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Trial registered on ANZCTR

Registration number

ACTRN12622000367741

Ethics application status

Approved

Date submitted

17/02/2022

Date registered

2/03/2022

Date last updated

26/05/2024

Date data sharing statement initially provided

2/03/2022

Type of registration

Prospectively registered

Titles & IDs

Public title

Cool water foot immersion, skin wetting and fan use as low-cost, at home cooling strategies for older adults during heat waves

Scientific title

The efficacy of foot immersion alone or combined with fan use and skin wetting as a low-cost cooling strategy for older adults during hot humid and hot dry heatwaves

Secondary ID [1]

Nil Known

Universal Trial Number (UTN)

U1111-1274-0058

Trial acronym

OACS2: Older adults and cooling strategies, 2

Linked study record

This study is a follow up study to our previously registered studies: Request ID, ACTRN12619000938101 and ACTRN12618001913268

Health condition

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

Heat related cardiovascular strain

Heat related thermal strain

Heat related changes in thermal perceptions (i.e., comfort and sensation)

Condition category

Condition code

Injuries and Accidents

Other injuries and accidents

Cardiovascular

Normal development and function of the cardiovascular system

Public Health

Other public health

Intervention/exposure

Study type

Interventional

Description of intervention(s) / exposure

Each participant will take part in 6 experimental trials consisting of 3 hour of simulated heatwave exposure randomised within each heat wave condition:

Hot and dry heat wave:
1. No cooling (comparator)
2. Foot immersion
3. Foot immersion + skin wetting

Hot and humid heat wave:
1. No cooling (comparator)
2. Foot immersion
3. Foot immersion + electric fan

In each exposure, they will be asked to sit in a regulated environmental chamber at a temperature of either 45ºC, 10% RH (hot and dry heat wave) or 38ºC, 60% RH (hot and humid heat wave). Participants will be provided water to replenish fluid (i.e., sweat) losses equivalent to 1ml/kg of body weight every 20 min throughout the trial. Each trial will be separated by at least 72 h.

Foot immersion: in all foot immersion trials, participants will place their feet in cool 18ºC water inside a 40L bucket up to their calf for 20 min, followed by 10 min out of the water, and repeated throughout the trial.

In our previous study, we identified that skin wetting is the best cooling intervention in hot and dry heat waves, while electric fan is the best cooling intervention for hot and humid heatwaves. Therefore, the following combination interventions will also be studied:

Foot immersion + skin wetting: in the foot immersion + skin wetting trials, foot immersion will be combined with wetting the skin using a spray bottle every 5 min intervals. Each 5 min throughout the protocol the researcher will spray the skin on the face, neck, upper and lower arms and upper and lower legs (except when inside the bucket) with tap water (~18ºC). A total of 18 sprays (1.2g water per spray) will be applied (1 x forehead; 1 x posterior neck; 1 x upper and 1 x lower of both arms; 3 x upper and 3 x lower of both legs) when feet are out of the water; and a total of 12 sprays will be applied (excluding lower sites of both legs) when feet are immersed in the water.

Foot immersion + electric fan: in the foot immersion + electric fan trials, foot immersion will be combined with an 18" electric fan placed in 1.0m in front of the participant and directly blowing on them at a speed of 4.0m/s.

Intervention code [1]

Prevention

Comparator / control treatment

The comparator is a the no cooling condition in which participants will receive no cooling throughout the trial.

Control group

Active

Outcomes

Primary outcome [1]

Core body temperature measure via a flexible rectal thermistor

The participant will be asked to insert a flexible sensor 10-12cm into their rectum. A marker is placed on the sensor using sterile surgical tape. The participant will insert the sensor until the tape reaches their anal surface. The insertion of the sensor may cause some mild discomfort and minor irritation; however, this sensation soon passes. The participant will receive proper instruction regarding the placement of the sensor to ensure their safety and comfort. The participant will be responsible for the insertion of this sensor. It will provide the researcher with an indication of the amount of heat stored in their body and will be tracked throughout the entirety of each experimental session

Timepoint [1]

Difference between pre- to post- 3 h heat exposure

Primary outcome [2]

Heart Rate

Heart rate will also be measured continuously during the screening and experimental visits via 12 lead ECG for safety. A polar monitor will also be used for increased sample rate for data collection purposes.

Timepoint [2]

Difference between pre- to post- 3 h heat exposure.

Secondary outcome [1]

Skin temperature

Skin temperature will be measured continuously during the study visits by taping 4 small sensors to the skin surface on the right side at the upper arm, chest, thigh and upper calf.

Timepoint [1]

Difference between pre- to post- 3 h heat exposure.

Secondary outcome [2]

Blood pressure

Blood pressure will be measured during the screening visit, as well as every 10 minutes during the study visits by automated auscultation of the brachial artery.

Timepoint [2]

Difference between pre- to post- 3h heat exposure.

Secondary outcome [3]

Cardiac output (MHI only)

Will be measured prior to and at the end of the heat exposure with an inert gas rebreathing technique where inert gas is inhaled and continuously monitored from a re-breathing bag.

Timepoint [3]

Difference between pre- to post- 3 h heat exposure.

Secondary outcome [4]

Skin blood flow

Skin blood flow will be measured continuously during the study visits on the forearm by laser-Doppler flowmetry.

Timepoint [4]

Difference between pre- to post- 3 h heat exposure

Secondary outcome [5]

Local sweat rate

Local sweat rate will be measured continuously during the study visits using a plastic capsule attached to the skin surface and ventilated with dry air on the upper left back.

Timepoint [5]

Difference between pre- to post- 3h heat exposure.

Secondary outcome [6]

Whole body sweat rate

Participants will provide a nude weight (in private) before and immediately after the heatwave exposure on a calibrated digital scale. Whole-body sweat rate will be calculated as the difference in the pre and post weight, divided by the time between recorded weigh-ins.

Timepoint [6]

Difference between pre- to post- 3h heat exposure.

Secondary outcome [7]

Perceptual changes in thermal discomfort

Thermal discomfort will be measured at baseline and every 20 minutes during the 3 h heat exposure protocol using a visual analog scale.

Timepoint [7]

Difference between pre- to post- 3h heat exposure.

Secondary outcome [8]

Cognitive function (USYD only)

Cognitive function will be measured at baseline and following the trial using the Stroop Colour Word Test.

Timepoint [8]

Difference between pre- to post- 3h heat exposure.

Secondary outcome [9]

Perceptual changes in thermal sensation

Timepoint [9]

Thermal sensation will be measured at baseline and every 20 minutes during the 3 h heat exposure protocol using a visual analog scale.

Eligibility

Key inclusion criteria

Healthy Cohort (The University of Sydney, Sydney AU):
- 60+ years
- Non-smoker or ex-smoker (quit greater than 2 y prior)
- Otherwise healthy
- No difficult understanding or speaking English

CAD Cohort (Montreal Heart Institute, Montreal CA):
- Age between 50 and 80 years.
- History of angiographic coronary artery disease (greater than or equal to 70% arterial diameter narrowing of at least one major epicardial coronary artery) and/or prior coronary revascularization and/or documented prior acute coronary syndrome and/or stable angina and/or perfusion defect during exercise or pharmacological stress testing.

Minimum age

60 Years

Maximum age

No limit

Sex

Both males and females

Can healthy volunteers participate?

Yes

Key exclusion criteria

Healthy Cohort (The University of Sydney, Sydney AU):
- Body mass index greater than or equal to 40 kg/m2.
- Hormonal replacement therapy.
- Uncontrolled hypertension (greater than 180/110 mmHg).
- Uncontrolled diabetes or severe complications of diabetes.
- Evidence of severe renal disease, liver disease, cerebrovascular disease, pulmonary disease, endocrine abnormalities, cognitive impairment, psychiatric disorder, substance abuse, degenerative neurological condition or any other medical condition deemed to pose risk during the study visits.
- Medication known to cause hyper- or hypo-hidrosis (except those taken for hypertension).
- Currently taking a beta-blocker.
- Evidence of current fluid and electrolyte disorders
- Current diagnosis of anemia
- Abnormal thyroid function
- Arrhythmias at rest or during cardiac stress test
- Significant cognitive impairment, psychiatric disorder, substance abuse, degenerative neurological condition
- Any other medical condition deemed to pose risk during the proposed testing or experiments, or preclude them from completing the screening stress test.

CAD Cohort (Montreal Heart Institute, Montreal, CA):
- CAD-related hospitalisation or changes in cardiac medications or change in pattern of angina less than 3 months prior to enrolment.
- Body mass index greater than or equal to 40 kg/m2.
- Hormonal replacement therapy (less than 1 year) for female participants.
- Uncontrolled hypertension (greater than 180/110 mmHg).
- Uncontrolled diabetes or severe complications of diabetes.
- Recent (less than 3 months) coronary bypass surgery.
- Ejection fraction less than 40% and/or clinical evidence/history of heart failure.
- Significant valve heart disease.
- Resting ECG abnormalities interfering with observation of ST segment changes during testing.
- Evidence of severe renal disease, liver disease, cerebrovascular disease, pulmonary disease, endocrine abnormalities, cognitive impairment, psychiatric disorder, substance abuse, degenerative neurological condition or any other medical condition deemed to pose risk during the 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)

Participants will be randomised via a central computer database in a balanced order of males and females. Randomisation will occur separately for each cohort (i.e., Healthy and CAD).

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

Masking / blinding

Open (masking not used)

Who is / are masked / blinded?

Intervention assignment

Crossover

Other design features

Phase

Not Applicable

Type of endpoint/s

Efficacy

Statistical methods / analysis

The sample size calculation is based on the primary outcome of a change in rectal temperature from baseline to the end of the 3-hour simulated hot and humid heatwave (38°C, 60% humidity) between no cooling intervention and cold water foot immersion alone. The expected mean difference and standard deviation for the change in rectal temperature was calculated from the data collected as part of phase 1 of this project. Based on these data, rectal temperature was (mean ± SD) 0.1 ± 0.2°C lower in the fan condition compared to no intervention during exposure to hot and humid heatwave conditions. Assuming a similar difference in rectal temperature (0.1 ± 0.2°C) between cold water foot immersion alone and no intervention and using a paired t-test, 34 participants are needed to detect this difference with a ß of 0.8 and a two-tailed a of 0.05.

A secondary objective of this study is to compare the change in heart rate between cold water foot immersion alone and no intervention during a simulated hot and dry heatwave (45°C and 10% humidity). Data collected as part of phase 1 of this project demonstrate that the change in heart rate is 5 ± 5 bpm lower in the skin wetting condition compared to no cooling intervention. Assuming a similar difference in heart rate (5 ± 5 bpm) between cold water foot immersion alone and no intervention and using a paired t-test, 10 participants are needed to detect this difference with a ß of 0.8 and a two-tailed a of 0.05.

Since participants will be invited to partake in all study visits for both heatwave types (i.e., hot humid and hot dry), a total of 34 participants will be required to be adequately powered for our research questions of interest. To account for a potential 20% loss to follow up, we expect to recruit up to 41 participants. Of note, this represents the total sample size to be recruited between the University of Sydney and our secondary site at the Montreal Heart Institute with an approximately 50/50 split (N=20 at each site).

Primary analysis:
During the hot and humid heat wave condition, the change in core temperature from baseline to end of the 3 hour heatwave exposure will be compared between no cooling intervention and cold water foot immersion using a paired t-test.

Secondary analysis:
During the hot and humid heat wave condition, the change in core temperature and the change in heart rate from baseline to end of the 3 hour heatwave exposure will be compared between the cold-water foot immersion alone and the cold-water foot immersion + fan (hot humid) conditions using paired t-tests.

During the hot dry heatwave condition, one-way repeated measures ANOVA models will be used to compare the end of trial change in core temperature or heart rate from baseline between the control, cold water foot immersion along and the cod water foot immersion + skin wetting conditions. Contrasts under these models will allow for the following two comparisons:
1. Control vs cold water foot immersion alone;
2. Cold water food immersion alone vs cold water foot immersion + skin wetting.

Tertiary analysis:
A one-way repeated measures ANOVA will be used to compare the end of trial change in all other variables from baseline between the control, cold water foot immersion only, and fan use + cold water foot immersion conditions during the 38°C, 60% humidity heatwave. The same model will be employed for the 45°C, 10% humidity heatwave for the control, cold water foot immersion and cold water foot immersion + skin wetting conditions.

Recruitment

Recruitment status

Recruiting

Date of first participant enrolment

Anticipated

1/04/2022

Actual

12/05/2022

Date of last participant enrolment

Anticipated

1/12/2024

Actual

Date of last data collection

Anticipated

31/12/2024

Actual

Sample size

Target

Accrual to date

Final

Recruitment in Australia

Recruitment state(s)

NSW

Recruitment postcode(s) [1]

2006 - The University Of Sydney

Recruitment postcode(s) [2]

2001 - Sydney

Recruitment outside Australia

Country [1]

Canada

State/province [1]

Montreal

Funding & Sponsors

Funding source category [1]

Government body

Name [1]

National Health and Medical Research Council

Address [1]

16 Marcus Clarke St
Canberra
ACT
2601

Country [1]

Australia

Primary sponsor type

University

Name

The University of Sydney

Address

The University of Sydney
Camperdown
NSW
2006

Country

Australia

Secondary sponsor category [1]

Hospital

Name [1]

Montreal Heart Institute

Address [1]

5000 Rue Belanger
Montreal, QC H1T 1C8, CA

Country [1]

Canada

Ethics approval

Ethics application status

Approved

Ethics committee name [1]

The University of Sydney Human Research Ethics Committee

Ethics committee address [1]

Research Integrity and Ethics Administration 
Research Portfolio
Level 3, F23 Administration Building
The University of Sydney
Camperdown, NSW
2006

Ethics committee country [1]

Australia

Date submitted for ethics approval [1]

24/09/2021

Approval date [1]

04/02/2022

Ethics approval number [1]

2021/962

Ethics committee name [2]

Human Ethics at the University of Montreal

Ethics committee address [2]

5000, Bélanger street
Montréal H1T 1C8
Québec

Ethics committee country [2]

Canada

Date submitted for ethics approval [2]

21/10/2021

Approval date [2]

09/12/2021

Ethics approval number [2]

2022-3060

Summary

Brief summary

Our laboratory has been conducting research in collaboration with the Montreal Heart Institute, Montreal, CA. examining the effect of fan use with and without skin wetting on thermal and cardiovascular strain in older adults with and without CAD during a 3-hour simulated heatwave. These data demonstrate that fan use during a hot and humid heatwave (38°C, 60% humidity) mitigates the rise in core temperature and heart rate compared to no fan use. During a hot and dry heatwave (45°C, 10% humidity), wetting the skin with 18°C water mitigates the rise in core temperature and heart rate compared to no cooling intervention. This study is is the second phase of identifying low-cost cooling strategies for older adults who are healthy and have heart disease to use in home during heat waves. In this study we aim to investigate whether there is an additional benefit of cold-water foot immersion when combined with fan use during a simulated hot and humid (38°C, 60% humidity) heat wave. A secondary aim of this study is to investigate whether there is an additional benefit of cold-water foot immersion when combined with skin wetting during a simulated hot and dry (45°C, 10% humidity) heatwave.

Trial website

Trial related presentations / publications

Public notes

Contacts

Principal investigator

Name

Prof Ollie Jay

Address

Thermal Ergonomics Laboratory, Room 901
Susan Wakil Health Building
The University of Sydney
Camperdown, NSW 2006

Country

Australia

Phone

+61 2 93519328

Fax

[email protected]

Contact person for public queries

Name

Ollie Jay

Address

Thermal Ergonomics Laboratory, Room 901
Susan Wakil Health Building
The University of Sydney
Camperdown, NSW 2006

Country

Australia

Phone

+61 2 93519328

Fax

[email protected]

Contact person for scientific queries

Name

Ollie Jay

Address

Thermal Ergonomics Laboratory, Room 901
Susan Wakil Health Building
The University of Sydney
Camperdown, NSW 2006

Country

Australia

Phone

+61 2 93519328

Fax

[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?

De-identified individual participant data will be available in published study results.

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

Immediately following publication - no end date.

Available to whom?

Within published journals and case by case at the discretion of the primary sponsor.

Available for what types of analyses?

Meta-analysis

How or where can data be obtained?

Access subject to approvals by the Principal Investigator with a requirement to sign data access agreements. Access can be obtained by emailing: [email protected]

What supporting documents are/will be available?

No Supporting Document Provided

Results publications and other study-related documents

Documents added manually

No documents have been uploaded by study researchers.

Documents added automatically

No additional documents have been identified.

Trial Review

Documents added manually

Documents added automatically