Attention Deficit Hyperactivity Disorder Clinical Trial
Official title:
Enhancing ADHD Driving Performance With Stimulant Medication
Among children, attention-deficit/hyperactivity disorder (ADHD) is associated with an
increased risk for accidents, especially bicycle and pedestrian (Leibson 2001; Jensen 1988;
DiScala 1998). Anywhere from 40% to 80% of children diagnosed with ADHD continue to display
symptoms of the disorder into adolescence(Barkley 1990; Gittelman 1985). Adolescents with
ADHD are also at an increased risk for driving-related accidents, being 2 to 4 times more
likely to experience a motor vehicle accident (Barkley 1993; Barkley 1996; Cox 2000), 4
times as likely to be at fault in the accident (Barkley 1993), and over 3 times more likely
to incur associated injuries as a result of the accident(Murphy 1996).
Stimulant treatment with immediate-release methylphenidate (IR MPH) has been demonstrated to
improve driving performance in adolescents with ADHD.
Hypothesis to be Tested:
- Main study: Just as stimulant medication improves simulation and on-road driving
performance of ADHD teenagers, it is hypothesized that stimulant medication will
improve routine driving performance.
- Substudy - Extended wear (15 hours) of Daytrana will lead to safer driving late in the
evening (22:00 and 01:00), when the most dangerous driving mishaps are most likely to
occur, and the next morning at 09:00.
Driving collisions are the leading cause of death among adolescents, accounting for 15
teenage deaths per day in the United States. (National Highway Traffic Safety Administration
2003). Driving fatalities are significantly more likely to occur when distracting teenage
passengers are in the automobile(Insurance Institute for Highway Safety 2000). Fatalities
are also more likely to occur in the evenings, on the weekends, and during the summer months
(National Center for Statistics and Analysis 2005).
Among children, attention-deficit/hyperactivity disorder (ADHD) is associated with an
increased risk for accidents, especially bicycle and pedestrian (Leibson 2001; Jensen 1988;
DiScala 1998). Anywhere from 40% to 80% of children diagnosed with ADHD continue to display
symptoms of the disorder into adolescence(Barkley 1990; Gittelman 1985). Adolescents with
ADHD are also at an increased risk for driving-related accidents, being 2 to 4 times more
likely to experience a motor vehicle accident (Barkley 1993; Barkley 1996; Cox 2000), 4
times as likely to be at fault in the accident (Barkley 1993), and over 3 times more likely
to incur associated injuries as a result of the accident(Murphy 1996).
Stimulant treatment with immediate-release methylphenidate (IR MPH) has been demonstrated to
improve driving performance in adolescents with ADHD. Simulated driving performance was
assessed 1.5 to 2 hours post-dose in a double-blind, crossover study comparing the effects
of one 10-mg dose of immediate-release methylphenidate (IR MPH) with placebo in male
subjects with ADHD (aged 19-25 years) to that of matched controls without ADHD(Cox 2000).
When placebo was administered to both groups, ADHD-diagnosed participants demonstrated
significantly poorer driving scores than did controls (P<0.05); however, 1.5 hours after the
administration of IR MPH, the driving performance of the ADHD-diagnosed group significantly
improved (P<0.05) and was equivalent to that of the control group.
To determine whether the difference in the pharmacokinetic profiles of IR and
extended-release MPH formulations influenced driving performance throughout the day, a study
was conducted to compare IR MPH dosed 3 times daily (tid) with once-daily, OROS® MPH
(CONCERTA®) (Cox 2004a). OROS MPH delivers MPH via an osmotic pump to produce an ascending
profile with duration of treatment effect through 12 hours(Swanson 2003). Once-daily dosing
of OROS MPH is similar to IR MPH dosed tid and minimizes the fluctuations in peak and trough
plasma concentrations associated with MPH dosed tid(Swanson 2003). Therefore, in this
crossover study design, OROS MPH was administered at 8:00 AM, and IR MPH was administered
tid at 8:00 AM, 12:00 PM, and 4:00 PM. The driving performance of adolescents with ADHD aged
16 to 19 years was assessed using a driving simulator at 2:00, 5:00, 8:00 and 11:00 PM. When
subjects were administered IR MPH, simulated driving performance worsened by a factor of 5
at 8:00 PM and 11:00 PM, but driving performance in subjects receiving OROS MPH remained
stable from 2:00 PM to 11:00 PM. Not only was driving performance significantly better in
subjects receiving OROS MPH (P<0.001), but subjects treated with OROS MPH demonstrated
significantly less variability in driving performance (P<0.001).
In a subsequent study to compare driving skills in subjects receiving and not receiving
medication, adolescents with ADHD drove their own car on a standard road course after either
taking OROS MPH at 8:00 AM or receiving no medication. (Cox 2004b) Raters, who were blinded
to the medication condition, observed significantly fewer inattentive driving errors in
adolescents taking OROS MPH (P<0.01). The study demonstrated that reduction in inattentive
errors was positively correlated (r=0.60, P<0.01) with mg/kg dosing of OROS MPH.
Given the evidence that stimulant therapy with MPH improves driving performance and that
once-daily OROS MPH improves driving performance and is more effective in the evenings
compared with the IR formulation, we recently studied the effects of 2 long-acting stimulant
formulations—once-daily OROS MPH and mixed amphetamine salts extended release (se AMPH ER,
ADDERALL® XR)—on simulated driving performance in adolescents with ADHD to compare how each
affected adolescent driving performance. This study indicated that medication improved
driving performance and neuropsychological functioning relative to placebo, and that
generally OROS MPH (Concerta) led to greater improvement. However, individual differences
were such that a minority of subjects performed better when taking se AMPH ER (Adderall XR).
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Crossover Assignment, Masking: Open Label
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