Biomarkers of Brain Damage: S100B and NSE Concentrations in Cerebrospinal Fluid--A Normative Study.

NSE and S100B belong among the so-called structural proteins of the central nervous system (CNS). Lately, this group of structural proteins has been profusely used as specific biomarkers of CNS tissue damage. So far, the majority of the research papers have focused predominantly on the concentrations of these proteins in blood in relation to CNS damage of various origins. Considering the close anatomic and functional relationship between the brain or spinal cord and cerebrospinal fluid (CSF), in case of a CNS injury, a rapid and pronounced increase of the concentrations of structural proteins specifically in CSF takes place. This study inquires into the physiological concentrations of NSE and S100B proteins in CSF, carried out on a sufficiently large group of 601 patients. The detected values can be used for determination of a normal reference range in CSF in a clinical laboratory diagnostics.

Coefficient of energy balance, a new parameter for basic investigation of the cerebrospinal fluid.

BACKGROUND: The concentrations of glucose and lactate in cerebrospinal fluid (CSF) provide important information about energy metabolism in the CSF compartment. To improve our understanding of this information we introduced a new parameter resulting from a formula for calculating the fictitious production of adenosine triphosphate, i.e., the coefficient of energy balance (KEB). METHODS: We evaluated cytology, the concentrations of glucose and lactate and the KEB in the CSF of 948 patients, who were divided into five groups. For statistical analysis we used the Kruskal-Wallis test with post-hoc analysis using the Dunn method and multinomial regression analysis. We determined the specificities and sensitivities of the cytological pictures and the KEB. RESULTS: A KEB>28.0 corresponded to normal energy metabolism in the CSF. A KEB<28.0 corresponded to an increased level of anaerobic metabolism in the CSF during inflammation in the CNS. A KEB<10.0 corresponded to a high level of anaerobic metabolism in the CSF during severe inflammation with an oxidative burst of professional phagocytes in the CNS. The KEB parameter increased the specificities of cytological examinations of the CSF in all cases. CONCLUSIONS: The KEB represents an equation for calculating the fictitious average number of ATP molecules produced in the CSF compartment from one molecule of glucose, and we used it successfully as a new parameter for evaluating energy metabolism status in the CSF.

[Importance of urgent cerebrospinal fluid examination for early diagnosis of central nervous system infections]. / Význam urgentního vysetrení mozkomísního moku pro vcasnou diagnostiku neuroinfekcí.

To a certain extent, the cerebrospinal fluid (CSF) composition reflects the current status of the central nervous system (CNS). Therefore, studying changes in even the most essential CSF parameters provides enormous scope for obtaining valuable information about processes in the CNS in relation to its disorders. The article aims at presenting our current conception of urgent CSF examination with special emphasis on early diagnosis of central nervous infections. In particular, the focus is on evaluating energy conditions in the CSF compartment and permeability of the blood-brain and blood-CSF barriers, CSF cytology, detecting CNS tissue destruction and bleeding into CNS pathways and monitoring the levels of systemic inflammatory activity.