PURPOSE: Measuring the cerebrospinal fluid (CSF) production rate is important for understanding the physiology related to normal conditions and neurological disorders. Triggered phase-contrast magnetic resonance imaging (MRI) has been used to measure CSF production rate, but the use of nontriggered phase-contrast MRI has not been reported. The purposes of this study were to assess the feasibility of using nontriggered phase-contrast MRI to measure CSF flow and to determine whether CSF production exhibits circadian rhythm. MATERIALS AND METHODS: The feasibility of phase-contrast MRI was assessed with a phantom simulated human cerebral aqueduct. CSF flow through the cerebral aqueduct was measured with nontriggered phase-contrast MRI four times during 1 day in 10 normal volunteers. RESULTS: In the phantom study, linear regression analysis gave the following measured values (ml/h): 0.80 × (value of steady flow) - 10.0 for triggered phase-contrast MRI and 1.27 × (value of steady flow) - 12.2 for nontriggered phase-contrast MRI. One-factor analysis of variance showed no significant effect of the time of the measurements (P = 0.47). The supratentorial CSF production rate was 510 ± 549 ml/day (mean ± SD). CONCLUSION: Nontriggered phase-contrast MRI provided good estimates of the flow rate in the phantom study. We observed no circadian rhythm in CSF production.
PURPOSE: Measuring the cerebrospinal fluid (CSF) production rate is important for understanding the physiology related to normal conditions and neurological disorders. Triggered phase-contrast magnetic resonance imaging (MRI) has been used to measure CSF production rate, but the use of nontriggered phase-contrast MRI has not been reported. The purposes of this study were to assess the feasibility of using nontriggered phase-contrast MRI to measure CSF flow and to determine whether CSF production exhibits circadian rhythm. MATERIALS AND METHODS: The feasibility of phase-contrast MRI was assessed with a phantom simulated humancerebral aqueduct. CSF flow through the cerebral aqueduct was measured with nontriggered phase-contrast MRI four times during 1 day in 10 normal volunteers. RESULTS: In the phantom study, linear regression analysis gave the following measured values (ml/h): 0.80 × (value of steady flow) - 10.0 for triggered phase-contrast MRI and 1.27 × (value of steady flow) - 12.2 for nontriggered phase-contrast MRI. One-factor analysis of variance showed no significant effect of the time of the measurements (P = 0.47). The supratentorial CSF production rate was 510 ± 549 ml/day (mean ± SD). CONCLUSION: Nontriggered phase-contrast MRI provided good estimates of the flow rate in the phantom study. We observed no circadian rhythm in CSF production.
Authors: P C Buijs; M J Krabbe-Hartkamp; C J Bakker; E E de Lange; L M Ramos; M M Breteler; W P Mali Journal: Radiology Date: 1998-12 Impact factor: 11.105
Authors: G D Silverberg; G Heit; S Huhn; R A Jaffe; S D Chang; H Bronte-Stewart; E Rubenstein; K Possin; T A Saul Journal: Neurology Date: 2001-11-27 Impact factor: 9.910
Authors: Martin M Mortazavi; Christoph J Griessenauer; Nimer Adeeb; Aman Deep; Reza Bavarsad Shahripour; Reza Bavarsad Shahripour; Marios Loukas; Richard Isaiah Tubbs; R Shane Tubbs Journal: Childs Nerv Syst Date: 2013-11-28 Impact factor: 1.475
Authors: Qin Wang; Luisette Delva; Paul H Weinreb; Robert B Pepinsky; Danielle Graham; Elvana Veizaj; Anne E Cheung; Weiping Chen; Ivan Nestorov; Ellen Rohde; Robin Caputo; Geoffrey M Kuesters; Tonika Bohnert; Liang-Shang Gan Journal: Fluids Barriers CNS Date: 2018-03-20