Just for Band Parents!!

CONTENTS

Information of Music and Recent Brain Research
Current Important Bulletins
Download this week's copy of Director's Notes
Our philosophy on competition
IMPORTANT - Press Release concerning the potential impact of the No Child Left Behind Act on Music and the Arts.
Information on the status of the Arts in Education
2003-2004 Band Department Calendar

RECENT MUSIC AND BRAIN RESEARCH from the Society for Neuroscience - November 10, 2003

SUMMARY

- Researchers at McMaster University in Hamilton, Ontario, Canada
tested the brain activity of 4- and 5-year-old students who were
studying piano and violin. After a year of musical study, the
pianists showed a response of specific auditory "P2" brain waves twice
that of other children when they listened to piano sounds. The
violinist in the study showed the same response when listening to
violin sounds.

- Yoko Saito and other researchers at the Tokyo Metropolitan
University of Health Sciences measured the brain activity of 20
volunteers while they performed various tasks using singing, speaking,
and listening. Researchers found that singing and speaking use many
of the same areas of the brain including the temporal lobes that
handle hearing and listening, the frontal lobes that control mouth and
face movements, and a specific language-processing area in the left
hemisphere.

- Test subjects felt up to 20 percent less pain when they were
listening to pleasant music versus unpleasant music. In this test,
volunteers selected three "most pleasant" and three "most unpleasant"
excerpts of music, and they listened to these excerpts and rated the
pain level while researchers applied various degrees of heat, from
104-119 degrees F, to their forearms. (The study was done at the
University of Montreal.)

BODY

In new studies, scientists are uncovering the factors responsible for an enhanced brain electrical response to music; the effects on the brain of growing up in a musical or non-musical environment; and which areas of the brain process different aspects of music including speaking and singing. One study finds that positive emotions induced
by pleasant music can have an analgesic effect on people, pointing to a possible role for music in pain management therapy.

"Music touches almost every cognitive ability that neuroscientists are interested in -- not only the obvious auditory and motor systems involved in perceiving and playing music, but also multisensory interactions, memory, learning, attention, planning, creativity and
emotion," says Robert Zatorre, PhD, of the Montreal Neurological Institute.

Researchers are investigating many different aspects of music and its effect on the brain. A great deal of work has already been done to characterize the brain's response to musical patterns, but now researchers are beginning to focus on more complex issues, such as how
the patterns may change as a function of a person's knowledge or training in music. "Among the most promising research is that involving the development of musical abilities, because this will tell scientists how the nervous system adapts to influences from the
environment," says Zatorre.

"In turn, the way that training and learning interact with genetic factors that predispose certain neural traits to develop will clearly be a source of much interest for future study." All of this research may one day lead to new rehabilitation therapies for people recovering
from stroke or neurological disorders--and to more effective methods of educating children.

Young children, especially those who grow up in homes where music is often heard, can develop an enhanced brain response to musical stimuli -- a response characteristic of other children about two years older, according to a recent study from McMaster University in Hamilton, Ontario. The study also found that one year of formal music training
does not increase the response.

"Our findings indicate that enhanced responses to musical stimuli can be expressed at a very early age," says Larry Roberts, PhD, a professor at McMaster University. But this doesn't necessarily mean that genetic or prenatal factors are the cause of the response, he
adds. Such responses are known to be neuroplastic -- in other words, people, even nonmusical ones, can be trained to develop them.

"Most of the children that we observed with an enhanced brain response to music came from homes where their parents or sibling played a musical instrument, so that they had heard a lot of music before they began playing an instrument themselves," Roberts says. "Their early
exposure to music in the home may have been responsible for the enhanced responses we observed in their brains."

For their study, the researchers enlisted seven 4- and 5-year-old children who were enrolled in Suzuki music training. Six of the children received training in piano and one on the violin. Before the music lessons began and again a year later, after each child's first
recital, the researchers measured the children for a brain response known as the P2 auditory evoked potential, which is detected in brain waves recorded from sensors placed on the scalp. Neurons that generate the P2 response are located in a region of the auditory
cortex known as the secondary auditory cortex, and are activated about 0.15 seconds after acoustic signals have reached the brain.

Previous research has shown that P2 brain responses evoked by musical tones are enhanced in adult professional musicians and in adult amateur musicians who play an instrument for personal enjoyment. The study is the first one to examine these brain responses in children
receiving musical training.

"We found that P2 brain responses evoked by piano tones in our pianists were larger than those seen in control children, but that P2 responses to violin and pure tones did not differ between musical and nonmusical children," says Roberts. "On the other hand, the P2
response of our one violinist to the violin tone was two times larger than responses evoked by the violin tone in any other subject in the experiment."

Interestingly, the responses in the Suzuki group of children were the same on the first and second measurements, which meant that one year of formal music training had no effect. At both measurements, however, the Suzuki children showed responses that were equal to
children about two years older than them.

The next step in this research is to determine whether enhanced P2 responses are observed when children are trained on novel auditory tasks with which they have had no prior listening experience. Experiments of this type can separate the effects of acoustic experience on auditory brain development from those of intrinsic genetic or prenatal factors. By using appropriate auditory stimuli, it's also possible to evaluate whether acoustic experience modifies neural activity in the primary auditory cortex as well as in the secondary auditory cortex.

Last year, scientists from Beth Israel Deaconess Medical Center and Harvard Medical School in Boston, Massachusetts, launched a first-of-its-kind study that will be following children for at least three years as they begin and advance through musical studies. "We
seek to understand what happens in the brain both structurally and functionally as the children grow and develop and achieve varying levels of musical expertise," says Gottfried Schlaug, MD, PhD, the principal investigator of this research.

This study may help determine whether early music training has any effect on the brains of children and their cognitive development. Previous research in adults has shown that the brains of musicians are structurally different from those of non-musicians, but it's not known
whether these differences have been there since birth or developed over time as a result of the musicians' specialized training. Prior research in children has shown that music training can heighten certain visual-spatial skills, yet the neural basis of this enhancement is also unknown.

Schlaug and his colleagues are tracking the children's progress through a series of cognitive and musical tests and through periodic, high-resolution structural and functional magnetic resonance imaging (fMRI). fMRI measures regional changes in oxygen concentration levels
in the blood, thus indicating which parts of the brain are being used for particular mental tasks. Structural MRI measures regional volume of gray and white matter in the brain. A total of 73 five- to seven-year-old children were enrolled in the study and divided into
three groups:

An "Instrumental" group, consisting of 41 children (17 girls and 24 boys) who were just beginning to study piano or a string instrument; A "Non-instrumental" group, consisting of 14 children (5 girls and 9 boys) who either participate in singing/movement and music theory
(fundamentals of music) classes or receive intensive music instruction in school, but do not study or practice a particular instrument; and A "Basic" music group, consisting of 18 children (8 girls and 10 boys) who receive only one, standard, 30- to 45-minute general music class per week and do not participate in any other musical activities.

So far, baseline data gathered from subjects as they began their various music studies show no behavioral or cognitive differences among the groups. In addition, no structural or functional brain differences have been seen among groups. "This means that it is
unlikely that the cognitive and brain differences described in adult musician/non-musician comparisons exist in children before they begin music training," says Schlaug. "Further, these results make it more likely that we will be able to detect the effects of music training
during subsequent intervals of data collection." The first of the study's annual follow-up sessions will take place later this fall.

One portion of this study is being conducted by Katie Overy, PhD, at Harvard Medical School. She and her colleagues have designed an fMRI experiment that examines which parts of the brains of young children (aged 5 to 7 years) are activated when the children attempt to discriminate between simple rhythms and melodies. This is the first brain imaging study to make such a comparison in young children.

Previous studies involving adults have suggested that rhythmic aspects of music are processed predominantly in the left hemisphere of the brain, while harmonic and melodic aspects of music are processed predominantly in the right hemisphere. "Our results show some support for the idea that different regions of the brain are specialized for processing different aspects of music," says Overy. "We found that children show signs of this hemispheric specialization, although the pattern doesn't appear to be as strong as that reported in adults."

The lateralization effect may grow stronger as the children grow older, Overy adds. "Their brains may not be fully specialized yet," she says. The next stage of this research will be to examine the musical listening skills of older children and adults, with and without musical training, to see if their activation patterns differ from those of young children. "We'll be very interested to see whether or not the brain becomes more lateralized for rhythmic and
melodic processing with age and level of musical experience," Overy says.

At the Tokyo Metropolitan University of Health Sciences, researchers have discovered that although the left hemisphere of the brain may be important for language and the right for music, singing and speaking share a common neural network that includes many different areas of the brain. "Language has some musical components and vocal music has some language components," explains Yoko Saito, lead author of the study. "They share a common network in the brain." These findings may help scientists develop more effective methods of rehabilitation for people recovering from illnesses and injuries that affect the brain.

For their recent studies, Saito and her colleagues used fMRI to record the brain function of 20 right-handed volunteers as they performed different singing/speaking tasks: 1) singing along with a singing voice; 2) singing alone; 3) listening to a singing voice; 4) speaking
along with a speaking voice; 5) speaking alone; and 6) listening to a speaking voice. The song used in the study was "Sea Song," which is commonly-known in Japan.

"The aim of our study was to disclose the neural networks involved in singing and speaking," says Saito. The researchers found that singing and speaking share many areas of the brain, including the auditory area (temporal lobe) in both hemispheres, the motor area for the mouth
and face (frontal lobe) in both hemispheres, and language specific areas in the left hemisphere. They plan to next examine which areas of the brain are involved when music is performed without words--such as when humming a melody or playing an instrument.

Other scientists are discovering why music has the ability, as the playwright William Congreve wrote, "to soothe the savage breast." New research from the University of Montreal has demonstrated that positive emotions induced by pleasant music can have an analgesic effect on people, helping reduce their perception of pain. These findings suggest that music may have a role to play in clinical settings.

For their most recent study, the Montreal researchers enlisted 25 volunteers to evaluate 30 musical excerpts for their pleasantness/unpleasantness (valence) and their calming/stimulating
properties (levels of arousal). The three most pleasant and the three most unpleasant excerpts, matched to have similar levels of arousal, were then selected. The pleasant excerpts included classical, pop and jazz/pop music; the unpleasant excerpts mainly consisted of contemporary dissonant music.

The selected musical excerpts were then played for 12 new volunteers while they received 6-second applications of various degrees of heat (from 40.0 C to 48.5 C) to their forearms. The volunteers were asked to rate the intensity and unpleasantness of each application of the
heat.

"Our subjects felt as much as 20 percent less pain when they were listening to the pleasant music than when they were listening to the unpleasant music -- or when no music was played," says Mathieu Roy, a doctoral candidate at the University of Montreal and lead author of the study. "Interestingly, however, listening to pleasant music didn't affect how they rated the non-painful stimulation [40.0 C] -- a finding that rules out the possibility that the pleasant music was more distracting than the unpleasant music."

The implications of these findings are two-fold, Roy says. "They obviously strengthen the notion that emotions can modulate our pain experience," he says. "They also support the idea that listeners really feel the emotions expressed by music rather than just coldly perceiving the sounds -- an issue that is far from reaching consensus in music psychology."

SOURCE: www.eurekalert.org/pub_releases/2003-11/sfn-nss111003.php

Although our band performs at various competitions in which it is scored and ultimately ranked, we believe that the definition of winning is “beating ourselves.” In other words, we set our own standards before each performance with the primary goal of being the best we can possibly be.

What has always been more important is not how the band performs in comparison to others, but how the members of the band (individually and as a whole) perform for themselves. Parents will often hear our staff describe a performance based on what we perceive is the band’s potential and the specific goals which were set for each particular performance. As we have learned in the past, it is possible to give an incredible performance and not receive awards. We have also learned that it is possible to give a performance which is greatly below our potential and yet receive the highest rankings.

We try to teach the students that how they perform in relation to another band is not important; however, performing to the best of their ability is the ultimate reward. How a final score falls in comparison to other bands is merely a reflection of how an individual band performed on a given day at a given time.

A band should be respected for their effort to perform the best show they can, regardless of their ultimate score. All bands are made up of the same type of students participating in a great experience—music education. As a music educator, nothing is more disenchanting than when I, as an audience member, hear derogatory remarks from spectators about any band’s performance. We should all remember that the kids who are on the field are kids just like ours.

We should honor and celebrate each band for the level of performance they obtained.

I call upon each one of our fans and students to lend the same support and celebration of all bands that has become our tradition. It is our performance off the field which has become our hallmark…one of excellence, pride, discipline and integrity. It is this philosophy upon which this program has been built, and, frankly, because of which we have experienced such success. Let’s all build upon this tradition as we embark on another season of great performances!

CARLSBAD, CA, August 21, 2003—The nation's leading music advocacy organization today advised parents and local educators that despite good intentions, local interpretation of the federal "No Child Left Behind" (NCLB) education law is seriously affecting access to music education for America's public school students.

"The law clearly identifies the arts as a core academic subject," explains American Music Conference Executive Director Rob Walker. "However, the requirements for standardized testing in literacy, math and science are leading local districts to divert resources away from other subjects. As a result, the arts are truly being left behind. We fear most of all that music, which is a vital learning pathway for children's success in school, is being sacrificed for shorter-term testing results. We're talking about what kids need to be successful learners."

Walker urged decision makers in local school districts to resist this trend and keep strong music programs available for students at all grade levels. He also advised concerned parents and educators to visit a Web site, www.supportmusic.com, which provides resources for grassroots music advocates. The site is maintained by the Music Education Coalition.

Paul Young, principal of West Elementary School in Lancaster, OH and a former president of the National Association of Elementary School Principals, has seen this phenomenon from both the national and local perspectives. "I see the decisions my fellow principals are making, and I understand the pressure, but they need to remember the big picture," he says. "I certainly believe everybody needs to be able to read and do math, but they also need to know how to think. What we're doing now is creating kids who are able to pass tests."

Under "No Child Left Behind," each state must measure every public school student's progress in reading and math in each of grades three through eight, and at least once during grades 10 through 12. By the academic year 2007-2008, assessments in science will be underway as well. These assessments must be aligned with state academic content and achievement standards.

In California, music educator Anne Fennell says people should look beyond those requirements to the spirit of the legislation. "If you look at NCLB Title Nine, it includes the arts as a core subject, but I think people get stuck on what's getting tested only," she says. Fennell is the Orff-Schulwerk Specialist at the Vista Academy of Visual and Performing Arts near San Diego, CA, and is also the founder and project director of MusicVentures, which helps train classroom professionals to make the most of music instruction.

"People think of literacy as reading and writing the printed word, but literacy is how we make meaning in our world, and how we encode and decode information," Fennell says. "Music is a part of that. But I've heard of kids who were pulled out of arts classes to get help in one of the tested subjects. NCLB says to focus on what works - to use effective practices. Well, we know arts programs work. But because they're not included in state formulas for funding and testing benchmarks, they're the first to be zapped."

The effects of these interpretations of NCLB and its effect on school music education come at a time when local budget pressures have already placed music classes in danger in many parts of the country. In New York City, pressure to find time for the extra English and math classes required by the Education Department's new standardized curriculum has led junior high schools to cut art, music and other electives. Across the country, as reported in major media, state-level
fiscal woes have led to repeated cuts in school arts programs. Even before NCLB, the most recent National Assessment of Educational Progress (NAEP) showed only 25 percent of eighth graders nationwide had the opportunity to take a music class.

Ironically, the benefits of music instruction for young people are better understood than ever before:

Concern about the unintended but serious consequences of NCLB has even reached the districts identified as the "Best 100 Communities in America for Music Education" in AMC's annual nationwide survey. In Syosset, NY, district Art & Music Chair Steven Schopp says, "I see the threat of scheduling problems due to NCLB as far more serious than budget problems. Budgets are obvious, but when students are quietly scheduled out of music in the name of increasing standards, nobody notices. It happens in small increments so there is no outcry."

Schopp also sits on the advisory board of the New York State School Music Association. "Recent discussions regarding NCLB focus on the effect of high-stakes tests on students," he says. "In my experience, the reaction to high-stakes tests of educators who actually work with children in schools is overwhelmingly negative. These are unintended consequences, but they are real consequences. As a result of NCLB, many students are being left behind in the arts!"

In another of the "Best 100" communities, Nevada, IA, high school band director Wade Presley observes, "More emphasis is being placed on academics, and students are being told to drop band or choir in order to beef up their classes in English, math and science."

Despite these pressures, Walker notes that the final decisions about educational priorities remain in local hands across the country. "I call on all teachers, parents and school administrators to keep music and arts instruction alive and well, so that local schools can produce the truly educated graduates that the authors of 'No Child Left Behind' envisioned," he says. "People need to be active in the process of developing school budgets and policies, and we have the tools at hand to help them."

SupportMusic.com was created by the Music Education Coalition, a cooperative undertaking by MENC, the National Association for Music Education, and NAMM, the International Music Products Association. It is the largest initiative of its kind dedicated to positively impacting community resolve and inspiring action to support music education in the United States. The site offers resources to help people work on behalf of music education in their own communities, including a "Build Your Case" section and a bulletin board that lets people share their problems and successes. The American Music Conference (www.amc-music.org) has extensive resources available on its website, including the "Einstein Advocacy Toolkit" for grassroots music education advocacy.