Phenolic compounds,microstructure and viscosity of onion and apple products subjected to in vitro gastrointestinal digestion

Microstructure, viscosity and their relationship with bioaccessibility of phenolic compounds in onion and apple products (untreated and HPP) and commercial quercetin supplement throughout a dynamic gastrointestinal digestion (GID) model were investigated. In non-digested (ND) samples, untreated and HPP-onion presented higher total phenolic and flavonol content (TFC-HPLC and TPC-FC) than apple counterparts. TFC-HPLC decreased throughout GID phases in all samples studied. TFC-HPLC bioaccessibility was higher in onion (~17.6%) than in apple (~10%) and in quercetin supplement (0.027%). HPP did not improve TFC-HPLC bioaccessibility. Throughout GID, onion and apple showed a significant decrease in both consistency (K) and apparent viscosity at 10 s⁻¹ but higher values were found in apple. These data agree with TFC-HPLC and TPC-FC decrease and with the lower bioaccessibilities of apple compared with onion. Food matrix had a more significant effect than HPP on TFC-HPLC bioaccessibility, which is related to the rheological behavior of the GID-phases.Industrial relevanceHigh-pressure processing (HPP) (400 MPa at 25 °C during 5 min) combined with freeze-drying enhanced significantly flavonols extractability (TFC-HPLC) in onion and apple and in some cases their bioaccessibility. Bioaccessibility of bioactive compounds in each food matrix is being required by industrials and consumers concerned to know the actual amount of bioactive compounds that are available for intestinal absorption. The change of the matrices viscosity studied throughout in vitro gastrointestinal digestion (GID) could predict the bioaccessibility of these bioactive compounds. HPP could be proposed as a strategy for increasing the extractability of bioactive compounds in vegetable derived products.     

Impact of an in vitro dynamic gastrointestinal digestion on phenolic compounds and antioxidant capacity of apple treated by high-pressure processing

The aim was to evaluate the effect of an in vitro dynamic gastrointestinal digestion (GID) on the recovery index and bioaccessibility, the stability of phenolic compounds, and the changes in antioxidant capacity (AC) of apples 'Golden Delicious' treated by high-pressure processing (HPP-treated). All the phenolic compounds decreased during GID in untreated and HPP-treated apple and in consequence a decrease in the antioxidant capacity (DPPH, ABTS⁺, TP-FC and FRAP) and in the effect on the inhibitory capacity of lipoxygenase (LOX) and xanthine oxidase (XO) activities was also observed. The dynamic-GID increased the release of quercetin-aglycone and led to low quercetin-glycosides bioaccessibility (~10%). HPP-treated compared to untreated-apple presented higher recovery index for hydroxycinnamic acids (~67% and 52%) and higher bioaccessibility for hydroxycinnamic acids (40% and 31%) and dihydrochalcones (30% and 19.5%). The bioaccessible fraction of HPP-treated apple showed a high retention of the undigested AC: 24% (DPPH), 14% (ABTS⁺), 86% (TP-FC), 48% (FRAP) and the 68% and 100% of XO and LOX inhibitory capacities.Industrial relevanceThe consumer is willing to pay for added value in functional foods or ingredients that represent a substantial improvement in terms of quality of life and health. Therefore, functional food industries need to find valid methods to guarantee that the bioactive compounds present in the functional food or ingredient are effective and should do the biological action for which they were designed. The functional food industry relies more and more on the technology implemented in in vitro digestion models that simulate gastrointestinal digestion, to assess the bioaccessibility of bioactive compounds as the first step to investigate their bioavailability. The current study provides relevant information for the use dynamic gastrointestinal models instead of the more frequently employed static models to obtain more exact data about the bioaccessibility of phenolic compounds of a functional apple ingredient obtained by high-pressure processing of apples pieces with peels.These results should provide realistic information to the functional food industry about the amounts should be consumed of a certain functional food or ingredient to achieve the promised biological effect. This information can suppose an added value to these functional foods which will revert in the economic improvement and the prestige of the food industry.     

Soymilk phenolic compounds,isoflavones and antioxidant activity as affected by in vitro gastrointestinal digestion

The aim of this research was to evaluate changes in the phenolic compounds, isoflavones and antioxidant activity of soymilk following in vitro gastrointestinal digestion (including dialysis). Gastric digestion significantly influenced the release of bioactive substances from the soymilk matrix, increasing the concentration of total phenolic components (35% as the sum of individuals and 14% by Folin–Ciocalteu [F–C] method), total isoflavone content (22%) and total antioxidant activity (76%). The concentration of all those compounds was reduced significantly in the duodenal fraction in comparison to gastric digestion and their lowest concentration was observed in the dialysed fraction, where phenolic acids were not detected. The bioaccessibility of soymilk phenolic compounds was 15% as the sum of individuals and 20% by F–C assay; isoflavones 36% and constituents with antioxidant activity 27%. Results suggest that most of these compounds were sufficiently available to be absorbed and could contribute health benefits.     

In vitro bioaccessibility of health-related compounds as affected by the formulation of fruit juice- and milk-based beverages

The purpose of this research was to evaluate the influence of the beverage formulation on the in vitro digestibility and bioaccessibility of phenolic compounds, vitamin C, and carotenoids, as well as antioxidant activity from milk, a blended fruit juice (BFJ) and a combination of both of them (BFJ–MB). The release of many phenolic substances was improved during gastric digestion of milk and BFJ–MB (around 5 and 75%), but not in BFJ. Vitamin C and carotenoids diminished significantly (P < 0.05) in the gastric and intestinal digesta of each beverage. Phenolic acids, flavonoids, vitamin C and hydrophilic constituents with antioxidant activity were more bioaccessible in BFJ (up to 3.4 times) than in milk and BFJ–MB. On the contrary, the bioaccessibility of carotenes, xanthophylls and those compounds with lipophilic antioxidant activity was improved when milk was added to BFJ (up to 1.9 times). Results suggest that the addition of milk improved the bioaccessibility of lipophilic constituents but not that of hydrophilics. Nevertheless, BFJ–MB combines the nutritional ingredients of milk and BFJ. As a result, BFJ–MB could supply a higher diversity of bioaccessible compounds in comparison to that of milk and BFJ alone, promoting health and protecting against several diseases.     

Comparing impacts of dielectric barrier discharge plasma and electron beam irradiation processing on characteristics of Tartary buckwheat whole flour

Dielectric barrier discharge (DBD) plasma, lower and higher dose electron beam irradiation (EBI) are used widely in food processing. In this research, impacts of DBD plasma and EBI processing on characteristics of Tartary buckwheat whole flour were investigated in the range of parameters used most often in food industry. Cross section, small granule and reaggregation of fragments appeared after processing as well as higher values of L*, a* and WI. DBD plasma processing altered the short range crystal structure and hydrogen-containing groups, increasing oil/water absorption and freeze-thaw stability. DBD plasma and EBI processing had a mostly positive effect on hydration properties at 50 to 70 °C, with contrast to a reduction effect at higher temperature. DBD plasma and EBI processing will not affect the nutrients content indeed. TPC, TFC and antioxidant activity increased significantly after EBI processing (≤ 10 kGy) with few free radicals generated.Industrial relevanceDBD plasma and EBI processing are widely used for flour in food industry, with limited focus on physicochemical properties promotion and antioxidant activity protection. This research indicates that DBD plasma processing can affect the properties of Tartary buckwheat whole flour (TBF) significantly, but it shows negative damage to bioactive compounds and antioxidant activity. EBI processing (≤ 10 kGy) can improve physicochemical properties of TBF, which is given slightly higher TPC, TFC and antioxidant activity simultaneously. Both of DBD plasma and EBI processing are safe methods that can improve processing characteristics of the flour, while lower dose EBI processing is more suitable for development of Tartary buckwheat and functional food industry with protection to bioactive compounds and antioxidant activity.     

Effect of digestive process on Maillard reaction indexes and antioxidant properties of breakfast cereals

Extrusion, drying and toasting are the most representative manufacturing processes suffered by breakfast cereals, conjugating thermal/moisture conditions that allow the Maillard reaction (MR) and caramelisation development, as well as the destruction of thermally labile antioxidant compounds. However, other compounds – like Amadori products and hydroxymethylfurfural (HMF) – are originated from the MR and caramelisation, showing different biological activities, as the antioxidant activity. But breakfast cereals are ingested and then affected by the digestive process, and so that the aim of this work was to analyse the effects of the digestion on the bioaccessibility of certain MR products (Amadori compound and HMF) and on the antioxidant activity of corn-based breakfast cereals, using a standardized in vitro gastrointestinal digestion. After digestion approx. 90% HMF remained soluble, but in some cases HMF distribution between soluble/insoluble fractions was higher than the initial HMF measured in the raw cereal, suggesting a release of initially bound Amadori products and its conversion to HMF during the digestion process. The Amadori compound was uniformly distributed between both fractions. The antioxidant activity of the soluble fraction was always higher than that from the raw cereal in any of the antioxidant method employed; therefore the digestion increased the solubility of the antioxidant compounds.     

Effect of high hydrostatic pressure on antioxidant capacity, mineral and starch bioaccessibility of a non conventional food: Prosopis chilensis seed

The aim of this work was to assess the influence of high hydrostatic pressure on antioxidant capacity, mineral and starch bioaccessibility of a non conventional food: “algarrobo” Prosopis chilensis seed. The algarrobo seed was pressurized at 500 MPa during 2, 4, 8 and 10 min. The antioxidant activity, mineral and starch content and bioaccessibility of algarrobo samples were significantly affected by the processing and digestion conditions. All treatments increased the bioaccessibility of the antioxidant activity (IC₅₀), minerals (dialysis and solubility) and starch (resistant and digestible) compared to the untreated sample. Bioaccessibility of calcium, iron and zinc in the treated sample for 500 MPA at 10 min, expressed as percentage solubility, was several-fold higher (three, three and five times, respectively) than in the untreated sample. Similar effect was observed in IC₅₀ value, algarrobo seed untreated sample exhibited the lowest antioxidant activity (0.11 ± 0.005 mg/ml), and followed by all treated samples (500 MPa at 2, 4, 8 and 10 min) which showed the strongest activity.In summary, the antioxidant capacity, mineral and starch content of the seed may be underestimated in the literature because the extraction solvents usually used do not allow a complete release of antioxidant compounds and, additionally, non-extractable polyphenols with a high antioxidant capacity are ignored. This correspondingly applies to the starch and mineral content. On the other hand, the analysis of in vitro digestive enzymatic extracts suggests that the antioxidant activity, minerals and starch of seed in the human gut may be higher than what might be expected from literature data based on measurements of aqueous-organic extracts.     

接种发酵对葡萄酵素多酚生物利用度及抗氧化活性的影响

为明确接种发酵对葡萄酵素多酚生物利用度及抗氧化活性的影响,研究葡萄酵素发酵过程中发酵特性、酚类物质及抗氧化活性的变化,并采用体外模拟胃肠道消化实验对其多酚的生物利用度进行评估.结果 表明:葡萄酵素发酵过程中还原糖质量浓度由31.91 g/L逐渐降低至0.46 g/L,pH值由3.77降至3.19,乙醇体积分数于发酵第6...     

LC–ESI-MS/MS profile of phenolic and glucosinolate compounds in samh flour (Mesembryanthemum forsskalei Hochst. ex Boiss) and the inhibition of oxidative stress by these compounds in human plasma

Samh flour (Mesembryanthemum forsskalei) is a foodstuff with high protein content, which can be used as a replacement for wheat flour. It is often consumed by Bedouin tribes of northern Saudi Arabia. Very little is known about bioactive molecules present in samh flour, therefore we analyzed its extracts to evaluate the contents of secondary metabolites. A total of 43 secondary metabolites present in 60% MeOH extract of samh flour were tentatively identified using LC–ESI-MS/MS. These compounds represented five major categories: glucosinolates, sinapic acid and sinapoylglycosides, acylated flavonoids, flavonoids, and amide derivatives. Their effect on oxidative damage of proteins and lipids was determined in vitro by assessing levels of protein thiol groups and concentrations of thiobarbituric acid reactive species (TBARS) in human plasma. Obtained results indicated that samh flour is a rich source of compounds with antioxidant activity.     

Phenolics from walnut (Juglans regia L.) kernels: Antioxidant activity and interactions with proteins

Walnut (Juglans regia L.) kernels have important amounts of phenolic compounds. The objectives of the work were twofold: (a) to extract the phenolic fraction from hulls and walnut flour, and to examine its antioxidant capacity and (b) to evaluate the effect of hull removal on solubility of protein fractions from walnut flour. In accordance with their higher total phenolic content, hull extracts had stronger antioxidant activity than had flour extracts. The presence of phenolic compounds decreased protein solubility in walnut flour obtained from whole kernels. Dehulling of kernels significantly improved protein recovery but this result was strongly affected by the solvent system employed. Proteins from whole kernels, especially those extracted with water and NaCl solution, had a reduced solubility, indicating that phenolics bind to proteins when they are dispersed in aqueous media at neutral pH. The results are discussed in the light of the different complex-forming mechanisms that bind phenolics to proteins.     

Evaluation of antioxidant capacity,genotoxicity and polyphenol content of non conventional foods: Prosopis flour

Fruits such as Prosopis pod have been food sources (patay, arrope, chicha or aloja) of inhabitants of arid and semi-arid lands in South America. The aims of the present study were determine some nutritional and functional properties as well as genotoxicity of flour obtained from Prosopis ripe pods that were submitted to different processing. Sucrose constituted the main sugar for flours obtained from Prosopis alba and Prosopis nigra. Decoctions and macerations showed around 2.9% and 1.4% of soluble proteins, respectively. The highest free phenolics, flavonoids and condensed tannins contents were observed in aqueous extractions with heating. None of the samples presented phytic acid levels high enough to constitute a nutritional problem. Antioxidant activity (AA) was evaluated by DPPH, ABTS and β-carotene bleaching assays. Results showed that the antioxidant potential was significantly higher in flour obtained from P. nigra pods than in that from P. alba pods, and it was also higher in aqueous extracts than in alcoholic ones. Data obtained suggests that compounds responsible for AA are thermostable; therefore, Prosopis flour might be capable of retaining a significant amount of antioxidant capacity after heating. Prosopis extracts did not show any mutagenic effect with and without metabolic activation. Prosopis flour proved to be a non conventional, novel and rich source of antioxidant compounds that could help to prevent pathologies associated with oxidative stress.     

Bioaccessibility and antioxidant potential of millet grain phenolics as affected by simulated in vitro digestion and microbial fermentation

Dehulled and cooked grains of five millet varieties (kodo, finger, proso, foxtail and pearl) were subjected to in vitro enzymatic digestion and microbial fermentation under physiological conditions in order to determine the bioaccessibility of their phenolic compounds. Extracts recovered as supernatants from enzymatic digestion and microbial fermentation were employed for the determination of their total phenolic content (TPC) and total flavonoid content (TFC), as well as the scavenging of 2,2-diphenyl-1-picrylhydrazyl (DPPH), peroxyl and hydroxyl radicals. Furthermore, trolox equivalent antioxidant capacity (TEAC), reducing power and ferrous ion chelating activity of the extracts so obtained were evaluated. The DPPH and hydroxyl radical scavenging activities were determined using electron paramagnetic resonance (EPR) spectroscopy. The peroxyl radical activity was measured using an oxygen radical absorbance capacity (ORAC) assay. The TPC ranged from 12.7 to 35.4 and 21.2 to 47.4 μmol ferulic acid equivalents per gram of grain, on a dry weight (dw) basis at the end of intestinal digestion and colonic fermentation, respectively. All five millet varieties exhibited effective antioxidant activity and the order of efficacy differed according to the assay employed. The present study thus demonstrated that phenolic compounds of processed millets were bioaccessible and colonic fermentation released the phenolics bound to the insoluble fibre in the grain.     

Comparative Bio-Active Compounds Determination and In Vitro Antioxidant Properties of Newly Developed Soy Mixed Wheat Flour and Traditional Wheat Flour

The aims of this study were quantitative determination of the bio-active compounds and to evaluate the in vitro antioxidant activities of methanolic extract of soy mixed wheat flour and traditional wheat flour. Soy mixed wheat flour was developed by combination of processed soy flour and wheat flour. Total phenolics, flavonoids, tannin, and proanthocyanidin contents of the crude methanolic extract were determined by ultraviolet-visible spectrophotometer. Further individual bio-active compounds were determined by high-performance liquid chromatography-diode array detector and showed (+)-catechin, vanillic acid, caffeic acid, (–)-epicatechin, p-coumaric acid, rutin hydrate, and ellagic acid in soy mixed wheat flour but only rutin in traditional wheat flour. The soy mixed product showed significantly higher concentration of bio-active compounds than traditional wheat flour. Antioxidative activities were measured through different in vitro models: phosphomolybdenum blue method, FeCl₃ reducing power, ABTS scavenging activity, 2,2′-azino-bis(3-ethylbenzothiazoline-6-sulfonic acid) scavenging activity, N,N-dimethyl-1,4-diaminobenzene free radical scavenging activity, reducing power, metal chelating power and super oxide scavenging ability. All results of in vitro antioxidant models revealed that the soy product showed significantly higher antioxidant activities than traditional wheat flour. These results suggested that soy mixed wheat flour can play the greater roles than the traditional wheat flour for different physiological activities in human body due to the presence of greater amount of bio-active compounds and can be considered as a potential antioxidant containing flour for human consumption than the traditional wheat flour.     

Matrix composition effect on the digestibility of carob flour phenols by an in-vitro digestion model

Carob flour (CF) and washed carob flour (WCF) (without the water soluble dietary fraction) were submitted to an in-vitro digestion method to evaluate the dietary soluble fibre (DF) and soluble sugars content on the digestibility and bioaccessibility of polyphenols. In addition, combinations of the raw materials (CF and WCF) with hazelnut oil (HO) were proposed in order to evaluate the protection of a vegetable oil rich in polyunsaturated fatty acids (PUFA) on the phenolic compounds submitted to in-vitro digestion conditions. The results showed that the soluble dietary fraction enhanced the stability of the phenolic compounds during the duodenal digestion phase. Similarly, the lipid fraction (rich in PUFA) showed a protective effect on the recovery of the phenolic compounds during duodenal digestion. Disruption of the natural matrix under digestion conditions led to the release of DF and PUFA, which could establish interactions with certain polyphenol compounds enhancing their recovery and stability during digestion.     

Effect of flour type on Maillard reaction and acrylamide formation during toasting of bread crisp model systems and mitigation strategies

Maillard reaction along with caramelisation are the main chemical reactions occurring in bakery products. They are referred to as non enzymatic browning. In this work, the effect of flour type (wheat, rye and whole-wheat flours) and process conditions were investigated by using a bread crisp model system made up of flour, water and yeast. The bread was toasted at different temperature for different times. In a second set of experiments several additives (glycine, 0.1% on flour; asparaginase, 2000 U kg⁻¹ of flour and an antioxidant extract from green tea) were added to the basic formulations in order to test their ability in reducing the formation of potentially harmful Maillard reaction compounds such as HMF and acrylamide. Browning development and water content along with antioxidant activity were also monitored.Rye model systems produced more HMF and acrylamide at all temperature tested, while wholewheat systems produced less HMF, but more acrylamide than wheat one. The addition of glycine was effective in reducing acrylamide formation, and it increased browning development, antioxidant activity and HMF formation. Asparaginase reduced acrylamide formation up to 88% and had no effect on browning development and antioxidant activity. The addition of exogenous antioxidant compounds from green tea did not produce clear effect on acrylamide formation, thus it was not useful as mitigation strategy in bakery products, likely because of the low fat content.     

Evaluation of antioxidant and antimicrobial properties of finger millet polyphenols (Eleusine coracana)

Phenolic acids from finger millet (Eleusine coracana) milled fractions (whole flour, seed coat, 3%, 5% and 7%) were isolated and their antioxidant and antimicrobial properties were evaluated. Acidic methanol extracts from seed coat to whole flour were rich in polyphenol content and were found to be stable up to 48 h at pH 4, 7, and 9 as studied by ultraviolet spectroscopy. Diadzene, gallic, coumaric, syringic and vanillic acids were identified as major phenolic acids from the extracted phenolics. Diadzene content was highest in concentration in the 5% flour. The reducing power of seed coat extract was significantly (p < 0.05) higher than that of whole flour extract. Antioxidant activity (AA) as determined by the β-carotene–linoleic acid assay indicated that the AA was highest in seed coat extract (86%), whilst at the same concentration it was only 27% in the whole flour extract. The seed coat extract showed higher antimicrobial activity against Bacillus cereus and Aspergillus flavus compared to whole flour extract. From these observations, it can be inferred that the polyphenols are responsible for the microbial activity of the millet and the results indicate that potential exists to utilise finger millet seed coat as an alternative natural antioxidant and food preservative.     

In vitro bioaccessibility of avenanthramides in cookies made with malted oat flours

This study evaluated the effects of malting and in vitro digestion on the bioaccessibility of six avenanthramides (AVNs), soluble phenols (SPs) and antioxidant capacity (ORAC) in cookies (3B, 4B, 5B) prepared with oat flour malted for three (M3), four (M4), five (M5) days, respectively. Control cookies (CTRL) were made with non-malted oat flour (M0). Five-days malting increased the AVN content of native kernels up to 10-folds, whereas SPs and ORAC tripled their values. After the in vitro digestion, AVNs showed their bioaccessibility in the following order: 5B > 4B > 3B, with a recovery of 1703 μg AVNs per 50 g portion of 5B cookies, compared to 135 μg of CTRL. Results showed that the inclusion of 27% malted oat flour was effective to formulate functional cookies with satisfactory technological properties, high AVN content and bioaccessibility.     

Effect of processing on buckwheat phenolics and antioxidant activity

The effect of processing on functional compounds in buckwheat was investigated. Extractions of buckwheat flour were carried out before and after roasting or extrusion. Folin–Ciocalteu assays indicated that processing did not cause any change in total phenolic content in buckwheat flour. Roasted (200 °C, 10 min) dark buckwheat flour exhibited an increase in non-polar compounds as well as polar compounds whereas extrusion exhibited increase only in polar compounds. Antioxidant activity test (DPPH) showed that roasting at 200 °C for 10 min decreased the antioxidant activity slightly whereas extrusion (170 °C) did not cause any change. The results suggest that processing conditions can be optimized to retain the health promoting compounds in buckwheat products.     

In vitro digestion of dairy and egg products enriched with grape extracts: Effect of the food matrix on polyphenol bioaccessibility and antioxidant activity

The aim of this study was to evaluate the effect of the food matrix on polyphenol bioaccessibility and antioxidant activity during the in-vitro digestion of dairy and egg products enriched with grape extracts (GE). Four GE-enriched matrices produced under industrial conditions (custard dessert, milkshake, pancake and omelet) and the GE dissolved in water (control solution) were submitted to in vitro digestion and the bioaccessibility of the major classes of polyphenols as well as the evolution of the antioxidant activity of the matrices were monitored at oral, gastric and intestinal level. Apart from the digestion effect itself, the release, stability and solubility of polyphenols was governed by mainly two factors: 1 — the composition and structure of the food matrices and 2 — the class of polyphenol. Results showed that the inclusion of the GE extracts into the different egg and dairy food matrices greatly impacted the release and solubility of anthocyanins and proanthocyanidins during digestion, especially in the solid food matrices and during the oral and gastric phases of digestion. Also, the presence of the food matrices protected anthocyanins from degradation during the intestinal phase. However, if the total phenolic content is considered at the end of the whole digestion process, the proportion of soluble (bioaccessible) and insoluble phenolics delivered by the enriched-matrices was quite similar to that of the control solution. On the contrary, the food matrix effect did not affect the antioxidant activity of the matrices, which remained constant during the oral and gastric phases but greatly increased during the intestinal phase of digestion. Among the GE-enriched matrices, omelet presented higher recoveries of total phenolics and antioxidant activity at the end of digestion.     

Evaluation of bioprocesses to improve the antioxidant properties of chickpeas

Chickpea seeds (Cicer arietinum cv. Blanco lechoso) were submitted to different bioprocesses; i) germination of seeds for 2 and 3 days, ii) natural fermentation of flour or cracked seeds, and iii) induced fermentation of flour or cracked seeds with Lactobacillus plantarum, in order to improve the antioxidant properties. Determination of vitamins C and E, reduced glutathione (GSH) and total phenolic compounds (TPC) were carried out. Antioxidant capacity was measured by SOD-like activity, peroxyl radical-trapping capacity (PRTC), lipid peroxidation inhibition (LPI) and trolox equivalent antioxidant capacity (TEAC). Vitamin C and E increased after germination, whilst fermentation caused a decrease in vitamin E. Both bioprocesses caused an increment in TPC content while GSH decreased. Germination increased SOD-like activity (47-41%), PRTC (16-55%) and TEAC (12-23%) and a slight inhibition of LPI was observed. After fermentation, SOD-like activity suffer a drastic reduction. The LPI decreased between 11.3 and 21.3%, while an increase of TEAC (29-57%) and PRTC (27-44%) was observed, except in flour natural fermented seeds where decreased the PRTC. TPC contributed highly to total antioxidant capacity (TEAC). Results indicated that with the bioprocesses studied the antioxidant properties of chickpea flours are enhanced and they can be used as desired ingredients for new functional food formulations.