BACKGROUND: 24S-Hydroxycholesterol (24OHC) and 27-hydroxycholesterol (27OHC) are two structurally similar oxysterols of different origins--the former almost exclusively formed in the brain and the latter formed to a lesser extent in the brain than in most other organs. HYPOTHESIS TO BE TESTED: Neuronal damage and/or demyelination causes increased flux of 24OHC from the brain into the cerebrospinal fluid (CSF), whereas a defect blood-brain barrier causes increased flux of 27OHC from the circulation into the CSF. METHODS: Isotope dilution-mass spectrometry was used to assay the two oxysterols in CSF and plasma from more than 250 patients with different neurological and geriatric diseases. RESULTS: The CSF-levels of the two oxysterols were much more affected by the different diseases than the plasma levels. Patients with active demyelinating diseases had increased levels of 24OHC in CSF with a relatively high 24OHC/27OHC ratio. Patients with meningitis in general had high levels of both steroids with a low 24OHC/27OHC ratio. Patients with Alzheimer's disease had slightly increased levels of 24OHC in CSF with less increase in 27OHC. Patients with multiple sclerosis had a tendency to have higher levels of 24OHC during active periods with a high 24OHC/ 27OHC ratio. CONCLUSIONS: Measurements of the two oxysterols in CSF and plasma may add significantly to existing biochemical methods for evaluation of neurological diseases.
Leoni, V., Masterman, T., Mousavi, F., Wretlind, B., Wahlund, L., Diczfalusy, U., et al. (2004). Diagnostic use of cerebral and extracerebral oxysterols. CLINICAL CHEMISTRY AND LABORATORY MEDICINE, 42(2), 186-191 [10.1515/CCLM.2004.034].
Diagnostic use of cerebral and extracerebral oxysterols
Leoni, V;
2004
Abstract
BACKGROUND: 24S-Hydroxycholesterol (24OHC) and 27-hydroxycholesterol (27OHC) are two structurally similar oxysterols of different origins--the former almost exclusively formed in the brain and the latter formed to a lesser extent in the brain than in most other organs. HYPOTHESIS TO BE TESTED: Neuronal damage and/or demyelination causes increased flux of 24OHC from the brain into the cerebrospinal fluid (CSF), whereas a defect blood-brain barrier causes increased flux of 27OHC from the circulation into the CSF. METHODS: Isotope dilution-mass spectrometry was used to assay the two oxysterols in CSF and plasma from more than 250 patients with different neurological and geriatric diseases. RESULTS: The CSF-levels of the two oxysterols were much more affected by the different diseases than the plasma levels. Patients with active demyelinating diseases had increased levels of 24OHC in CSF with a relatively high 24OHC/27OHC ratio. Patients with meningitis in general had high levels of both steroids with a low 24OHC/27OHC ratio. Patients with Alzheimer's disease had slightly increased levels of 24OHC in CSF with less increase in 27OHC. Patients with multiple sclerosis had a tendency to have higher levels of 24OHC during active periods with a high 24OHC/ 27OHC ratio. CONCLUSIONS: Measurements of the two oxysterols in CSF and plasma may add significantly to existing biochemical methods for evaluation of neurological diseases.
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