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Intracisternal enzyme replacement therapy in lysosomal storage diseases: dispersal pathways, regional enzyme concentrations and the effect of posttreatment posture
Author(s) -
Jolly R. D.,
Marshall N. R.,
Marshall J.,
Hartman A.,
Hemsley K. M.,
Winner L. K.
Publication year - 2013
Publication title -
neuropathology and applied neurobiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.538
H-Index - 95
eISSN - 1365-2990
pISSN - 0305-1846
DOI - 10.1111/nan.12010
Subject(s) - cerebrospinal fluid , biological dispersal , enzyme replacement therapy , enzyme , enzyme assay , central nervous system , biology , anatomy , pathology , medicine , neuroscience , biochemistry , population , environmental health , disease
Aims To investigate routes of dispersal of enzyme, its regional uptake and the effect of posture when replacement enzyme is administered directly into the cerebrospinal fluid ( CSF ). Methods Dispersal pathways of particles and solutes were investigated using intracisternal injections of india ink with visual assessment, and a contrast medium ( I ohexol) with computer tomography ( CT ). Replacement enzyme was measured at 46 loci within the central nervous system ( CNS ) in four groups of dogs subjected to different post‐injection postural changes. Results India ink and CT studies showed dispersal pathways for CSF to be mainly via cisterns and sulci. Replacement enzyme reached all areas of the CNS tested, although mean concentrations varied 49‐fold over different areas of the brain. Posttreatment posture had only modest effects on enzyme uptake in limited anatomical sites. Conclusions Dispersal of solutes after injection is rapid and initially enhanced by the injection process. Preferential pathways for CSF flow in the subarachnoid spaces of the brain involve cisterns and sulci. The splenial and suprasplenial sulci in particular appear important conduits for dispersal to more dorsal and rostral areas of the brain. Expansion and contraction of these sulci during brain pulsation is considered important to the forward flow of solutes in CSF through these compartments. Following intracisternal enzyme replacement therapy, enzyme reached all areas of the brain, but there was considerable disparity of enzyme uptake with some areas recording much higher levels than others. Posttreatment posture made only modest differences to enzyme uptake.

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