2017
DOI: 10.1016/j.ijdevneu.2017.10.002
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Disruptions to the cerebellar GABAergic system in juvenile guinea pigs following preterm birth

Abstract: The present findings suggest that components of the cerebellar GABAergic system of the ex-preterm cerebellum are disrupted. The higher expression of myelin in the preterm males may be due to a deficit in axonal pruning, whereas females have a deficit in myelination at 28 corrected days of age. Together these ongoing alterations may contribute to the neurodevelopmental and behavioural disorders observed in those born preterm.

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Cited by 23 publications
(32 citation statements)
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“…6 In our clinically relevant guinea pig model, 13 we have shown premature loss of allopregnanolone significantly decreases myelination in the hippocampus, subcortical white matter and cerebellum, key areas involved in memory and learning, and that these deficits are maintained until juvenility. 6,[14][15][16][17] Interestingly, the deficits observed are associated with disturbances in behaviour, supporting a role for reduced allopregnanolone in the behavioural changes seen in this model. 16,17 Neurosteroids have been shown to exert neuroprotective effects following damage to neurons and glia by preventing apoptosis and inflammation, and increasing re-myelination and regenerative mechanisms.…”
Section: Introductionsupporting
confidence: 53%
“…6 In our clinically relevant guinea pig model, 13 we have shown premature loss of allopregnanolone significantly decreases myelination in the hippocampus, subcortical white matter and cerebellum, key areas involved in memory and learning, and that these deficits are maintained until juvenility. 6,[14][15][16][17] Interestingly, the deficits observed are associated with disturbances in behaviour, supporting a role for reduced allopregnanolone in the behavioural changes seen in this model. 16,17 Neurosteroids have been shown to exert neuroprotective effects following damage to neurons and glia by preventing apoptosis and inflammation, and increasing re-myelination and regenerative mechanisms.…”
Section: Introductionsupporting
confidence: 53%
“…; Shaw et al . , , ) opens a critical area of developmental research in which the consequence of curtailed progesterone exposure and differences in substrate availability in preterm‐delivered offspring compared to fetuses at the same postconceptional age can be explored.…”
Section: Introductionmentioning
confidence: 99%
“…It is now suggested that disruptions to cerebellar development, which can occur as a result of late gestation compromises such as preterm birth, can have a major impact on the region of the brain to which it projects . In our studies in guinea pig neonates that were born preterm, the Purkinje cells were smaller and, in later life, the expression of the GABA‐synthesising enzyme GAD67 was reduced in cerebellar lobules IX and X, indicating that there may be long‐lasting reduced levels of GABA and increased levels of glutamate. The results also suggested that excitatory input onto Purkinje cells was reduced following preterm delivery because the relative width of the internal granule cell layer was reduced in both sexes .…”
Section: Evidence For Imbalance Following Perinatal Compromisementioning
confidence: 55%
“…In our studies in guinea pig neonates that were born preterm, the Purkinje cells were smaller and, in later life, the expression of the GABA‐synthesising enzyme GAD67 was reduced in cerebellar lobules IX and X, indicating that there may be long‐lasting reduced levels of GABA and increased levels of glutamate. The results also suggested that excitatory input onto Purkinje cells was reduced following preterm delivery because the relative width of the internal granule cell layer was reduced in both sexes . The internal granule cell layer comprises the glutamatergic neurones of the cerebellum for which the primary role is excitation of Purkinje cells.…”
Section: Evidence For Imbalance Following Perinatal Compromisementioning
confidence: 56%