The Effect of Nitrate on Brown Fat

The Effect of Inorganic Nitrate Supplementation on Brown Fat Activation and Quantity in People With Type 2 Diabetes Mellitus

Type 2 diabetes mellitus (T2DM) is a metabolic condition characterized by chronic hyperglycemia and progressive insulin resistance, which progressively lead to macro- and microvascular damage. With the number of people with T2DM continuing to rise, this pandemic is expected to reach 700 million people by 2045, such that the costs associated with its clinical management are likely to become unsustainable. Therefore, identifying cost effective alternative interventions is imperative.

Diets rich in fruits and vegetables are well known to have cardiovascular benefits and reduce the risk of getting T2DM. The beneficial effects of vegetables on cardiovascular outcomes are particularly effective in green leafy vegetables and beetroot. This may in part be due to a high concentration of inorganic nitrate, and its beneficial effects on cardiovascular health due to its effect on nitric oxide (NO•). Increased dietary nitrate intake elevates cyclic guanosine monophosphate [(cGMP)]. Importantly, cGMP has also been shown to increase brown fat expression by 'beiging' WAT in mice through an NO• dependent process.

Recent developments in the ability to non-invasively measure BAT activation using magnetic resonance imaging (MRI) and infrared thermography (ITR) has opened the possibility to study the effects of nitrate on BAT activation in man. BAT depots in humans with T2DM have been identified using MRI but not yet with the more easily accessible technique of IRT.

It is hypothesised that nitrate can increase BAT activation and quantity in people with T2DM.

Study Overview

• Status: Completed
• Conditions: Diabetes Mellitus, Type 2
• Intervention / Treatment: Dietary supplement: Concentrated beetroot juice; Dietary supplement: Nitrate depleted beetroot juice

Detailed Description

Dietary inorganic nitrate is converted in a reversible, stepwise reaction to nitrite via bacteria on the dorsum of the tongue. Subsequently, small quantities of NO• are produced in the stomach. The remaining nitrite is then absorbed into the circulation where it acts as a storage pool for subsequent NO• production. Production of NO• from nitrite reduction is expedited in hypoxaemia, a phenomenon observed in the vasculature of white adipose tissue (WAT).

WAT is primarily an energy store, whereas brown adipose tissue (BAT) is a metabolically active tissue. BAT is responsible for ~5% of basal metabolic rate and ~15% of total energy expenditure, equating to ~40 g of BAT per day and is used in non-shivering thermogenesis. BAT is used for heat production and is stimulated by cold environments and or diet to cause thermogenesis. To produce heat during cold exposure, uncoupling protein (UCP)-1, an inner mitochondrial protein, is upregulated in BAT ultimately uncoupling the mitochondrial proton gradient, making the cell less energy efficient. Inorganic nitrate supplementation has also been shown to increase UCP-1 expression in BAT.

• Study Type: Interventional
• Enrollment (Actual): 13
• Phase: Not Applicable

Contacts and Locations

Study Locations

• United Kingdom
  • Poole, United Kingdom
    • Shore Medical
  • Dorset
    • Bournemouth, Dorset, United Kingdom, BH12 5BB
      • Bournemouth University
  • Hampshire
    • Portsmouth, Hampshire, United Kingdom, PO1 2UP
      • University of Portsmouth
    • Southampton, Hampshire, United Kingdom, SO40 8DX
      • Southern Health NHS Foundation Trust

Participation Criteria

Eligibility Criteria

• Ages Eligible for Study: 18 years and older (Adult, Older Adult)
• Accepts Healthy Volunteers: No

Description

Inclusion Criteria:

• Males or women with Type 2 Diabetes Mellitus

Exclusion Criteria:

• Individuals with a BMI over 30
• Individuals with severe claustrophobia (this would make imaging the BAT less reliable)
• Current smokers (or those that have smoked within 3 months)
• Proton pump inhibitors or phosphodiesterase inhibitor users, as these may affect [cGMP]. Half life of this drug is short. Participants can choose to not use this if they wish to participate.
• Individuals with any other serious medical condition which would interfere with data interpretation or safety will be excluded from participation.
• Unable to give informed consent

Study Plan

How is the study designed?

Design Details

• Primary Purpose: Treatment
• Allocation: Randomized
• Interventional Model: Crossover Assignment
• Masking: Triple

Number of Arms

2

Arms and Interventions

Participant Group / Arm	Intervention / Treatment
Experimental: Experimental: Beetroot juice then nitrate depleted beetroot juice; Participants will be asked to consume 140ml of beetroot juice prior to their first experimental visit. Participants will then be asked to consume 140ml a day for 2 weeks, and finally visit the investigators once more following another 140ml drink.	Dietary supplement: Concentrated beetroot juice; Acute and chronic supplementation of beetroot juice.; Dietary supplement: Nitrate depleted beetroot juice; (Nitrate depleted beetroot juice
Experimental: Experimental: Nitrate depleted beetroot juice then beetroot juice; Participants will be asked to consume 140ml of placebo prior to their first experimental visit. Participants will then be asked to consume 140ml a day for 2 weeks, and finally visit the investigators once more following another 140ml drink.	Dietary supplement: Concentrated beetroot juice; Acute and chronic supplementation of beetroot juice.; Dietary supplement: Nitrate depleted beetroot juice; (Nitrate depleted beetroot juice

What is the study measuring?

Primary Outcome Measures

Outcome Measure	Measure Description	Time Frame
MRI Imaging of Supraclavicular BAT	High-resolution 3-dimensional T1-weighted imaging will be acquired using repetition time, echo time and field of view. All imaging sequences will have anatomical coverage of the neck, supraclavicular region and the apices of the lung.	MRI on day 14 (Visit 2) before 60 minutes of cold exposure, following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
MRI Imaging of Supraclavicular BAT	High-resolution 3-dimensional T1-weighted imaging will be acquired using repetition time, echo time and field of view. All imaging sequences will have anatomical coverage of the neck, supraclavicular region and the apices of the lung.	MRI on day 14 (Visit 2) following 60 minutes of cold exposure, following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
MRI Imaging of Supraclavicular BAT	High-resolution 3-dimensional T1-weighted imaging will be acquired using repetition time, echo time and field of view. All imaging sequences will have anatomical coverage of the neck, supraclavicular region and the apices of the lung.	MRI on day 35 (visit 3) before 60 minutes of cold exposure, following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
MRI Imaging of Supraclavicular BAT	High-resolution 3-dimensional T1-weighted imaging will be acquired using repetition time, echo time and field of view. All imaging sequences will have anatomical coverage of the neck, supraclavicular region and the apices of the lung.	MRI on day 35 (visit 3) following 60 minutes of cold exposure, following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
A 3D multi-point Dixon sequence will be utilized for the water-fat imaging.	A 3D multi-point Dixon sequence will be utilized for the water-fat imaging.	At start of MRI Imaging of Supraclavicular BAT
A 3D multi-point Dixon sequence will be utilized for the water-fat imaging.	A 3D multi-point Dixon sequence will be utilized for the water-fat imaging.	At end of MRI Imaging of Supraclavicular BAT
Pixel wise quantification of fat fraction will be performed from fat and water maps.	Pixel wise quantification of fat fraction will be performed from fat and water maps.	At time of MRI Imaging

Secondary Outcome Measures

Outcome Measure	Measure Description	Time Frame
IRT Imaging of Supraclavicular BAT	Bilaterally, two regions will be analysed for skin temperature from thermal images using infrared cameras: 1) the skin area overlaying BAT in the SCV fossae on the left and right sides, and; 2) the sternal area considered as a control.	IRT on day 14 (Visit 2) and day 35 (visit 3), before and after 60 minutes of cold water immersion, following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
Biomarkers - Nitrate	Quantified using a Sievers nitric oxide analyser	Blood sampling on day 14 (Visit 2) and day 35 (visit 3) following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
Biomarkers - Nitrite	Quantified using a Sievers nitric oxide analyser	Blood sampling on day 14 (Visit 2) and day 35 (visit 3) following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
Biomarkers - cGMP	Quantified using a Sievers nitric oxide analyser	Blood sampling on day 14 (Visit 2) and day 35 (visit 3) following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
Biomarkers - Nitrate	Quantified using commercially available ELISA assays	Blood sampling on day 14 (Visit 2) and day 35 (visit 3) following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
Biomarkers - Nitrite	Quantified using commercially available ELISA assays	Blood sampling on day 14 (Visit 2) and day 35 (visit 3) following 14-days beetroot/placebo supplementation with 7-day washout between crossover.
Biomarkers - cGMP	Quantified using commercially available ELISA assays	Blood sampling on day 14 (Visit 2) and day 35 (visit 3) following 14-days beetroot/placebo supplementation with 7-day washout between crossover.

Collaborators and Investigators

• Sponsor: Bournemouth University
• Collaborators: Institute of Bioengineering and Bioimaging (IBB); University of Portsmouth; Loughborough University
• Investigators: Study Chair: Rebecc Neal, Senior Lecturer in Exercise Physiology

Study record dates

Study Major Dates

• Study Start (Actual): June 30, 2022
• Primary Completion (Actual): January 31, 2023
• Study Completion (Actual): July 31, 2023

Study Registration Dates

• First Submitted: March 1, 2022
• First Submitted That Met QC Criteria: April 21, 2022
• First Posted (Actual): April 22, 2022

Study Record Updates

• Last Update Posted (Estimated): October 10, 2023
• Last Update Submitted That Met QC Criteria: October 9, 2023
• Last Verified: October 1, 2023

More Information

Terms related to this study

• Keywords: Nitrates; Magnetic Resonance Imaging; Beetroot; Type II Diabetes Mellitus; Brown Adipose Tissue; Infrared spectrometry
• Additional Relevant MeSH Terms: Glucose Metabolism Disorders; Metabolic Diseases; Endocrine System Diseases; Diabetes Mellitus; Diabetes Mellitus, Type 2
• Other Study ID Numbers: 306840

Drug and device information, study documents

• Studies a U.S. FDA-regulated drug product: No
• Studies a U.S. FDA-regulated device product: No