CSF pressure assessed by lumbar puncture agrees with intracranial pressure
N Lenfeldt, LOD Koskinen, AT Bergenheim, J Malm… - Neurology, 2007 - AAN Enterprises
N Lenfeldt, LOD Koskinen, AT Bergenheim, J Malm, A Eklund
Neurology, 2007•AAN EnterprisesThe accuracy of estimating intracranial pressure in brain tissue (ICPBT) via lumbar space
was investigated using preset pressure levels in the interval 0 to 600 mm H2O in patients
with communicating hydrocephalus. Lumbar space ICP correlated excellently to ICPBT,
demonstrated by a measured mean difference of 10 mm H2O (0.75 mm Hg) and a
regression coefficient of 0.98. The concurrence supports the lumbar puncture as an accurate
technique to determine ICP in patients with communicating CSF systems.
was investigated using preset pressure levels in the interval 0 to 600 mm H2O in patients
with communicating hydrocephalus. Lumbar space ICP correlated excellently to ICPBT,
demonstrated by a measured mean difference of 10 mm H2O (0.75 mm Hg) and a
regression coefficient of 0.98. The concurrence supports the lumbar puncture as an accurate
technique to determine ICP in patients with communicating CSF systems.
The accuracy of estimating intracranial pressure in brain tissue (ICPBT) via lumbar space was investigated using preset pressure levels in the interval 0 to 600 mm H2O in patients with communicating hydrocephalus. Lumbar space ICP correlated excellently to ICPBT, demonstrated by a measured mean difference of 10 mm H2O (0.75 mm Hg) and a regression coefficient of 0.98. The concurrence supports the lumbar puncture as an accurate technique to determine ICP in patients with communicating CSF systems.
American Academy of Neurology以上显示的是最相近的搜索结果。 查看全部搜索结果