Effect of High Pressure Homogenization on Improving the Quality of Milk and Sensory Properties of Yogurt: A Review

Massoud, Ramona; Belgheisi, Saba; Massoud, A.

doi:10.7763/ijcea.2016.v7.544

Cited by 21 publications

(15 citation statements)

References 35 publications

(75 reference statements)

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“…HPH has also been proved to inactivate or modulate the activity of enzymes that cause phase separation in fruit or vegetable juices, to preserve the initial juice color, flavor, and aromas and, finally, to retain the nutritional and functional features of the treated matrices (Patrignani et al, 2013; Błaszczak et al, 2017). Several authors verified the efficacy of this treatment on several matrices such as vegetable milks (Gul et al, 2017), vegetable and fruit juices (Briñez et al, 2006; Betoret et al, 2009; Donsì et al, 2009; Patrignani et al, 2009b; Bevilacqua et al, 2012; Patrignani et al, 2013), milk (Lanciotti et al, 2004a; Hayes et al, 2005), milk-based products (Lanciotti et al, 2004b; Patrignani et al, 2009a; Massoud et al, 2016), and liquid whole egg (Velazquez-Estrada et al, 2008), suggesting also the combination of HPH with further hurdles such as low storage temperature and low pH in order to increase food shelf-life (Briñez et al, 2006; Huang and Kuo, 2015). However, an improvement of the existing HPH technology was also encouraged, resulting in the production of new types of homogenizers and valves, able to reach levels of ultra high pressure homogenization (UHPH) between 200–400 MPa, that allowed to obtain shelf stable products without negative effects on their quality (Zamora and Guamis, 2015).…”

Section: Introductionmentioning

confidence: 93%

(Ultra) High Pressure Homogenization Potential on the Shelf-Life and Functionality of Kiwifruit Juice

et al. 2019

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The increasing competition within the food industry sector makes the requisite of innovation in processes and products essential, leading to focus the interest on the application of new processing technologies including high pressure homogenization (HPH) and ultra high pressure homogenization (UHPH). In this context, the present research aimed at evaluating the effects of two UHPH treatments performed at 200 MPa for 2 and 3 cycles on quality and functionality of organic kiwifruit juice stored at three different temperatures, i.e., 5, 15, and 25°C. The results showed that only the treatment performed at 200 MPa for 3 cycles was able to significantly increase the shelf-life of organic kiwifruit juices when stored at refrigeration temperature, avoiding also phase separation that occurred in the sample treated at 0.1 MPa (control) after 20 days of refrigerated storage. The obtained data showed also that the highest applied pressure was able to increase some quality parameters of the juice such as viscosity and luminosity (L ∗ ) and increased the availability of total phenol content consequently enhancing the juice total antioxidant activity. The application of a treatment at 200 MPa for 3 cycles allowed to obtain a stable kiwifruit juice for more than 40 days under refrigerated storage. A challenge to implement this technology in food process as full alternative to thermal treatment could be represented by the adoption of pressure level up to 400 MPa followed by the packaging in aseptic conditions.

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Section: Introductionmentioning

confidence: 93%

(Ultra) High Pressure Homogenization Potential on the Shelf-Life and Functionality of Kiwifruit Juice

et al. 2019

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“…In TSH, higher pressure is usually used in the first stage, during which the diameter of the fat globules is reduced. The second stage is designed to break fat globule clusters formed in the first stage (Massoud et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

The effect of homogenization and addition of polysaccharides on the viscoelastic properties of processed cheese sauce

Kůrová

Salek

Vašina

et al. 2022

Journal of Dairy Science

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This study was conducted to determine the effect of 1-stage homogenization (OSH) and 2-stage homogenization (TSH) and the addition of polysaccharides [κ-carrageenan (CR) or furcellaran (FR) at levels ranging from 0.000 to 1.000% (wt/wt)] on the physicochemical, viscoelastic, and mechanical vibration damping properties of processed cheese sauces (PCS) after 30 d of storage (6 ± 2°C). The basic chemical properties (pH, dry matter content) were similar for all tested samples. Viscoelastic measurements indicated that PCS rigidity was directly proportional to increasing CR or FR concentration and to the application of homogenization. The interactions between the application of homogenization and the concentration of polysaccharides used were also significant. Compared with OSH, TSH did not lead to any further increase in the rigidity. The preceding results were also supported by data obtained from a nondestructive method of mechanical vibration damping. No changes in water activity were observed in any PCS sample. Overall, the addition of FR or CR appeared to be highly suitable for increasing the emulsion stability of PCS. If PCS products with softer consistency are desired, then a concentration of CR/FR ≤0.250% (wt/wt) could be recommended together with OSH/TSH. For products for which a firmer PCS consistency is required, the addition of CR in concentrations of ≥0.500% (wt/wt) or FR in concentrations of ≥1.000% (wt/wt) together with OSH is recommended. Finally, as the concentration of polysaccharides increased, a darker PCS color was observed.

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“…The temperature normally starts to change as soon as the milk leaves the refrigerator cabinet and increases while the consumer completes the shopping and during the drive home, before being returned to a refrigerator bin the consumer's home [10]. The milk processing consists of following steps: agitation, mixing, and cooling at the farm; clarification, separation, and standardization; pasteurization; homogenization; packaging; all done by sanitation [11]. Milk that contains more fat in the solid state are more dispersed and viscous, thus, whole milk has a higher viscosity than skimmed milk.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Different Heat Treatment on the Nutritional Value of Milk and Milk Products and Shelf-Life of Milk Products. A Review

Bezie

2019

JDVS

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maintaining the human and animal body. About 87% of milk composition consists of water and 13% are nutritionally important components, such as proteins, carbohydrates, lipids, minerals and vitamins. It is excellent source of high-quality protein, vitamins and minerals. It represents one of the best natural sources of essential amino acids for human nutrition. Moreover, milk is an outstanding source of calcium and phosphorus to build bones and teeth. Similarly, milk is the most nutritious and it can attribute for the growth, reproduction, energy source, maintenance and repairs of body. Also, due to having various properties, it can be easily converting into different milk products and to use it as an ingredient for other food items [1,2]. Milk contains components that are essential to humans such as proteins, carbohydrates, fat, water, all the B-vitamins, vitamins A and D, calcium and phosphorus. It also provides energy [3,4].

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Effect of High Pressure Homogenization on Improving the Quality of Milk and Sensory Properties of Yogurt: A Review

Cited by 21 publications

References 35 publications

(Ultra) High Pressure Homogenization Potential on the Shelf-Life and Functionality of Kiwifruit Juice

(Ultra) High Pressure Homogenization Potential on the Shelf-Life and Functionality of Kiwifruit Juice

The effect of homogenization and addition of polysaccharides on the viscoelastic properties of processed cheese sauce

The Effect of Different Heat Treatment on the Nutritional Value of Milk and Milk Products and Shelf-Life of Milk Products. A Review

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