Characterization of Commercial Cheese Regarding Thermophysical Properties and Application of Multivariate Statistical Analysis to Elaborate Product Mapping

Schenkel, Philipp; Hartmann, Katja; Samudrala, Ravi; Hinrichs, Jörg

doi:10.1111/jtxs.12095

Cited by 11 publications

(5 citation statements)

References 26 publications

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“…Similar results have been found by Solhi et al (2020), who reported tan δ values greater than one in processed cheeses at temperatures between 57.5-59.7 °C, and by Pastorino et al (2002), who attributed these changes to the modifications suffered by the cheese structure with the increase of temperature, causing changes in the scope and nature of the protein interactions. Other works where similar behaviors are reported includes the American processed cheese (Lu et al, 2002), Gouda type cheese (Schenkel et al, 2013), Gruyere, Raclette, Edam, Brie and Mozzarella cheeses (Schenkel et al, 2014), Cheddar cheese (Brickley et al, 2007), processed cheese (Hosseini-Parvar et al, 2015) and Mexican Manchego cheese (Lobato-Calleros et al, 2003).…”

Section: Rheological Characterizationsupporting

confidence: 53%

Evaluation of physicochemical, rheological, textural and thermal properties of Mexican manchego-type cheese manufactured from goat s milk

Ortiz‐Deleón

Ramírez-Santiago²,

Sandoval-Castilla³

et al. 2023

RMIQ

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Section: Rheological Characterizationsupporting

confidence: 53%

Evaluation of physicochemical, rheological, textural and thermal properties of Mexican manchego-type cheese manufactured from goat s milk

Ortiz‐Deleón

Ramírez-Santiago²,

Sandoval-Castilla³

et al. 2023

RMIQ

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“…The flowability was conducted via Schreiber test according to Schenkel et al (2014). A cheese disc with defined diameter and height was heated for 8 min at 232°C.…”

Section: Flowabilitymentioning

confidence: 99%

Influence of manufacturing conditions on thermo‐physical properties of ripened experimental Emmental‐type cheese and comparison with commercial Emmental cheese

Hartmann

Reicherter

Hinrichs

2016

Int J of Dairy Tech

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Experimental Emmental cheese was produced at pilot plant scale with varied process conditions, and the ripened cheeses were analysed in terms of thermo‐physical properties. The amount of propionic acid and the temperature at tan δmax ( loss factor) were significantly influenced by varied process parameters. Experimental cheeses were compared to commercial Emmental cheese by the application of principal component analysis. Commercial Emmental cheese was clearly discriminated from experimental Emmental cheese mainly due to the melting behaviour. The results allow the establishment of a small‐scale process for Emmental cheese production to promote product development on a time and cost‐saving level.

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“…Dynamic oscillatory shear measurements were conducted on a rheometer (Physica MCR 301, Anton Paar, Ostfildern, Germany) via temperature sweep experiments according to Schenkel et al (2014). Temperature increased during the measurement from 20 to 80°C at 3°C.min −1 at a constant deformation strain of 0.002 and a constant frequency of 1 Hz.…”

Section: Physical Propertiesmentioning

confidence: 99%

“…However, the values for European Emmental cheese were fairly low, indicating a firmer structure and reduced meltability. Schenkel et al (2014) analysed 24 different commercial cheese types (one Emmental cheese sample and four Swiss-type cheese samples) and obtained tan δ max values from 2.46 to 3.46 for Swiss-type cheeses (Emmental cheese=3.12). Differences can be explained by variations in the manufacturing process such as scalding temperature, curd washing and brining duration.…”

Section: Physical Propertiesmentioning

confidence: 99%

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Identification of physical properties and volatile and non-volatile compounds for discrimination between different Emmental-type cheeses: a preliminary study

Hartmann

Dunkel

Hillmann

et al. 2015

Dairy Sci. & Technol.

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Differentiation between Emmental cheese produced in diverse regions is of major interest to verify product authenticity and avoid product imitation. The objective of this study was to identify parameters that allow a differentiation between Southern German Emmental cheese and Emmental cheese produced in other regions based on physical properties and volatile and non-volatile compounds. Emmental cheese samples were collected from seven German dairies located in Bavaria and Baden-Wuerttemberg (regional Emmental cheese). Additionally, generic Emmental cheeses produced in Northern Germany, the Netherlands and Poland (European Emmental cheese) were added to the data set as well as Swiss Emmental and Allgäu Emmental cheeses. A large variety of characteristics was previously analysed by application of thermo-rheological methods and targeted quantification methods (e.g. GC-MS and dynamic oscillatory shear measurement). Stepwise discriminant analysis was used to identify parameters with high discriminant power. These were brightness L*, loss modulus G″ at 20°C, loss factor tan δ max , 3-methylbutyric acid, acetic acid, propionic acid, γ-Glu-Leu, γ-Glu-Val and the peptide Ile-Val-Pro-Asn. The data set resulting from the nine parameters was subjected to linear discriminant analysis followed by a cross validation step. Regional Emmental cheese was classified correctly at 95%, whereas 75% of European Emmental cheese and 100% of Swiss and Allgäu Emmental cheeses were correctly classified. The results are preliminary but may provide, upon further verification, a useful tool for cheese makers to identify Emmental cheese produced in different regions based on a small number of characteristic parameters and prevent product imitation.Dairy Sci. & Technol. (2015) 95:701-717 DOI 10.1007/s13594-015-0255-0 This paper

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Characterization of Commercial Cheese Regarding Thermophysical Properties and Application of Multivariate Statistical Analysis to Elaborate Product Mapping

Cited by 11 publications

References 26 publications

Evaluation of physicochemical, rheological, textural and thermal properties of Mexican manchego-type cheese manufactured from goat s milk

Evaluation of physicochemical, rheological, textural and thermal properties of Mexican manchego-type cheese manufactured from goat s milk

Influence of manufacturing conditions on thermo‐physical properties of ripened experimental Emmental‐type cheese and comparison with commercial Emmental cheese

Identification of physical properties and volatile and non-volatile compounds for discrimination between different Emmental-type cheeses: a preliminary study

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