Polycyclic Aromatic Hydrocarbons (PAHs) Contamination in Chrysichthys nigrodigitatus Lacépède, 1803 from Lake Togo-Lagoon of Aného, Togo: Possible Human Health Risk Suitable to Their Consumption.

The Lake Togo-Lagoon of Aného is located in the coastal zone where phosphorite mining is carried out. This mining discharges all kinds of waste such as fuel oil into the surrounding environment without prior treatment. Moreover, the hydrosystem receives runoff and river inputs after having crossed and leached from mining and urban soils. This study aims to determine the polycyclic aromatic hydrocarbons (PAHs) contamination in commercially consumed fish species (Chrysichthys nigrodigitatus) from that hydrosystem and the associated health risks for consumers. For that, fish sample collection was performed during the dry season. Afterwards, their muscles, gills, and livers were cut and 12 PAHs were analyzed using gas chromatography coupled with a mass spectrometer (GC-MS). The total PAHs (tPAHs) concentrations in fish tissues ranged from 5.24 to 48.40 µg/kg with average concentration of 14.51 ± 8.95 µg/kg in muscles, from 5.90 to 28.20 µg/kg averaging 14.90 ± 5.19 µg/kg in gills, and from 43.20 to 149.00 µg/kg with an average of 80.74 ± 27.08 µg/kg in livers. The average concentrations of low molecular weight PAHs (LMW PAHs) were 10.82 ± 9.61 µg/kg in muscles, 8.25 ± 5.43 µg/kg in gills, and 47.97 ± 22.56 µg/kg in livers whereas those of high molecular weight of PAHs (HMW PAHs) were 4.10 ± 2.14 µg/kg in muscles, 7.98 ± 3.96 µg/kg in gills, and 32.77 ± 8.66 µg/kg in livers. An overall trend of decreasing concentrations with increasing fish size classes was observed for some PAHs (Naphtalene, Pyrene in muscles, for Pyrene, Benzo(a)Anthracene, Chrysene in gills and for Naphtalene, Phenanthrene in livers). The PAHs in these fish might have pyrogenic and petrogenic sources, with the dominance of pyrogenic, and all of the total hazard quotients (THQ) are less than 1. This situation must not be neglected for better planning sustainable management of the target ecosystem.

State of the art of the management of medical and biological laboratory solid wastes in Togo.

The biomedical analysis laboratory is a structure intended to carry out biological, immuno-serological, biochemical, hematological or other examinations of substances of human origin to provide information useful for the diagnosis, management, prevention or treatment of diseases. These laboratories produce solid and liquid biomedical waste (BMW) that constitutes a serious health problem for humans and their environment. Temain goal of this study is to assess the management of solid BMW produced by biomedical laboratories in Togo. It is a descriptive, exploratory and transverse study that took place from March 5 to July 5, 2018. Through a systematic random sampling 82 public and private biomedical analysis, laboratories were selected and submitted to a questionnaire. Direct observation and an interview were made with the managers of these laboratories to assess the state of BMW management. The assessment of BMW management of the prospected centers showed that among the 67.1% of public centers and 32.9% of private centers present in the study sample, only 26.3% present all laboratory units and together in 87.8% of cases. Males predominate in these facilities (85.3%) with an average age of 37.07 ± 7.34 years and work experience of 10.24 ± 5.81 years. While in 67.0% of the cases, the location of waste storage is available, only 18.3% of these locations meet international requirements. Incinerators were available in 72.0%. Plastic pedal/balance garbage cans were the most commonly used tools for collection in 32.9% of the facilities. Black bags are used 82.9% for collection. Waste generation is significant with 13.4% of the laboratories producing more than 8 kg/d. Gloves were available and taps in sufficient number in the laboratories. The most common health problems reported were respiratory disorders (32.9%) followed by gastrointestinal disorders (17.1%). BMW is in most cases (18.3%) disposed of in public dumps, while 72% of producers have received training on BMW management. The problem of BMW management remains a concern in health facilities in Togo. Safe disposal of BMW is therefore necessary.

Distribution of Fluoride in the Phosphorite Mining Area of Hahotoe-Kpogame (Togo).

BACKGROUND: Phosphorites in the mining area of Hahotoé-Kpogamé contain high levels of fluoride that can cause illness among people living close to the mining and processing sites. OBJECTIVES: To assess the distribution of fluoride in the different areas around the phosphorite mining areas in Togo. METHODS: Analyses were performed by molecular absorption spectrometer (HACH DR3800) according to the procedure manual at the geochemical laboratory of the University of Lomé. The sodium 2 - (parasulfophenylazo) - 1,8 - dihydroxy - 3,6 - naphthalenedisulfonate (SPADNS) method was used to determine fluoride contents and the PhosVer® 3 with acid persulfate digestion method was used to measure phosphorus pentoxide (P2O5). GraphPad Prism version 3.0 software was used for the data processing. RESULTS: The surface water of the mining sites had a fluoride content ranging from 0.38 to 3.52 mg/l (average = 1.33 mg/l; n = 10, n is the number of samples). Groundwater in this area had a fluoride content between 0.15 mg/l and 1.39 mg/l (average = 0.58 mg/l, n = 15). In the groundwater in the villages around the phosphorite processing plant, the fluoride content ranged between 0.15 and 0.63 mg/l (average = 0.41 mg/l; n = 22). The fluoride content in the water of the phosphorite mining area was higher than in Gbodjomé (reference area). Meanwhile, assessment of the effluents discharged into the ocean had a fluoride content ranging from 12 to 20 mg/l. In dusts, the P2O5 and fluoride contents were 36.02% and 1.85%, respectively. Vegetables from the local market garden produce showed levels of fluoride up to 2.06%. The average contents of P2O5 and fluoride in one of the phosphorite profiles were 32.38% and 3.00%, respectively. A significant correlation was observed between P2O5 and fluoride. CONCLUSIONS: The correlation between P2O5 and fluoride in phosphorites shows that phosphorite mining is the main source of fluoride pollution in this area.