Healthy Lifestyle Clinical Trial
Official title:
Investigation of Possible Effects of a Lifestyle Product in a Double-blind Pre-Post-Between-Groups Study
Research question: The study investigates possible effects of the lifestyle product
"Qi-Shield" on a subjective and (neuro-)physiological level. Thereby, effects on well-being,
stress perception and the sleep quality as well as influencing factors like personality and
beliefs are of particular interest.
Sample and Design: In the study 90 test persons are to be tested in a double-blind pre-post
between-subject design with three groups (real device (A) - sham device without effectiveness
(also called placebo, B) - no device (C)).
Measurement methods: Established questionnaires and scales as well as (neuro-)physiological
methods comprising electroencephalography (EEG), electrocardiogram (ECG) and skin conductance
level measure (electrodermal activity, EDA) during a 20 mins resting state measure with
alternating eyes open and closed are used.
Statistical evaluation: Group comparisons (A, B, C) in the difference between the measurement
points (post - pre) on a subjective and (neuro-)physiological level.
Within this study, the Lifestyle product Qi-Shield manufactured by Waveguard GmbH shall be
investigated regarding its subjective psychological and neurophysiological effects. Thereby,
the constructs well-being, stress feeling in the everyday life and subjectively perceived
sleep quality as well as (neuro)-physiological correlates are of particular interest. The
physical effects of the product will not be scope of this study. According to the World
Health Organization (WHO), the number and variety of sources of electromagnetic fields (EMF)
has increased over the last decades. These sources include video display units (VDUs)
associated with computers, cell phones and their base stations, which does not exclude
possible health risks from EMF emissions. In this context, several studies report a variety
of health problems associated with exposure to EMFs. The sensitivity to EMF is called
electromagnetic hypersensitivity. EHS is characterized by a variety of non-specific effects
that people attribute to exposure to EMFs. Among the most frequently reported effects are
dermatological symptoms and neurasthenic and vegetative symptoms. Some laboratory studies
explored the relationship between EMF (short-term exposure) and EHS and observed highly
inter-subjectively varying effects. However, EHS has no clear diagnostic criteria and there
is no scientific basis to link EHS effects to EMF exposure, at least not to short-term EMF
exposure. However, the limited quantity and quality of research on possible effects of EMF
does not allow excluding long-term effects.
The Qi-Shield device aims to reduce effects of EMF exposure and enable to maintain subjective
well-being, low stress perception and good sleep quality.
Previous literature reported neuronal correlates characterized with (acute) stress exposure
and effects on well-being (especially emotional regulation) at the physiological (autonomic
nervous system) and neurophysiological level (central nervous system). These measurements can
also be observed during the resting state. On a physiological level, heart rate variability
(HRV) -recorded by the electrocardiography (ECG) - can be derived as a constant measure of
the influence of stress. The most frequently reported parameter under acute stress was low
parasympathetic activity, characterized by a decrease in the high frequency band (0.15-0.4
Hz, HF) and an increase in the low frequency band (0.04-0.15 Hz, LF). Furthermore, the
measurement of sweat production of the skin - recorded by the derivation of the electrodermal
skin activity (EDA) - is suitable to characterize specific influences on the autonomic
nervous system. For this purpose, the EDA signal can be segmented into phasic reactions
(individual rapid reactions - usually responses to a given stimulus) and tonic components
(longer lasting basic skin resistance value). From these two components, the number of
individual phasic responses, the summed amplitude of the phasic responses, and the change in
the tonic state of the electrical conductivity are the most suitable feature to investigate
effects of stress on the physiological level. On a neurophysiological level, acute stress
leads to effects in the resting state networks of the brain. A recently published study
showed that acute stress weakens the connectivity of the front-parietal module and
strengthens the connectivity of the module in the default mode network. Thus, it can be
assumed that stress influences the information flow in networks that are important for
salience processing (especially attention control) and self-referential mental processing or
even emotional processing. Possible quantitative markers from EEG resting state measurements
are the derivation of the frequency spectrum (derived by calculating the Fourier transform)
as well as connectivity measures (calculating coherence measures from the EEG frequency
spectrum). In particular, the ratio of frontal theta (4-7 Hz) to beta (13-30 Hz) activity can
be derived from the resting EEG as an indicator of possible influences on cognitive control
abilities (attention-control). Possible influences on one's own well-being, such as the
ability to control one's emotions (impulse control), can be observed in changes in frontal
alpha (8-14 Hz) activity both in frequency spectrum and coherence and in the determination of
so-called frontal alpha asymmetry. Since there could be possible effects of Qi-shield may
result in a reduction of EMF, power and coherence measures in individual alpha and beta band
resting activity already observed in connection with EMF exposure may serve as a basis for
this study. Regarding subjective influences on effects of the here studied device, various
studies reported correlations between personality characteristics (i.e, critical thinking),
fluid intelligence and the tendency towards and openness for paranormal beliefs. Matrix
intelligence tests such as the Vienna Matrix Test 2 (WMT-2) detect inferential thinking and
correlate strongly positively with manifestations in critical thinking. Both constructs show
a negative correlation between manifestations of paranormal beliefs and statements about
paranormal experiences. An influence of personality factors such as openness to new
experiences can also be assumed. To control possible moderating or mediating factors, these
constructs will be investigate, too.
The study design is a double-blind Pre-Post Between-Subject Design. This means that the
subjects are invited twice (pre-session and post-session). Between the two sessions, there is
one week of exposure time during which the subjects of the invention groups take the device
home.
At the beginning of the experiment in the pre-session, all subjects (N=90) are checked for
the presence of inclusion and exclusion criteria and if necessary excluded from the study.
The subjects are assigned to the trial groups in a semi-randomized latin-square
counterbalanced manner. The assignment is double-blind, i.e. neither the volunteer nor the
investigator is informed which group receives a placebo or real intervention. The real
devices resemble the sham devices in appearance, composition and weight, so that a
traceability based on these factors is not possible. The products are marked with the letters
A and B. The assignment which letter belongs to which intervention group is explained in a
sealed envelope and will be opened after completion of the study and analysis. Prior to the
start of the study, participants are informed about their rights and potential risk of
participation with an authorized deception in case of the assumed effects of the intervention
and asked to sign the declaration of consent in line with the declaration of Helsinki. The
information for the intervention groups differs from the information for the no-intervention
group, as the latter serves as a control group and therefore does not receive any information
about the intervention.
Afterwards the test person is asked to answer a control item for the examined product (only
for group A - correct product and B - sham product) and then fill in questionnaires about
sleep quality and current fatigue (in detail below). Subsequently, the sensors for EEG, ECG
and EDA are prepared and fixed to the head and body accordance with the corresponding
guidelines. After this preparation, the resting state measurements of electrophysiological
signals (EEG, ECG and EDA) are recorded during relaxation. In order to identify possible
effects in the alpha band, resting measurements are taken with eyes closed (so-called eyes
closed EC) as well as with eyes open (so-called eyes open, EO) according to a standardized
procedure. This consists of an alternating task (20 minutes in total) in which the subjects
are asked to alternately "relax with eyes open" and "relax with eyes closed" for 60 seconds
each. In the phase with open eyes, the test persons are asked to fixate a crosshair on a
screen. The change between the phases is signalled by an acoustic tone.
Afterwards, the measurement equipment is removed from the head and body and the test person
is asked to answer several questionnaires and scales (in detail below).
At the end of the session, test persons from groups A and B receive the information on
handling the device and the device with the respective label (A or B). During the seven days
exposure period, subjects are asked daily to answer questions about their current condition
and special events via an online survey. The subjects in groups A and B are also asked to
answer two questions related to the handling of the product. During the exposure period,
subjects are supervised via WhatsApp or E-mail from employees of the University of Stuttgart
and Fraunhofer IAO. A short standardized text will be used as a reminder to fill in the
questionnaires if participants have not been completed by a certain time (6 pm). The second
session is similar to the first session in terms of the way the study is conducted. At the
beginning of the session, the subjects are again given detailed written information about the
study and asked to sign the declaration of consent for the second session. Afterwards the
participants are asked to fill in the daily questions about well-being, everyday stress and
special events as well as the questionnaires about sleep quality and current fatigue.
Afterwards, we will conduct the neurophysiological measurement during the resting state as in
the pre-session. Afterwards, the measurement sensors are removed from the head and body and
the participant is asked to answer the questionnaires and scales. At the end of the
post-session the test persons will be informed in detailed and the deception will be
dissolved. The experimenter will answers further questions.
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