Abstract
160 cases of acute sodium silicon fluoride poisoning due to accidental intake are reported in this paper. Owing to the great amount of the chemical taken, the onset was abrupt and the digestive symptoms were prominent and severe. Twelve cases had acute gastritis or acute ulceration as shown by gastroscopy. The cardiovascular findings were notable. Ninety-six cases had abnormal electro-cardiographic findings. Abnormal heart rhythm and S-T segment changes were the main findings. These changes were positively correlated with the toxin amount of fluoride. Two cases died from sudden arrest of heart beat. Lung, kidney, liver, and brain functions were also impaired. The authors suggested diagnostic criteria and control procedures.
-
-
A fatality due to ingestion of hydrofluoric acid.
We report a fatal case of hydrofluoric acid (HF) ingestion with suicidal intent. Quantitation using an ion-selective electrode for fluoride in fresh bile, gastric contents, kidney, liver, skeletal muscle, urine, and vitreous humor yielded 6.5, 39.0, 10.0, 6.0, 4.5, 5.0, and 4.5 ppm, respectively. In addition to the unfixed specimens,
-
The physiologic and hygienic aspects of the absorption of inorganic fluorides
Physiologic and hygienic aspects of the absorption of inorganic fluorides are reviewed. Three basic shortcomings in fluoride research are noted: its intake into the system, assimilation, and excretion are subject to great variation between persons; in contrast to extensive biochemical advances in fluoride research, relatively little clinical data is available
-
New data for the validation of the mean daily maximum permissible concentration of hydrogen fluoride in atmospheric air
1. Round-the-clock exposure to hydrogen fluoride concentrations of 0.10 and 0.03 mg/m3 causes inhibition in the central nervous system, decreases the activity of a number of enzymes, impairs the phosphorus-calcium metabolism, and causes the accumulation of fluorine in the body and damage to the internal organs and bone tissue. 2. A
-
Studies on the DNA and RNA contents of heart, liver and kidney of rats with chronic fluorosis
17 rats with chronic fluorosis induced by prolonged drinking of water containing 50 ppm fluorine and 17 rats drinking low-fluorine water served as control were used to study the DNA and RNA contents of heart, liver and kidney. The findings suggest that excessive accumulation of fluorine can suppress the synthesis
-
Histological and chemical studies in man on effects of fluoride
The presence of elevated concentrations of fluorides in the atmosphere has been associated with changes in certain plants and an increase in the fluoride content of forage in certain areas in Utah. Long-term ingestion of such forage by some animals has produced changes characteristic of fluorosis in some of them.
Related Studies :
-
-
-
Fluoride & Arteriosclerosis
Healthy arteries are flexible and elastic, allowing efficient transfer of blood and nutrients from the heart to the rest of the body. Arteriosclerosis refers to a stiffening of the arteries, including loss of elasticity. This is a slow, progressive disease that may begin early in life from damage to the
-
Fluoride & Myocardial Damage
Structural damage to the heart resulting from fluoride toxicity has been observed in numerous human and animal studies. The general features of this damage include cloudy swelling, vacuolization or vacuolar degeneration, hemorrhages, interstitial edema, fibrous necrosis, dissolution of nuclei, and thickening of the vessel walls in the heart muscle (Basha
-
Fluoride & Arterial Calcification
The major change involved with cardiovascular disease is development of atherosclerosis in critical arteries, which is partially characterized by vascular calcification. The level of coronary artery calcification is thought to be the most important indicator of future cardiovascular events. Increased arterial calcifications have frequently been reported in those with skeletal fluorosis
-
NRC (2006): Fluoride's Neurotoxicity and Neurobehavioral Effects
The NRC's analysis on fluoride and the brain.
-
Fluoride's Direct Effects on Brain: Animal Studies
The possibility that fluoride ingestion may impair intelligence and other indices of neurological function is supported by a vast body of animal research, including over 40 studies that have investigated fluoride's effects on brain quality in animals. As discussed by the National Research Council, the studies have consistently demonstrated that fluoride, at widely varying concentrations, is toxic to the brain.
Related FAN Content :
-