Toxic encephalopathy

Toxic encephalopathy can be caused by various chemicals, some of which are commonly used in everyday life, or cyanotoxins which are bio-accumulated from harmful algal blooms (HABs) which have settled on the benthic layer of a waterbody.

Acute intoxication symptoms include lightheadedness, dizziness, headache and nausea, and regular cumulative exposure to these neurotoxicants over a number of years puts the individual at high risk for developing toxic encephalopathy.

Acute and chronic toxic encephalopathy on the other hand, are persistent changes in neurological function that typically occur with exposure to higher concentrations and longer durations respectively.

The symptoms of acute and chronic toxic encephalopathy do not resolve with cessation of exposure and can include memory loss, dementia, small personality changes/increased irritability, insidious onset of concentration difficulties, headache, lightheadedness, ataxia, involuntary movements (parkinsonism), fatigue, seizures, arm strength problems, and depression.

[2] Magnetic Resonance Imaging (MRI) analyses have also demonstrated increased rates of dopamine synthesis in the putamen, reduced anterior and total corpus callosum volume, demyelination in the parietal white matter, basal ganglia, and thalamus, as well as atypical activation of frontal areas of the brain due to neural compensation.

[5] Subacute toxic encephalopathies are challenging to identify due to their often insidious tempo of evolution, nonspecific manifestations, relative infrequency as individual entities, and frequent lack of specific diagnostic testing.

This article reviews the clinically relevant aspects of some of the more important subacute toxic encephalopathy syndromes caused by inorganic toxins, carbon monoxide (CO), anti- biotics, antineoplastic agents, and psychiatric medications.

In contrast with the idiosyncratic nature of NMS, ST is a spectrum pathophysiological state assumed to derive from excess serotonergic neural transmission caused by serotonin-related psychotropic agents.

In addition, several other pathological conditions potentially causing encephalopathic symptoms in psychiatric patients treated with psychotropic drugs, e.g., hyponatremia, valproate-induced hyperammonemia, transient splenial lesion of the corpus callosum, and so on, are also described.

[citation needed] Management of affected individuals consists of immediate removal from exposure to the toxic substance(s), treatment of the common clinical manifestation of depression if present, and counselling for the provision of life strategies to help cope with the potentially debilitating condition.

[10] Research is being done by organizations such as NINDS (National Institute of Neurological Disorders and Stroke) on what substances can cause encephalopathy, why they do this, and eventually how to protect, treat, and cure the brain from this condition.