Clinical Trials Logo

Clinical Trial Summary

Research has shown that diets that give rise to a high glucose response are associated with a number of abnormalities like increased risk of metabolic syndrome. Metabolic syndrome mostly comprises of insulin resistance and glucose intolerance which gives an increased risk of type 2 diabetes. It also gives rise to other conditions like high blood pressure (arterial hypertension), elevated blood insulin levels (hyper-insulinemia), elevated amounts of fat in the liver (fatty hepatosis) and elevated amounts of lipids in the blood (dyslipidemia). After type 2 diabetes become clinically apparent, the risk of cardiovascular disease also rises. Research has also shown that foods/drinks which raise blood glucose levels gradually (low GI) rather than rapidly (high GI) have health benefits which include reducing the risk of metabolic syndrome. Laboratory studies have shown that polyphenols found in fruits, vegetables and plant based foods have a positive effect on carbohydrate metabolism and can lower the blood glucose levels.

Therefore a lower glycemic index diet may have benefits in terms of type two diabetes and heart disease management, and as a method for weight loss. There has been some research into the effects of pomegranate on lowering blood glucose responses both chronically and acutely. Mechanistic evidence suggests that this effect could be down to the organic acids found within pomegranate juice. 16 volunteers were fed 50 g available carbohydrate from white bread (109 g), and either 200 ml water (control) or 200 ml solution (test) containing citric acid (3.8 g) and malic acid (119 mg) the quantities that are found in 200 ml pomegranate juice (Biona) as analysed. Blood glucose was measured at baseline, and at 30 - 60 minute increments over three hours. Glucose curves were plotted, and the area under the curve was calculated and compared between conditions for each participant.


Clinical Trial Description

The world health organisation has reported that over 220 million people suffer from diabetes worldwide and that by the year 2030, this number will be doubled. The WHO also reports that in 2004, about 3.4 million people died from high blood sugar. About 90% of all diabetes cases is due to type II diabetes. Type 2 diabetes is largely due to overweight and lack of physical activity characterised by high glucose levels (hyperglycaemia).

In the human diet, the source of blood glucose is carbohydrates. Dietary carbohydrate is important to maintain glycaemic homeostasis and provides the most of the energy in the diets of most people. The control of blood glucose is a hormonal process and it is very important to human physiology. Hormonal processes involve the release of insulin from the β- cells of the pancreatic cells which stimulates the uptake of glucose after a meal, to other tissues either for utilisation (glycolysis) or to be stored in the liver as glycogen (glycogenesis). When blood glucose falls below normal, glucagon is secreted from the pancreatic α-cells and it promotes liver glucose production by inducing the generation of glucose from non-carbohydrate substrates such as amino and fatty acids (gluconeogenesis) and the generation of glucose from glycogen (glycogenolysis).

When the glucose homeostasis hormonal control fails, it entails high blood glucose levels (postprandial hyperglycaemia) which can lead to metabolic syndrome which includes obesity, impaired glucose tolerance (IGT), hypertension and dyslipidemia. Disturbance of glucose homeostasis can also lead to other symptoms such as inflammation and oxidative stress at the whole body level as well as disturbances of the functionality in several organs as well as diabetes. Therefore, as much as carbohydrates are required in the human body as a major source of energy, too much in the diet can have adverse health effects especially the one with high glycaemic effect.

The proposed mechanism adapted from Aston, 2006 of how carbohydrates may affect human health is that when there is a continual presence of high glycaemic index foods in the diet, this gives rise to postprandial glucose rise as well as high insulin demand to act on the high blood glucose levels in the blood. Postprandial glucose rise and high insulin demand may lead to insulin resistance which is the major component of metabolic syndrome. High insulin demand may also lead to β-cell failure which may also result in hyperglycaemia which is also a cause of insulin resistance. Insulin resistance and hyperglycaemia are risk factors for metabolic syndrome and diabetes type 2.

Scientific evidence suggest that postprandial hyperglycaemia in humans has a major role to play in health priorities like type 2 diabetes and blood glucose control. It has been reported that about 90% of all diabetes cases consist of type 2 diabetes. Apart from type I and type 2 diabetes, there are other related conditions which include pre-diabetes (impaired glucose tolerance (IGT) and impaired fasting glucose (IFG) as well as metabolic syndrome (obesity, hypertension and insulin resistance). It has been reported that pre-diabetes and metabolic syndrome increases the risk of developing cardiovascular disease and diabetes mellitus. The glycaemic index was originally proposed with the aim of managing diabetes. However, recent studies have shown that the GI has potential in the prevention of type 2 diabetes as well as in the treatment of metabolic syndrome. Research has shown that high GI diets are associated with increased risk of developing type 2 diabetes. More research has shown that high GI diet is associated with a number of abnormalities like increased metabolic syndrome and insulin resistance. In the same way, a low GI diet is said to improve insulin sensitivity but more research is needed to support this. A few studies have shown this to be the case. However it was observed that it was difficult to know whether this was as a result of improved insulin sensitivity, or improved insulin secretion or due to reduced rate of glucose absorption.

Potential solution having anything in the diet that can either slow down the digestion and absorption of carbohydrates can help reduce the risk. Among others, two potential solutions are that of consumption of low glycaemic index foods or having ingredients in the diet that can reduce the glycaemic index of foods as well as postprandial blood glucose levels. The presence of inhibiting components in the diet that can reduce postprandial glucose can also be a solution to reducing the risk. Drugs like acarbose are currently used in some countries for the management of type 2 diabetes which act by inhibiting carbohydrate digestive enzymes. However, the use of acarbose has side effects such as nausea, flatulence and diarrhoea. It has been reported that polyphenols also have the potential to inhibit the rise in blood glucose by hindering the rapid absorption of glucose.

A recent review has reported that research using animal models as well as a limited number of human studies, have shown that polyphenols and polyphenol rich foods or beverages have the potential to affect postprandial glycaemic responses and fasting glycaemia as well as an improvement of acute insulin secretion and sensitivity. Other possible mechanisms as reported in the review include pancreatic β- cells stimulation to secrete insulin as well as activation of insulin receptors, modulation of the release of glucose from the liver as well as of intracellular signalling pathways and gene expression.

Another recent review concluded that it is very possible that the effects of polyphenols in the diet will affect glycaemic index of foods as well as postprandial glucose responses in humans. The two mechanisms highlighted by which this can be achieved being the inhibition of sugar metabolising enzymes as well as transporters. This potential action of polyphenols can thus be compared to that of acarbose which acts by the same mechanism and research in chronic intervention studies has shown that it reduces diabetes risk.

This study was carried out as a parallel control to another study which looked at the effects of polyphenols found in pomegranate juice. The aim was to determine the effects of the acids found in the pomegranate juice on glycaemic response to bread. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03242876
Study type Interventional
Source University of Leeds
Contact
Status Completed
Phase N/A
Start date October 2016
Completion date December 2017

See also
  Status Clinical Trial Phase
Completed NCT01684332 - Postprandial Response to Different Jams N/A
Completed NCT03730727 - Exercise-meal Timing and Postprandial Glucose Control N/A
Completed NCT05152745 - Effect of Ginger Extract on Postprandial Glycaemia of Healthy Adults and Its Antioxidant Properties N/A
Terminated NCT04298710 - Effects of Arm Cycling and Leg Cycling on Postprandial Blood Glucose Levels in Healthy Persons N/A
Recruiting NCT06444984 - The Movie Theater Study N/A
Enrolling by invitation NCT02488018 - Investigation of the Glycemic Index of Ethiopian Honey Phase 0
Completed NCT04655131 - Effect of Protein Intake on Post Prandial Hyperglycemia in Children and Adolescents With Type1 Diabetes Mellitus N/A
Completed NCT04914416 - Evaluation of OxxyneaGS in Acute Glycemic Regulation on Light Hyperglycemic Subjects N/A
Recruiting NCT05774613 - Effect of Hibiscus Sabdariffa Beverage N/A
Completed NCT02621307 - Effect of Salba & Flax on Postprandial Glycemia and Subjective Satiety Phase 1
Completed NCT05140629 - Effect of Baobab Fruit on Postprandial Glycaemia in Healthy Adults N/A
Completed NCT03817749 - Ketone Supplementation, Glucose Control, and Cardiovascular Function N/A
Completed NCT04163874 - Alleviating Carbohydrate Counting for Patients With Type 1 Diabetes Using a Novel Insulin-plus-pramlintide Artificial Pancreas N/A
Terminated NCT04079881 - Glucagon Response to Prandial Insulin Administration in Persons With Type 1 Diabetes Phase 1/Phase 2
Recruiting NCT06241976 - Diabetes Risk in East London and Its Association With Vitamin D by Ethnic Group (DELVE) N/A
Completed NCT02930681 - Efficacy of Glucosanol™ in Reducing Post-prandial Glucose Levels in Overweight Subjects N/A
Active, not recruiting NCT04730882 - Effect of Postprandial Hyperglycemia on Vasculature in Type 1 Diabetes and Healthy Adults
Completed NCT05528874 - NUTRACORE, Glycaemic Index and Appetite N/A
Recruiting NCT03255876 - Effects of Enriched Fruit Juice on Blood Glucose Levels After a Meal in Healthy Subjects N/A