Air Pollution and Its Adverse Effects on the Central Nervous System.

Air pollution is recognized as a significant public health problem and is associated with illnesses of the central nervous system (CNS) as well as neuroinflammation and neuropathology. Air pollution may cause chronic brain inflammation, white matter abnormalities, and microglia activation, which increases the risk of autism spectrum disorders, neurodegenerative disorders, stroke, and multiple sclerosis (MS). Methods: A literature review was done on "PubMed, EMBASE and Web of Science" on the relationship of air pollution with MS and stroke, using the keywords "air pollution" OR "pollution"; "ambient air pollution," "particulate matter, ozone, black carbon" AND "stroke" OR "cerebrovascular diseases," "multiple sclerosis," "neuroinflammation," or "neurodegeneration." Results: We first identified 128 articles and their related websites, of which 44 articles were further selected for analysis mainly based on study relevance, study quality and reliability, and date of publication. Further studies on air pollution and its adverse effects on the CNS are needed. The findings of such studies will support the development of appropriate preventive measures in the future.

Neurobiology of Amphetamine use in Stroke Recovery Combined with Rehabilitative Training and Brain Stimulation.

Stroke is a physiological disorder involving a prolonged local interruption of cerebral blood flow. It leads to massive neuronal death and causes short-term or long-lasting functional impairment. Most stroke victims regain some neural function weeks or months following a stroke, but this recovery can plateau six months or more after the injury. The goal of stroke therapy is the rehabilitation of functional capabilities, especially those affecting the patient's autonomy and quality of life. Recent clinical and animal studies combining acute dextro-amphetamine (d-AMPH) administration with rehabilitative training (RT) have revealed that this treatment has significant remedial effects. The review aims to examine the synergistic therapeutic effects of d-amphetamine coupled with RT, administered during the early or late subacute period, on neuronal activation, anatomic plasticity, and skilled motor function in a middle-aged rodent stroke model. The treatment will also include magnetic field stimulation. This review will help increase understanding of the mechanism of d-amphetamine coupled with RT and magnetic field stimulation and their converging therapeutic effects for stroke recovery.