Article ID Journal Published Year Pages File Type
4326441 Brain Research 2010 9 Pages PDF
Abstract

Germinal matrix/intraventricular hemorrhage (GMH/IVH) is a complication that arises in premature infants associated with neurological sequelae. Greater understanding of GMH/IVH is needed to develop therapies, a goal that depends on the existence of appropriate animal models. Towards this goal, we aimed to develop a rodent model of GMH/IVH based on collagenase-induced hemorrhage that exhibits histological and neurological consequences similar to that seen in patients. Male 6-day-old rats were placed on a warming pad and anesthetized with halothane/nitrous oxide delivered by face mask. Uni- or bilateral periventricular injections of 2-μl collagenase (2.0 U) were performed freehand with a needle inserted percutaneously. Sham rats were infused with saline. Early neonatal development, long-term motor and cognitive performances and alterations in brain volume were assessed. Collagenase-based GMH/IVH negatively affected ambulation, surface righting and negative geotaxis outcomes more evidently in bilaterally infused rats, which also presented an early decrease in brain volume, as assessed by the Cavalieri method. In adult animals, a unilateral collagenase infusion produced no significant alteration on forepaw preference. Only bilaterally infused rats presented an impairment of object recognition memory and locomotor deficit. Nevertheless, histological evaluation also demonstrated a persistent brain volume reduction in bilaterally infused rats. Our study provides a pioneering animal model of collagenase-based GMH/IVH, which can be used to evaluate preventive strategies and potential therapeutic interventions for this disorder.

Research Highlights► Collagenase-based GMH/IVH produced neurobehavioral development delay. ► Rats bilaterally injected with collagenase presented long-term motor performance reduction together with cognitive impairment. ► Rats bilaterally injected with collagenase presented a persistent brain volume reduction.

Related Topics
Life Sciences Neuroscience Neuroscience (General)
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