Christian Ghidelli scite author profile

Processing of fruits and vegetables generates physiological stresses in the still living cut tissue, leading to quality deterioration and shorter shelf life as compared with fresh intact produces. Several strategies can be implemented with the aim to reduce the rate of deterioration of fresh-cut commodities. Such strategies include low temperature maintenance from harvest to retail and the application of physical and chemical treatments such as modified atmosphere packaging (MAP) with low O and high CO levels and antioxidant dips. Other technologies such as edible coatings with natural additives, new generation of coatings using nanotechnological solutions such as nanoparticles, nanoencapsulation, and multilayered systems, and nonconventional atmospheres such as the use of pressurized inert/noble gases and high levels of O have gained a lot of interest as a possibility to extend the shelf life of minimally processed fruits and vegetables. However, the high perishability of these products challenges in many cases their marketability by not achieving sufficient shelf life to survive the distribution system, requiring the combination of treatments to assure safety and quality. This review reports the recent advances in the use of MAP, edible coatings, and the combined effect of both technologies to extend the shelf life of fresh-cut fruits and vegetables.

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Extending the shelf life of fresh-cut eggplant with a soy protein–cysteine based edible coating and modified atmosphere packaging

Ghidelli

Mateos

Rojas-Argudo

et al. 2014

Postharvest Biology and Technology

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Browning inhibition and microbial control in fresh-cut persimmon (Diospyros kaki Thunb. cv. Rojo Brillante) by apple pectin-based edible coatings

Sanchís

González

Ghidelli

et al. 2016

Postharvest Biology and Technology

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Keywords:Minimally processed persimmon Edible coatings Antimicrobial agents Sensory and microbial quality Food-borne human pathogens Shelf life A B S T R A C TThe aim of this study was to develop new edible coatings based on apple pectin with a combination of antioxidants and antimicrobial agents to control enzymatic browning and microbial growth of fresh-cut 'Rojo Brillante' persimmon. The survival of important food-borne human pathogens artificially inoculated on fresh-cut fruit was also assessed. Potassium sorbate (PS) at 2 or 4 g kg À1 , sodium benzoate (SB) at 4 g kg À1 , or nisin (NI) at 500 IU mL À1 , were added to apple pectin coatings containing 10 g kg À1 citric acid and 10 g kg À1 calcium chloride as antioxidants. Persimmon slices were dipped in the coatings, the aqueous antioxidant solution (citric acid and calcium chloride) or water (control), packed in an ambient atmosphere and stored at 5 C for up to 9 days. Microbial growth, colour, firmness, polyphenol oxidase (PPO) activity, visual quality and overall sensory flavour were measured during storage. Coated samples and those dipped in the antioxidant aqueous solution presented lower a* values than control samples, which indicated effective browning inhibition. Persimmon slices treated with coatings containing PS and SB reached the limit of marketability after 7 days of storage. At the end of storage, the overall fruit flavour was ranked above the limit of acceptability. Antimicrobial coatings inhibited growth of mesophilic aerobic bacteria, and those containing SB and NI were the most effective. No growth of moulds, yeasts and psychrophilic aerobic bacteria was detected during storage. All the treatments effectively reduced the populations of Escherichia coli and Salmonella enteritidis, NI-coating being the most effective. For Listeria monocytogenes, only the NIcoating effectively reduced the bacterial population.

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Effect of antioxidants in controlling enzymatic browning of minimally processed persimmon ‘Rojo Brillante’

Ghidelli

Rojas-Argudo

Mateos

et al. 2013

Postharvest Biology and Technology

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Antibrowning effect of antioxidants on extract, precipitate, and fresh-cut tissue of artichokes

Ghidelli

Mateos

Rojas-Argudo

et al. 2013

LWT - Food Science and Technology

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