Intracranial biomechanics of acute experimental hydrocephalus in live rats.
Neurosurgery
; 71(5): 1032-40, 2012 Nov.
Article
de En
| MEDLINE
| ID: mdl-22806081
ABSTRACT
BACKGROUND:
The mechanisms of hydrocephalus formation remain unclear.OBJECTIVE:
To measure intracranial biomechanical changes in rats with hydrocephalus.METHODS:
Stress-strain relationships were determined by using force-controlled indentation through a craniotomy. Cortical blood flow and intracerebral pressures were monitored. In normal rats, deformability of intracranial contents was examined by applying 100 (20-100 mN) indentation cycles and during a 2-hour stress (100 mN) holding test. Hydrocephalus was induced in 56-day rats by cisternal kaolin injection. Magnetic resonance imaging was used to measure ventricle size and cortical blood flow.RESULTS:
Application of a constant small force for 2 hours or 100 cycles of a small indentation caused progressive intracranial deformation. Following kaolin injection, the ventricles of 3- to 4-day, 7- to 9-day, and 12- to 15-day hydrocephalic rats progressively enlarged, the dorsal cerebrum thickness decreased by >40%, and cortical blood flow decreased by â¼20%. After 3 to 4 days, intracranial pressure and intraparenchymal pulse pressure increased significantly by â¼85%, and diminished thereafter. After 7 to 9 days, there was a transient significant increase of the intracranial stiffness (indentation modulus). Viscoelastic strain during application of a constant force significantly increased by >50% at 7 to 9 and 12 to 15 days.CONCLUSION:
The observation that very small forces applied exogenously or endogenously (through pulsatile brain micromotions) cause progressive intracranial deformation suggests that the brain behaves in a poroviscoelastic manner. Intracranial pulsatility is increased during the early phases of ventriculomegaly. Small viscoelastic property changes of the intracranial contents accompany the ventriculomegaly. Consolidation of brain tissue by the pulsatile forces likely occurs through displacement of intraparenchymal fluids.
Texte intégral:
1
Collection:
01-internacional
Base de données:
MEDLINE
Sujet principal:
Vigilance
/
Cortex cérébral
/
Hydrocéphalie
Limites:
Animals
Langue:
En
Journal:
Neurosurgery
Année:
2012
Type de document:
Article
Pays d'affiliation:
Canada