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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT05147116
Other study ID # 009AS
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date February 17, 2022
Est. completion date January 30, 2023

Study information

Verified date April 2023
Source University of Portsmouth
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The number of people with type 2 diabetes mellitus (T2DM) continuing to rise, this pandemic is expected to reach 700 million people by 2045. T2DM is a metabolic condition characterized by progressive insulin resistance and chronic hyperglycemia (high blood glucose concentrations). Hyperglycaemia increases the risk of both micro- and macrovascular damage, whilst interventions that reduce blood glucose mitigate this risk. Weight loss, achieved through exercise and dietary modification, is effective at reducing hyperglycaemia. However, despite the clear benefits of exercise and weight loss, diverse psychological, sociological and logistical factors can make it difficult for some individuals with T2DM to initiate, or adhere to, these lifestyle interventions. Alternative approaches to treatment are therefore required. The purpose of this research project is to investigate whether 10-days of overnight exposure to moderate hypoxia is effective at improving blood glucose control in individuals with T2DM and to provide insight into the physiological mechanisms responsible for any beneficial effects.


Description:

Type 2 diabetes mellitus (T2DM) is a metabolic condition characterized by progressive insulin resistance and chronic hyperglycemia (high blood glucose concentrations). Hyperglycaemia increases the risk of both micro- and macrovascular damage, whilst interventions that reduce blood glucose mitigate this risk. Weight loss, achieved through exercise and dietary modification, is effective at reducing hyperglycaemia. However, despite the clear benefits of exercise and weight loss, diverse psychological, sociological and logistical factors can make it difficult for some individuals with T2DM to initiate, or adhere to, these lifestyle interventions. With the number of people with T2DM continuing to rise, this pandemic is expected to reach 700 million people by 2045. Thus, there is a clear need for cost-effective interventions that can effectively improve glycaemic control in people with T2DM and which people will adhere to. A simple exposure to a lowered concentration of inspired oxygen (i.e. hypoxia) may represent such an intervention. In addition to the beneficial effects on glucose homeostasis that have been reported following a single acute hypoxic exposure, repeated intermittent, or continuous, hypoxic exposure may also have therapeutic potential in individuals with T2DM. In rodent models, daily hypoxic exposures returned fasting blood [glucose] to normal levels and increased glucose transporter 4 translocation in mice with T2DM. Similar effects on glucose homeostasis have been shown in overweight humans and those with insulin resistance, (during intermittent hypoxic training) which was explained, at least in part, by reduction in body mass (~ 1.2 kg). The mechanisms underpinning the improved glycaemic control in response to hypoxia are likely multifactorial. Specifically, our objective is to assess a novel therapeutic intervention for the treatment and management of T2DM which overcomes many of the barriers to uptake and adherence that are associated with some lifestyle interventions such as exercise and weight loss.


Recruitment information / eligibility

Status Completed
Enrollment 13
Est. completion date January 30, 2023
Est. primary completion date January 30, 2023
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Males and post-menopausal women with T2DM (as diagnosed with the WHO criteria). Exclusion Criteria: - Individuals with contraindications to hypoxic exposure (e.g. obstructive sleep apnoea, extant cardiac conditions or on medications such as SGLT2 inhibitors or PPAR antagonists).

Study Design


Intervention

Other:
Sleeping in a tent
Participants will spend 10 consecutive nights of sleeping in a tent

Locations

Country Name City State
United Kingdom Anthony Shepherd Portsmouth Hampshire

Sponsors (5)

Lead Sponsor Collaborator
University of Portsmouth Bournemouth University, Portsmouth Hospitals NHS Trust, University College, London, University of Cambridge

Country where clinical trial is conducted

United Kingdom, 

Outcome

Type Measure Description Time frame Safety issue
Primary Mean AUC (Area Under the Curve) Plasma [Glucose] Does 10 days of overnight hypoxia change AUC during a oral glucose tolerance test. Units for AUC are AU (arbitrary units) which have been derived from the trapezoidal method and have been published as such. Trapezoidal method: AUC = ?x ((y0/2)+y1+y2+y3+...+(yn/2)). Assessed on all outcome visits (2,3,4&5) across an 8 week period.
Secondary Reduce body mass Does 10 days of overnight hypoxia change body mass - assessed via DXA. Assessed on all outcome visits (2,3,4&5) across an 8 week period.
Secondary Redox balance (via ELISA) Does 10 days of overnight hypoxia change redox balance (IL-6, nitrite, TNF? & SOD) Assessed on all outcome visits (2,3,4&5) across an 8 week period.
Secondary Total minutes of physical activity (light, moderate, moderate to vigorous physical activity). Does 10 days of overnight hypoxia change physical activity - assessed via wrist worn accelerometery Assessed on all outcome visits (2,3,4&5) across an 8 week period.
Secondary Sleep efficiency (time in bed + time asleep) Does 10 days of overnight hypoxia change sleep - assessed via wrist worn accelerometery Assessed on all outcome visits (2,3,4&5) across an 8 week period.
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