Attention-deficit Hyperactivity Disorder of Childhood or Adolescence Nos Clinical Trial
Official title:
A Biofeedback Training in Schoolchildren With an Attention-Deficit/Hyperactivity Disorder (ADHD): Differential Effects of Training in a 2D or 3D Environment
This study aims towards investigating the efficacy of a near-infrared spectroscopy (NIRS)-based neurofeedback training in a virtual reality (VR) classroom in schoolchildren with attention-deficit/hyperactivity disorder (ADHD). The investigators are especially interested in the training's impact on academic performance, executive functioning (EF) and behavioral ADHD symptoms. Furthermore, the investigators aim at examining the influence of teachers' instructional behavior on children with ADHD's learning in a short virtual reality classroom scenario. Several studies provide evidence that poor academic achievement in ADHD is mainly due to impairments in EF and ADHD behavior (e.g., Frazier, Youngstrom, Glutting, & Watkins, 2007; Miller et al., 2013). Furthermore, studies show that these factors are related to neurophysiological characteristics found in electroencephalographic (EEG) or functional NIRS (fNIRS) examinations (e.g., Barry, Clarke, & Johnstone, 2003; Barry, Johnstone, & Clarke, 2003; Loo & Barkley, 2005; Negoro et al., 2010). Neurofeedback trainings aim at improving these neurophysiological as well as cognitive-behavioral deficits (Gevensleben, Moll, Rothenberger, & Heinrich, 2014), and are expected to improve academic performance in children with ADHD accordingly. Training in a VR classroom, from the investigators' perspective, facilitates generalization of self-regulation competences to real-life academic situations and at the same time increases the effort invested into the training compared to a training in 2D settings. Consequently, training in a VR classroom is hypothesized to lead to greater improvement in academic performance, EF and a greater decrease of ADHD symptoms than a training in a 2D setting. Moreover, the investigators hypothesize that these effects are more pronounced in children who receive a NIRS-based neurofeedback training compared to children receiving a biofeedback training based on an electromyogram (EMG).
1. Strategies 90 schoolchildren from Grade 1 to 4 that meet criteria for a DSM-V diagnosis
of ADHD (any presentation) will be recruited. The design will involve three groups (n =
30 per group; N = 90) to which recruited children will be assigned randomly, but
matched for age, gender, and medication. In addition to VR NIRS NF and VR EMG
biofeedback groups, a third group will experience the NIRS NF in the exact same 2D
classroom environment.
2. The Study 2.1. Testing Protocol Informed consent discussion: Parents of children
pre-diagnosed with ADHD will not undergo a screening process. However, parents whose
children have not been pre-diagnosed with ADHD before, will be provided with the German
version of the Conners-3 parent ADHD-Index (C3-AI). Only if the screening indicates
that the child is at an increased risk of having ADHD, will the investigators proceed
with an informed consent discussion. If the screening indicates that it is unlikely
that the child has ADHD, the investigators will exclude the child from the study. After
the meeting, if the child was either pre-diagnosed with ADHD before, or the screening
indicates an increased likelihood for the child to have ADHD, parents will have enough
time to think about whether they want to give written informed consent to participate
in the study.
If parents give written informed consent, the next step will be a session in which the ADHD
diagnosis is verified. For this session, parents will be informed about three opportunities.
1. Diagnostic session in the scope of their participation in a second study at the
pediatric clinic in Tübingen at the same time that they participate in our biofeedback
study. This study is called "Aufmerksamkeit und Kognition bei Kindern mit
Neurofibromatose Typ 1", which is still searching for children with ADHD only (without
neurofibromatosis type 1) to form a control group.
2. Diagnostic session in the scope of the "Spezialsprechstunde ADHS" in the outpatient
clinic of the department of child and adolescence psychiatry.
3. Diagnostic session within the scope of this biofeedback study as described below.
Diagnostic session: For a standardized confirmation as well as a characterization of the
diagnosis, the long versions of the Conners-3 parent and teacher rating scales (3-P and 3-T)
will be applied. Furthermore, the German version of the Strengths- and Difficulties
Questionnaire (SDQ-Deu) is going to assess the severity of the symptoms as well as
comorbidities from class teacher as well as parental perspective. In order to assess the
actual quality of life of parents and child parents and children will be asked to fill out
the Kiddy-Kindl in its appropriate version. Moreover, surrounding variables such as
medication, prior treatment, other clinical diagnoses etc. will be assessed with a
questionnaire. As neuropsychological variables, intelligence will be assessed using the
short version of the Culture Fair Test (CFT 1-R or CFT 20-R).
Pre-Test:
Session 1 of the pre-test is going to assess executive functions of the participants and
requires a washout of methylphenidate (MPH) as well as amphetamines. MPH and amphetamines
should be washed out for at least 48 hours over the weekend so that the pre-test can take
place on Mondays. Atomoxetine does not need any washout as the effects of medication are not
directly related to the drug level in the blood. In this first session, a combined
EEG/NIRS-measurement will take place as the investigators would like to provide information
about whether changes caused by the BF intervention are also reflected in changes that can
be measured with EEG and NIRS during the following tasks: a Go/No-Go Task (10 min.), a
verbal fluency task (10 min.) and an n-back task (10 min.). Furthermore, the participants'
performance on a digit span task (forward & backward) (10 min.) will assess verbal WM
whereas a matrices span task (15 min.) and the Corsi Block Tapping Task (forward & backward)
(10 min.) will assess visual-spatial WM performance. Inhibition will be once more assessed
using the Stop Signal Task (10 min.).
Session 2 (without medication washout) will assess academic performance using one of the
appropriate DEMAT 1+-4 (20-40 Min.) assessing mathematical performance and the SLRT-II
(25-35 Min.) assessing reading and writing performance. Furthermore, sustained attention
will be assessed with the Conner's CPT (15 min.). Questionnaires assessing self-control and
academic self-efficacy will be filled out by the children (ca. 20 min.).
Furthermore, an accelerometer that is worn on the non-dominant side of the body (hip),
attached to the waistband with a light belt, for ten consecutive days will objectively
assess motor hyperactivity. During this time, parents will be called once per day to assess
ADHD symptoms with the Global Index ADHD (ADHS-GI) and to check whether the accelerometer is
worn and works.
Parents and teachers will be asked to fill out the BRIEF as well as the SDQ-Deu, the long
versions of the Conners-3 parent and teacher rating scales (3-P and 3-T) and the
Kiddy-Kindl. Moreover, the investigators will ask the parents to fill out an adapted version
of the FERT as well as an adapted version of the brief self-control scale in order to assess
their expectancies of the training.
Midway-Test: After eight sessions, participants will have a break of two to three weeks in
which no NF or BF training takes place. ADHD behavior will be assessed by asking parents as
well as teachers to fill out the Conners 3-P/ 3-T.
Post-Test: The post-test will follow the procedure already applied in the pre-test.
Follow-Up-Test (6 months after the last training session): The Follow-Up-Test will follow
the course of the post-test exactly.
Every session. During every session, the investigators will assess the participant's
motivation with a short questionnaire measuring joy, effort and enthusiasm. Furthermore,
heart rate variability (HRV) will be recorded as it has been shown to be related to
motivational processes. Accelerometer data from knee and wrist will be recorded to examine
hyperactive behavior.
2.2. Training Plan and Protocol The NIRS- and EMG-based NF and BF training protocols of this
study will include 15 training sessions in total, two to three per week. Every training
session will last about 60 minutes including the biofeedback training itself and a
preparation phase at the beginning, in which the NIRS cap and its optodes are fitted to the
head in the case of a NF training, or the EMG electrodes are placed above both Musculi
supraspinatus in the case of a BF training. Furthermore, the head-mounted display (HMD) for
the VR is mounted (in the VR 3D classroom groups only).
Every training session with NIRS- and EMG-based NF/BF consists of three runs, of which the
first and the second are with continuous performance feedback (feedback condition). In the
third run, no feedback is provided (transfer condition). Lighting in the 3D VR or 2D
classroom increases with activation and decreases with deactivation. During the first eight
training sessions, the training will follow a protocol with 50% activation and 50%
deactivation trials. For the second half of the training sessions, the protocol will change
to 80% activation and 20% deactivation trials.
After eight sessions, participants will have a two to three week break that aims at further
supporting transfer to a real-life setting by using stimulus cards with screenshots of the
training setting and instructions to practice activation and deactivation at home on a daily
basis. The stimulus cards show the image of the classroom participants see during the
training and will be introduced in the laboratory setting directly after the training
sessions 6, 7 and 8. That means, with the help of these cards and while looking at them,
participants should practice brain or muscular activation several times (depending on
whether they belong to the NIRS-NF or EMG-BF group) like they learned in the training, i.e.
they should imagine to increase the lighting in the room when looking at the stimulus cards
for two to four minutes. After this activation task, they solve some mathematical tasks or
riddles matching their age and knowledge. In the second half of the training sessions, after
the break, participants are asked to continue practicing activation at home before doing
their homework as well as in other situations requiring attention.
2.3. Experimental Paradigm Participants that receive a NIRS-based NF training have to
increase the BOLD signal (activation) or decrease it accordingly (deactivation).
Analogously, participants in the BF training condition will have to increase and decrease
muscular activity measured with EMG. Every session consists of three runs. In the first and
the second run, contingent performance feedback is provided, but no feedback is given in the
third run. Feedback will be provided to the participants via a continuous change of the
lighting within the room; the room will brighten with increasing activation and dim with
increasing deactivation. Additional feedback from an animated teacher as well as a
scoreboard will provide them with positive reinforcement at the end of every trial.
Visual, auditory and mixed distractors such as, for instance, paper planes flying through
the room, fellow students whispering, or people knocking on the door and coming into the
room, will be introduced in every run from the fourth training session onwards. The
distractors appear with a distance of at least 60 seconds between two distractors.
The baseline of the first, second and third run will be calculated from the BOLD signal in
the last two seconds before the trigger (arrow) appears. Reinforcement will be provided with
1 smiley when the participant spent 60% of the time of the second half of the trial on the
required side of the baseline (i.e., below, if deactivation is required, or above, if
activation is required). Analogously he/ she will receive 2 smileys with 70% and 3 smileys
with 80% of the second half of the trial in the required direction. Reinforcement for the
second run changes adaptively with the performance in the first run. If the participant
scored between 40-60 % success rate (getting at least 1 smiley), the second block will
remain exactly like the first. If the participant scores lower than 40% success rate, the
threshold will decrease to 0.8 standard deviations (STD) in either direction relative to the
baseline, so that the normalization of the light makes it more sensitive to performance. In
addition, the threshold for getting a smiley would decrease to 50%, 60%, and 70% for one,
two or three smileys respectively. If the participant scores higher than 60 % success rate
in the first run, then the threshold would increase to 1.2 STD above and below the baseline.
In addition, the percent of time that is spent above the baseline or below the baseline
would need to be 0.1 STD above or below the baseline to count towards the overall
percentage. The third run is the same as the second in calculation.
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Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment