G. Parolari scite author profile

A trained sensory panel assessed 20 Italian-type dry-cured hams and the data were submitted to Generalized Procrustes Analysis. Results showed that aged, salty and acid tastes, as well as aged and fresh pork odors were the most important descriptors of this type of ham. Chemical analyses on the same samples, made up a set of 26 compositional or nonvolatile parameters and a block of 122 volatile components. Partial-least squares regression, applied to relate each taste attribute to non-volatile data and each odor term to volatile components, showed that the hams with highest acceptability scores had high levels of free tyrosine and lysine, (nonvolatile components) and of methyl-branched short-chain esters and alcohols (volatiles).

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Flavor compounds of dry-cured ham

Barbieri¹,

Bolzoni²,

Parolari³

et al. 1992

J. Agric. Food Chem.

162

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Sensory and Texture Quality of Dry‐Cured Ham as Affected by Endogenous Cathepsin B Activity and Muscle Composition

Virgili

Parolari

Schivazappa

et al. 1995

Journal of Food Science

149

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Hams were processed with standard cure adjuncts under two drying temperatures and analyzed after aging for 7 mo. Dried hams revealed that flavor and texture traits were affected by moisture and nonprotein nitrogen (NPN) content and that NPN was enhanced by greater cathepsin B activity, lower salt levels and higher temperature. Two major defects of dry-cured ham, mushy mouthfeel and surface white film, occurred in about 15% of samples. Most of these hams had abnormal NPN values and were shown to originate from meat with high enzyme activity and low protein content. We concluded that this type of meat is prone to uncontrolled proteolysis and related undesired traits, and to be a potential hazard in dry-cured hams cured with less salt.

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Effects of Processing Temperature on Color Properties of Dry-Cured Hams Made without Nitrite

Parolari

Aguzzoni

Toscani

2016

Foods

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Dry cured hams were investigated for their ability to develop red color even at low temperature (3–4 °C) and in the absence of added nitrites; results were compared with those obtained from nitrite-free hams made at conventional warm maturing temperatures. Colorimetric parameters (L*, a*, b*, and hue) and concentration of the main pigments Zn protoporphyrin IX (ZnPP) and heme were measured at three stages of preparation (six, nine, and 12 months), showing that red color was successfully formed at low temperatures, though at a slower rate and less intensively than under warm conditions. Major differences in the pattern of color development were found with the two processing temperatures. While the typical features of an enzyme-dependent mechanism, with a progressive drop in enzyme activity paralleling the synthesis of Zn protoporphyrin IX, were observed at warm temperatures, the same did not occur in cold-made hams, where the enzyme activity was almost unchanged throughout the process. These results, along with data from a descriptive sensory analysis, are supportive of a non-enzymatic mechanism leading to ZnPP (hence the red color) under cold conditions, with an estimated three-month delay compared with nitrite-free hams manufactured in a warm maturing regimen.

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G. Parolari

Study of the Volatile Fraction of Parmesan Cheese

Sensory Property Relationships to Chemical Data of Italian‐type Dry‐cured Ham

Flavor compounds of dry-cured ham

Sensory and Texture Quality of Dry‐Cured Ham as Affected by Endogenous Cathepsin B Activity and Muscle Composition

Effects of Processing Temperature on Color Properties of Dry-Cured Hams Made without Nitrite

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