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Trial registered on ANZCTR

Registration number

ACTRN12617000001392

Ethics application status

Approved

Date submitted

30/11/2016

Date registered

3/01/2017

Date last updated

2/06/2023

Date data sharing statement initially provided

30/07/2019

Date results provided

2/06/2023

Type of registration

Prospectively registered

Titles & IDs

Public title

The effects of 3 days of simulated wind farm infrasound, sham infrasound and traffic noise on health: A laboratory-based randomised, 3 way cross over study

Scientific title

The effects of 3 days of simulated wind farm infrasound, sham infrasound and traffic noise on health in people who are noise sensitive: A laboratory-based randomised, 3 way cross over study

Secondary ID [1]

Australian NH&MRC Project Grant APP1113615

Universal Trial Number (UTN)

Trial acronym

Linked study record

Health condition

Health condition(s) or problem(s) studied:

Wind Turbine Syndrome

Sleep Disruption

Condition category

Condition code

Neurological

Studies of the normal brain and nervous system

Intervention/exposure

Study type

Interventional

Description of intervention(s) / exposure

Participants will be exposed during three 3-day continuous periods (i.e. 72 continuous hours in our single bedroom apartment-like sleep laboratory rooms), in random order to the 2 control conditions and the key exposure of:
1. wind farm simulated infrasound at 90dB Pk (test exposure) generated by specially manufactured speaker boxes

The washout period between exposures will be at least 11 days

Intervention code [1]

Other interventions

Comparator / control treatment

1. no added sound (sham, negative control). Speaker boxes identical to the infrasound generating boxes used for the wind farm exposure will be placed in the participants’ rooms (negative control)
2. traffic noise at 40-50LAeq with breakthrough events at 70dB Pk (positive or active control)

Control group

Placebo

Outcomes

Primary outcome [1]

Changes in minutes of wake after sleep onset (WASO) as determined by 3 overnight polysomnograms per arm using standard electroencephalography (EEG) based criteria. We will compare the effects of infrasound and traffic noise to sham infrasound. Minutes of WASO is calculated from the first epoch of any sleep detected on the polysomnogram until the last epoch of any sleep detected on the polysomnogram or the particpant's individually calculated actigraphically estimated wake-up time, whichever happens last.

Timepoint [1]

All 3 nights of exposure to each of the 3 exposures will be combined

Secondary outcome [1]

Sleep latency (Time to onset of 1st sleep at night as determined by a polysomnograph)

Timepoint [1]

All 3 nights of exposure to each of the 3 exposures will be combined

Secondary outcome [2]

Sleep Stage Shifts (The total number of sleep stage transitions over the whole night as determined by a polysomnograph)

Timepoint [2]

All 3 nights of exposure to each of the 3 exposures will be combined

Secondary outcome [3]

Proportions of the sleep opportunity period scored as stage Wake or as sleep stages N1, N2, N3 and REM as recorded on a polysomnograph

Timepoint [3]

All 3 nights of exposure to each of the 3 exposures will be combined

Secondary outcome [4]

Arousal frequency (the Arousal Index is a measure of the number or cortical arousals captured via the EEG on a polysomnograph per hour of scored sleep)

Timepoint [4]

All 3 nights of exposure to each of the 3 exposures will be combined

Secondary outcome [5]

Power spectral analysis for sleep microarchitecture analysis
Quantitative EEG analysis techniques will be applied to all sleep EEG signals from polysomnography recordings after identification and exclusion of artefacts. Sleep stage specific power spectra using a fast Fourier transform routine and scaling exponents from detrended fluctuation analysis will be quantified. Sleep spindle characteristics including density (no. of spindles/min of NREM), duration, and morphology (frequency, amplitude and symmetry), and dynamics of slow wave activity (SWA) across the night will also be computed. The topographical and regional distribution of sleep EEG oscillations (i.e. SWA, K-complexes and sleep spindles) will be examined to detect changes in cortical activity across key brain regions that may occur from the study interventions. EEG data will be collected using established data acquisition processes using hospital approved sleep recording systems in the sleep laboratory. Analysis of EEG data will be performed through internally developed and validated software as well as PhiTools PRANA software.

Timepoint [5]

All 3 nights of exposure to each of the 3 exposures will be combined

Eligibility

Key inclusion criteria

1. Aged 18 or above
2. Noise sensitive individuals -defined as Weinstein’s Noise Sensitivity Scale (WNS) Score >58
3. Normal hearing on audiometry
4. Clinically normal 24-hr sleep-wake cycle as assessed by actigraphy for at least 7 nights, with >5.5hrs sleep/night on average and a normal rise time between 5am & 7am and a normal bedtime between 9pm & 1am
5. Fluent in English. Must be able to answer computerised questionnaires and undergo neurocognitive assessments in English

Minimum age

18 Years

Maximum age

No limit

Sex

Both males and females

Can healthy volunteers participate?

Yes

Key exclusion criteria

1. Any previous clinically evident and uncontrolled severe sleep disorders, including severe insomnia as assessed by the Insomnia Severity Index (moderate = >18 will be excluded)
2. No serious chronic illnesses
3. No major psychiatric disorders
4. Use of any hypnotic medications or other medications that interfere with sleep within the last month
5. Recent time-zone travel (more than 2 time zones in the last 2 weeks or 1 time zone in the past week)
6. Shift workers
7. Pregnant, expecting or breastfeeding women
8. Unable to remain in a sleep lab for 4 consecutive days
9. Unable to refrain from tobacco, alcohol or caffeine during study visits.

Study design

Purpose of the study

Prevention

Allocation to intervention

Randomised controlled trial

Procedure for enrolling a subject and allocating the treatment (allocation concealment procedures)

Secure randomisation will be achieved through Research Tools(TM) by entering secure participant data in order to access a unique participant randomisation number. The unique participant number will be assigned in ascending chronological order. This number will be a two digit number prefixed by “R” (e.g. R01, R02 etc.) and will be used to identify the randomised study period order the participant undergoes.

Methods used to generate the sequence in which subjects will be randomised (sequence generation)

Participants will undertake the 3 study periods in a random order. An investigator who will never meet any participant and plays no role in selection or testing of participants will computer generate the randomisation list.

Masking / blinding

Blinded (masking used)

Who is / are masked / blinded?

The people receiving the treatment/s
The people administering the treatment/s
The people assessing the outcomes
The people analysing the results/data

Intervention assignment

Crossover

Other design features

Expectations on the part of participants and investigators may influence the effect of the exposure (infrasound) and, more particularly, may influence the measurement of those effects, especially the subjective (self-reported) outcomes. To avoid the potential for this measurement bias, it is important that both participants and the investigators who are measuring outcomes are blinded to the intervention group. Fortunately, as infrasound is, by definition, inaudible, this is readily achieved by the use of a sham device that appears the same as the infrasound device, but which does not produce any sound. Only the unblinded acoustic engineer will have knowledge of the exposure and they will never meet a participant.
The study will also include a positive control arm. During this period, participants will be exposed to actual noise (traffic noise). The purpose of this arm is to demonstrate that both the participants and the tools used to measure outcomes are sensitive enough to be responsive to a sound-stimulus. It would be particularly important to demonstrate that this is the case if we fail to observe any effect of the test stimulus (infrasound) on the health outcomes that are being measured. As the positive control consists of actual sound, it will not be possible to blind participants or investigators to this exposure.

Phase

Not Applicable

Type of endpoint/s

Safety

Statistical methods / analysis

Generalised linear mixed models will be utilised for statistical analysis. WASO will be the dependent variable in the primary analysis. All other outcomes will be tested separately as dependent variables. Exposure (infrasound vs sham) will be the main fixed effect and its coefficient will be the estimate of difference in the outcome attributable to infrasound (vs sham) exposure. Participants will be included as a random effect, a period effect (first, second or third exposure period) will be included as an additional fixed effect and a term representing the sequence (or order) will be included as an additional random effect (nested within participants). As multiple outcome measures will be made (at baseline and at various follow-up times) a “time” fixed effect will also be included and exposure-by-time interactions will be tested. Also, the exposure-by-anxiety/stress about Wind Turbine Syndrome interaction will be tested to establish whether this attribute modifies the propensity to experience Wind Turbine Syndrome symptoms with exposure.

Recruitment

Recruitment status

Completed

Date of first participant enrolment

Anticipated

27/01/2017

Actual

21/04/2017

Date of last participant enrolment

Anticipated

31/10/2019

Actual

5/03/2020

Date of last data collection

Anticipated

31/12/2019

Actual

23/03/2020

Sample size

Target

40

Accrual to date

Final

37

Recruitment in Australia

Recruitment state(s)

NSW

Recruitment postcode(s) [1]

2037 - Glebe

Funding & Sponsors

Funding source category [1]

Government body

Name [1]

NHMRC

Address [1]

GPO Box 1421 Canberra ACT 2601

Country [1]

Australia

Primary sponsor type

Other

Name

Woolcock Institute for Medical Research

Address

431 Glebe Pt Rd
Glebe 2037
NSW

Country

Australia

Secondary sponsor category [1]

None

Name [1]

Address [1]

Country [1]

Ethics approval

Ethics application status

Approved

Ethics committee name [1]

Sydney Local Health District Ethics Review Committee (Royal Prince Alfred Hospital Zone)

Ethics committee address [1]

c/o Research Development Office
Royal Prince Alfred Hospital
Missenden Road
Camperdown NSW 2050

Ethics committee country [1]

Australia

Date submitted for ethics approval [1]

04/11/2016

Approval date [1]

02/12/2016

Ethics approval number [1]

X16-0073 & HREC/16/RPAH/91

Summary

Brief summary

This short-term, randomised, 3 period, crossover study, which will be conducted in our purpose-built, sound-isolated laboratory at the Woolcock Institute. Because of rising community concerns about the health effects of infra sound generated by wind turbines we will measure the impact of exposure to infrasound on multiple dimensions of human health in individuals who report increased noise sensitivity.

Trial website

https://www.windfarmstudy.com

Trial related presentations / publications

Public notes

Attachments [1]

/AnzctrAttachments/371951-Ethical Approval Letter for Wind farm lab study from RPAH Dec2016.pdf (Ethics approval)

Attachments [2]

/AnzctrAttachments/371951-Windfarm_Lab_Protocol_03112016 V2.1_25MAY2017.pdf (Protocol)

Contacts

Principal investigator

Name

A/Prof Nathaniel Marshall

Address

Woolcock Institute for Medical Research
431 Glebe Pt Rd
Glebe
NSW 2037

Country

Australia

Phone

+61 2 9114 0000

Fax

Email

[email protected]

Contact person for public queries

Name

Nathaniel Marshall

Address

Woolcock Institute for Medical Research
431 Glebe Pt Rd
Glebe
NSW 2037

Country

Australia

Phone

+61 2 9114 0000

Fax

Email

[email protected]

Contact person for scientific queries

Name

Nathaniel Marshall

Address

Woolcock Institute for Medical Research
431 Glebe Pt Rd
Glebe
NSW 2037

Country

Australia

Phone

+61 2 9114 0000

Fax

Email

[email protected]

Data sharing statement

Will individual participant data (IPD) for this trial be available (including data dictionaries)?

Yes

What data in particular will be shared?

All non-identifiable data

When will data be available (start and end dates)?

1/6/21 to 1/6/31

Available to whom?

Only researchers who provide a methodologically sound proposal

Available for what types of analyses?

Individual participant level meta-analyses of congruent studies

How or where can data be obtained?

By email application to [email protected] with a properly constituted research plan and ethical approval (or plan to get such)

What supporting documents are/will be available?

Doc. No.	Type	Citation	Link	Email	Other Details	Attachment
8904	Study protocol		https://www.researchgate.net/publication/343628019_Title_The_effects_of_3_days_of_simulated_wind_farm_infrasound_sham_infrasound_and_traffic_noise_on_health_A_laboratory-based_randomised_3_way_cross_over_study_Short_title_Laboratory-based_effects_of_i?_sg%5B0%5D=ZXNUqPJcL9rBeh7Ey6FZovHxvHEakB7pLoAJs8U0dTNWigyrxwXja3RvmLp4SfZoLQfrtLVUNjkNW0KB-A6PemPF5bdExuei4Hl8P-n7.ZKiiNo0R8tSrnQ_ukALRtd43-7SaRq5jh3fzI3S-qo76L_f8iHCHkCMAt4YgrlzRM6hWnuFElziohN0idrqsuw	[email protected]
8905	Informed consent form			[email protected]
8906	Ethical approval			[email protected]
8907	Analytic code			[email protected]

Results publications and other study-related documents

Documents added manually

No documents have been uploaded by study researchers.

Documents added automatically

Source	Title	Year of Publication	DOI
Embase	The Health Effects of 72 Hours of Simulated Wind Turbine Infrasound: A Double-Blind Randomized Crossover Study in Noise-Sensitive, Healthy Adults.	2023	https://dx.doi.org/10.1289/EHP10757

N.B. These documents automatically identified may not have been verified by the study sponsor.