The surprise is that the effects run right through to the end of pregnancy. There is no obvious tapering off, or certainly not for critical components.
Considering that we all want a child who is 100 percent, we need to develop support protocols that ensure just that. This is a level of perfectionism never anticipated but needs addressing.
That same approach needs to continue after birth for the first three years while utterly dependent on the mother.
Setting standards like that will not be popular but do need considering. My own inclination is to properly depend on an organized natural community.
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Blood flow altered in brains of preterm newborns vs. full-term infants
Blood, oxygen and nutrients follow function, with more flowing to rapidly developing cerebral regions
IMAGE: THIS FIGURE REPRESENTS THE CEREBRAL BLOOD FLOW (CBF) MAPS, CORRESPONDING ANATOMICAL IMAGE ALIGNED TO THE CBF MAP, AND THE REGIONS OF INTEREST EXAMINED. THE SCALE INDICATES THE QUANTITATIVE VALUE... view more
CREDIT: CREDIT: M. BOUYSSI-KOBAR, ET AL., THE JOURNAL OF PEDIATRICS.
WASHINGTON - (Dec. 4, 2017) - Cerebral blood flow (CBF) of key
http://www.feedspot.com/?dadi=1#feed/f_32127/article/4340195970?dd=431151769673047
regions of newborns' brains is altered in very premature infants and may provide an early warning sign of disturbed brain maturation well before such injury is visible on conventional imaging, according to a prospective, observational study published Dec. 4, 2017 in The Journal of Pediatrics.
"During the third trimester of pregnancy, the fetal brain undergoes an unprecedented growth spurt. To power that growth, cerebral blood flow increases and delivers the extra oxygen and nutrients needed to nurture normal brain development," says Catherine Limperopoulos, Ph.D., director of the Developing Brain Research Laboratory at Children's National Health System and senior author of the study. "In full-term pregnancies, these critical brain structures mature inside the protective womb where the fetus can hear the mother and her heartbeat, which stimulates additional brain maturation.
For infants born preterm, however, this essential maturation process happens in settings often stripped of such stimuli."
The challenge: How to capture what goes right or wrong in the developing brains of these very fragile newborns? The researchers relied on arterial spin labeling (ASL) magnetic resonance (MR) imaging, a noninvasive technique that labels the water portion of blood to map how blood flows through infants' brains in order to describe which regions do or do not receive adequate blood supply. The imaging work can be done without a contrast agent since water from arterial blood itself illuminates the path traveled by cerebral blood.
"In our study, very preterm infants had greater absolute cortical cerebral blood flow compared with full-term infants. Within regions, however, the insula (a region critical to experiencing emotion), anterior cingulate cortex (a region involved in cognitive processes) and auditory cortex (a region involved in processing sound) for preterm infants received a significantly decreased volume of blood, compared with full-term infants. For preterm infants, parenchymal brain injury and the need for cardiac vasopressor support both were correlated with decreased regional CBF," Limperopoulos adds.
The team studied 98 preterm infants in the study who were born June 2012 to December 2015, were younger than 32 gestational weeks at birth and who weighed less than 1,500 grams. They matched those preemies by gestational age with 104 infants who had been carried to term. The brain MRIs were performed as the infants slept.
Blood flows where it is needed most with areas of the brain that are used more heavily commandeering more oxygen and nutrients. Thus, during brain development, CBF is a good indicator of functional brain maturation since brain areas that are the most metabolically active need more blood.
"The ongoing maturation of the newborn's brain can be seen in the distribution pattern of cerebral blood flow, with the greatest volume of blood traveling to the brainstem and deep grey matter," says Marine Bouyssi-Kobar, M.S., the study's lead author. "Because of the sharp resolution provided by ASL-MR images, our study finds that in addition to the brainstem and deep grey matter, the insula and the areas of the brain responsible for sensory and motor functions are also among the most oxygenated regions. This underscores the critical importance of these brain regions in early brain development. In preterm infants, the insula may be particularly vulnerable to the added stresses of life outside the womb."
Of note, compromised regional brain structures in adults are implicated in multiple neurodevelopmental disorders. "Altered development of the insula and anterior cingulate cortex in newborns may represent early warning signs of preterm infants at greater risk for long-term neurodevelopmental impairments," Limperopoulos says.
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Research reported in this news release was supported by the Canadian Institutes of Health Research, MOP-81116; the SickKids Foundation, XG 06-069; and the National Institutes of Health under award number R01 HL116585-01.
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