After decades of conflicting beliefs about the intellectual capacity of young adolescents, scholars see a growing consensus, backed by research, that middle school students鈥 brains are ready for learning.
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The National Middle School Association鈥檚 own mission statement, written in 1982, cautioned against setting expectations too high for 12- to 14-year-olds. Instead, educators should emphasize 鈥渓earning new facts and information within the profile of thinking skills initiated prior to this plateau period鈥 of brain growth, said the guiding force behind the middle school concept.
Contrary to the long-held belief that adolescents' minds are ill-suited to learning, researchers are finding they're primed.
But scientists are discovering that early adolescents鈥 brains are undergoing profound changes that are not only a necessary part of growing up, but also signal a shift in how children approach learning.
鈥淭here is evidence that there are spurts in the power and the coherence of brain activity that occur during this time,鈥 says Kurt W. Fischer, a professor of education at Harvard University and the director of the Mind, Brain, and Education graduate program there. 鈥淭hey have these new capacities, but they are still very limited.鈥
Stronger Connections?
Structural changes in the brain continue well into the teenage years, according to an increasing body of research. 鈥淧eople used to think the brain settled down very early,鈥 says Paul M. Thompson, an assistant professor of neurology at the University of California, Los Angeles. He is one of the authors of an article about growth patterns in the brains of young adolescents published earlier this year in the journal Nature.
New research helps explain why the middle school years are often a time when children begin testing their boundaries and engaging in risky behavior.
In the article, researchers from UCLA, the National Institute of Mental Health, and McGill University in Montreal reported that after age 6, brain-tissue growth shifts from the frontal lobe of the brain鈥攖he area involved in planning and organizing one鈥檚 actions鈥攖o the temporal and parietal lobes, areas involved in memory and manual skills.
Between the ages of 7 and 11, growth in the temporal and parietal lobes is rapid but then begins to slow down at middle school age, suggesting, Thompson says, that these might be the ideal years for learning to play a musical instrument or studying another language.
Moreover, he and his colleagues found that during adolescence, the frontal cortex, which also controls inhibition, quickly loses tissue, at a rate of 3 percent a year. Tissue loss usually indicates that redundant brain cells are being 鈥減runed鈥 away, leaving stronger, more efficient connections, Thompson says.
While he says that doesn鈥檛 necessarily mean that youngsters at that age will be more outgoing or more reserved, it does suggest that a lot of changes are occurring. It may also help explain why the middle school years are often a time when children are testing their boundaries, and when risky behavior, such as experimenting with drugs, becomes a concern.
As a next step, scientists at the NIMH plan to examine the brains of dozens of sets of twins over at least a six-year period in hopes of determining which areas of the brain change as a result of academic, athletic, and other learning- related activities. Middle school twins make good subjects because at that age they begin to pursue individual interests, even though the environments they live in generally remain the same.
鈥淪cientifically, we can observe that a lot is going on,鈥 says Jay N. Giedd, the chief of the child-psychiatry branch at the national institute. 鈥淭he next question is, what influences that?鈥
Conflict and Controversy
Middle schools try to accommodate the changing social and emotional needs of young adolescents, but changes in the school structure and the curriculum are not enough, says Peter C. Scales, a senior fellow at the Minneapolis-based Search Institute, a research and training organization that focuses on adolescents.
Instead of viewing adolescents鈥 newfound and unbridled brain power as negative, teachers should look at how certain traits, such as being argumentative, egocentric, and highly emotional, might contribute to, rather than detract from, the learning process, Scales says.
鈥淭he whole notion of conflict and controversy is often ignored in schools, but intellectually, that鈥檚 the stuff that engages middle school kids,鈥 he says. In fact, the middle grades are the perfect time to teach about courts, legislatures, or any other place where issues are debated, he suggests.
鈥淚t helps them to argue, so argue with them,鈥 adds Fischer. But instead of trying to win, he says, adults should keep in mind that 鈥渢his is a young person who is learning.鈥
Many middle school teachers may not be aware, however, of the best way to approach their students. While information on child development is common in training programs for early-childhood educators, very few middle school teachers have specific training in adolescent development, Scales says.
鈥淚 think we have underestimated the ability of middle school students,鈥 says Stanley W. DeJarnett, an assistant superintendent of the 2,900- student Morgan County schools in Georgia. The district recently held a training session for middle school teachers on brain development during the preadolescent and adolescent years.
鈥淚 think the key is getting the right person in the classroom,鈥 DeJarnett adds.
While middle school students need well-trained teachers and a challenging curriculum, both Scales and Fischer caution against introducing advanced mathematics and science concepts too early.
Students in the middle grades respond much better to discovery methods and science-lab experiments, according to research conducted by Fischer and his associates. But, he says, they still tend only to scratch the surface with what they are able to absorb from the experiments.
鈥淲e present stuff that requires abstract thinking, and students aren鈥檛 capable of it yet,鈥 Fischer contends.
鈥楢ll Bets Are Open鈥
Some experts worry that, as with all the recent media attention given to the findings about children鈥檚 first three years of development, scientific conclusions about the adolescent brain will be misinterpreted and blown out of proportion.
鈥淪o what?鈥 John Bruer, the president of the St. Louis-based James S. McDonnell Foundation, says about the finding that brain growth continues during the teenage years. He contends that the public and some educators are operating under the 鈥渘aive belief鈥 that a period of increases in young people鈥檚 synapse density is optimal for learning. It鈥檚 not that simple, he argues.
鈥淲hat people interested in educational policy need to pay attention to is that any progress we are going to make is going to come from very careful study of what goes on in the classroom,鈥 says Bruer, whose foundation specializes in underwriting cognitive-science research.
The notion of a 鈥渨indow of opportunity鈥 in the brain is dangerous, the NIMH鈥檚 Giedd adds. 鈥淭he message there is that if you鈥檝e missed that window, you鈥檙e out of luck,鈥 he says.
Teachers, he says, should stay hopeful about even the most difficult students.
鈥淚n middle school, all bets are open,鈥 Giedd says. 鈥淧eople can make dramatic turnarounds.鈥
UCLA鈥檚 Thompson agrees that people learn throughout life, but he believes that the recent findings about the brain point to 鈥渒ey periods鈥 and might someday have important implications for educators.
鈥淚f I had a wish list, it would be to know how different ways of teaching affect the brain,鈥 Thompson says. 鈥淲hat are the key skills that are best to teach at different times? These are very broad questions for education.鈥
