Eleonora Carini

Effect of Formulation on Physicochemical Properties and Water Status of Nutritionally Enriched Fresh Pasta

A standard fresh pasta formulation (STD, the control sample) was modified by introducing soy and carrot ingredients both in dry and in liquid forms (soy and carrot flour and soy milk and carrot juice) to obtain eight nutritionally enriched fresh pasta samples with different formulations. The effect of formulation on selected physicochemical properties and water status of fresh pasta were studied. Colour, texture (force at rupture and extensibility), and cooking loss were found significantly affected by the formulation. Soy and carrot decreased the force at rupture and extensibility of fresh pasta and increased the solids loss during cooking. Improper gluten network development due to either a steric hindrance of soy and carrot solids or improper water availability for gluten hydration due to different water–solid interaction developed were hypothesized. Soy and carrot ingredients significantly altered the water dynamics in the pasta matrix at different space-time levels (macroscopic, moisture content and water activity; macromolecular, frozen water content; molecular, proton nuclear magnetic resonance relaxometry) of fresh pasta in a manner dependent upon the physical state of the added ingredient. Soy flour increased both the frozen water content and the overall proton mobility (1H FID, 1H T1 and T2) of fresh pasta while these parameters did not markedly differed from STD when soy milk was used. The presence of both carrot flour and carrot juice decreased significantly the frozen water content of fresh pasta but, at a molecular level, carrot flour altered the proton molecular mobility, while carrot juice did not.

The use of potato fibre to improve bread physico-chemical properties during storage

Bread staling reduction is a very important issue for the food industry. A fibre with high water holding capacity, extracted from potato peel, was studied for its ability to reduce bread staling even if employed at low level (0.4 g fibre/100 g flour). Physico-chemical properties (water activity, moisture content, frozen water content, amylopectin retrogradation) and (1)H Nuclear Magnetic Resonance molecular mobility were characterised in potato fibre added bread over 7 days of storage. Potato fibre addition in bread slightly affected water activity and moisture content, while increased frozen water content and resulted in a softer bread crumb, more importantly when the optimal amount of water was used in the formulation. Potato fibre also reduced (1)H NMR molecular mobility changes in bread crumb during storage. Potato fibre addition in bread contributed to reduce bread staling.

Physico-chemical properties of ready to eat, shelf-stable pasta during storage

The changes in physico-chemical properties of RTE shelf stable pasta were studied during storage with a multianalytical and multidimensional approach (with special focus on water status) to understand the ageing process in this product. Pasta hardness and amylopectin recrystallisation increased, macroscopic water status indicators and proton molecular translational mobility remained constant, and significant changes were measured in the proton rotational molecular mobility indicators ((1)H FID, (1)H T2) during storage. Since the main changes observed in RTE pasta during storage were similar to those observed in other cereal-based products, it would be interesting to verify the effect of the anti-staling methods commonly used in the cereal processing industry in improving RTE pasta shelf-stability.

Effect of different cooking methods on structure and quality of industrially frozen carrots.

The effect of boiling, steaming and microwaving on microstructure, texture and colour of raw and industrially frozen carrots was investigated. The raw carrots, after cooking, showed dehydrated and separated cells with swollen walls. The carrots subjected to blanching, freezing and followed by frozen storage exhibited marked tissue damages indicating deep oriented fissures. Cooking caused cellular dehydration and separation in the tissue, with the same intensity between raw and frozen carrots and independently from the cooking treatment applied. Among different cooking methods, microwaving showed better retention of the initial texture and colour quality for both raw and frozen carrots. On the other hand, the steamed carrots revealed the highest degree of softening and colour differences from the control for both raw and frozen carrots, despite the worst tissue conditions were observed for the boiled carrots.

The use of two-dimensional NMR relaxometry in bread staling: a valuable tool?

Staling of bread was investigated in terms of physico-chemical parameters and one (1D) and two dimensional (2D) 1H Nuclear Magnetic Resonance (NMR) relaxometry. Physico-chemical properties were consistent with those generally reported for bread staling (crumb moisture loss, decrease in frozen water content, formation of amylopectin crystals, crumb hardening). One dimensional 1H NMR investigation suggested the presence of only one T1 protons population, while T2 was representative of multiple proton populations, that well related to the observed physico-chemical changes. 1H Two dimensional NMR provided an interesting insight of 1H T1 dynamics, as it allowed to discriminate the contribution of five protons pools within the 1H T1 relaxation.

Effect of added ingredients on water status and physico-chemical properties of tomato sauce

Different ingredients (guar, xanthan, carboxy methyl cellulose, locust bean gums, potato fiber, milk, potato and soy proteins) were added to tomato sauce to investigate their effect on its physico-chemical properties. The products were characterized in terms of colour, rheological properties (Bostwick consistency, flow behavior and consistency coefficient), water status (water activity, moisture content) and molecular mobility by 1H Nuclear Magnetic Resonance (NMR). Water activity was significantly decreased only by the addition of potato fiber. Xanthan, locust bean, guar and carboxy methyl cellulose significantly enhanced Bostwick consistency and consistency coefficient. Type of ingredient and concentration significantly affected 1H NMR mobility indicators. Principal component analysis (PCA) indicated that only 1H NMR mobility parameters were able to differentiate the effect of milk protein, xanthan and potato fiber on tomato sauce properties. The information collected in this work provides information to intelligently modulate tomato sauce attributes and tailor its properties for specific applications.

Effect of water and gluten on physico-chemical properties and stability of ready to eat shelf-stable pasta

A multi-analytical and multi-dimensional approach was used to investigate the effect of moisture and gluten on physico-chemical properties of shelf-stable ready to eat (RTE) pasta. Moisture and frozen water contents were not affected by formulation nor storage time. Hardness and retrograded amylopectin significantly increased during storage in all samples, more markedly in pasta with the lowest moisture content. Higher amounts of water and gluten reduced pasta hardening and contributed to control RTE pasta quality. (1)H FID became steeper in all samples during storage, but no effect of high moisture and gluten levels was observed on the mobility of these protons. Three proton T2 populations were observed (population C, population D and population E). Population C and D were not resolved during all storage. (1)H T2 relaxation time of the most abundant population (population E) shifted to shorter times and the amount of protons increased during storage, more importantly in the samples with lower moisture and gluten content.

Structured emulsions as butter substitutes: effects on physicochemical and sensory attributes of shortbread cookies

BACKGROUND Reformulation of foods products to reduce total and saturated fats while maintaining acceptable structure, texture and mouthfeel poses an important challenge to the food industry. In this work, the use of structured emulsions (fibre-induced oil-in-water biphasic systems with reduced total and saturated fats) is proposed to replace butter in shortbread cookies. RESULTS Use of structured emulsions resulted in softer dough that was still workable using a traditional process. Shortbread cookies containing structured emulsions were harder and paler than the butter control but had a significantly reduced saturated fat content. They also received promising scores in the sensory analysis in terms of texture and overall acceptability, despite the butter product still being the preferred sample. CONCLUSION The results of this study indicated that structured emulsions represent a good solution to produce nutritionally improved shortbreads. Optimization of the structured emulsion formulation can provide further improvement of the nutritional, sensory and physicochemical properties of shortbread cookies.

An overview of the Italian market for 2015: cooking quality and nutritional value of gluten-free pasta

A roundup of gluten-free (GF) pasta sold in the Italian market in 2015 was characterised throughout cooking behaviour, texture, colour and nutritional value. A preliminary evaluation of cooking quality of the thirty-three available products underlined an extremely heterogeneous technological quality. Eleven categories were, therefore, discriminated based on the main ingredients declared on the labels. Interestingly, the most numerous category (rice and corn) was pulverised on the factorial space indicating highly heterogeneous properties. This result was confirmed throughout multivariate statistics and can be likely due to diversity in ingredients proportions or/and processing. Nutritional evaluation of GF pasta pointed out a good nutritional quality. Therefore, the combination of technological and nutritional analyses demonstrated a huge difference among the analysed pasta samples, which can increase the difficulty of consumers to make their choice, and leaves room for further improvement of GF pasta formulation and productive processing.

Geographical origin discrimination of Pistachio (Pistacia vera L.) through combined analysis of physical and chemical features

A physicochemical assessment was carried out to discriminate the geographical origin of pistachio (Pistacia vera L.) following the regulation relative to the protection of geographical indications and designations of origin for agricultural products and foodstuffs (Article 4, paragraph 2 of Regulation (EC) No. 510/2006). One-way ANOVA results revealed that all the physical features were significantly (p ≤ 0.05) affected by the geographical origin, while chlorophyll a/chlorophyll b and two fatty acids [heptadecenoic acid (C17:1) and behenic (C22)] did not show significant (p > 0.05) differences among the different geographical origins. However, the remaining fatty acids showed significant (p ≤ 0.05) differences between pistachios coming from different countries (Iran, USA, Turkey, Syria, Kyrgyzstan and Italy) as well as between pistachios coming from two Italian locations (Bronte and Agrigento). Principal component analysis enabled to highlight differences among pistachios from different countries, and partial least squares enabled a better discrimination among pistachios from well-defined geographic areas, such as Bronte pistachios. Therefore, combining physicochemical features can be a valid tool for geographical origin discrimination of pistachio.