Industry Innovation in Fresh-cut Processing: The Fresh Appeal System *

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Industry Innovation in Fresh-cut Processing: The Fresh Appeal System * Deirdre Holcroft, Holcroft Postharvest Consulting Steve Lacasse, Fresh Appeal Tim DonLevy, DonLevy Laboratories Allan Woolf, Graham Fletcher & Cecilia Requejo-Jackman, Plant and Food Research The information that you are about to view is patent protected by the holders Fresh Appeal Ltd. and Plant and Food Research, New Zealand

Process Water Sanitation Center for Produce Safety Key Learning #6: Even properly managed wash systems do not sanitize the surface of fruits and vegetables... Washing is not a kill step. Combinations of treatments may offer better control over microorganisms in wash water. http://www.centerforproducesafety.org/amass/documents/document/210/ CPS%20Key%20Learnings%20May%202014_FINAL2.pdf

Hurdle technology Hurdle technology is a preventive control program used for managing safety in whole and fresh-cut produce by utilizing individual sub lethal physical, chemical, and biological stressors in a sequential application with a cumulative inhibitory effect on the microbiological load (Tapia & Welti-Chanes, 2012). Chemical: Wash water sanitizer, e.g. PAA Physical: UV-C treatment Physical: Mild heat treatment Physical: Rapid recooling after heat.

Overview Turbulated UV-C treatment Hot flume treatment Accurate low trauma slicing and chunking Removal of defect slices and fines Modified Atmosphere Packaging (MAP) Drying

Mode of action of UV-C UV-C (wavelength 254 nm) permanently damages the DNA of microorganisms resulting in death. UV-C causes cross-linking between thiamine and cytosine blocking DNA transcription and replication

The Turbulator Factors affecting efficacy of UV-C Factors Dose Dwell time UV transmittance Temperature of lamps Age of lamps Exposure

The Turbulator Non-ionizing UV-C radiation is delivered through a column of circulating (turbulated), pasteurized water. Benefits : Full coverage - minimal shadowing Spinning motion detaches some microorganisms UV disinfection in water no desiccation Recontamination eliminated Continuous monitoring of transmissivity Fresh water replacement.

Mild Heat Treatment Reduce or delay: Decay/fungal infection, Microbial loads, Ethylene synthesis and action, Respiration Ripening including fruit softening, Sensitivity to chilling injury (HSP), Enzymatic browning (affects PPO enzyme), Synthesis of phenols (affects PAL)

Apples Slices: Respiration and Ethylene Respiration rate and ethylene production were reduced by heat >45-50 C Woolf et al., 2007. Plant and Food Research, NZ

Cooling (and antioxidant application) Fresh Appeal's Cold Treatment: Removes heat Ensures cold product is packaged Delivers the antioxidant Maximizes antioxidant uptake temp and pressure Maintains antioxidant close to 0 C - minimizes the growth of microorganisms.

Effect on organoleptic and microbial quality 1. Sliced apples 2. Pomegranate arils 3. Blueberries

Apple slices: Firmness Royal Gala apple slices after 21 days at 4 C where: CaAsc = 6% calcium ascorbate Heat = 60 secs at 52 C UV = turbulator Firmest fruit with UV+Heat+CaAsc: Δ= 6 N or 1.3 lbf Woolf et al., 2007. Plant and Food Research, NZ

Apple slices: Inoculation Microbial counts on apple slices inoculated with Lactobacillus in a simulation study. Sample stage Lactobacillus (log CFU/g) Before turbulator 4.3-4.7 After turbulator 2.0-2.8 Woolf et al., 2007. Plant and Food Research, NZ

Apples samples from a processor: Yeast: No significant difference in results = high SD

Apples samples from a processor: Yeast: Excluded treatments with <20 cfu/g or <1 log before processing

Commercial fresh-cut apple slices Sliced apple products were purchased from local stores and analyzed on their Use By dates e Sample Use by Log 10 cfu/g APC Yeast Mold Red 14 oz 10/21 6.2 6.0 3.8 Red 14 oz 10/29 5.3 5.2 <1.0 Red 14 oz 10/28 5.8 4.6 1.8 Red, 6x2 oz bags 10/28 5.8 5.3 1.9 Mixed red and green, 14 oz 10/31 6.2 4.5 1.3 Mixed red and green, 14 oz 10/29 5.9 6.3 <1.0 Mixed red and green, 14 oz 10/28 5.8 5.1 1.8 Red, 5x2 oz bags 10/28 >4.4 5.2 2.2 Red, 5x2 oz bags 10/18 6.3 5.8 3.8 Mixed snack pack 10/23 5.5 4.4 <1.0 70% of the samples >5 log (150,000 ) cfu/g yeast

Apple slices: log APC <100 cfu/g (2 log) limit of detection Woolf et al., 2007. Plant and Food Research, NZ

Commercial fresh-cut apple slices Yeast (log cfu/g) Treatment Day 7 Day 15 Without turbulator 3.2 5.1 With turbulator 1.8 3.2 Log reduction 1.4 1.9

Pomegranate Experiment Wonderful pomegranate after 6 months storage Arils extracted and subjected to: Treatments 1. Prewash 2. UV (7 s) 3. Hot water (30 s) 4. Cooling (2 C 60 s) Control Water No Ambient Water Tsu100 48C 80 ppm PAA Yes 48 C 80 ppm PAA Tsu100 55C 80 ppm PAA Yes 55 C 80 ppm PAA H 2 O 2 48C 1.5% H 2 O 2 Yes 48 C 1.5% H 2 O 2 H 2 O 2 55C 1.5% H 2 O 2 Yes 55 C 1.5% H 2 O 2 Dried in UV sanitized air Packed in modified atmospheres in sealed cups (122 g) Store at 4 C for 21 days Fletcher et al., 2015. Plant and Food Research, NZ

Pomegranate: Aril color Tsunami treatments maintain highest % of ruby red arils Fletcher et al., 2015. Plant and Food Research, NZ

Aril color distribution: 18 days at 4 C Fletcher et al., 2015. Plant and Food Research, NZ

Fletcher et al., 2015. Plant and Food Research, NZ

Pomegranate: Quality Treatment Mold Purge (ml) Firmness Control Visible white mold 1-2 ml Firm Tsunami 48 C Visible white mold 2-5 ml Firm Tsunami 55 C NO visible mold 3-5 ml Firm H 2 O 2 48 C Visible white mold 3-5 ml Firm H 2 O 2 55 C NO visible mold 3-5 ml Firm Fletcher et al., 2015. Plant and Food Research, NZ

Headspace Oxygen and Carbon dioxide O2 CO2 Fletcher et al., 2015. Plant and Food Research, NZ

Pomegranate: Log APC Tsunami 55C was an effective sanitizer for up to 18 days H 2 O 2 55C was an effective sanitizer but aril color was poor Fletcher et al., 2015. Plant and Food Research, NZ

Pomegranate: Log Yeast + Mold Tsunami 55C was an effective sanitizer for up to 18 days Fletcher et al., 2015. Plant and Food Research, NZ H 2 O 2 55C was an effective sanitizer but aril color was poor

Blueberry Blueberry trials tested several variables in 4 exps Recommended treatment: UV-C Heat: 52.5-55 C for 30-60 sec + 1% CaCl 2 CA: 1-2% cold calcium ascorbate MAP Requejo-Jackman et al., 2012. Plant and Food Research, NZ * Data not recorded

Blueberry results * Data not recorded Mold counts were higher on untreated control fruit than UV treated fruit. Incidence of rotten and mushy/soft fruit (%) tended to be higher in treatments without heat. Requejo-Jackman et al., 2012. Plant and Food Research, NZ

Fresh Appeal s patented system is the first system that includes sequential applications of several sanitation hurdles.

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