Microstructure of whole milk powder and of insolubles detected by powder functional testing

McKenna, Anthony; Lloyd, Richard; Munro, Peter A.; Singh, Harjinder

doi:10.1002/sca.4950210504

Cited by 49 publications

(35 citation statements)

References 8 publications

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“…Often, surface fat or some fat spread over (part of) the surface of the particles of WMP can be observed by a microscopic examination of the reconstituted milk or the powder [3,4,14,33]. However, whether the surface fat is a "free fat" or an "uncovered fat" is still doubtful [4,25,26].…”

Section: Protein Interactions During the Manufacture Of Wmpmentioning

confidence: 99%

“…McKenna et al [14], using transmission electron microscopy in conjunction with particle size analysis and functional tests, examined a range of commercial WMPs. The most distinguishing feature in these micrographs was the significant quantity of micellar casein material that was associated with the fat globules, and the presence of hair-like structures, which were probably aggregates of denatured whey protein and κ-casein on the adsorbed casein micelles.…”

Section: Interaction Of Milk Proteins In Wmp 133mentioning

confidence: 99%

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Controlling milk protein interactions to enhance the reconstitution properties of whole milk powders – A minireview

Singh

2009

Dairy Sci. Technol.

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-Spray-dried milk powders are widely used in recombined milk products and processed foods. The interactions of the specific components in milk, i.e. casein micelles, whey proteins and fat globules, dictate how milk will behave during processing and the functional properties of the powder in different applications. The manufacture of milk powders involves heat treatments, evaporation, homogenisation and spray drying. The major effect of heat treatment is the denaturation of whey proteins and their association with casein micelles. During evaporation, the casein micelle size increases due mainly to the aggregation of some of the micelles and increased association of the whey proteins with the micelles. During whole milk powder manufacture, there are also considerable changes in the size of fat globules and the protein composition of the milk fat globule membrane (MFGM). This modified composition and the consequent reactivity of the MFGM play a major role in determining the functionality of whole milk powders, in particular its reconstitution properties. milk powder / interaction / processing / functionality / solubilityRésumé -Contrôle des interactions des protéines laitières pour favoriser l'aptitude à la reconstitution des poudres de lait entier. Les poudres de lait séché par atomisation sont largement utilisées dans les produits laitiers recombinés et les aliments transformés. Les interactions des composants spécifiques du lait, comme les micelles de caséines, les protéines sériques et les globules gras, conditionnent le comportement du lait au cours du traitement et les propriétés fonctionnelles de la poudre dans différentes applications. La fabrication de poudres de lait implique traitements thermiques, évaporation, homogénéisation et séchage par atomisation. L'effet principal *Corresponding author (通讯作者): H.Singh@massey.ac.nz Dairy Sci. Technol. 90 (2010) 123-136

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Section: Protein Interactions During the Manufacture Of Wmpmentioning

confidence: 99%

Section: Interaction Of Milk Proteins In Wmp 133mentioning

confidence: 99%

Controlling milk protein interactions to enhance the reconstitution properties of whole milk powders – A minireview

Singh

2009

Dairy Sci. Technol.

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“…Sediment can be collected by centrifugation, but the differentiation of SDP and WF is not straightforward. According to McKenna, Lloyd, Munro, and Singh (1999), the structure of SDP is analogous to powder particles. The reason for their slow dispersion is therefore likely due to either agglomerate structure or surface composition.…”

Section: Introductionmentioning

confidence: 99%

“…Based on the previous research (De Ruyck, 1991;McKenna et al, 1999;Mol, 1975;Ohba, Takahashi, & Igarashi, 1989) the formation of insoluble material is hypothesised to originate from heat and shear applied during spray drying resulting in changes in fat-protein interactions. Also, emulsion quality before drying (Schmidmeier, O'Gorman, Drapala, & O'Mahony, 2017) and fat crystallisation (Regost, 2016) as well as whey protein denaturation (Joyce, Brodkorb, Kelly, & O'Mahony, 2017;McKenna et al, 1999) at different stages of drying may play a role. Lactose crystallisation during humid storage has been reported to result in disruption of fat globules, higher amount of free fat and rougher particles in model infant formula powders made with different protein-to-fat ratios (McCarthy et al, 2013).…”

Section: Introductionmentioning

confidence: 99%

Formation and structure of insoluble particles in reconstituted model infant formula powders

Toikkanen

Outinen

Malafronte

et al. 2018

International Dairy Journal

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a b s t r a c tPhase separation of insoluble particles, so called "white flecks", is a physical defect in reconstituted milk obtained from spray-dried, fat-containing dairy powders. Compared with bulk powder particles, white flecks have quite different chemical and morphological characteristics. They consist mainly of proteins and fat, forming a dense network. Here, two concurrent formation mechanisms are suggested based on the structures revealed by confocal microscopy imaging. Fused spherical particles with free fat on the surface were the most abundant and likely formed during the manufacturing process. Sharp-edged particles containing shapes typical of lactose crystals formed during storage. Fat globule stability was thus determined to be critical in preventing white fleck formation. Stability was increased with (a) the presence of lecithin in the oil phase; (b) systems with high protein-to-fat ratio and (c) storage in dry conditions since humidity leads to lactose crystallisation and disruption of the fat globules in powders.

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“…Since then, the technique has been largely used and the surface composition was related to powder physical properties such as wettability, flowability and stickiness [13,18,25,30,31,39]. Few studies considered the influence of fat droplet size and the measurement method was either laser light scattering [15,18,29,39] or, more arguably, image analysis of phase-contrast light micrographs [12,21].…”

Section: Introductionmentioning

confidence: 99%

Fat supramolecular structure in fat-filled dairy powders: A tool to adjust spray-drying temperatures

Vignolles

Lopez

Floch-Fouéré

et al. 2010

Dairy Sci. Technol.

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-Despite the increasing economic impact of fat-filled dairy powders, their manufacture is still empirical. The aim of the study was to understand the mechanisms responsible for fat supramolecular structure in such a dry matrix. For the purpose, emulsions were obtained under controlled manufacturing conditions. Then, they were dried under different inlet air temperatures, leading to different drying kinetics. Fat droplet size was determined in both emulsions and powders. Free fat and surface fat were assessed to characterize fat in the resulting powders. Confocal laser scanning microscopy was used to characterize fat supramolecular structure in situ in the powder particles. Results showed that fat supramolecular structure in fat-filled dairy powders was connected with drying air temperatures, not necessarily with drying kinetics. Inlet air temperature and consequently temperature of the drying droplet had the most significant influence. Such a study considering drying air temperatures and kinetics is essential in elucidating the mechanisms of free fat formation and the presence of fat at the surface of powder particles. Mechanisms underlying fat supramolecular structure in fat-filled dairy powders are proposed: They can be used as a tool to adjust spray-drying air temperatures and kinetics.spray drying / free fat / surface composition / microstructure / mechanism Article published by EDP SciencesRésumé -Structure supramoléculaire de la matière grasse dans les poudres enrichies : un outil de décision pour ajuster les températures de séchage. Malgré l'intérêt économique croissant pour les poudres laitières enrichies en matière grasse, leur fabrication reste empirique à ce jour. L'objectif de cette étude est de comprendre les mécanismes sous-jacents à la structuration supramoléculaire de la matière grasse dans ce type de poudre. Pour cela, des émulsions ont été fabriquées dans des conditions maîtrisées. Elles ont ensuite été séchées avec différentes températures d'air d'entrée, donnant lieu à différentes cinétiques de séchage. La taille des gouttelettes de matière grasse a été mesurée dans les émulsions et les poudres réhydratées. La matière grasse libre et la matière grasse de surface ont été mesurées pour caractériser la matière grasse dans les poudres. La microscopie confocale à balayage laser a été utilisée pour caractériser la structure supramoléculaire de la matière grasse in situ dans les grains de poudre. Les résultats montrent que la structure supramoléculaire de la matière grasse dans les poudres enrichies est corrélée aux températures d'air de séchage, mais pas systématiquement aux cinétiques de séchage. La température d'air d'entrée et par là, la température de la gouttelette de produit en train de sécher, ont l'influence la plus significative. Une telle étude des températures d'air et des cinétiques de séchage est essentielle dans la compréhension des mécanismes de formation de la matière grasse libre et la présence de matière grasse en surface des grains de poudres. Les mécanismes de formatio...

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Microstructure of whole milk powder and of insolubles detected by powder functional testing

Cited by 49 publications

References 8 publications

Controlling milk protein interactions to enhance the reconstitution properties of whole milk powders – A minireview

Controlling milk protein interactions to enhance the reconstitution properties of whole milk powders – A minireview

Formation and structure of insoluble particles in reconstituted model infant formula powders

Fat supramolecular structure in fat-filled dairy powders: A tool to adjust spray-drying temperatures

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