Stimulation of Sleep in Patients With Epilepsy
- Conditions
- Epilepsy
- Interventions
- Other: Down-phase targeted auditory stimulation
- Registration Number
- NCT04716673
- Lead Sponsor
- University Children's Hospital, Zurich
- Brief Summary
Sleep slow waves (SSW) and the pathophysiological mechanisms of spike generation in patients with epilepsy are tightly linked. SSW are cortically generated oscillations (\~1 Hz) alternating between a hyperpolarized down-state (neuronal silence) and a depolarized up-state (neuronal firing). It has been shown experimentally that with increasing synchrony of slow neuronal oscillations, spike wave occurrence is facilitated. Auditory stimulation applied in correspondence to the SSW "up-phase" may increase the amplitude of the following SSW. Contrarywise, tones applied at the SSW "down-phase" may have a disruptive effect on SSW.
Participants: Patients with epilepsy with epileptic discharges in their sleep EEG, as well as healthy controls
Objective: Characterizing the effects of down-phase-targeted auditory stimulation on behavior and sleep EEG characteristics and determine whether the changes in sleep EEG characteristics are associated with the changes in behavior and wake EEG characteristics.
- Detailed Description
The investigators aim to evaluate the effect of closed-loop auditory stimulation during sleep in healthy children, adolescents and adults, as well children, adolescents and adults with epilepsy. During closed-loop auditory stimulation, a brief, quiet, non-arousing auditory stimuli, e.g. brief bursts of pink noise (50ms), are presented at specific moments during sleep. This procedure allows to noninvasively interact with endogenous brain activity and to influence sleep-dependent neuroplasticity.
Sleep slow waves (SSW) and the pathophysiological mechanisms of spike generation in patients with epilepsy are tightly linked. SSW are cortically generated oscillations (\~1 Hz) alternating between a hyperpolarized down-state (neuronal silence) and a depolarized up-state (neuronal firing). It has been shown experimentally that with increasing synchrony of slow neuronal oscillations, spike wave occurrence is facilitated. Auditory stimulation applied in correspondence to the SSW "up-phase" may increase the amplitude of the following SSW. Contrarywise, tones applied at the SSW "down-phase" may have a disruptive effect on SSW.
In a control week participants' usual sleeping behavior will be assessed using activity meters and sleep diaries. During the lab visits, sleep and wake brain activity will be measured using EEG at the sleep laboratory. For sleep recordings, other standard polysomnographic (PSG) measures will be recorded as well. Within the study, further measures include a structural MRI, IQ, as well as motor, cognitive, and vigilance tests. Participants' well-being and tolerance to the intervention will be assessed with questionnaires.
Thus, the investigators will have the following source data: PSG data, computer based test results (cognitive functioning, vigilance, memory and motor tests), IQ and questionnaire data, actigraphy data, and, depending on the participant and the availability of the MRI scanner, structural MRI data.
The sample size of the study is based on previous publications showing a significant effect of closed-loop auditory stimulation on NREM sleep EEG markers and declarative memory consolidation (Ngo et al., 2013). By including 11 participants they could demonstrate significant results both for the behavioral and electrophysiological data. Therefore, the investigators assume that it would be statistically meaningful to recruit at least 20 subjects per age group.
As the goal is to record 160 complete datasets, all these datasets will be used for the analysis. Incomplete datasets due to early withdrawal can be included partially for analyses in which only the available measures are included.
For any given analysis, datasets missing the relevant data will be excluded. The investigators will ensure that no analysis is based on less than 90% of the pursued sample size, meaning that at least 18 datasets per age and health group will enter all analyses (healthy participants or patients with epilepsy of a particular age group). In other words, no more than two participants would be excluded between outliers and missing data. Should this be exceeded, the investigators will compensate by recruiting additional participants
The data quality will be checked immediately after each experimental session to confirm the correct timing of presented sounds, as well as to assess the effect of closed-loop auditory stimulation on sleep EEG markers. The experiment will be continued if there will be a significant change in slow-wave activity in the first 10 participants (p \< 0.05, paired-samples t-test) associated with closed-loop auditory stimulation application. The final analysis described in the section below will be performed after all the data is collected.
All study data will be archived at University Children's Hospital for a minimum of 10 years after study termination or premature termination of the clinical trial. The anonymized EEGs are stored on the server of the EEG division of the University Children's Hospital.
Data generation, transmission, archiving and analysis strictly follows the current Swiss legal requirements for data protection. Personal identifiable information will be handled with complete confidentiality and will only be accessible to authorized personnel who require such information to fulfill their duties within the scope of the research project. The documents of the telephone interview are kept enclosed. On the project specific documents, participants are only identified by a unique participant number. Participant IDs and corresponding names will be saved in an encrypted participant identification list, accessible only to the Principal Investigator and authorized members of the team.
The Sponsor-Investigator is implementing and maintaining quality assurance and quality control systems with written SOPs and Working Instructions to ensure that trials are conducted and data are generated, documented (record), and reported in compliance with the protocol, GCP, and applicable regulatory requirement(s). Monitoring and audits will be conducted during the course of the study for quality assurance purposes. The day-to-day management of the study will be coordinated through the selected PhD student supervised by the postdoctoral researcher.
The investigator will allow the persons being responsible for the audit or the inspection to have access to the source data/documents and to answer any questions arising. All involved parties will keep the patient data strictly confidential.
Recruitment & Eligibility
- Status
- RECRUITING
- Sex
- All
- Target Recruitment
- 120
Not provided
Not provided
Study & Design
- Study Type
- INTERVENTIONAL
- Study Design
- CROSSOVER
- Arm && Interventions
Group Intervention Description Children (4-11y) with epilepsy Down-phase targeted auditory stimulation Down-phase-targeted closed-loop auditory stimulation is administered in each arm. Healthy teenagers (12-17y) Down-phase targeted auditory stimulation - Young adults (18-30y) with epilepsy Down-phase targeted auditory stimulation - Teenagers (12-17y) with epilepsy Down-phase targeted auditory stimulation - Healthy young adults (18-30y) Down-phase targeted auditory stimulation - Healthy children (4-11y) Down-phase targeted auditory stimulation -
- Primary Outcome Measures
Name Time Method CLAS on EEG characteristics & behavior Up to 4 years CLAS changes sleep EEG characteristics (slow-wave and spindle activity) and the measured behavior (e.g. cognitive, memory and motor performance).
EEG characteristics on behavior & wake EEG characteristics Up to 4 years The changes in sleep EEG characteristics (slow-wave and spindle activity) correlate with the changes in measured behavior (attention \[TAP battery\], reaction time \[TAP battery\], and declarative \[word-pair memory task\] \& spatial memory \[object-location task\]) and wake EEG characteristics (frequencies up to 40 Hz).
- Secondary Outcome Measures
Name Time Method CLAS on sleep slow waves Up to 4 years Qualitative exploration of CLAS effect on the sleep slow waves across different age groups.
Performance in attention in epilepsy patients Up to 4 years Attention (measured with TAP battery) of patients with epilepsy is restored to the level of healthy participants of the same age.
Performance in spatial memory in epilepsy patients Up to 4 years Spatial memory (measured with object-location task) of patients with epilepsy is restored to the level of healthy participants of the same age.
Performance in declarative memory in epilepsy patients Up to 4 years Declarative memory (measured with word-pair memory task) of patients with epilepsy is restored to the level of healthy participants of the same age.
CLAS on other sleep EEG characteristics, such as sleep spindles Up to 4 years Qualitative exploration of CLAS effect on other sleep EEG characteristics, such as sleep spindles across different age groups.
Performance in reaction times in epilepsy patients Up to 4 years Reaction times (measured with TAP battery) of patients with epilepsy is restored to the level of healthy participants of the same age.
Trial Locations
- Locations (1)
University Children's Hospital Zurich
🇨ðŸ‡Zurich, Switzerland