Grape seed may boost health and safety profile of bread

By Stephen Daniells

- Last updated on GMT

Related tags Antioxidant activity Nutrition Antioxidant

Grape seed may boost health and safety profile of bread
Addition of a grape seed extract to bread may not only increase the antioxidant content of the staple, but also inhibit formation of a potential toxin, says new research.

Hong Kong-based researchers explain that N15-(carboxymethyl)lysine (CML) is an undesirable byproduct of glycation (simple sugar molecules combining with proteins or fats), and is widely found in bread, particularly in the crust. “Currently it is viewed as a potential toxicant in food,”​ wrote the researchers. “Moreover it has become a biomarker associated with oxidative stress, atherosclerosis and diabetes in humans.”

Addition of an extract from grape seed was found to not only boost the antioxidant activity of the bread, thereby offering the promise of a functional food, but also reduced CML levels, thereby lowering the potential health risks associated with this compound, wrote the authors, led by Xiaofang Peng from the University of Hong Kong in Food Chemistry​.

According to the new findings, addition of the grape seed extract (GSE) reduced the levels of CML in a dose-dependent manner, meaning the more GSE used, the less CML formed.

“In our analysis, CML content determined in blank bread crust (35 mg/kg food) was close to the literature data [of 37.1 mg/kg food],”​ state the researchers. “…Addition of GSE dose-dependently reduced CML content in bread crust relative to the control. In particular, adding 600 and 1000 mg of GSE to bread (500 g) led to over 30 and 50 per cent reduction in bread crust CML content, respectively,”​ they added.

An improvement in the antioxidant activity was also recorded in the bread samples prepared with the extract, but compared to free GSE, thermal processing reduced the antioxidant activity by approximately 30 to 40 per cent.

“These data suggest that the thermal processing in bread making might lower the antioxidant capacity of GSE,”​ wrote Peng and co-workers. “This phenomenon could be brought about by heat-induced reactions of GSE proanthocyanidins with food components, such as proteins or starch to produce large molecules, which could not be extracted by the solvents used in this experiment.

“Alternatively, thermal processing might cause GSE proanthocyanidins to degrade, and thus lead to reduced antioxidant content.”

Sensorial tests by a panel of tasters revealed no significant difference in hardness in bread samples with and without GSE, up to levels of one gram of GSE per 500 grams of bread.

Furthermore, a change in colour was observed on addition of the extract, and 70 per cent panellists expressed a preference of this over the blank bread.

Source: Food Chemistry​Published online ahead of print 2 June 2009, doi: 10.1016/j.foodchem.2009.05.083“The Effects of Grape Seed Extract Fortification on the Antioxidant Activity and Quality Attributes of Bread”​Authors: X. Peng, J. Ma, K.-W. Cheng, Y. Jiang, F. Chen, M. Wang

Related topics R&D Health Ingredients

Related products

show more

GET GREEN FASTER: Low-CI Dextrose/Glucose Syrups

GET GREEN FASTER: Low-CI Dextrose/Glucose Syrups

Content provided by Green Plains Inc. | 01-Mar-2024 | Data Sheet

Elevate your products with Green Plains’ premium, low carbon-intensity corn syrups. Drop-in replacements with an up to 40% lower carbon footprint than...

Efficacy of OLESSENCE™ B Liquid Natural Flavouring

Efficacy of OLESSENCE™ B Liquid Natural Flavouring

Content provided by Kemin Food Technologies | 26-Feb-2024 | Case Study

The main challenge with baked goods today is the prevention of oxidative rancidity with natural alternatives while maintaining the quality, freshness,...

Bun quality issues? Let us help

Bun quality issues? Let us help

Content provided by Corbion | 03-Jan-2024 | Insight Guide

Most bakeries occasionally struggle with bun quality, from low product volume to crust issues and grain/cell problems. The good news is that most bun quality...

Related suppliers

Follow us


View more