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Abstract

BACKGROUND:

Arazá, a tropical berry rich in thermolabile antioxidants (ascorbic-acid/phenolics/flavonoids/carotenoids), is a potential ingredient for preparing functional foods; however, its high perishability hinders its industrial application. Osmotic-dehydration (OD), a processing method that operates at low temperature ranges, may be adequate for improving arazá's shelf-life without reducing its palatability/nutritional quality. Physicochemical and nutritional properties depend on the time/temperature/osmotic-solution concentration applied; therefore, parameters optimization is required. Processing selection must also consider treatment effect on antioxidants composition/activity/bioaccessibility in the gastro-intestinal (GI) tract, key factors in bioactives health benefits.

OBJECTIVES:

a) Optimize OD duration/temperature/sucrose concentration to maximize process efficiency/total-polyphenol content/overall-acceptability using principal component analysis and Response-Surface-Methodology/Desirability-Function.

b) Determine OD effect on antioxidant content/activity/bioaccessibilities before and after gastro-intestinal digestion.

RESULTS AND CONCLUSIONS:

Processing conditions have opposite effects on sensory and chemical properties; reaching antioxidant content/activity highest levels in the osmo-dehydrated fruit required 60 min/20°Bx; whereas, the best organoleptic scores demanded 180 min/60°Bx.

Although osmotic-drying reduced the fruit's antioxidant content/activity 39–76%, the process improved antioxidants bioaccessibilities, since these values were: 63–85% (untreated fruit) and 72–90% (osmodehydrated arazá (ODA)), whereas the activity retention levels were 67–76% (untreated fruit/ODA).

Keywords

Arazá osmotic-dehydration antioxidant content bioaccessibility

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References

Neri-Numa

, Carvalho-Silva

, Morales

, Malta

, Muramoto

, Ferreira

JEM

, Pastore

. Evaluation of the antioxidant, antiproliferative and antimutagenic potential of araçá-boi fruit (Eugenia stipitata Mc Vaugh -Myrtaceae) of the Brazilian Amazon Forest. Food Res Int. 2013;50(1):70–6.

Narváez-Cuenca

, Silva-Bustos

, Restrepo-Sánchez

. Efecto del procesamiento térmico en combinación con sacarosa en el contenido de vitamina c, fenoles totales, actividad antioxidante y características sensoriales durante el almacenamiento de puré de arazá congelado (Eugenia stipitata McVaugh). Agron Colomb. 2015;33(2):212–9.

García-Reyes

, Narváez-Cuenca

. The effect of pasteurization on the quality of frozen arazá (Eugenia stipitata McVaugh) pulp. J Food Qual. 2010;33(5):632–45.

Fernandes

FAN

, Rodrigues

, Law

, Mujumdar

. Drying of exotic tropical fruits: A comprehensive review. Food Bioprocess Technol. 2011;4(2):163–85.

Yadav

, Singh

. Osmotic dehydration of fruits and vegetables: a review. J. Food Sci. Technol. 2014;51(9):1654–73.

Ferrari

, Carmello-Guerreiro

, Bolini

HMA

, Hubinger

. Structural changes, mechanical properties and sensory preference of osmodehydrated melon pieces with sucrose and calcium lactate solutions. Int J Food Prop. 2010;13(1):112–30.

Quiles

, Hernando

, Erez-Munuera

, Larrea

, Llorca

, Lluch

. Polyphenoloxidase (PPO) activity and osmotic dehydration in Granny Smith apple. J Sci Food Agric. 2005;85:1017–20.

Almeida

, Mussi

, Oliveira

, Pereira

. Effect of temperature and sucrose concentration on the retention of polyphenol compounds and antioxidant activity of osmotically dehydrated bananas. J Food Process Preserv. 2015;39(6):1061–69.

Tagliazucchi

, Verzelloni

, Bertolini

, Conte

. In vitro bio-accessibility and antioxidant activity of grape polyphenols. Food Chem. 2010;120(2):599–606.

10.

Dalmau

, Bornhorst

, Eim

, Rosselló

, Simal

. Effects of freezing, freeze drying and convective drying on in vitro gastric digestion of apples. Food Chem. 2017;215:7–16.

11.

Vieira

, Pereira

, Hubinger

. Optimisation of osmotic dehydration process of guavas by response surface methodology and desirability function. Int J Food Sci Technol. 2012;47(1):132–40.

12.

Ponjičan

, Sedlar

, Findura

. Optimisation of osmotic dehydration of plums. Agric Eng. 2019;23(1):69–79.

13.

AOAC. Official methods of analysis of AOAC international. 16th. Gaithersburg; 1998.

14.

Saura-Calixto

, Serrano

, Goñi

. Intake and bioaccessibility of total polyphenols in a whole diet. Food Chem. 2007;101(2):492–501.

15.

Schlesier

, Harwat

, Böhm

, Bitsch

. Assessment of antioxidant activity by using different in vitro methods. Free Radic Res. 2002;36(2):177–87.

16.

Chang

, Yang

, Wen

. Estimation of total flavonoid content in propolis by two complementary colorimetric methods. J Food Drug Anal. 2002;10(3).

17.

Ordoñez-Santos

, Hurtado-Aguilar

, Ríos-Solarte

, Arias-Jaramillo

. Total concentration of carotenoids in tropical fruits‘waste. Prod + Limpia. 2014;9(1):91–8.

18.

Reyes-Álvarez

, Lanari

. Storage stability of freeze-dried arazá (Eugenia stipitata Mc Vaugh) powders. Implications of carrier type and glass transition. LWT- Food Sci Technol. 2020;118:108842.

19.

Brand-Williams

, Cuvelier

, Berset

. Use of a free radical method to evaluate antioxidant activity. LWT - Food Sci Technol. 1995;28(1):25–30.

20.

Pulido

, Bravo

, Saura-Calixto

. Antioxidant activity of dietary polyphenols as determined by a modified ferric reducing/antioxidant power assay. J Agric Food Chem. 2000;48(8):3396–402.

21.

Orjuela-Palacio

, Zamora

, Lanari

. Consumers’ acceptance of a high-polyphenol yerba mate/black currant beverage: Effect of repeated tasting. Food Res Int. 2014;57:26–33.

22.

Chiang

, Kadouh

, Zhou

. Phenolic compounds and antioxidant properties of gooseberry as affected by in vitro digestion. LWT - Food Sci Technol. 2013;51(2):417–22.

23.

Derringer

, Suich

. Simultaneous optimization of several response variables. J Qual Technol. 1980;12(4):214–19.

24.

Cornell

. Experiments with Mixtures. Design, Models and the Analysis of Mixture Data, 2nd Ed., JohnWiley & Sons, New York; 1990.

25.

Fathi

, Mohebbi

, Razavi

SMA

. Effect of osmotic dehydration and air drying on physicochemical properties of dried kiwifruit and modeling of dehydration process using neural network and genetic algorithm. Food Bioprocess Technol. 2011;4(8):1519–26.

26.

Nowicka

, Wojdyło

, Lech

, Figiel

. Influence of osmodehydration pretreatment and combined drying method on the bioactive potential of sour cherry fruits. Food Bioprocess Technol. 2015;8(4):824–36.

27.

Sanjinez-Argandoña

, Guilherme Branco

, Takito

, Corbari

. Influência da desidratação osmótica e da adição de cloreto de cálcio na conservação de kiwis minimamente processados. Food Sci Technol. 2009;30:205–9.

28.

Ribeiro

, Teófilo

, Augusto

, Ferreira

MMC

. Simultaneous optimization of the microextraction of coffee volatiles using response surface methodology and principal component analysis. Chemom Intell Lab Syst. 2010;102(1):45–52.

29.

Vial

, Guilbert

. Osmotic dehydration of kiwi fruits: influence of process variables on the color and ascorbic acid content. Sci Aliments. 1991;11:63–84.

30.

Devic

, Guyot

, Daudin

, Bonazzi

. Effect of temperature and cultivar on polyphenol retention and mass transfer during osmotic dehydration of apples. J Agric Food Chem. 2010;58(1):606–14.

31.

de Paulo Farias

, de Araújo

, Neri-Numa

, Dias-Audibert

, Delafiori

, Catharino

, Pastore

. Effect of in vitro digestion on the bioaccessibility and bioactivity of phenolic compounds in fractions of Eugenia pyriformis fruit. Food Res Int. 2021;150:110767.

32.

Neilson

, George

, Janle

, Mattes

, Rudolph

, Matusheski

, Ferruzzi

. Influence of chocolate matrix composition on cocoa flavan-3-ol bioaccessibility in vitro and bioavailability in humans. J Agric Food Chem Chem. 2009;57(20):9418–26.

33.

Peters

, Green

, Janle

, Ferruzzi

. Formulation with ascorbic acid and sucrose modulates catechin bioavailability from green tea. Food Res Int. 2010;43(1):95–102.

34.

Iturri

, Calado

CMB

, Prentice

. Microparticles of Eugenia stipitata pulp obtained by spray-drying guided by DSC: An analysis of bioactivity and in vitro gastrointestinal digestion. Food Chem. 2021;334:127557.

Optimization of the processing conditions for producing osmo-dehydrated arazá ( Eugenia stipitata,McVaugh) and evaluation of its antioxidant content and activity