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Trial registered on ANZCTR

Registration number

ACTRN12622000615785

Ethics application status

Approved

Date submitted

14/04/2022

Date registered

26/04/2022

Date last updated

23/05/2022

Date data sharing statement initially provided

26/04/2022

Type of registration

Prospectively registered

Titles & IDs

Public title

A prospective study on post-meal low blood sugar levels following weight loss surgery.

Scientific title

A prospective study on reactive hypoglycaemia following bariatric surgery.

Secondary ID [1]

None

Universal Trial Number (UTN)

Trial acronym

Linked study record

Health condition

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

Post bariatric hypoglycaemia

Roux-en-Y gastric bypass

One anastomosis gastric bypass

Post-prandial hypotension

Condition category

Condition code

Metabolic and Endocrine

Other endocrine disorders

Surgery

Other surgery

Intervention/exposure

Study type

Observational

Patient registry

False

Target follow-up duration

Target follow-up type

Description of intervention(s) / exposure

Participants will have undergo a gastric emptying study (via scintigraphy) and evaluation of glucoregulatory hormones pre-surgery, 6 and 12 months post bariatric surgery.

Prior to the 6 and 12 months post-bariatric surgery study:
Five days prior to the 6 and 12 months post-surgery study, participants will be connected to a blinded, external continuous blood glucose monitor (Dexcom G6) by a study investigator. The continuous blood glucose monitoring data will be collected on the study day.

At each study:
Participants will be given a solid meal consisting of 50 g beef patty (584 kJ) that has been radiolabelled with 20 MBq of technetium-99m sulphur colloid and a 150 ml glucose drink (50 g of glucose, 840 kJ) containing 7 MBq 67Ga-EDTA and 5 g 3-O-methylglucose (3-O-MG, Sigma Aldrich USA). The meal will be administered by a trained medical professional and will be consumed over 5 minutes at the research facility. The consumption of the meal will be supervised by the medical professional and the end of the meal will be designated t = 0. Following this, gastric emptying data will be acquired by scintigraphy in 1-min frames for the first 60 minutes, followed by 3-minute frames until t = 240 minutes. A region-of-interest that corresponds to the gastric pouch will be drawn to derive emptying curves and a cobalt marker will be placed over the skin in the region of the right iliac fossa of the participant to assist with the detection of the caecum. Data will be corrected for subject movement, radionuclide decay and at t = 300 min, the participant will drink 100 ml of water labelled with 4 MBq of technetium-99m sulphur colloid and a lateral image of the stomach will be acquired to derive correction factors for gamma ray attenuation. During the study, glucoregulatory hormones will be evaluated by venous blood samples taken prior to consumption of the meal and at t= 15, 30, 60, 90, 120, 180, 240 min.

The overall duration of each study will be 5 hours.

Intervention code [1]

Diagnosis / Prognosis

Comparator / control treatment

The outcomes of participants who have undergone a Roux-en-Y gastric bypass (RYGB) and a one anastomosis gastric bypass (OAGB) will be compared. The RYGB cohort will be the reference comparator.

Control group

Active

Outcomes

Primary outcome [1]

Peak plasma concentration of glucagon-like peptide-1 (GLP-1) measured pre-surgery and at the 6 month post-surgery follow up.

Timepoint [1]

Plasma GLP-1 will be measured immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery and the 6 month post-surgery follow up study.

Secondary outcome [1]

Time for 50% of the solid meal to empty from the gastric pouch assessed using gamma camera images (scintigraphy) following consumption of a solid meal containing 20 MBq of technetium-99m sulphur colloid.

Timepoint [1]

Gastric pouch emptying image data will be acquired every minute for the first 60 minutes post solid/liquid meal and then every 3 minutes until 240 min post solid/liquid meal at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [2]

Time for 50% of the liquid meal to empty from the gastric pouch assessed using gamma camera images (scintigraphy) following consumption of a glucose drink containing 7 MBq of gallium-67 EDTA

Timepoint [2]

Secondary outcome [3]

Plasma glucose-dependent insulinotropic polypeptide (GIP) concentrations

Timepoint [3]

Immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [4]

Plasma glucose concentrations

Timepoint [4]

Immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [5]

Peak plasma concentration of GLP-1 measured pre-surgery and at the 12 month follow up.

Timepoint [5]

Plasma GLP-1 will be measured immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the 12 months post-surgery follow up study.

Secondary outcome [6]

Plasma insulin concentrations

Timepoint [6]

Immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [7]

Plasma C-peptide concentrations

Timepoint [7]

Immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [8]

Plasma cortisol concentrations

Timepoint [8]

Immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [9]

Plasma glucagon concentrations

Timepoint [9]

Immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [10]

Plasma adrenaline concentrations

Timepoint [10]

Immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [11]

Plasma normetanephrine concentrations

Timepoint [11]

Immediately before the test meal and at t = 15, 30, 60, 90, 120, 180, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [12]

Plasma 3-OMG concentrations

Timepoint [12]

Measured at t = 30, 60, 120, 240 min post test meal completion at the pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [13]

Symptoms of hypoglycaemia evaluated using a scaled questionnaire.
Reference: Jones TW, Porter P, Sherwin RS, Davis EA, O'Leary P, Frazer F, Byrne G, Stick S, Tamborlane W 1998. Decreased epinephrine responses to hypoglycemia during sleep. N Engl J Med 338:1657-1662.

Timepoint [13]

Immediately before the test meal and at t = 0, 15, 30, 60, 90, 120, 150, 180, 210 and 240 min post test meal completion at pre-surgery, 6 months and 12 months post-surgery studies.

Secondary outcome [14]

Glycated haemoglobin (HbA1c) from whole blood samples

Timepoint [14]

Pre-surgery, at 6 months and 12 months post-surgery follow up

Secondary outcome [15]

Clarke hypoglycaemia score

Timepoint [15]

At pre-surgery, 6 month and 12 month post-surgery follow up

Secondary outcome [16]

Quality of life assessed using the SF-36 questionnaire

Timepoint [16]

At pre-surgery, 6 month and 12 month post-surgery follow up

Secondary outcome [17]

Diagnosis of post bariatric hypoglycaemia.
A case of post bariatric hypoglycaemia will be defined if any one of the following criteria are met:
1. Plasma glucose concentration <3.0 mmol/L within 5 hours after ingestion of test meal
2. Episode of severe hypoglycaemia at any time following bariatric surgery determined by review of patient medical records
3. Blind continuous blood glucose monitoring where participants had a glycaemic level <3.0 mmol/L with symptoms consistent with hypoglycaemia that resolved following correction of hypoglycaemia assessed by data-linkage to the Dexcom G6 App

Timepoint [17]

At 6 and 12 months post-surgery follow up

Secondary outcome [18]

Blood pressure measured using a sphygmomanometer

Timepoint [18]

Measured immediately before test meal and then at 5 minute intervals until t = 120 min post test meal then 15 minute intervals until t = 240 min post test meal at the pre-surgery, 6 months and 12 months post-surgery studies

Secondary outcome [19]

Heart rate measured using a pulse oximeter

Timepoint [19]

Eligibility

Key inclusion criteria

Males and females with or without diabetes who are planned to have Roux-en-Y gastric bypass or one anastomosis gastric bypass.

Minimum age

18 Years

Maximum age

75 Years

Sex

Both males and females

Can healthy volunteers participate?

Key exclusion criteria

• Use of any medication that may influence gastrointestinal motor function, body weight or appetite (glucagon-like peptide 1 receptor agonists, dipeptidyl peptidase 4 inhibitors, opiates, anticholinergics, levodopa, clonidine, nitrates, phosphodiesterase type 5 inhibitors, sumatriptan, metoclopramide, domperidone, prucalopride, or erythromycin)
• Evidence of drug abuse, consumption of more than 20 g alcohol per day or an active smoking history
• History of chronic gastrointestinal disease (inflammatory bowel disease, coeliac disease) or prior gastrointestinal surgery (other than other than bariatric surgery, uncomplicated appendicectomy or cholecystectomy)
• History of epilepsy
• History of severe respiratory, cardiovascular, hepatic and/or renal disease
• Impaired renal (as assessed by calculated creatinine clearance < 90 mL/min), iron status, or liver function tests outside the following ranges:
-Alanine aminotransferase (ALT) >3x ULN
-Aspartate transaminase (AST) >3x ULN
-Alkaline phosphatase (ALP) >3x ULN
-Bilirubin >24 mmol/L
-Ferritin <15 ng/mL (Females), <30 ng/mL (Males)
-Haemoglobin <115 g/L (Females), <130 g/L (Males)
• Donation of blood within the previous 3 months
• Participation in any other research studies within the previous 3 months that requires blood sampling or exposure to radiation
• Inability to give informed consent
• Female participants who are pregnant or planning for pregnancy, or are lactating
• Vegetarian

Study design

Purpose

Natural history

Duration

Longitudinal

Selection

Defined population

Timing

Prospective

Statistical methods / analysis

In a prior study (Tharakan et al.), participants with post-prandial hypoglycaemia following RYGB had a peak GLP-1 concentration of 246 (SD 15.3) pmol/L and participants without post-prandial hypoglycaemia had a peak GLP-1 concentration of 137.3 (SD 23.4) pmol/L. Accordingly, to detect this clinically significant change in peak GLP-1 concentration and accounting for a 20% drop-off rate, 15 participants from each group will be recruited.

Data will be analysed, in general, using repeated measures ANOVA. Serial measurements will be summarised by AUC. All outcomes are quantitative. The analysis will be supervised by a professional biostatistician.

Reference: Tharakan G, Behary P, Albrechtsen NJW, Chahal H, Kenkre J, Miras AD, et al. Roles of increased glycaemic variability, GLP-1 and glucagon in hypoglycaemia after Roux-en-Y gastric bypass. European Journal of Endocrinology. 2017;177(6):455-64

Recruitment

Recruitment status

Not yet recruiting

Date of first participant enrolment

Anticipated

13/06/2022

Actual

Date of last participant enrolment

Anticipated

Actual

Date of last data collection

Anticipated

Actual

Sample size

Target

Accrual to date

Final

Recruitment in Australia

Recruitment state(s)

Recruitment hospital [1]

The Royal Adelaide Hospital - Adelaide

Recruitment postcode(s) [1]

5000 - Adelaide

Funding & Sponsors

Funding source category [1]

Government body

Name [1]

National Health and Medical Research Council

Address [1]

GPO Box 1421
Canberra ACT 2601
Australia

Country [1]

Australia

Primary sponsor type

University

Name

The University of Adelaide

Address

Adelaide Health and Medical Science Building
4 North Terrace
Adelaide SA 5000

Country

Australia

Secondary sponsor category [1]

None

Name [1]

None

Address [1]

Country [1]

Ethics approval

Ethics application status

Approved

Ethics committee name [1]

Central Adelaide Local Health Network Human Research Ethics Committee

Ethics committee address [1]

RAH Clinical Trial Centre, Wayfinder 3D460.02, Level 3, Royal Adelaide Hospital, Port Road, Adelaide SA 5000

Ethics committee country [1]

Australia

Date submitted for ethics approval [1]

23/11/2021

Approval date [1]

09/05/2022

Ethics approval number [1]

2021/HRE00416

Summary

Brief summary

Following surgery for weight loss, the size of the stomach is considerably reduced and food passes through to the small intestines faster. When food passes through the small intestines, various ‘hormones’ that are thought to assist with weight loss enter the bloodstream. While this seems to be a useful effect, some may experience complications such as having a low blood sugar level (post-bariatric hypoglycaemia) or low blood pressure (post-prandial hypotension) after eating and we think this may happen due to increased production of these ‘hormones’. Currently, the treatment options for these conditions are limited.

One of the more common types of weight loss surgery is called the Roux-en-Y gastric bypass. From previous studies, one particular hormone called glucagon-like peptide-1 has been consistently found to be elevated following a meal post-surgery and it is elevated to a greater extent in patients with post-bariatric hypoglycaemia. More recently, a newer surgical technique called the one anastomosis gastric bypass has been developed, however, we do not know whether the rate of passage of food and the hormonal changes occur to a similar extent as with the Roux-en-Y gastric bypass.

This study will follow up on participants before and after surgery and we will analyse how hormonal profiles and how the speed of the passage of food changes. We will be able to compare the effects of Roux-en-Y gastric bypass and one anastomosis gastric bypass surgery. This understanding may assist in the development of newer therapies for post-bariatric hypoglycaemia and post-prandial hypotension.

Trial website

Trial related presentations / publications

Public notes

Contacts

Principal investigator

Name

Prof Michael Horowitz

Address

Level 5 Adelaide Health and Medical Science Building
4 North Terrace
Adelaide SA 5000

Country

Australia

Phone

+61 870742673

Fax

[email protected]

Contact person for public queries

Name

Ryan Jalleh

Address

Level 5 Adelaide Health and Medical Science Building
4 North Terrace
Adelaide SA 5000

Country

Australia

Phone

+61 883131393

Fax

[email protected]

Contact person for scientific queries

Name

Ryan Jalleh

Address

Level 5 Adelaide Health and Medical Science Building
4 North Terrace
Adelaide SA 5000

Country

Australia

Phone

+61 883131393

Fax

[email protected]

Data sharing statement

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

No/undecided IPD sharing reason/comment

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