Background: In recent years, the incidence of liver diseases due to complications of non-alcoholic fatty liver disease (NAFLD) has shown a significant upward trend in Southeast Asian countries. NAFLD is a hepatic disorder characterized by lipid accumulation in the microstructure of the liver in individuals who consume little to no alcohol. It is often associated with insulin resistance and is diagnosed when steatosis affects more than 5% of hepatocytes histologically, or when the fat signal intensity on MRI exceeds 5.6%, based on fat-to-water ratio measurements. In Mongolia, histological studies using frozen liver sections with routine and special staining techniques are limited, highlighting the necessity of this study. Aim: To determine and compare the degree of steatosis and fibrosis in frozen liver tissue samples of patients with NAFLD through histological analysis. Materials and Methods: This study was conducted at the the Department of Anatomy, School of Biomedicine and Bio medical Research Institute of MNUMS in collaboration with the Second State Central Hospital. Ethical approval was obtained from the Research Ethics Committee of MNUMS (Protocol No. 2024/3-06). All procedures adhered strictly to laboratory biosafety protocols. Participants were selected among patients undergoing elective laparoscopic cholecystectomy, from whom informed consent was obtained. Based on inclusion criteria, five participants were grouped as follows: healthy control (n=1), NAFLD without fibrosis (n=2), and NAFLD with fibrosis (n=2). Liver biopsies (approx. 1 cm in size) were obtained intraoperatively, immediately deep-frozen in liquid nitrogen, and prepared for histological evaluation. Results: In patients with NAFLD compared to the healthy liver group, disruption of hepatocyte columnar architecture and mild periportal lymphocytic infiltration were observed. Oil Red O staining revealed 34–66% micro- and macrovesicular steatosis, corresponding to grade 2 steatosis. Masson’s trichrome staining showed no fibrotic changes in perivenular or periportal areas (Ishak grade 0/4) at this stage. However, upon progression to grade 3 steatosis, early-stage fibrosis was observed in both perivenular and periportal regions (Ishak grade 1/4). Further progression to stage 4 fibrosis was characterized by the development of connective tissue septa, although no significant changes in droplet size were observed. Conclusions 1. Increasing stages of fibrosis are not directly influenced by the severity of hepatic steatosis in NAFLD. 2. Although the degree of steatosis increases, the absence of corresponding fibrotic changes in early stages indicates a complex progression pattern of NAFLD requiring further investigation.

Background: Cancer incidence and mortality are steadily increasing both globally and in Mongolia. As these rates rise, traditional Mongolian medicine has long utilized herbal formulas for the treatment of gastric and esophageal cancers and precancerous conditions. One such formulation—Hot Natured 3 Herbs (HN3H)—comprises three species from the Ranunculaceae family: Atragene sibirica L., Ranunculus repens L., and Pulsatilla bungeana L.. However, scientific validation of its anti-tumor effects is essential. This study aimed to investigate the effect of HN3H in a tumor-induced animal model. Aim: To identify the biologically active compounds of HN3H and evaluate their effect in an experimentally induced tumor model in animals. Materials and Methods: The three herbs comprising HN3H—Atragene sibirica L., Ranunculus repens L., and Pulsatilla bungeana L.—were collected during their flowering stage (May–June) in Khishig-Undur, Bulgan province, and dried according to official procedures. Extraction was carried out by maceration in 96% ethanol at a 1:10 ratio. The concentrated extract was suspended in water (1:1) and successively fractionated with dichloromethane, ethyl acetate, butanol, chloroform, and n-hexane. The study was approved by the Research Ethics Committee of the Mongolian National University of Medical Sciences (Protocol №2020/03-04). A colorectal cancer model was established by subcutaneous injection of MC-38 cells (Kerafast, USA) into C57BL/6 mice. Immunohistochemistry was performed using CK20, CDX2, Ki67, and p53 antibodies at 1:100 and 1:200 dilutions. Results: The ethanol extract of HN3H contained 2.98±0.04% total phenolics and 2.16±0.05% total flavonoids. Body weight and tumor volume were measured daily with three repetitions. All groups showed a time-dependent increase in body weight. Mice in groups 1A and 1B received ethanol extract at 50 and 100 mg/kg doses; groups 2A and 2B received dichloromethane extract at the same doses. The negative control group was administered 0.5 mg/kg PBS orally, while the positive control group received intraperitoneal injections of 5-fluorouracil (5FU) at 10 mg/kg twice a week. Tumor growth increased in a time-dependent manner across groups. Compared to the negative control, tumor volumes in four treatment groups showed statistically significant reduction (p˂0.05), while no significant difference was observed when compared to the positive control (p=0.08). Histological analysis revealed necrosis in all groups, with variation in extent. Conclusion The ethanol extract of HN3H exhibited moderate levels of phenolic compounds and a high concentration of flavonoids. HN3H extract inhibited tumor progression and activated lymphocyte-predominant inflammation in tumor tissues, indicating potential anti-tumor activity (p˂0.05).

Introduction: According to the WHO, being exposed to loud noise for a long time can be very harmful to health. It can lead to heart and blood vessel problems, mental health issues, trouble sleeping, and hearing loss. Noise pollution has a negative effect on the brain and nervous system, and it can cause many problems. High-frequency noise, in particular, can disturb the central nervous system. This can lead to problems like poor concentration, more anxiety, and feeling mentally tired. Many studies around the world have shown that noise levels of ≥85 dB at work increase the risk of noise-induced hearing loss (NIHL) and tinnitus.In Ulaanbaatar, environmental noise pollution continues to grow due to population growth, construction, and urban planning. Therefore, it is important to find out whether environmental noise pollution is linked to mental and behavioral disorders, insomnia, nervous fatigue, high blood pressure, and hearing loss among the population. Goal: The aim of this study is to examine the prevalence of primary hypertension (I10), nervous fatigue (F48.0), sleep disorders (F51.0), and tinnitus (H83.3) caused by environmental noise among the population of Ulaanbaatar. Materials and Methods: A descriptive research design was applied to examine statistical data from the Center for Health Development regarding diseases related to noise pollution. Based on the 10th revision of the International Classification of Diseases (ICD-10), the study focused on conditions such as neurasthenia (F48.0), non-organic sleep disorders (F51), primary hypertension (I10), and hearing disorders (H83.3). The analysis included data recorded between 2014 and 2023 among the population of Ulaanbaatar city. Epidemiological analysis was performed using SPSS-24 software, and the results were calculated per 10,000 population. Ethical Considerations: This study did not receive any external funding or financial support from public or private organizations. It utilizes secondary data from the Health Development Center, which does not contain any personal information. Results: In 2014, the average age of individuals diagnosed with neurasthenia (F48.0) was 40.1±12.6 years; for non-organic sleep disorders (F51.0), it was 48.1±14.5 years; for noise-induced hearing disorders (H83.3), 47.2±12.7 years; and for primary hypertension (I10), the average age was 59.0±11.4 years. By 2023, the average age for primary hypertension had slightly decreased to 58.0±12.9 years. Since 2014, the number of cases of nervous fatigue, non organic sleep disorders, and hearing problems caused by noise has risen in Ulaanbaatar. In 2023, the average age of people with primary hypertension (I10) dropped to 58.0±12.9 years. Noise-related illnesses are common among people aged 40 to 60 in Ulaanbaatar, and this is lowering their quality of life. Conclusion Noise-related illnesses are being recorded among the 40–60 age group in Ulaanbaatar, which is negatively affecting their quality of life. It is urgently necessary to introduce measures for adequate protection of the population from the negative health effects of environmental noise.

Introduction: In 2020, the prevalence of respiratory system diseases in the population of Gobi-Altai province is 1339.5 cases per 10,000 population, which is 4% (52) more than the average of the provinces and 20% (223.8) more than the national average. In 2021, the number of deaths due to respiratory system diseases was 2.9 per 10,000 population, increasing by 1.1 from 2020 (1.8). Pneumonia-related deaths account for 60.7% of all respiratory system-related deaths. As of 2022, there are 7,281 simple stoves, 248 low-pressure and steam boilers, and 18,207 automobiles in the Gobi-Altai province as sources of air pollution. 63.1% of the total coal is consumed by water heating boilers with a capacity of more than 101 kW, 20.5% by households, and 16.4% by small and medium enterprises. Goal: Determining the relationship between the incidence of pneumonia in the population of Gobi-Altai province and the common air pollutants. Material and Method: According to the rotation research model, the common external air pollutants SO₂, NO₂, PM₁₀, climate parameters, temperature, pressure, humidity, and population pneumonia measurements and registration data of Altai Sum, Gobi-Altai Province in 2020-2021 were analyzed using SPSS-24 software. statistical processing was calculated for non-parametric parameters. Result: The annual average value of sulfur dioxide (SO₂ ) measured in 20 minutes in Gobi-Altai province is 25.2 ± 13.7 μg/m³, the annual average value of nitrogen dioxide (NO₂) measured in 20 minutes is 36.329±29 μg/m³, and the annual average concentration of PM₁₀ particles is 35.2 ± 28,264 μg/m³, which is the standard level of MNS4585:2016. But the 20-minute average concentration of SO₂ (r=0.81, p=0.005), the average concentration of NO₂ (r=0.089, p=0.008), and the average concentration of PM₁₀ (r=0.089, p=0.002) is directly related to the incidence of pneumonia. It is also inversely correlated with air temperature (r=-142, p=0,000). Conclusion Common outdoor air pollutants in Yesunbulag sum, Gobi-Altai Province are related to pneumonia in children aged 0-5 years.

Introduction : Water is a vital resource for human existence and is essential for daily food processing, preparation, washing, hygiene, and sanitation. Furthermore, providing the population with safe drinking water is one of the pressing problems of the world and some regions.
In recent years, population density and the scale of commercial and industrial activities, as well as clean and dirty water consumption were increased in the capital city. As a result of these, ground and surface water resources are becoming scarce and polluted.
Therefore, assessment of daily drinking and residential water consumption of Ulaanbaatar should be determined to use drinking water properly in daily life and water loss. This study assessed the actual amount of households’ daily water consumption. Goal: The purpose of this study is to determine the daily consumption of drinking water for households in ger areas and apartments in Ulaanbaatar. Materials and Method: This study covers 30 households in ger areas and 15 apartment households, in Ulaanbaatar. Household members performed 6-10 types of measurements every day, within 7 days. As a result of these measurements, actual consumption of water quantity used for drinking and household purposes was calculated. Statistical analysis was done by SPSS Version 21 to calculate the true probability of difference between parameters. Result: 67.9% of the households in the ger areas were 4-5 family members. The average daily household consumption of drinking and domestic water were 68.3 ± 3.57 L (95% 61.3-75.3), the minimum consumption was 12 L, and the maximum was 227 L. Average of the household water consumption water was 97.6-108.9 liters during the weekends, and water consumption was statistically higher than weekdays (p=0.001; p=0.01).
The water consumption of residential households with 3 family members accounted for the majority (30.8%) in this study. The average daily consumption of drinking and domestic water was 297.67±19.7 liters. There was no statistically significant difference (p=0.96) in week. The average daily water consumption including drinking and residential was 270.3-335.97 L.
The total daily drinking and residential water consumption per person was 15.57 L for households in ger areas and 90 L for apartment households. Calculating the daily water consumption of households in ger areas, 60.3% of it is used for laundry, washing dishes, food preparation, washing face and hands, and clothes, 31% for drinking, and 8.7% for outdoor water use. While apartment households, approximately 94.1%, were used for household and 5.9% for drinking purposes. Research ethics approval : This study was discussed at the meeting of the Academic Council of the National Center for Public Health. In addition, this study was carried out according to the methods and methods discussed and approved at the meeting of the Medical Ethics Control Committee of the Ministry of Health (Resolution No. 08). Conclusion The total daily consumption of drinking and residential water per person were 15.57 litres for the households in the ger areas and 90 litres for the apartment households. It implies that it does not exceed the WHO recommendations

Background: A 2023 study by the United Nations University's Institute for Water, Environment and Health concluded that 72 percent of the world's population faces water supply issues, and 8.0 percent are experiencing severe water shortages. Mongolia has received 60 points out of a possible 100 points, and was defined as a country that is unreliable in terms of clean water supply and may face water shortages in the future. A survey of global water security has been conducted. The organization, which has research institutes in 12 countries, compared and ranked 14 indicators of 186 countries, including clean drinking water supply, sanitation, population health, water quality, freshwater resources, water resource sustainability, and governance related to water management. Mongolia scored the highest possible score of 10 out of 14 basic indicators for water availability. However, in terms of water treatment and reuse and water supply sustainability, the indicator of water storage scored the worst, 2 points. Also, Mongolia is weak in terms of governance related to water management, vulnerable to flood risks, and weak against flood disasters in terms of economy and infrastructure. It is concluded that due to the flood disaster, there could be an economic crisis at the national level.
According to WHO statistics in 2019, the mortality rate among the population of Mongolia due to unsafe drinking water and unsanitary facilitation is 3.2 per 100,000 people. It is 15.0 lower than the global average (18.2) and 13.8 percent lower than the average of Asian countries (17.0). According to 2022 Mongolian health statistics, the national average mortality rate due to unsafe drinking water and unsanitary facilities is 16.5 per 100,000 population. Compared to 2014, there was an increase in mortality per 100,000 people at the national and provincial levels. In Ulaanbaatar, which is the center of the total population, the mortality rate increased from 13.3 in 2014 to 16.2 in 2018 and to 23.2 in 2022. In the provinces, as of 2022, it is 10.7, or 12.5 less than Ulaanbaatar. Mongolia has two main types of water supply: centralized and decentralized, 47.9 percent of the total households in Mongolia (n=941,541) live in a fully equipped apartment with centralized and independent utility system. Drinking water service: The WHO-UNICEF Joint Monitoring Program on Water, Sanitation and Hygiene provides international comparisons of progress estimates in the area of WASH and undertakes global monitoring of the associated Sustainable Development Goals. The monitoring program has produced a report based on national and other estimates on the progress made in the water, sanitation and hygiene sector of the countries of the world for 2000-2022. Below are the figures and facts related to Mongolia included in that report. 84.0% of Mongolia's population (n=2,838,017) have access to basic drinking water services as of 2022.
• 39.0% (n=1,334,883) are directly supplied with drinking water from a safe or qualified source of drinking water;
• 44.0% (n=1,503,134) have access to drinking water less than 30 minutes from a basic or qualified source;
• 5.0% of the population (n=173,237) use surface water or water from rivers, lakes and ponds directly for their drinking water needs Sanitary facilities: As of 2022, 66.0% of Mongolia's population have safe sanitation facilities, of which 70.0% of the population in urban areas and 56.0% in rural areas. Although 25% of the rural population used to defecate in the open in 2015, it decreased by 15% in 2022, but 162,972 people still defecate in the open. In 2022, 0.35% meaning 44,066 of the total household population defecate in the open in rural areas. 76.0% of Mongolia's population has access to handwashing soap and water or basic services at home, and 14.0% has limited access to services (limited access to sinks, soap, and water at the household level). 74% of schools in Mongolia are provided with basic drinking water services. 85% of urban schools and 73% in rural areas are provided with drinking water. The study found that 25% of rural educational institutions spend more than 30 minutes getting drinking water from limited or qualified drinking water sources, and 2% have no drinking water. 70% of urban schools and 18% of rural schools have access to basic sanitation facilities. 18% of rural schools have limited services and 24% have no sanitation facilities. 30% of urban schools have limited sanitation facilities.
As of 2010, 43.5% of the households living at home share the toilet with others, 30.7% use it alone, 25.8% do not have their own toilet, 56.5% of the households pour their waste water into the well, and 43.5% of the households that pour it into the open. Solutions for sanitary facilities have been developed and standards for pit toilets and sinks have been developed and approved. The above 4 types of pit toilets are included in the standard. Hygiene 41% of schools in Mongolia have adequate access to basic hand washing facilities. 53.0% of schools in urban areas and 35.0% in rural areas have access to basic hand washing facilities. 41.0% of rural schools have limited access to sinks, soap, or water for students to wash their hands whenever they get dirty, and 24.0% have no hand washing facilities, or schools do not have handwashing sinks or have no water. 13.0% of urban schools do not have hand washing facilities. Before the pandemic (2020) and in 2022, when the epidemic level will decrease in Mongolia, the knowledge, attitudes and practices of the population about the pandemic have been studied. 83.2 percent (95%CI: 81.5-84.9) of participants reported a change in hand washing frequency. Also, 39.1 percent (95%CI: 37.1-41.2) wash their hands in the correct order, 53.2 percent (95%CI: 51.0-55.5) use soap frequently, and 33.5 percent (95%CI: 31.4-35.8) wash their hands 20 times a day. seconds, but about 9.9% (95%CI: 8.5-11.1) answered that there was no change in hand washing practices.

Introduction: This field assessment was performed to ensure the effective implementation of Order No. A/142 of the Deputy Prime Minister of Mongolia dated 30^th December 2021 and Order No. A/01 of the Head of the National Committee for Reducing Environmental Pollution dated 3^rd January 2022 and to monitor the level of indoor air pollutants emitted from traditional stoves and standard stoves. Purpose: To determine the level of indoor air pollutants emitted from briquette combustion and to develop recommendations by comparing various types of stoves and dwellings. Materials and Methods: Through analytical cross-sectional designs, three households from Songinokhairkhan district and one household from Chingeltei district were selected to participate in this assessment as they use briquettes for heating, vary in their dwelling types (ger (traditional Mongolian tent), house) and their stove types (traditional, standard), stay home during the day and chose to participate in the assessment. 24-hour continuous measurements were conducted for each dwelling and before taking measurements, we calibrated and adjusted the air suction velocity of the measuring instrument at the Central Metrology Laboratory. The monitor was placed at a distance of 0.5m from the stove and a height of 0.5-1.0m from the floor. The results were then compared with the Mongolian National Standard “General air quality and technical requirements MNS4585:2016” and WHO Guidelines for Indoor Air Quality 2021. Statistical analysis was performed using SPSS 24.0 software, mean, ANOVA test, and if the p-value is less than 0.05, our results are statistically significant. Results: The concentration level of SO₂ in houses with “Dul” stoves was within the level specified in the Mongolian standard MNS4585: 2016 and WHO Guidelines for Indoor Air Quality 2021, while 24-hour SO₂ concentration in gers and houses with traditional stoves was 1.3-2.92 times higher than the standards. The 24-hour average concentration of nitrogen dioxide in houses with traditional stoves was 1.73 times higher than the Mongolian air quality standard MNS4585: 2016. There were statistically significant differences in the emission levels of SO₂ and NO₂ depending on dwelling and stove types (df=4, f=4.04, p=0.008 and df=4, f=17.17, p=0.001, respectively.). The 8-hour average (10,000 μg/m3) CO concentration was statistically significant for various types of dwellings and stoves (df=4, f=45.17, p=0.001), whereas there was a statistically significant difference in CO concentrations in gers with traditional stoves and gers with standard stoves in terms of morning, afternoon, and evening hours (df=3, f=33.17, p=0.001). Conclusion Indoor air pollutants in the households except for houses with “Dul” stoves have been determined to exceed the air quality standards set by the Mongolian air quality standards and WHO Guidelines for Indoor Air Quality 2021.

Introduction: During this pandemic, overcrowding in classroom caused by a lack of educational facilities and poor indoor air quality are the main causes of respiratory diseases among children and adolescents. Therefore, it is essential to measure and assess the indoor air quality where children spend extended periods of time such as school. Materials and methods: This study covered four schools with old buildings and four schools with new buildings in Bayanzurkh, Sukhbaatar, Khan-Uul, Chingeltei district of Ulaanbaatar. We collected PM10 and PM2.5, carbon dioxide, air temperature, humidity, and microbiological count from chosen classrooms and compared to the MNS4585:2016 standard. SPSS-24 was used to do statistical analysis on the information gathered during the evaluation. Results and Discussion: The 24-hour average PM2.5 concentration was 64.3 (95% CI: 64.1-64.5) mcg/m3, which was 4.3 times higher than the WHO guideline value and 1.3 times higher than the MNS4585:2016 standard. The 24-hour average PM10 concentration was 85.3 (95 % CI: 85.1-85.6) mcg/m3, which is 1.9 times higher than WHO guideline value. In older school buildings, the 24-hour average PM2.5 concentration was 5.6 times higher than the WHO guideline value and 1.7 times higher than the MNS4585:2016; the average PM10 concentration was 2.8 times higher than the WHO guideline value and 1.3 times higher than the MNS4585:2016. The air temperature and carbon dioxide concentration in classroom was met the MNS4585: 2016. The average relative humidity of all schools is 24.2±6.5%, which is 14-16% lower than the MNS4585: 2016. Conclusion The indoor air quality of the school in new and old buildings was similar poor, therefore a variety of steps are needed to improve it.

Rationale: Carbon monoxide (CO) is a colorless, odorless gas produced by carbon-containing substances, most commonly incomplete fuel and biomass combustion. Carbon monoxide deprives the human body of oxygen, leads to severe poisoning and death. In 2017, there were 137 new cases of carbon monoxide poisoning per 1,000,000 people worldwide, and 4.6 deaths per 1,000,000. The global incidence of carbon monoxide poisoning has remained steady over the previous 25 years, while mortality has decreased by 36-40%. Every year in Mongolia, 700-840 persons are hospitalized for carbon monoxide poisoning. Also, there has been a lack of study into the prevalence and causes of carbon monoxide poisoning and death. Goal: Study the dynamics of morbidity and mortality cases caused by carbon monoxide poisoning in Mongolia. Objectives:
To analyze the carbon monoxide poisoning morbidity recorded in Mongolia between 2016-2020.
To analyze the carbon monoxide poisoning mortality reported in Mongolia between 2016-2020. Material and Methods: The survey was conducted utilizing data from outpatient and inpatient poisoning and deaths reported in 2016-2020 with the goal of studying carbon monoxide poisoning and mortality in Mongolia. Workplace exposure poisoning was excluded from quantitative data on carbon monoxide poisoning (fires, suicidal, accidental and domestic explosions, accidents, external effects).The statistics analysis was performed using 23 versions of the SPSS program, to estimate a distribution of new cases and fatalities per 10,000 population depended on age, sex, average number of hospital days, and standard error. ArcGIS version 10.8 was used to map the locations. Results: Acute carbon monoxide poisoning. Carbon monoxide poisoning was 0.01-0.31 cases per 10,000 population during 2016 and 2018. Between 2019 and 2020, it increased to 1.5-1.9 cases per 10,000 population, with up to 37% of those admitted to hospitals. In the last five years, carbon monoxiderelated deaths have been reported in 0.1-0.3 cases per 10,000 population. The amount of hours firing of the households increases every year in September, when the colder season begins. Incidences of death and intentional poisoning were reported in Arkhangai, Uvurkhangai, Khuvsgulaimags, and Ulaanbaatar. The average age of poisoning patients admitted to the hospital was 33 ± 19.5 years old (minimum 2 months, maximum 81). In terms of gender, women registered for 58.4 (734) percent of all cases. The average number of days spent in the hospital was 3.4± 3.7 days.
Carbon monoxide poisoning-related mortality. During the previous five years (2016-2020), 353 people died in Mongolia as a result of carbon monoxide poisoning, although 1.4 percent, or five people, died in hospitals, one case in Bayan-Ulgii, Zavkhan, and Uvs aimags, and two cases in Ulaanbaatar. However, 98.6 percent of them died prematurely at home or in poisoned places due to a lack of access to health care. The average age of carbon monoxide poisoning deaths cases was 35 ± 19.9 years old, and 71.7 (253) percent were male. The Ulaanbaatar, Selenge, Uvs, and Dornod aimags had the lowest death rate of 0.08-0.21 per 10,000 population, while Khuvsgul and Arkhangai aimags had the highest death rate of 0.96-1.57 per 10,000 population. Conclusions Carbon monoxide poisoning among the population rises during the winter season, however, in the previous five years, 96.5 percent of cases have been poisoned accidentally, particularly 82.6 (1035) percent of cases reported in Ulaanbaatar. According to socioeconomic factors, 41.6 (529) of the cases were male, with an average age of 36.5±15.4 years.
During the preceding five years, carbon monoxide-related mortality in Mongolia was between 0.2 per 10,000 people. Without medical attention, 99.2% of cases died at the exposed location or area. The death rate in Khuvsgul aimags was low, whereas it was high in Ulaanbaatar city. The average age of premature deaths was 35±19.9 years, and 71.7 (253) percent were male.

Introduction: Sanitation facility supply and service availability of Mongolia is essential due to the slow process of bacterial decomposition which is getting significant difficulties because of the cold and arid climate. Only 37 percent of Ulaanbaatar’s population is connected to the central sewerage system, and the majority of ger area residents, or 95 percent, use pit latrines in demand of sanitation facility. Numerous studies have shown that the main contaminant of the soil in ger area were pit latrines. It not only pollutes the environment but also affects human health. There is a lack of awareness about the transmission of infectious diseases and options of new sanitation facilities and poor knowledge and bad conditions to introduce new drainage systems. Most pit latrines in ger areas are of poor quality and do not meet relevant standards. Goal: To determine the effect of ”Gipon” ionized disinfectant solution produced by Japanese technology for disinfecting pit latrines Material and Methods: This study was conducted in December 2019 using a random sampling method. Five households in ger areas were selected and pit latrines were disinfected by ”Gipon” ionized disinfectant solution. Results: The survey covered pit latrines of 5 households in the 21st khoroo of Bayanzurkh district. All owners allowed to participate in the survey. The pit latrines are located approximately 9.8 meters away from the households participated in survey. They have been utilized it for 7.6 years and used by an average of 6 people per day. For inner cover, 60.0 percent are lined with wood, and 40.0 percent are cleaned once a month. Before the use of the disinfectant solution, having taken the swab from door handles, floors and walls of the toilet and were detected Enterobacter spp, E.Coli, and Pseudomonas spp in all samples.
However, after one and 24 hours of spreading of the disinfectant solution, the amount of intestinal coliform bacteria and E. coli was reduced dramatically and in some places no bacterial were detected. 72% of the soil near the latrines in the study covered ger areas was contaminated with bacteria. In terms of E.Coli contamination in soil, 60% of them were contaminated in low degree and 32% were medium and 8% were high degree. Anaerobic microorganisms such as Cl.prefrings were accounted for 82% of the total sample, 19% moderate and 81% low contamination. Conclusion Intestinal coliform bacteria (Enterobacter spp, E.Coli, Pseudomonas spp) and pathogenic bacteria (Serratia spp, Staphylacoccus spp) were not detected and the number of fungi was sharply reduced after 1 and 24 hours using Hypon disinfectant. No intestinal pathogens (Salmonella spp, Citrobacter freundii) were found in the soil near the latrine. The amount of coli titers was reached to the acceptable limits. According to this study, the disinfection activity of “Gipon” solution was ranging from 105 to 104.