Add to ORKGThe concept of brain barriers or a brain barrier system embraces the blood–brain interface, referred to as the blood–brain barrier, and the blood–cerebrospinal fluid (CSF) interface, referred to as the blood–CSF barrier. These brain barriers protect the CNS against chemical insults, by different complementary mechanisms. Toxic metal molecules can either bypass these mechanisms or be sequestered in and therefore potentially deleterious to brain barriers. Supportive evidence suggests that damage to blood–brain interfaces can lead to chemical-induced neurotoxicities. This review article examines the unique structure, specialization, and function of the brain barrier system, with particular emphasis on its toxicological implications. Typical ex...
Abstract: A number of pathophysiologic manifestations can be distinguished that are characteristic o...
Human exposure to toxic heavy metals is a global challenge. Concurrent exposure of heavy metals, suc...
Manganese (Mn) is essential for brain growth and metabolism, but in excess can be a neurotoxicant. T...
The concept of a barrier system in the brain has existed for nearly a century. The barrier that sepa...
Environmental exposure to neurotoxic metals and metalloids such as arsenic, cadmium, lead, mercury, ...
Metals are frequently used in industry and represent a major source of toxin exposure for workers. F...
An important process in the toxicologic outcome of exposure to metals is their transport from plasma...
Improved living conditions have led to a steady increase in the life expectancy of humans in most co...
Metals are ubiquitous and play a critical role in neurobiology. Transition metals are important beca...
Increased manganese (Mn) use in manufacturing and in gasoline has raised concern about Mn-induced pa...
The presence within the brain of metal compounds at toxic levels, has adverse consequences for cereb...
Background: Lead (Pb), mercury (Hg), and manganese (Mn) are well-known neurotoxic metals. The knowle...
This article introduces the special issue on BloodBrain Barrier and Epilepsy. We review briefly curr...
International audienceLocated at the level of brain capillaries, the blood–brain barrier (BBB) is a ...
Methylmercury (MeHg) causes severe damage to the central nervous system, and there is increasing evi...
Abstract: A number of pathophysiologic manifestations can be distinguished that are characteristic o...
Human exposure to toxic heavy metals is a global challenge. Concurrent exposure of heavy metals, suc...
Manganese (Mn) is essential for brain growth and metabolism, but in excess can be a neurotoxicant. T...
The concept of a barrier system in the brain has existed for nearly a century. The barrier that sepa...
Environmental exposure to neurotoxic metals and metalloids such as arsenic, cadmium, lead, mercury, ...
Metals are frequently used in industry and represent a major source of toxin exposure for workers. F...
An important process in the toxicologic outcome of exposure to metals is their transport from plasma...
Improved living conditions have led to a steady increase in the life expectancy of humans in most co...
Metals are ubiquitous and play a critical role in neurobiology. Transition metals are important beca...
Increased manganese (Mn) use in manufacturing and in gasoline has raised concern about Mn-induced pa...
The presence within the brain of metal compounds at toxic levels, has adverse consequences for cereb...
Background: Lead (Pb), mercury (Hg), and manganese (Mn) are well-known neurotoxic metals. The knowle...
This article introduces the special issue on BloodBrain Barrier and Epilepsy. We review briefly curr...
International audienceLocated at the level of brain capillaries, the blood–brain barrier (BBB) is a ...
Methylmercury (MeHg) causes severe damage to the central nervous system, and there is increasing evi...
Abstract: A number of pathophysiologic manifestations can be distinguished that are characteristic o...
Human exposure to toxic heavy metals is a global challenge. Concurrent exposure of heavy metals, suc...
Manganese (Mn) is essential for brain growth and metabolism, but in excess can be a neurotoxicant. T...