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High volume hypernatremia can be due to hyperaldosteronism, excessive administration of intravenous normal saline or sodium bicarbonate, or rarely from eating too much salt. [1] [2] Low blood protein levels can result in a falsely high sodium measurement. [4] The cause can usually be determined by the history of events. [1]
In 2004–2005, an Internet rumor was being spread that claimed that LSD (and other drugs) were being diluted with water to extremely low concentrations, which allegedly made the drugs even more powerful, yet cheaper and undetectable. [112] This is related to the pseudoscientific "Law of Infinitesimals", one of the principles behind homeopathy ...
Some of the most common naturally occurring brain toxins that lead to neurotoxicity as a result of long term drug use are amyloid beta (Aβ), glutamate, dopamine, and oxygen radicals. When present in high concentrations, they can lead to neurotoxicity and death ( apoptosis ).
A puff of this, and the world transforms into a colorful kaleidoscope of dancing patterns and waves of sound; a sip of that, and the muscles in your body relax like jello. We know different drugs ...
Drinking too much water too quickly can impair both brain function and electrolyte levels. When sodium levels in your blood drop to less than 135 millimoles per liter, you are considered to be in ...
Water toxicity is usually caused from taking in too much water, Dr. Kino says. However, the Cleveland Clinic points out that, less commonly, you can lose too much sodium from your body, leading to ...
In addition, water cure, a method of torture in which the victim is forced to consume excessive amounts of water, can cause water intoxication. [1] Water, like any other substance, can be considered a poison when over-consumed in a brief period. Water intoxication mostly occurs when water is being consumed in a high quantity provoking ...
An opioid overdose results from over-activation of these receptors, which can cause permanent brain damage from cerebral hypoxia or neurotoxicity. [ 33 ] [ 7 ] Mu receptors have an analgesic effect on the brain, and are found in various parts of the nervous system including the cerebral cortex and thalamus . [ 16 ]