American Psychological Association
Combination of drug and behavior interventions
are most effective for treating teenagers with ADHD
But larger doses not necessarily more effective and long-term
effects not known
Original text: http://www.eurekalert.org/releases/apa-cod052401.html
WASHINGTON — Ritalin and other stimulants have become the standard
treatment for attention deficit hyperactivity disorder (ADHD) in elementary-age
children because of their ability to curb disruptive and defiant behavior
and allow children to focus. Now, a new study appearing in the current
issue of Experimental and Clinical Psychopharmacology, published by
the American Psychological Association (APA) finds that Ritalin also
improves daily academic performance and behavior of teenagers.
In the first empirical study of its kind, researchers Steven W.
Evans, Ph.D., and colleagues William E. Pelham Jr., Ph.D., and Bradley
H. Smith, Ph.D., found that methylphenidate (MPH)--the drug best known
by the trade name Ritalin -- in combination with a behavior modification
intervention, improved adolescent’s diagnosed with ADHD performance
on a range of academic measures, including note-taking, daily assignments
and quiz scores, without causing major side effects.
"When they were taking stimulant medication, students were more
likely not only to get schoolwork done, but to get it done more accurately
than when they were taking a placebo," says Dr. Evans. "Scores improved
by an average of about 17 percent--a jump that could mean two or three
letter grades."
Most research on ADHD has focused on behavioral problems, such as
disruptive or defiant behavior. But because problems in school are
one of the hallmarks of ADHD in adolescents, Evans and his colleagues
measured the effects of different doses of MPH not only on teenagers'
behavior, but also on their academic performance. With a grant from
the National Institute of Mental Health, they examined 45 adolescents
diagnosed with ADHD and enrolled in a University of Pittsburgh intensive
summer treatment program, directed by Pelham, for youth with ADHD.
Because ADHD affects boys more often than girls, most of the study
participants were male.
Three times per day during the eight-week study, the researchers
gave participants either a placebo or a 10-, 20- or 30-milligram dose
of MPH (each day's third dose was half the size of the first and second
dose). The students received each dose of the drug, or a placebo,
for one day each week, in random order, allowing the researchers to
compare their behavior and academic performance in each of the drug
conditions.
In addition to attending a one-hour history class four days a week,
all students participated in other structured activities, such as
note-taking instruction and social skills and problem solving groups,
designed to help them learn to control their behavior. The researchers
measured the quality of students' note-taking, their performance on
daily quizzes, in-class worksheets and writing assignments, and how
often they completed homework assignments. Evans' team also observed
how often students displayed disruptive, inattentive or defiant behavior
in the classroom.
Results showed that MPH, when administered as part of the intensive
behavior change interventions significantly boosted the quality of
students' schoolwork. About 80 percent of adolescents showed improved
academic performance while taking some dose of stimulant medication.
The research also revealed important individual differences in adolescents'
response to the drug and that increasing the dosage did not necessarily
improve student performance. Two-thirds of teen-agers in the study
showed moderate to large improvement in academic performance while
on 10 milligrams of MPH, compared with placebo. Of those who did not
improve significantly on the lowest dose, fewer than half showed substantial
improvement when the dose was increased to 20 milligrams, and very
few students achieved significant gains on a 30-milligram dose of
the drug. In fact, some students' performance deteriorated when their
dosages of MPH increased.
"That's extremely important," stresses Pelham. "There are lots of
psychiatrists out there who believe that if you keep upping the dose,
people will continue to get better." The fact that that wasn't the
case, he explains, is important because "you want the total amount
of psychoactive drugs that a person takes in his or her lifetime to
be as low as possible, because we don't know what the long-term effects
are."
"There would be a lot less controversy about medication for ADHD
if people were consistently implementing both medication and evidence-based
behavioral interventions, " suggests Evans. He and his colleagues
found the lack of research on ADHD treatment for adolescents disturbing
because, as scientists are increasingly recognizing, the disorder
continues far beyond childhood. "When children hit puberty," Evans
observes, "they go through a lot of changes--hormonally, cognitively,
emotionally and interpersonally. So there are lots of reasons why
interventions that are effective in younger children may or may not
be effective later." The authors caution that their study doesn't
indicate whether taking stimulant medications helps students' school
performance over the long term. Indeed, because it's not practical--or
indeed ethical--to conduct long-term studies in which researchers
randomly assign participants to different doses of stimulant medication
or a placebo--and because many young people stop taking medication
during adolescence--that question is particularly difficult to answer,
they note.
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Article: "Dose-Response Effects of Methylphenidate on Ecologically
Valid Measures of Academic Performance and Classroom Behavior in Adolescents
with ADHD," Steven W. Evans, Ph.D., James Madison University; William
E. Pelham, Ph.D., and Elizabeth M. Gnagy, Ph.D., State University
of New York at Buffalo; Bradley H. Smith, Ph.D., University of South
Carolina; Oscar Bukstein, Ph.D., Andrew R. Greiner, Ph.D., Lori Altenderfer,
Ph.D., and Carrie Baron-Myak, Ph.D., University of Pittsburgh Medical
Center; Experimental and Clinical Psychopharmacology, Vol 9, No. 2.
Full text of the article is available from the APA Public Affairs
Office or after June 13 at http://www.apa.org/journals/pha.html
Steven W. Evans, PhD can be reached by telephone at (540) 568-2538
or by email at evanssw@jmu.edu
William E. Pelham, PhD can be reached by telephone at (716) 829-2244
ext 29 or ext 31 or by email at pelham@acsu.buffalo.edu
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