Arsenic is a non-metallic element, and the International Agency for Research on Cancer has identified arsenic and its compounds as carcinogens. Arsenic and its compounds can be absorbed through the respiratory tract, skin and digestive tract, distributed in the liver, kidney, lung and skin, and cause damage. Non-coding RNAs are closely related to arsenic-induced nervous system disorders, cell necrosis, reproductive toxicity, and carcinogenesis. In recent years, the network regulation of microRNAs (miRNAs) , long non-coding RNAs (lncRNAs) , and circular RNAs (circRNAs) among non-coding RNAs in various diseases induced by arsenic has become a new research field. This paper summarizes the existing scientific research results, and expounds the mechanism of miRNAs, lncRNAs and circRNAs in arsenic toxicity, and provides basic data and theoretical basis for the prevention and treatment of arsenic poisoning.
Arsenic/toxicity* ; Arsenic Poisoning ; Humans ; MicroRNAs/genetics* ; RNA, Circular ; RNA, Long Noncoding/genetics*

Objective: To explore the changes of γ-GCS mRNA expression and GSH-PX in serum of workers exposed to manganese in order to provide scientific basis for early diagnosis of manganese poisoning. Methods: In June 2017, a total of 180 workers from a motorcycle manufacturer were selected by stratified random sampling, including 115 welders as the exposure group and 65 administrative office workers as the Control Group, the exposure group was divided into high exposure group (43 persons) and low exposure group (72 persons) according to whether the exposure group exceeded the standard limit. The levels of γ-gcs Mrna expression and GSH-Px activity in serum were determined by Occupational Health Survey, and the differences of γ-gcs Mrna expression and GSH-Px activity among different groups were analyzed. Results: Compared with the control group, the serum GSH-Px activity was lower and the serum γ-GCS mRNA expression level was higher in the exposed group (F=370.52, 275.95, P<0.01) . Compared with the control group, there was significant difference in γ-GCS mRNA expression level and GSH-Px activity (F=0.475、1.06, P<0.01; F=48.53、111.70, P<0.01) . The concentrations of manganese in air, welding dust and urine were positively correlated with the level of γ-GCS mRNA (r=0.71, 0.50, 0.31, P<0.01) The serum GSH-Px activity was negatively correlated with the concentrations of manganese in air, welding dust and urine (r=-0.80, -0.52, -0.30, P< 0.01) , There was no correlation between Serum γ-GSH-Px activity and age and years of exposure (P>0.05) . Conclusion: Serum γ-GCS mRNA expression level and GSH-Px activity level can be used as early biomarkers of manganese poisoning. The concentrations of manganese in workplace air, welding dust and urine manganese in workers are the influencing factors.
Air Pollutants, Occupational ; Dust ; Humans ; Ions ; Manganese ; Manganese Poisoning ; Occupational Exposure/analysis* ; RNA, Messenger/genetics* ; Welding

A 29-year-old male with eleven-year history of hyperkeratotic papules and speckled pigmentation developed cutaneous squamous cell carcinoma. Arsenicosis was confirmed by elevated hair arsenic level, and histopathologic findings of arsenical keratosis and one lesion showing carcinoma-in-situ. Chronic arsenic exposure has been found to activate inflammatory and carcinogenic pathways leading to development of pre-malignant and malignant lesions. A multi-disciplinary approach involving healthcare specialists and environmentalists is crucial in source control and management of long-term complications.
Arsenic ; Arsenic Poisoning ; Carcinoma, Squamous Cell ; Carcinoma In Situ

BACKGROUND: Non-melanoma skin cancers (NMSCs, basal cell carcinoma [BCC], and squamous cell carcinoma, [SCC]) are skin conditions, and the propensity of NMSCs to develop multiple tumors may be associated with some genodermatoses, arsenic poisoning, and chronic exposure to radiation or coal tar. OBJECTIVE: To report our experience of treating multiple NMSCs and to investigate the clinical characteristics of NMSCs. METHODS: We retrospectively evaluated 16 patients who had been diagnosed with NMSCs from May 2010 to December 2014. RESULTS: The male-female sex ratio was 0.6:1 in the patients with multiple BCCs and SCCs. The most frequent age group was the seventh decade (75%). The mean patient age was 76.36 years. The most common involved site was the face, particularly the cheek (54.3%). Nodular BCCs were the most frequent (61.9%), followed by infiltrate BCCs (28.6%) and superficial BCCs (9.5%). Among the SCCs, the moderately differentiated SCCs were the most frequent (50%). More NMSCs were found on the left than on the right side of the head and neck areas in both sexes. Development of BCC (68.8%) was more frequent than that of SCC in sun-exposed areas. CONCLUSION: In our study, differences in the demographic variables, such as age, sex, or residence were found between the patients with multiple BCCs and SCCs. The incidence of BCC has markedly increased, which is mainly because of the increment of aged people in their residence, along with environmental factors. Further cohort studies that include cumulative lifetime sun exposure and a large sample size are needed.
Arsenic Poisoning ; Carcinoma, Basal Cell ; Carcinoma, Squamous Cell ; Cheek ; Clinical Study* ; Coal Tar ; Cohort Studies ; Head ; Humans ; Incidence ; Neck ; Retrospective Studies ; Sample Size ; Sex Ratio ; Skin Neoplasms* ; Skin* ; Solar System

Arsenic is a known human carcinogen and skin manifestations are the earliest and most specific markers of chronic arsenic poisoning. A 43-year-old man from Luzon presented at the Section of Dermatology with a one-year history of hyperkeratotic papules and plaques on the palms and soles. Numerous round hypopigmented macules were scattered on the upper back. Initial 24-hour urine arsenic level was elevated at 288mcg/liter. The patient underwent successful chelation with N-acetylpenicillamine and the palmoplantar keratoses were treated with cryotherapy and topical 20% salicylic acid in white petrolatum. In cooperation with the Department of Health, a comprehensive health and environmental assessment was conducted in the affected communities. This case highlights the role of dermatologists in the diagnosis and management of this public health problem.

Mercury occurs in various chemical forms, and it is different to health effects according to chemical forms. In consideration of the point, the evaluation of the mercury exposure to human distinguished from occupational and environmental exposure. With strict to manage occupational exposure in factory, it is declined mercury intoxication cases by metallic and inorganic mercury inhalation to occupational exposure. It is increasing to importance in environmental exposure and public health. The focus on the health impact of exposure to mercury is more on chronic, low or moderate grade exposure—albeit a topic of great controversy—, not high concentration exposure by methylmercury, which caused Minamata disease. Recently, the issue of mercury toxicity according to the mercury exposure level, health effects as well as the determination of what mercury levels affect health are in the spotlight and under active discussion. Evaluating the health effects and Biomarker of mercury exposure and establishing diagnosis and treatment standards are very difficult. It can implement that evaluating mercury exposure level for diagnosis by a provocation test uses chelating agent and conducting to appropriate therapy according to the result. but, indications for the therapy of chelating agents with mercury exposure have not yet been fully established. The therapy to symptomatic patients with mercury poisoning is chelating agents, combination therapy with chelating agents, plasma exchange, hemodialysis, plasmapheresis. But the further evaluations are necessary for the effects and side effects with each therapy.
Chelating Agents ; Diagnosis* ; Environmental Exposure ; Humans ; Inhalation ; Mercury Poisoning ; Mercury Poisoning, Nervous System ; Occupational Exposure ; Plasma Exchange ; Plasmapheresis ; Public Health ; Renal Dialysis

Animals ; Arsenic Poisoning ; pathology ; Imaging, Three-Dimensional ; Liver ; blood supply ; ultrastructure ; Mice

Mercury is traditionally used as a dye for making amulets in Korea. Inhaling the vapor produced by burning mercury damages major organs, such as the lungs, kidneys, and brain. We herein present a case of a 41-year-old man who complained of abdominal pain and dyspnea. A chest X-ray and computed tomography scan showed infiltration in both upper lung lobes. A thorough medical history revealed that the patient had made amulets prior to developing symptoms, and blood and urine tests confirmed elevated levels of mercury. Dimercaptosuccinic acid was used to chelate the mercury, and methylprednisolone was used to treat the acute lung injury. No kidney or nervous system complications were detected during follow-up. Inhalation of mercury vapor should be suspected in patients with acute lung injury involving both upper lobes.
Abdominal Pain ; Acute Lung Injury* ; Adult ; Brain ; Burns ; Dyspnea ; Follow-Up Studies ; Humans ; Inhalation* ; Kidney ; Korea ; Lung ; Mercury Poisoning ; Methylprednisolone ; Nervous System ; Succimer ; Thorax

Long-term occupational exposure to manganese might cause manganese poisoning, which would had adverse effects on nervous system of workers. The basal nucleus was damaged and dopaminergic neuron was injuried by manganese. The mechanism could be related with interfering the energy metabolism of central nerve, changing neurotransmitters, activating oxidation system and so on. Genetic factors may also plays a significant role in the neurotoxicity caused by manganese. Study the effects of manganese exposure biomarker, the neurotoxicity of biomarkers and the genetic susceptibility to early and susceptibility biomarkers will contribute to the prevention and control of manganese neurotoxicity.
Biomarkers ; Disease Susceptibility ; Humans ; Manganese ; Manganese Poisoning ; Neurotoxicity Syndromes ; Occupational Exposure

Lead, which is widely used in industry, is a common element found in low concentrations in the Earth's crust. Implementations to reduce environmental lead concentrations have resulted in a considerable reduction of lead levels in the environment (air) and a sustained reduction in the blood lead levels of the average citizen. However, people are still being exposed to lead through a variety of routes in everyday commodities. Lead causes health problems such as toxicity of the liver, kidneys, hematopoietic system, and nervous system. Having a carcinogenic risk as well, the IARC classifies inorganic lead compounds as probably carcinogenic to humans (Group 2A). Occupational lead poisonings have decreased due to the efforts to reduce the lead concentrations in the working environment. In contrast, health hazards associated with long-term environmental exposure to low concentrations of lead have been reported steadily. In particular, chronic exposure to low concentrations of lead has been reported to induce cognitive behavioral disturbances in children. It is almost impossible to remove lead completely from the human body, and it is not easy to treat health hazards due to lead exposure. Therefore, reduction and prevention of lead exposure are very important. We reviewed the toxicity and health hazards, monitoring and evaluation, and management of lead exposure.
Antioxidants ; Child ; Environmental Exposure ; Hematopoietic System ; Human Body ; Humans ; Kidney ; Lead Poisoning ; Liver ; Nervous System