This study validates the use of stimulants to improve driving performance in adolescents with attention-deficit/hyperactivity disorder. In the study, OROS methylphenidate promoted significantly improved driving performance compared with placebo and mixed amphetamine salts extended release.
Background: Attention-deficit/hyperactivity disorder (ADHD) is associated with a 3-to 4-fold increase in both driving-related accidents and associated injuries. Methylphenidate (MPH) is the most commonly prescribed psychostimulant medication for ADHD. It has been demonstrated to improve performance on a driving simulator. This study investigated whether a once-daily, long-acting, osmotic, controlledrelease MPH formulation improves the driving performance of ADHD adolescents while driving their own car on an actual road segment.Methods: Twelve ADHD-diagnosed male adolescent drivers (mean age, 17.8 years) prescribed a standard dose of 1.0 mg/kg (if they were not already taking methylphenidate) of controlled-release MPH participated in this repeated-measures crossover study. On 2 separate occasions (off/on medication randomized), participants drove a standard 16-mile road course incorporating rural, highway, and urban streets. A rater, blind to medication conditions, sat in the back seat and rated impulsive (eg, "cutting off" another driver) and inattentive (eg, drove past designated turn) driving errors.Results: Impulsive driving errors were observed to occur rarely under both medication and no medication conditions. Inattentive driving errors were more common and were significantly reduced while the subject was on medication (4.6 versus 7.8; P < .01). The improvement in driving performance (change in number of errors recorded) from first to second testing was positively correlated with medication dosage (r ؍ 0.60; P < .01).
Conclusions
This study investigated whether methylphenidate delivered through a long-acting transdermal system (MTS) would reduce collision rates of young adult drivers with attention-deficit/hyperactivity disorder (ADHD).Seventeen young adults completing the study (mean [SD] age, 20.82 [2.40] years; 14 men and 13 white) met the following inclusion criteria: ADHD diagnoses but not routinely taking ADHD medication, previously responsive to ADHD medication, active drivers with more than 1 collision or citation in the past 2 years, and no significant comorbidities. In this open-labeled, crossover design drivers were randomly assigned either to the no-medication condition for 3 months and then MTS for 3 months or to the reverse sequence. In-car video monitoring of routine driving occurred during these 6 months. At baseline and after each condition, participants completed the Conners Adult ADHD Rating Scale and the Cox Assessment of Risky Driving Scale, and their blood pressure, heart rate, and body weight were monitored.Compared with the no-medication condition, participants in the MTS condition self-reported fewer total ADHD (P < 0.04) and inattentive symptoms (P = 0.014) and a trend for risky driving behaviors (P = 0.059) and had fewer video-recorded collisions (P < 0.005) and other problematic driving events. There were no significant changes in blood pressure, heart rate, or body weight across conditions or any significant skin reactions to the MTS patch.This is the first study demonstrating that long-acting methylphenidate improves activities of daily living among young adults with ADHD. Specifically, methylphenidate improved safety in routine driving while reducing ADHD symptoms with minimal adverse effects.
This study investigated whether OROS methylphenidate (OROS MPH, Concerta) or extended-release mixed amphetamine salts (se-AMPH ER, Adderall XR) were associated with worsening of driving performance, or drug rebound, relative to placebo 16-17 hours post-ingestion. Nineteen male adolescent drivers aged 17-19 with attention-deficit/hyperactivity disorder (ADHD) were compared on a virtual reality driving simulator and an on-road drive after taking 72 mg of OROS MPH, 30 mg of se-AMPH ER, or placebo. Medication was taken at 08:00 in a randomized, double-blind, placebo-controlled, crossover study. Participants drove a simulator at 17:00, 20:00, 23:00, and 01:00, and drove their own cars over a 16-mile road course at 24:00. The main outcome measures were composite scores of driving performance. Neither OROS MPH nor se-AMPH ER was associated with significant worsening of simulator performance relative to placebo 17 hours post-ingestion in group comparisons. However, inattentive on-road driving errors were significantly more common on se-AMPH ER relative to placebo at midnight (p = 0.04), suggesting possible rebound. During both late simulator and on-road testing, driving performance variance was approximately 300% greater during the se-AMPH ER compared to the OROS MPH condition.
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