Washington, June 29 (ANI): Baby pigs could pave the way for researchers to study development of an infant's brain, which in turn could help in predicting future behavioural problems such as cognitive deficits, anxiety disorders, depression, and even autism.
Researchers at the University of Illinois found that development of an infant's brain can leave behind fingerprint, which can predict how behavioural problems arise.
They discovered that neonatal piglets are capable of being trained in traditional learning and memory tests.
Thus, the piglets can provide critical information that could directly benefit human health.
"Studies suggest that inadequate nutrition, stress, and infection leave fingerprints in early brain development that can make a person more vulnerable to behaviour disorders later in life. We are interested in learning how the brain develops during this time and how cognitive ability is affected.
Our goal is to understand how to promote optimum brain and cognitive development, and minimize potential experiential influences that might hinder the process," said Dr. Rodney Johnson.
The use of the pig in neuroscience research is gaining popularity because pigs are anatomically similar to humans and many of their organ systems grow and develop similarly as well.
Pigs are also precocial, meaning they are born with well-developed sensory and motor systems, which allows them to be very mobile and weaned at an early age.
"Most important, the pig brain's growth spurt occurs perinatally - a little before and a little after birth.
In contrast, the rodent's brain growth spurt occurs after birth and the non-human primate's occurs before birth, making them less ideal to study and compare to humans," said Johnson.
The brain's rapid growth spurt is a critical period of time, said Johnson.
"We know that if something goes wrong during this developmental period, the brain can be permanently altered. We believe that events occurring during this developmental period may underlie some of the behavioural problems that emerge later in life," he said.
"When the immune system encounters an infectious agent, it responds and conveys information to the brain. We were able to show that when the peripheral immune system conveyed information to the brain in the neonate, their cognitive abilities were hindered. That reveals another advantage of the neonatal piglet model," he said. (ANI)