The neurobehavioral implications of the brain and microbiota interaction.

In the past, microorganisms were not considered to be particularly important in brain development and functioning. However, recent evidence shows the existence of a bidirectional, and possibly multidimensional relationship between the body microbiota and the brain. The microbiota influence brain behavior in health or disease, by utilizing endocrine, neurocrine and immunologic signaling pathways. Also, the chemical mediators involved range from known neurotransmitters to small peptide molecules. Here, we discuss the evidence that currently exists in experimental animals and/or humans in support of the existence of a relationship involving the skin/gut microbiome, the brain, and behavior; and the mechanisms involved in such interactions. The implications of such interactions for shifts in behaviors, and the pathogenesis of behavioral and neurodegenerative disorders are also discussed. Finally, the possible clinical applications of deliberate manipulations of the microbiota composition and density for the management or prevention of behavioral and neurodegenerative disorders is discussed.

Prevalence of Plasmodium falciparum Parasitaemia and Its Correlation with Haematological Parameters among HIV-Positive Individuals in Nigeria.

Malaria and HIV are the two most important health challenges of our time. Haematologic abnormalities are features in Plasmodium falciparum infection, and anaemia is a well-known outcome. The prevalence and haematological impact of P. falciparum parasitaemia were determined among HIV-infected individuals in Nigeria. Parasite detection was carried out using microscopy and Polymerase Chain Reaction (PCR). Haemoglobin concentration was determined using an automated machine while CD4+ T-cells count was analyzed using flow cytometer. Thirty-seven (18.5%) out of the 200 HIV individuals enrolled had malaria parasites detected in their blood. All the positive cases were detected by PCR while only 20 (10%) were detected by thick blood microscopy. The mean haemoglobin concentration and packed cell volume (PCV) of HIV individuals with malaria parasitaemia were lower compared to those without malaria parasitaemia but the difference was not statistically significant. Also no significant difference was observed in malaria positivity in respect to sex and mean CD4+ cell count. The study highlights the effects of P. falciparum parasitaemia on the haematologic and immune components of HIV individuals.