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Introduction@#Among the endocrine, nutritional, and metabolic disease and thyroid disorders occupy a significant place. According to the World Health Organization, 8-18% of the world’s population suffer from thyroid disorders. In our country, no research on the prevalence of the disorders has been conducted before, and this research methodology was discussed by the Scientific committee of the National Center for Public Health and was approved by resolution No.156 of the Ethics Committee of the Ministry of Health on 2020. @*Materials and Methods@#In order to determine the prevalence of thyroid disease in the country, we collected the actual number of thyroid disorders registered in 9 districts of the capital city and 330 soums of 21 aimags for a total of 10 years from 2011 to 2020. The prevalence of thyroid disorders was mapped using Arc view and GIS software.@*Results@#Endocrine, nutritional and metabolic disease account for 2.3% of all outpatient cases. Endocrine, nutritional, and metabolic disease accounted for an average of 168.3 per 10000 population over the past 10 years, and thyroid disorders accounted for 45 or 26.7% of endocrine, nutritional, and metabolic diseases. Thyroid disorders are highest in people aged 40-49 years. </br>Thyroid toxicity is the most common type of thyroid disease in Mongolia, accounting for 56.2%, with an average of 17.2 per 10000 population in 2011-2020. However, iodine deficiency-related thyroid disease accounts for 5.5% of all thyroid disorders, with an average of 2.5 per 10000 population in 2011-2020. In 2011, it decreased by 2.2 per 10000 population, and by 2020, it decreased by 0.2 per thousand to 2.0, but in the last 5 years, it has increased by an average of 2.4 per 10,000 population, and in the last 5 years it has increased by 0.2 per thousand, or 2.6 per 10,000 population. Morbidity is high in the Khangai and Central regions.
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Background@#Lead is known for their neurotoxicity and compared to adults, children are more vulnerable to lead exposure. Varieties of diseases are developed by lead induced damage in children, including decreased intelligent quotient and behavioral changes, such as anxiety. In normal condition lead does not exist in children’s blood and this toxic heavy metal enters into human body through respiratory way and accumulates in blood and bone to harm neurodegenerative and urinary systems. Therefore, the present study aimed to investigate whether the emitted lead from recycling factory for lead acid batteries, which is located in 9 km distance from Khonkhor town and 39 km faraway from Ulaanbaatar city with north-east direction, is affecting the intelligence of the local children.@*Methods@#There are 13 children involved in this study and the participants are divided into two groups, including subjects, who live in areas outside (n=10) and within (n=3) the 1000 m region of the factory zone. The blood sampling was collected according to WHO guidelines and lead level in blood was determined by Leadcare instruments at Environmental health and toxicological laboratory of National Center for Public Health. The intelligence analysis was conducted by Raven’s progressive matrices test. And the statistical analysis was performed by SPSS 21 software to assess correlation of blood lead levels and the intelligence among participated children. @*Results@#It is resulted that average lead level for children’s blood samples is 3.1±1.5 ug/dL and which is found beyond the acceptable range in WHO guidelines. The children’s intelligence was assessed by Raven’s colored Progressive Matrices analysis, which is practically accepted in China, which estimated that average intelligence score of participants were 48.3±13.2. According to correlation analysis of age, sex, intelligence and blood lead level, there was a weak positive correlation was found between children’s age and lead level in blood. In contrast, a weak reverse correlation was observed in regarding with sex and blood lead level and intelligence score was weakly reverse correlated with the lead level in children’s blood samples.@*Conclusions@#The determined average lead level was 3.1±1.5 ug/dL for blood samples collected from 13 children who involved in this study and the value is found under the WHO guidance value. Furthermore, their average intelligence score was estimated as 48.3±13.2. The comparative analysis shown that intelligence score of 3 children, who lives within 1000 m region of the recycling factory was lower than those who lives in outside region of the factory and have same age.
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BACKGROUND:Nano is a key technology to bring accelerated development in science, economy and business in 21stcentury. Besides lots of advantages contained in nanoproducts, cytotoxic effects on human and environmentmay occur due to their extreme small size and large surface area and it promotes chemical reaction andactivates reactive oxygen species in the cell. In the last few decades, human and environment exposureof nanomaterials have been increasing, but research papers related to nanomaterial toxicity have beenpoor.GOAL: Determination of nanomaterial toxicity in medical applicationMATERIALS AND METHODS:Totally 21 nanomaterials collected in this study including imported nano-medicines, disinfectantspray, cleaning solution and experimental nanomaterial produced in Mongolia. The particle sizesof nanomaterialswere determined by Cross correlation analysis and X-Ray diffraction analysis, andmutagenicity was determined by Ames test.RESULTS:The particle sizes of nanomaterials in 5 of 21 were measured at the range of 1 – 100nm and 5 of 21nanomaterials were determined as mutagenic by Ames test.CONCLUSION:Ingredients and production methods can be one of causes of nanomaterial toxicity. Therefore, morespecific methods are needed to reveal cytotoxicity of nanomaterials in the future.