Ezequiel José Pérez-Monterroza scite author profile

The thermal behavior, moisture adsorption properties and structural and morphological characteristics of mango powders were evaluated. The powders were obtained by foam mat drying methodology using albumin (ALB), mixture (EB) of monoglycerides of fatty acids, sorbitan monostearate and polyoxyethylene sorbitan monostearate and a combination of the two (EB-ALB) as foaming agents. The evaluation was done by differential scanning calorimetry (DSC), X-ray diffraction (XRD) and scanning electron microscopy (SEM), and the moisture adsorption isotherms were also determined. The powder with EB had a glass transition temperature (T g) of −4.2°C. The denaturation temperature of pure albumin (82.2°C) increased in the powders with ALB to 117°C and in those with EB-ALB to 102°C, due to the thermal stability provided by the pulp sugars. The moisture sorption isotherm of the EB-powder showed a higher water equilibrium content than the other powders. All the powders were in the amorphous state. The morphology of the powder with EB showed corrugated particles, whereas those with ALB and EB-ALB showed particles with a less porous aspect and more compact surfaces than the powders with EB.

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Rheological behavior of avocado (Persea americana Mill, cv. Hass) oleogels considering the combined effect of structuring agents

Pérez-Monterroza

Márquez-Cardozo

Velásquez

2014

LWT - Food Science and Technology

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Rheological and structural characterization of gels from albumin and low methoxyl amidated pectin mixtures

2019

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Study of the crystallization and polymorphic structures formed in oleogels from avocado oil

Pérez-Monterroza

Velásquez

Tobón

2016

Rev. Fac. Nac. Agron. Medellín

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The effect of the concentration of monodiglycerides, beeswax and sorbitan monostearate (SMS) on the thermal behavior of oleogels prepared from avocado oil, as well as the effect of the cooling rate on the onset temperature (Tonset) and the crystallization temperature (Tc), were evaluated by DSC and X-ray diffraction. The results showed that the structuring agents have a significant effect (P<0.05) on the Tc and Tonset, which demonstrated their ability to form solid lipids. Moreover, it was found that the presence of SMS decreased the Tc and Tonset, possibly due to their cocrystallization process. It was found only in the presence of the polymorphic form b' in the oleogels prepared. The Tc varied between 1.6 and 51.4 °C and Tonset between 3.9 and 53.8 °C.

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Microencapsulation of Lactobacillus rhamnosus ATCC 7469 by spray drying using maltodextrin, whey protein concentrate and trehalose

Agudelo-Chaparro

Velásquez

Valencia

et al. 2021

Food sci. technol. int.

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This study aimed to microencapsulate Lactobacillus rhamnosus ( L. rhamnosus) ATCC 7469 with whey protein concentrate (WPC), maltodextrin and trehalose by spray drying and to assess the impact of microencapsulation on cell viability and the properties of the dried powders. Spray-drying conditions, including inlet air temperature, air flow rate and feed pump, were fixed as independent variables, while probiotic survival, moisture content, water activity and effective yield were established as dependent variables. The survival of encapsulated L. rhamnosus by spray drying was optimized with response surface methodology, and the stability of the powder was assessed. The optimum spray-drying conditions were an inlet air temperature, air flow rate and feed pump rate of 169 °C, 33 m3·h−1 and 16 mL·min−1, respectively, survival of 70%, air aspiration of 84% and outlet air temperature of 52 °C, achieving an overall desirability of 0.96. The physicochemical and structural characteristics of the produced powder were acceptable for application with regard to residual water content, hygroscopicity, water activity, and particle size. The results indicated that a protein-trehalose-maltodextrin mixture is a good wall material to encapsulate L. rhamnosus, showing important thermal protection during the drying process and increasing survival. However, a decrease in this capacity is observed at an air outlet temperature of approximately 101 °C. The possible effects of the wall materials and the drying conditions on survival are also discussed.

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