparation of Immunal, Salimon and Immunos 1, 2 were administrated appropriate doses by oral
during 10 days. Then we collected blood and quantified number of white blood cells (K/µL), quantity of
splenocyte (×106 cell/ml), amount of CD4+, CD8+ and IgM, IgA, Ig G (mg/ml) (Elisa Kit Assay: Catalog.
No: WAM-568 (Elisa Reader, 450 nm)-WKEA MED SUPPLIES CORP) on the 5th, 10th days.
Results:
All statistical analyses were conducted with SPSS version 20.0 software (IBM, Armonk, NY). One-way
ANOVA was used to assess statistical significance between Immunos groups and days of observation.
Mean values of white blood cells in blood, quantity of splenocyte, CD4+, CD8+ and IgM, IgG levels determined in the control and experimental groups. White blood cells level were significantly increased in the Immunos group compared with the control group by 55.6 percent (11.5±0.9 K/µL vs 5.1±0.51 K/µL, p<0.001) and number of splenocyte increased Immunos group compared with the control group by 60.6
% (352.2±23.5 ×106 cell/ml vs 138.6±23.5 ×106 cell/ml, p<0.01). Therefore, CD4+, CD8+ and IgM, IgG
levels were significantly increased in the Immunos group compared with the control group by 0.71 to
8.8% (IgG: 11.47±0.42 vs 10.45±0.43 μg/ml, IgM: 11.33±0.81 vs 10.48±0.31 μg/ml, CD4+: 10.44±0635
vs 10.04±0.372 U/ml, CD8+: 9.75±1.02 vs 9.68±0.45 U/ml p<0.02).
Conclusion
It’s concluded that, Immunos preparation shows immune-stimulator effect in cellular immunity and humoral immunity in the case of immunosuppressant by Azathioprine.
4.Method validation of total iridoids in “Darmon” tablets by spectrophotometric method
Selbenchal B ; Sugarmaa B ; Odchimeg B ; Ganchimeg G ; Battulga B ; Badamtsetseg S ; Bayanmunkh A ; Tsetsegmaa S ; Lkhagva L ; Khurelbaatar L ; Lkhaasuren R
Mongolian Pharmacy and Pharmacology 2021;19(2):6-12
Introduction:
A joint research team of the Drug Research Institute аndMonos pharm Co.ltd is conducting an experiment to produce of “Darmon” tablets.Idridoids are one of the predominant biological active compound in “Darmon” tablets and will be an important indicator of the quality of the drug.
Objectives:
This is the first report on the determination of iridoids by spectrophotometric method in “Darmon” tablets.
Methods:
The amount of total iridoids of “Darmon” tablets was confirmed by spectrophotometry and the absorbance was measured at 238 nm. Geniposide (98%, Xilong Scientific Co., Ltd) was used as the standard substance.
Results:
The developed spectrophotometric method showed good linearity (R2=0.9989), high precision (RSD<2%) and a good recovery (96.01-104.48%). All the validation parameters of the spectrophotometric method were found to be within the permissible limits according to the ICH guidelines.
Conclusions
The method was robust, accurate and reliable for the quality control of “Darmon” tablets.
5.Determination of inuline contents in heat and cold processed Helianthus Tuberosus L.
Ganchimeg G ; Batdorj D ; Lkhaasuren R ; Odchimeg B ; Battulga B ; Orkhon N ; Ulziimunkh B ; Bayanmunkh A ; Tsetsegmaa S ; Lkhagva L ; Khurelbaatar L
Mongolian Pharmacy and Pharmacology 2021;19(2):38-42
Introduction:
Helianthus tuberosus L. is main source of inuline in pharmaceutical and food industry. Pharmacological studies of the plant have showed some important therapeutic properties such as anti-diabetic, anti-osteoporosis, anti-cancer and strengthening cardiovascular system, immune system.
Material and method:
Helianthus tuberosus L., which has been cultivated in Botanical Garden of Medicinal Plants of Drug Research Institute, Monos Group, was used as a research raw material. The aerial and below ground parts of the plants were harvested in September 2020. The content of inulin, the main active ingredient in the plant, was determined by spectrophotometry. Raw materials of the plant were processed in several ways and prepared for further use as a pharmaceutical raw material.
Result:
Inulin content in Sample 1 was 34.5 ± 0.76%, Sample 2 was 70.31 ± 1.25%, Sample 3 was
78.43 ± 0.44% and Sample 4 was 75.36 ± 1.42%. The inulin content and yield were the highest in samples prepared by heat and cold cutting methods.
Conclusion
According to the results of appearance, yield, inulin content and moisture contents during the different processings of plant materials, it can be considered that the most suitable method for preparing Helianthus tuberosus L. as a pharmaceutical raw material is the cutting followed by freeze-drying.
6.The results of Hippophae Rhamnoides L fruit processing technology
Selbenchal B ; Ganchimeg G ; Sugarmaa B ; Odchimeg B ; Bayanmunkh A ; Tsetsegmaa S ; Lkhagva L ; Khurelbaatar L ; Lkhaasuren R
Mongolian Pharmacy and Pharmacology 2021;19(2):43-46
Introduction:
Sea buckthorn (Hippophae rhamnoides L.) is a hardy deciduous shrub of family Elaeagnaceae. In traditional medicine, “Sea buckthorn-5” powder medicine and sea buckthorn extract for the treatment of lung diseases,“Sea buckthorn-11” and “Sea buckthorn-17”prsecriptions are used to treat gynecological diseases. Sea buckthorn fruit takes a lot of time to dry and prepare in the traditional way, and a small amount of raw material is obtained. Therefore, there is an urgent need to improve and standardize technology.
Material and method:
The study used “Sea buckthorn fruit” raw material harvested in September 2020 from the Botanical garden of medicinal plants of the Drug research institute and sea buckthorn dry extract purchased from China.Four types of samples were used as Dry fruit of sea buck- thorn (Sample 1), Sea buckthorn seeds (Sample 2), Natural dried sea buckthorn fruit (Sample 3), and sea buckthorn dry extract purchased from China (Sample 4).In each of these four samples, the total carotenoid was measured at 450 nm, the flavonoid at 500 nm, and the phenolic compound at 750 nm using a spectrophotometer.
Result:
The results show that Sample 1 contains the highest amount of carotenoids 56.29 ± 0.05%, Sample 2 contains the highest amount of flavonoids 32.19 ± 0.05%, and total phenolic compounds 41.67 ± 0.02%.
Conclusion
Dry fruit of sea buckthorn (Sample 1) has the highest content of carotenoids, sea buckthorn seeds (Sample 2)have the highest total flavonoids and total phenolic compounds, which is approximately to the content of natural sea buckthorn fruit.
7.Technological study to convert traditional powder medicine into modern dosage formulation
Ganchimeg G ; Lkhaasuren R ; Odchimeg B ; Badamtsetseg S ; Sugarmaa B ; Bayanmunkh A ; Lkhagva L ; Tsetsegmaa S ; Khurelbaatar L
Mongolian Medical Sciences 2021;195(1):38-42
Introduction:
The Mongolian people have been using traditional medicine for hundreds of years. However, there is
a need to produce traditional medicinal dosage forms such as capsules, tablets, decoctions easier to
drink, store and transport, and to standardize not only finished product, but the raw materials used for
traditional medicines in line with the current drug production, drug quality and safety requirements.
Therefore, in this study, we aim to standardize five ingredients of a traditional powder medicine,
which have been widely used for colds and flu in Mongolian, Chinese and Tibetan traditional medicine
practice, and to convert the powder drug into tablet form using qualified raw materials.
Materials and Methods:
The study to convert multi-ingredient traditional powder into tablet was carried out at the Experimental
production pharmaceutical technology unit and Pharmaceutical chemistry Laboratory of the Drug
research institute, Monos Group, and the Quality control laboratory of medicine of Monos Pharm LLC.
Result
All raw materials were standardized and wet granulation method was used to prepare granules for
the tableting with qualified raw materials. 4 different models of the tablet form was prepared and
investigated. It was determined that model X-2 fully meets the general requirements for the tablet
form.