Perinatal experience alters brain development and functional recovery after cerebral injury in rats

Gibb, Robbin Lynn, University of Lethbridge. Faculty of Arts and Science

January 2004

Brain damage in the first week of life is behaviorally and anatomically devastating for a rat. I investigated the use of pre- and/or postnatal experience as interventions that might improve the outcomes in rats with postnatal day 4 (P4) frontal cortex lesions. Prenatal maternal tactile stimulation or maternal complex housing facilitated recovery in P4 lesion animals and produced changes in brain organization. Post-lesion tactile stimulation also was found to be beneficial possibly via experience dependent changes in FGF-2 expression. Levels of FGF-2 were increased in both skin and brain after tactile stimulation and correlated with behavioral and anatomical changes. Direct post-lesion administration of FGF-2 had similar effects. These results are the first demonstration that prenatal experience can be prophylactic for postnatal brain injury and that behavioral experience can act on brain organization via enhanced trophic factor expression originating in skin. / xxi, 221 leaves : ill. ; 28 cm.

Brain -- Wounds and injuries -- Research

Dissertations, Academic

Brain damage -- Research

Rats -- Physiology

System to compress while electrically stimulating hippocampal brain slices (SCWESH) : design, development, and electromechanical validation

Harp, Phillip Allan

08 1900

No description available.

Brain Wounds and injuries

Brain injuries Rehabilitation

Brain damage Research

Hippocampus (Brain)

Factors influencing functional recovery following hemidecortication in rats

Day, Morgan M., University of Lethbridge. Faculty of Arts and Science

January 2005

Large neocortical lesions, such as hemidecortication, are detrimental for motor and cognitive skills. This thesis investigates the effect of age at the time of lesion on functional outcome. Attempts were then made to improve the outcome by using two simple treatments, tactile stimulation and Fibroblast Growth Factor-2 (FGF-2). The functional outcome of animals was measured using a series of behavioural tests (Morris water task, skilled reaching, forelimb placing during spontaneous vertical exploration, and the sunflower seed task). A qualitative difference was noted between animals that received hemidecortication at post natal day ten (P 10) versus animals that received a hemidecortication in adulthood (postnatal day, P 90). When the tactile stimulation treatment was used on animals that received P 10 hemidecortication, cognitive and motor improvements were noted. The same was not true for injections of FGF-2. When given after P 10 hemidecortication, this treatment impaired the cognitive abilities of rats in the Morris water task. There are two main points from this project: 1) overall functional recovery is not better or worse but simply different based on the age at which the trauma occurred and 2) treatments have varied success with different types of brain injury. / x, 123 leaves ; 29 cm.

Dissertations, Academic

Brain -- Wounds and injuries -- Research

Rats as laboratory animals

Brain damage -- Research

Dietary choline and vitamin/mineral supplement for recovery from early cortical injury

Halliwell, Celeste, University of Lethbridge. Faculty of Arts and Science

January 2003

Early cortical injury has been attributed to the consequential effects of various factors, such as alcohol, drug addiction, smoking, and inadequate nutrient intakes during periods of pregnancy and lactation, or delivery of infants by forceps, and premature deliveries. These are only a few examples of circumstances, or "injury", that may result in disorders ranging from mild learning difficulties to aggressive behaviour. Injury to the cortex during the early years of development has been know to result in poor behavioural outcome into adulthood. Presently, the most common form of treatment includes a pharmacological agent, which may be accompanied with behavioral modification therapies supported by families. As an alternative form of therapy towards the treatment of early cortical injury, choline and a vitamin and mineral supplement (EM Power+) were used to determine the possibilities of nutrition intervention in an animal model. The injuries were incurred by aspiration lesion at days three, (Exp.1) and four, (Exp.2) and lesions were localized to the midline medial frontal cortex in some rats, while a different group of rats received lesions in the posterior parietal cortex. The pre-and postnatal choline treated animals showed favorable results for the medial frontal lesions, and the postnatal vitamin supplement treated animals showed favorable results for treatment in both medial frontal and posterior parietal lesions. All animals were tested in adulthood indicating that nutrition intervention is very beneficial for alleviating some of the functional deficits commonly seen from early cortical injury. / xiv, 191 leaves : ill. ; 28 cm.

Minerals in nutrition -- Therapeutic use

Choline -- Therapeutic use

Rats as laboratory animals

Brain damaged children -- Nutrition

Dissertations, Academic

Brain damage -- Research