Gums induced microstructure stability in Ca(II)-alginate beads containing lactase analyzed by SAXS

Traffano-Schiffo, María Victoria; Castro‐Giráldez, Marta; Fito, P.; Perullini, Mercedes; Santagapita, Patricio R.

doi:10.1016/j.carbpol.2017.09.096

Cited by 35 publications

(31 citation statements)

References 34 publications

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“…Pectin is part of the beads structure forming the 3D hydrogel network with alginate. The microstructure of the alginate hydrogel network determined by small‐angle X‐ray scattering (SAXS) showed that both compactness and density of alginate rods are drastically affected by other biopolymers (Traffano‐Schiffo et al ., , ), affecting the 3D network as well as water distribution. It was reported that pectin also forms rod‐like objects like alginate, of smaller size but with much higher flexibility, showing the ability to form different networks architecture (Schuster et al ., ), which may protect lycopene by improving interactions between them.…”

Section: Resultsmentioning

confidence: 99%

“…Many studies of encapsulation of bioactive compounds such as flavours, drugs, enzymes, vitamins, essential oils and carotenoids in a matrix or core system have been developed to control their release and protect them from deteriorative processes like oxidation, evaporation, degradation or thermal denaturation (Ray et al ., ; Traffano‐Schiffo et al ., , ). In particular, the simple and mild aqueous‐based gel formation achieved by the ionotropic gelling of Ca(II)‐alginate remains a very attractive alternative for biomedical, food and pharmaceutical applications.…”

Section: Introductionmentioning

confidence: 99%

“…However, some disadvantages are associated with this carrier, including high biomolecule leakage, low mechanical strength, large pore size and low cryo‐ and dehydro‐capacities (Santagapita et al ., ; Traffano‐Schiffo et al ., ), revealing the need to add other matrix components. In a previous work, it was shown that alginate beads with the addition of sugars and biopolymers were capable of enhancing the stability towards isomerisation as well as control the release of an encapsulated free‐solvent extract of lycopene (Aguirre Calvo & Santagapita, ; Aguirre Calvo et al ., ) and enzymes (Traffano‐Schiffo et al ., , , ). Lycopene is a naturally occurring red carotenoid pigment present in tomatoes, watermelon, pink grapefruit, pink guava and papaya (Sinha & Dua, ) with health benefits associated with lower risk of some degenerative diseases that may play a specific role in preventing prostate cancer and cardiovascular disease (Costa‐Rodrigues et al ., ).…”

Section: Introductionmentioning

confidence: 99%

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Pink grapefruit lycopene encapsulated in alginate‐based beads: stability towards freezing and drying

Aguirre-Calvo

Santagapita

2018

Int J of Food Sci Tech

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Summary Alginate‐based beads containing lycopene extract were produced with the addition of various sugars and biopolymers. In present work, lycopene stability was studied on beads subjected to thermal treatments: continuous freezing (−18 °C, 30 days), four freezing/thawing (f/t) cycles, dehydration by vacuum‐ and freeze‐drying. The progress of crystallisation was assessed using transversal relaxation times (T2) obtaining isothermal curves at different temperatures. Alginate beads containing trehalose with β‐cyclodextrin and arabic gum retained a high lycopene content (>80%) after freezing and drying, regardless of the freezing or drying method. Instead, beads containing only alginate showed sever lycopene decrease in all cases. Continuous freezing affected both lycopene content and stability to a higher extent than f/t cycles. Isothermal studies revealed the lower amount of crystallised water in beads containing trehalose (with or w/o other excipients), reducing also the time to arrive at the 50% of crystallisation during freezing.

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Section: Resultsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Pink grapefruit lycopene encapsulated in alginate‐based beads: stability towards freezing and drying

Aguirre-Calvo

Santagapita

2018

Int J of Food Sci Tech

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“…In this context, the encapsulation of phenolic compounds in biopolymer matrices represents a great possibility in their incorporation and consumption in different food systems [ 13 ]. The effectiveness of Ca(II)-alginate hydrogels in the stabilization and controlled release of biomolecules has been widely demonstrated [ 14 , 15 , 16 ].…”

Section: Introductionmentioning

confidence: 99%

High-intensity ultrasound-assisted extraction of phenolic compounds from cowpea pods and its encapsulation in hydrogels

Traffano-Schiffo

Aguirre-Calvo

Avanza

et al. 2020

Heliyon

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Currently and according to the growing worldwide interest in the revaluation of agricultural by-products, the use of legumes waste presents great potential to obtain bioactive compounds. In this context, an extract rich in phenolic compounds was obtained from Vigna unguiculata (cowpea) pods by optimizing the high-intensity ultrasound conditions (10 min and 36% of amplitude) using response surface methodology. Then, the extract was encapsulated in Ca(II)-alginate beads with the addition of arabic or guar gums or cowpea isolated proteins. A complete morphological study by image analysis and microstructural evaluation by SAXS has been carried out. Results showed that beads containing alginate and alginate-guar gum have the highest loading efficiency of total phenolic compounds (47 ± 5%) and antioxidant activity (44 ± 3%). However, the coupled effect of the cowpea extract and the isolated proteins (at it higher concentration) increased the antioxidant capacity of the beads due to the contribution of the phenolic compounds and the amino acids with anti-radical activity, reaching a value of 67 ± 3 % of inhibition of ABTS .+ . Finally, the microstructural analyses revealed that cowpea pod extract increased the interconnectivity of the rods due to the presence of trivalent cations, conferring versatility, and larger coordination to the network. Also, it was observed that the addition of cowpea proteins produced more interconnected bigger and fewer compacts rods than beads containing only alginate, increasing 12 and 49 % the interconnection and the size, respectively, and decreasing 10 % their compactness. This research demonstrated the use of cowpea sub-products as a source of bioactive compounds that further modulate the microstructure of the hydrogel network, and the outstanding potential for being incorporated in techno-functional foods by using Ca(II)-alginate as a carrier.

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“…For AS preparation, a 1% (w/v) alginate with 20% (w/v) sucrose was dropped into the 2.5% (w/v) CaCl 2 solution supplemented with 20% (w/v) sucrose using the same procedure previously described. A peristaltic pump (Damova S.L., Barcelona, Spain, model CPM-045B) was used to Ca(II)-alginate bead production according to the drop method described by Traffano-Schiffo et al, (2017), with a pump speed at 20 ± 0 rpm, regulated by an inverter Panasonic DV-700 (Oasaka, Japan) [12] . The CaCl 2 solution (with or without sucrose) was maintained in a cold bath with constant stirring by using a vortex IKA ® MS3 basic (IKA, Staufen, Germany).…”

Section: Hydrogel Beads Preparationmentioning

confidence: 99%

Thermodynamic model of Ca(II)-alginate beads drying by spectrophotometry

Fito

Santagapita

Castro‐Giráldez

et al. 2018

Proceedings of 21th International Drying Symposium

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The purpose of this work was to study the drying process of Ca(II)-alginate beads with/without sucrose, monitored by infrared thermography (IRT), in order to describe the critical points and the transformations suffered by the systems. Beads were obtained by the drop method and the drying process was performed at 40 ºC and 1.5 m/s. IRT was measured by a thermal imager Optris PI® 160. Mass, aw, xw and volume were also obtained. It was demonstrated that IRT is a good monitoring tool, able to analyzed heat transfer in colloidal systems. A thermodynamic model able to predict the mechanical phenomena of the beads throughout drying process has been developed. Keywords: encapsulation; thermodynamic; spectrophotometry; drying; beads

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Gums induced microstructure stability in Ca(II)-alginate beads containing lactase analyzed by SAXS

Cited by 35 publications

References 34 publications

Pink grapefruit lycopene encapsulated in alginate‐based beads: stability towards freezing and drying

Pink grapefruit lycopene encapsulated in alginate‐based beads: stability towards freezing and drying

High-intensity ultrasound-assisted extraction of phenolic compounds from cowpea pods and its encapsulation in hydrogels

Thermodynamic model of Ca(II)-alginate beads drying by spectrophotometry

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