| Popis: |
We have carried out a multi-disciplinary study of the effects of prenatal protein malnutrition on the developing rat brain. These experiments, involving anatomical, physiological, biochemical, and behavioral approaches, have revealed that malnutrition induced prenatally can affect various parameters of brain growth and development. Some of these effects can be reversed depending on when dietary restitutions are carried out. However, if protein malnutrition is maintained during the brain growth spurt or critical growth periods there are many permanent sequelae that cannot be reversed by subsequent restitution of high protein diets. We have reviewed the concept of critical periods of brain growth relative to the various aspects of neural morphogenesis in the rat, that is, the birth of neurons, migration of neurons, differentiation of neurons, and synapse formation. We have also discussed the rapid phases of brain growth in the rat as compared to similar phases in other species as a basis for determining whether the rat model can provide time-tables for brain growth in other species, including man. Different components of the brain, both morphological and chemical, have their own cycles of rapid development so that insults to the brain at particular periods affect particular aspects of brain chemistry and neuronal systems. Development of chemical circuits in the brain, such as the aminergic neurons, and their eventual adequate functioning, depends on development of the neurotransmitters themselves. These latter are markedly affected by protein malnutrition. Major physiological-behavioral states, such as the sleep-waking continuum, are markedly affected by protein malnutrition as are many behaviors. Some of these latter are merely late or retarded in development but others remain permanently altered. By approaching the problem of protein malnutrition from multiple points of view we have been able to pinpoint several brain areas showing the most drastic residua of early protein malnutrition and are beginning, by use of morphometric, electro-ontogenetic, biochemical development and behavioral studies, to define brain locales and basic mechanisms by which these insults produce their effects. |
