The Kadar Timbal Darah pada Kesehatan Anak
Abstract
Timbal merupakan logam berat yang beracun bagi banyak organ, termasuk sistem saraf pusat yang berpotensi menyebabkan kerusakan saraf dan kognitif secara persisten hingga permanen. Potensi toksisitas timbal akan meningkatkan kesadaran tentang bahaya kesehatan terkait paparan lingkungan. Literatur review ini bertujuan mengumpulkan penelitian – penelitian yang berhubungan dengan kadar timbal darah dan efeknya terhadap kesehatan anak. Metode yang digunakan berupa studi literatur dengan metode mencari, menggabungkan inti sari serta menganalisis fakta dari beberapa sumber ilmiah yang akurat dan validPada pedoman asupan mingguan konsumsi timbal yang dapat ditoleransi pada darah adalah ≤5 µg/dl. Hasil dari tinjauan pustka ini ditemukan bahwa bahaya kesehatan terkait paparan lingkungan pada anak dengan jalur masuk paparan dan asal sumber timbal telah banyak dilaporkan. Paparan timbal dalam jumlah yang sangat kecil sekalipun dapat memiliki efek jangka panjang dan lambat yang terakumulasi pada anak-anak. Penurunan fungsi kognitif dimungkinkan pada kandungan timbal lebih rendah dari pedoman asupan mingguan yang dapat ditoleransi. Secara khusus, paparan kronis terhadap konsentrasi timbal yang rendah menyebabkan gangguan perilaku kognitif pada anak-anak. Pengaruh kadar timbal darah pada kesehatan neurobehavior anak berupa pengaruh pada perilaku dan perkembangan mental, neurokognitif dan intelegensia, serta gangguan neurobehavioral pada anak.
Kata kunci: anak, kadar timbal darah, neurobehavior, timbal
BLOOD LEAD LEVELS IN CHILDREN'S HEALTH
ABSTRACT
Lead is a heavy metal that is poisonous to many organs, including the central nervous system which has the potential to cause permanent and permanent nerve and cognitive damage. Potential for lead toxicity will increase awareness about health hazards related to environmental exposure. This literature review aims to gather research related to blood lead levels and their effects on children's health. The method used in the form of a literature study with the method of searching, combining essence and analyzing facts from several scientific sources that are accurate and valid In the guidelines for weekly intake of lead consumption that can be tolerated in the blood is ≤5 µg / dl. The results of this literature review found that health hazards related to environmental exposure in children with exposure to entry and origin of lead sources have been widely reported. Even very small amounts of lead exposure can have long-term and slow effects that accumulate in children. Decreased cognitive function is possible at lead levels lower than the tolerable weekly intake guidelines. Specifically, chronic exposure to low lead concentrations causes impaired cognitive behavior in children. The influence of blood lead levels on children's neurobehavior health in the form of influences on behavior and mental development, neurocognitive and intelligence, as well as neurobehavioral disorders in children.
Keywords: children, blood lead levels, neurobehavior, lead
References
Brown, Mary Jean, and Stephen Margolis. 2012. “Lead in Drinking Water and Human Blood Lead Levels in the United States.” MMWR supplements.
Canfield, Richard L et al. 2003. “Intellectual Impairment in Children with Blood Lead Concentrations below 10 Μg per Deciliter.”
Chang, Se Heon, Seon Bin Yoon, Jae Woong Lee, and Duk Joo Lee. 2013. “What Caused Hemolytic Anemia and Colicky Abdominal Pain? Lead!” Korean Journal of Internal Medicine.
“Chaudhary, Sakshi, et Al. ‘Factors Associated with Elevated Blood Lead Levels in Children.’ Indian Pediatrics 55.1 (2018): 38-40.”
Clark, Jeffrey J., and Andrew C. Knudsen. 2013. “Extent, Characterization, and Sources of Soil Lead Contamination in Small-Urban Residential Neighborhoods.” Journal of Environment Quality.
“Clune, Alison L., Henry Falk, and Anne M. Riederer. ‘Mapping Global Environmental Lead Poisoning in Children.’ Journal of Health and Pollution 1.2 (2011): 14-23.”
Hai, Doan Ngoc et al. 2018. “Lead Environmental Pollution and Childhood Lead Poisoning at Ban Thi Commune, Bac Kan Province, Vietnam.” BioMed Research International.
Hanna-Attisha, Mona, Jenny LaChance, Richard Casey Sadler, and Allison Champney Schnepp. 2016. “Elevated Blood Lead Levels in Children Associated with the Flint Drinking Water Crisis: A Spatial Analysis of Risk and Public Health Response.” American Journal of Public Health.
Havens, Deborah, Minh Hong Pham, Catherine J. Karr, and William E. Daniell. 2018. “Blood Lead Levels and Risk Factors for Lead Exposure in a Pediatric Population in Ho Chi Minh City, Vietnam.” International Journal of Environmental Research and Public Health.
Hou, Shuangxing et al. 2013. A Clinical Study of the Effects of Lead Poisoning on the Intelligence and Neurobehavioral Abilities of Children.http://www.tbiomed.com/content/10/1/13.
“Joint, F. A. O., World Health Organization, and WHO Expert Committee on Food Additives. ‘Evaluation of Certain Food Additives and Contaminants: Seventy-Third [73rd] Report of the Joint FAO/WHO Expert Committee on Food Additives.’ (2011).”
Kim, Hwan Cheol et al. 2015. “Evaluation and Management of Lead Exposure.” Annals of Occupational and Environmental Medicine 27(1).
Liang, Jing, and Jian Su Mao. 2016. “Risk Assessment of Lead Emissions from Anthropogenic Cycle.” Transactions of Nonferrous Metals Society of China (English Edition).
Liu, Jianghong et al. 2013. “Impact of Low Blood Lead Concentrations on IQ and School Performance in Chinese Children.” PLoS ONE 8(5): 65230. www.plosone.org.
Mostafa, Gehan Ahmed, Geir Bjørklund, Mauricio A. Urbina, and Laila Yousef Al-Ayadhi. 2016. “The Positive Association between Elevated Blood Lead Levels and Brain-Specific Autoantibodies in Autistic Children from Low Lead-Polluted Areas.” Metabolic Brain Disease 31(5): 1047–54.
Obeng-Gyasi, Emmanuel. 2018. “Lead Exposure and Oxidative Stress—A Life Course Approach in U.S. Adults.” Toxics 6(3): 42.
Pizzorno, Joseph. 2014. “Glutathione!” Integrative medicine (Encinitas, Calif.)13(1): 8–12. http://www.ncbi.nlm.nih.gov/pubmed/26770075 (July 28, 2019).
Rahmawati, Vita Dewi, and Ima Kharimaturrohmah. 2009. “Gambaran pemantauan pertumbuhan dan perkembangan batita di posyandu sawi deresan rinharjo bantul Yogyakarta.”: 1–6. www.depkes.go.id,.
“Rubin, Rita. ‘Profile: Institute for Health Metrics and Evaluation, WA, USA.’ The Lancet 389.10068 (2017): 493.”
Shen, Zhengtao et al. 2018. “Lead-Based Paint in Children’s Toys Sold on China’s Major Online Shopping Platforms.” Environmental Pollution.
Suparwoko, Suparwoko, and Feris Firdaus. 2007. “Profil Pencemaran Udara Kawasan Perkotaan Yogyakarta: Studi Kasus Di Kawasan Malioboro, Kridosono, Dan UGM Yogyakarta.” Jurnal Logika 4(2).
Zhang, Rui, Vincent L Wilson, Aixin Hou, and Ge Meng. 2015. “Source of Lead Pollution, Its Influence on Public Health and the Countermeasures.” International Journal of Health, Animal Science and Food Safety 2(1).
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