Low-dose vs. Normal-dose Psychostimulants on Executive Functions in Individuals With ADHD
- Conditions
- Attention Deficit Hyperactivity Disorders
- Interventions
- Drug: Psychostimulants
- Registration Number
- NCT02167048
- Lead Sponsor
- University of British Columbia
- Brief Summary
This double-blind crossover study aims to compare cognitive performance (e.g., working memory, selective attention and cognitive flexibility) of children ages 6-18 years diagnosed with ADHD of the combined type (ADHD-C) or inattentive-type (ADHD-IA) and currently on \> 20 mg/day of psychostimulants (psychostimulants) on: a) their current dose of psychostimulants, vs. b) a lower-dose of psychostimulants (half of their current dose).
The investigators hypothesize that the lower-dose psychostimulants will result in better cognitive performance than moderate-to-high doses of psychostimulants.
- Detailed Description
Attention-deficit hyperactivity disorder (ADHD) is a neurodevelopmental disorder characterized by attention deficits, hyperactivity, or impulsive actions that are not appropriate for the individuals' age (Barkley 1997). These behavioural issues arise relatively early in life, typically before the age of 12, and continue to persist into adulthood in many cases (Barkley 1997). In school-aged children, ADHD is associated with low academic achievement, poor school performance, anxiety and depression.
Symptoms are divided into inattention (e.g., easily distracted, difficulty focusing on \& completing a task), hyperactivity (e.g., constantly in motion, fidgets, squirms, talks non-stop), and impulsivity (e.g., difficult waiting one's turn, interrupting others). Three subtypes of ADHD have been identified: predominantly inattentive (ADHD-I), predominantly hyperactive-impulsive (ADHD-H), and the combined type (ADHD-C).
Psychostimulants in medium to high doses acts to inhibit re-uptake of dopamine by the dopamine transporter (DAT), resulting in increased dopamine concentrations in the synapse. DAT is abundant in the striatum, which is implicated in hyperactivity and impulsivity aspects of ADHD. However, DAT is sparse in prefrontal cortex (PFC), which plays a critical role in subserving executive functions. Executive functions (EFs; also called cognitive control or self-regulation) are a group of processes involved in concentration, focused attention, self-control, cognitive flexibility, problem-solving, and working memory (refs: Diamond, 2013; Jacques \& Marcovitch, 2010). Thus the number of high risk alleles of the gene that codes for the dopamine transporter (DAT1) are associated with hyperactivity (which depends on the striatum) but not inattention or EF deficits (which depend on PFC; refs: Jucaite et al., 2005; Waldman et al., 1998.
The action of low doses of psychostimulants has been shown to be different, however. At low doses psychostimulants has been demonstrated to act preferentially on PFC, increasing dopamine release (refs: Berridge et al., 2006; Schmeichel \& Berridge, 2013; Spencer et al, 2012). Thus, moderate to high doses of psychostimulants (doses most often prescribed for children and youths with ADHD) probably do not improve PFC function or EFs, or worse, may actually impair cognitive function, leaving a patient feeling more in a daze.
Optimal dosing for psychostimulants in children and youths with ADHD is usually determined by parents' reports of improved behaviour, almost never by performance on cognitive measures. We propose to look at cognitive performance on measures of attention, working memory, planning, etc. in children and youths with ADHD on their current dose of psychostimulants and on half that much (order counterbalanced across participants).
Purpose/Objectives: This double-blind crossover study aims to compare cognitive performance (e.g., working memory, selective attention and cognitive flexibility) of children ages 6-18 years diagnosed with ADHD of the combined type (ADHD-C) or inattentive-type (ADHD-IA) and currently on \> 20 mg/day of psychostimulants on their current dose of psychostimulants and on a lower-dose of psychostimulants (half of their current dose), order counterbalanced across subjects.
To give us an estimate of order effects to help us correct for better performance in the 2nd session due simply to taking the same cognitive tests twice (note: the tests are Version A and B), we will also be recruiting healthy volunteers to serve as a control group. This control group will be strictly no intervention.
Hypotheses: The investigators hypothesize that lower-dose psychostimulants will result in better cognitive performance than moderate-to-high doses of psychostimulants.
Recruitment & Eligibility
- Status
- ACTIVE_NOT_RECRUITING
- Sex
- All
- Target Recruitment
- 52
- Between the chronological ages of 6 and 18 years
- Average to above-average IQ (Parental report of an IQ above 90; we will take their word for it)
- Meet DSM-V criteria for ADHD (Combined type or Inattentive type)
- Currently treated with and responding to oral Psychostimulants >= 20 mg/day and not on a "drug holiday"
- Stable on current Psychostimulant dose for at least 2 weeks
- Able to communicate (understand, speak, and write) in English without the aid of an interpreter
- Able to execute simple manual response (button-press) as required for our tasks
- The child and parent give assent and consent respectively for the child's participation in this study
- Patients with significant prior or current medical conditions that could impact neuropsychological performance such as traumatic brain injury, hypoxia, or unstable diabetes.
- Have any medical condition that could markedly increase sympathetic nervous system activity (e.g. catecholamine-secreting neural tumor), or who are taking a medication on a daily basis (e.g. pseudoephedrine, oral steroids) that has sympathomimetic activity. Note: regular on-label use of inhalers for asthma (e.g., albuterol, steroidal) is permitted
- Taking any psychotropic medication other than on-label Psychostimulants specifically prescribed to treat ADHD
- Have a major, uncorrected sensory impairment (e.g. significant hearing impairment despite hearing aids)
- Lack sufficient English language skills to perform our tasks
- Are taking medications other than their specifically prescribed Psychostimulants that may affect cognitive skills
- Have a documented history of Dyslexia (this may skew results on our cognitive measures), Bipolar I or II, psychosis, Depression, Autism Spectrum Disorders, or Disruptive Mood Dysregulation Disorder
- Have a past history of any severe adverse reaction to lowering of Psychostiumlant dose
- Patient has been non-compliant with Psychostimulants or is on a "drug holiday"
- Parental report of an IQ below 90 (we will take their word for it)
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- CROSSOVER
- Arm && Interventions
Group Intervention Description Low-dose Psychostimulants, Normal-dose Psychostimulants Normal-dose: Dose participants are currently taking as part of their prescription (on more than or equals to 20 mg/day of Psychostimulants) Low-dose: Half the normal dose Normal-dose Psychostimulant, Low-dose Psychostimulants Normal-dose: Dose participants are currently taking as part of their prescription (on more than or equals to 20 mg/day of Psychostimulants) Low-dose: Half the normal dose
- Primary Outcome Measures
Name Time Method Executive Functions (difference in performance on the two Psychostimulant doses) 2 weeks Executive Functions consist of selective attention, working memory, response inhibition, reasoning, and set switching. Each of those component abilities will be assessed, scores converted to z scores, and a composite score assigned to each subject for each test session.
Executive Functions (difference in performance on the two Psychostimulants doses) Day 1 Executive Functions consist of selective attention, working memory, response inhibition, reasoning, and set switching. Each of those component abilities will be assessed, scores converted to z scores, and a composite score assigned to each subject for each test session.
- Secondary Outcome Measures
Name Time Method
Trial Locations
- Locations (1)
Developmental Cognitive Neuroscience Lab, Department of Psychiatry, University of British Columbia
🇨🇦Vancouver, British Columbia, Canada