Jewish Life Digital Edition October 2015 | Page 20

TEENS Some things just weren’t meant to go together I By Shirra Moch Early exposure to psychoactive substances has serious consequences for later substance usage and addiction. When we’re very young, evidence of brain development is easy to see. We learn to respond to familiar faces, express displeasure at uncomfortable stimuli, sit, crawl, walk, talk, etc. Many laboratory studies have illustrated the changes that take place during this development, as well as the influences that differing circumstances can have on this process. Far less has been written about the brain changes that occur from adolescence through to young adult- 16 JEWISH LIFE n ISSUE 89 hood, perhaps because these seem less apparent. In reality, brain development during this age-span is extremely active, with recent research explaining why adolescents tend to exhibit poor decision-making capacity and why substance abuse in this age-group is particularly harmful. Although the brain is about 95% of its adult size by the age of six, it continues to mature and develop throughout the teenage years, reaching a more defined struc- ture by about age 24. The term most frequently used is ‘plasticity’ – the ability of the brain to ‘mould’ itself into functioning pathways through repeated activity and reinforced thoughts and actions. The circumstances, activities, and experiences to which we are exposed in our adolescent years ‘sculpt’ our brains, influencing our eventual brain trajectory and potential. While there are some genetic aspects to this process, the majority is influenced by our environment. For example, identical twins develop non-identical brain pathways which diverge principally from adolescence. (If you are wondering how this research is conducted, much of the current knowledge of brain functionality comes from hi-tech imaging studies which can reveal density and activity of groups of neurones.) Of all the brain structures that undergo this modelling during adolescence, there are four areas that can give us insight into ‘typical’ teenage behaviours and help us to understand their brain development: the amygdala, nucleus accumbens, cerebellum and prefrontal cortex. A word of caution here, however. While experts have suggested several hypotheses for neurodevelopment and behaviour on the basis of neuroanatomical findings in adolescence and brain plasticity, the research is still in progress, and is considered suggestive rather than definitive. The amygdala is a structure deep in the brain that lays down memory and integrates emotional responses to both enjoyable and aversive experiences. It is the amygdala that prompts initial reactions to circumstances, and so in teenagers with incomplete amygdalar maturity, they may exhibit excessive volatility or explosive reactions in the face of non-threatening situations. In addition, amygdalar immaturity has been implicated in the tendency for adolescents to misread neutral facial expressions as a sign of anger, prompting unnecessary defensive or aggressive responses. The nucleus accumbens, which forms part of the ‘reward’ circuit in the brain, initiates activities that will result in pleasure; photograph: BIGSTOCKPHOTO.COM The teenage brain ON DRUGS