Non-REm Sleep inTervention to improvE Diabetes RESTED — RESTED  

Type 2 Diabetes Clinical Trial

Official title: Non-REm Sleep inTervention to improvE Diabetes RESTED

Status Recruiting

Clinical Trial Summary

Diabetes is a known risk factor for cardiovascular disease. This research aims to improve glucose metabolism in patients with T2DM thereby reducing the impact of diabetes and the subsequent risk of future cardiovascular events. The investigators propose that improved sleep health will result in improved glucose levels in participants with T2DM.

The investigators plan to use short bursts of sound (pink noise) during sleep to improve the deep-sleep phase. The study will be a 'crossover randomised controlled trial' in which two different treatments (intervention and control) are compared in all participants.

The study will be based at the University of Lincoln Sleep Laboratory. Participants will be recruited via local GP practices. Twenty five adults with T2DM who have normal sleeping patterns will be invited to attend the sleep laboratory on 3 nights, each visit separated by one week.

The primary outcome measure for this study will be the difference in mean glucose between the intervention and control periods over the first 24 hours after waking.

Participants will be fitted with sensors on their faces to measure muscle tone and eye-movements and scalps to measure brain activity (EEG) and earphones that will deliver the 'pink noise'. The first night will be a 'sham' visit with no intervention, and nights 2 and 3 will be randomised to either intervention or control. An oral glucose tolerance test will be performed on the mornings of visits 2 and 3. During visits 2 and 3 participants will be fitted with a continuous glucose monitor which will be worn for 7 days.

This is a feasibility study and the findings will be used to design a large randomised controlled trial. With the increasing prevalence of diabetes it is important to develop new approaches without the frequently observed side effects associated with pharmacological treatments to improve glucose control in patients with T2DM.

Clinical Trial Description

The proposed project uses a 'crossover randomised controlled trial' design, where two different treatments are compared in all participants. Each participant will therefore receive both treatments (sound intervention, and no intervention) and the project will compare the impact of the two treatments on the same participant. This means each person acts as their own control.

The research will be conducted in the newly built Sleep Laboratory at the University of Lincoln, which is composed of two participant bedrooms and an observation room. Participants will have access to a toilet and shower.

Potential participants will be identified by their General Practitioner (GP) by searching the practice database and screening records for eligibility. All eligible potential participants will receive a study information pack sent from the GP practice. There will be contact details to allow anyone wishing to take part to make contact with the study team having read the study information pack.

The investigators will also recruit via university email and staff web page. Potential participants may then contact the research team to request a study information pack which will be emailed or posted as above.

Screening Potential participants will express an interest in the study by contacting one of the research team. They will be screened over the phone by checking inclusion and exclusion criteria. If eligible to take part they will be invited to a recruitment visit with at least 24 hours to read the participant information sheet and ask any questions.

Recruitment visit - Day 1/2 Participants will attend the sleep laboratory at 9pm on day 1 of the study. They will have the opportunity to ask any questions and then if still happy to take part will give signed informed consent. Basic information on age, sex, height and weight will be collected. Their medical history will be checked and they will then be asked to complete 5 sleep related questionnaires to confirm that they meet eligibility criteria.

1.Pittsburgh Sleep Quality Index to measure sleep quantity and quality. 3.Epworth Sleepiness Scale to assess for Obstructive Sleep Apnoea Syndrome. 4.Horne-Östberg Morningness-Eveningness Questionnaire to measure chronotype. 5.Insomnia Severity Index to measure current levels of insomnia.

At subsequent visits participants will complete only the Pittsburgh Sleep Quality Index and Stanford Sleepiness Scale.

The participant will have EEG sensors attached to their scalp and given comfortable earphones (sleep phones) fitted.

At about 10 pm they will be left alone in the sleep laboratory to fall asleep. When they wake naturally the following morning (Day 2) the EEG sensors and sleep phones will be removed and they are free to leave.

Randomisation Each participant will be randomised to either receive the sound intervention on the 1st experimental night (visit 1) and no sound on the 2nd experimental night (visit 2) or vice versa. The patient will not know which order these are going to occur in.

The intervention The intervention is an auditory signal (50 millisecond burst of pink noise). The participants will be fitted with sensors on their face to examine eye-movements and muscle tone and sensors on the their scalp to detect the electrical activity of the brain using an EEG, whilst 50 millisecond bursts of 'pink noise' are delivered via sleep-comfortable earphones (sleep phones). The EEG is recorded via electrodes. After the scalp has been cleaned with NuPrep exfoliating gel (Weave and Company), active electrodes will be attached using appropriate conducting gel. A ground electrode is attached to the forehead.

Visit 1 - Day 8/9 The participant will attend the sleep laboratory again on day 8 at 9pm. They will be asked to complete the Pittsburgh Sleep Quality Index again. They will have the EEG sensors and sleep phones fitted. In addition they will have a CGMS fitted.

They will be left to sleep in the sleep laboratory overnight whilst the experimenter is next door, at no point during the study will the participant be left completely alone in the lab.Within 30 minutes of waking the following morning (day 9) they will be asked to fill in the Stanford Sleepiness Scale and drink 330ml of Rapilose glucose drink in under 5 minutes to provide a 75g bolus of glucose. Blood glucose measurements will be recorded using the CGM. Participants will need to sit quietly for 2 hours after drinking the Rapilose whilst the glucose levels are recorded and then are free to leave the laboratory. The CGMS will be worn until the next visit.

Visit 2 - Day 15/16 The participant will attend the sleep laboratory again on day 15 at 9pm. The CGMS will be removed and a new one fitted. They will be asked to complete the Pittsburgh Sleep Quality Index again. They will have the EEG sensors and sleep phones fitted.

They will be left to sleep in the sleep laboratory overnight whilst the experimenter is next door, at no point during the study will the participant be left completely alone in the lab. Within 30 minutes of waking the following morning (day 16) they will be asked to complete a 10-minute psychomotor vigilance task and to drink 330ml of Rapilose in under 5 minutes to provide a 75g bolus of glucose. Blood glucose measurements will be recorded using the CGMS. Participants will need to sit quietly for 2 hours after drinking the Rapilose whilst the glucose levels are recorded and then are free to leave the laboratory. The CGM will be worn until the next visit.

Visit 3 - Day 23 The participant will return to the sleep laboratory at a mutually convenient time and have the CGMS removed. ;

Related Conditions & MeSH terms

• Diabetes Mellitus
• Type 2 Diabetes

• NCT number: NCT04120571
• Study type: Interventional
• Source: University of Lincoln
• Contact: Ffion Curtis
• Phone: 01522835732
• Email: fcurtis@lincoln.ac.uk
• Status: Recruiting
• Phase: N/A
• Start date: April 1, 2019
• Completion date: August 1, 2021