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« Previous AbstractInfluence of the Sea Surface Microlayer on Oceanic Iodine Emissions    Next AbstractInvestigating the in-vitro and in-vivo flavour release from 21 fresh-cut apples »

J Food Sci


Title:"In vitro and in vivo flavor release from intact and fresh-cut apple in relation with genetic, textural, and physicochemical parameters"
Author(s):Ting VJ; Soukoulis C; Silcock P; Cappellin L; Romano A; Aprea E; Bremer PJ; Mark TD; Gasperi F; Biasioli F;
Address:"Research and Innovation Centre, Foundation Edmund Mach, via Mach 1, San Michele all' Adige, (TN), Italy"
Journal Title:J Food Sci
Year:2012
Volume:20121011
Issue:11
Page Number:C1226 - C1233
DOI: 10.1111/j.1750-3841.2012.02947.x
ISSN/ISBN:1750-3841 (Electronic) 0022-1147 (Linking)
Abstract:"Flavor release from 6 commercial apple cultivars (Fuji, Granny Smith, Golden Delicious, Jonagold, Morgen Dallago, and Red Delicious) under static conditions (intact or fresh-cut samples) and during consumption of fresh-cut samples (nosespace) was determined by proton transfer reaction mass spectrometry. Textural (firmness, fracturability, flesh elasticity, and rupture) and physicochemical (pH, acidity, and water content) properties of the apples were also measured. Static headspace analysis of intact fruits revealed Fuji and Granny Smith apples had the lowest concentration for all measured flavor compounds (esters, aldehydes, alcohols, and terpenes), whereas Red Delicious apples had the highest. Fresh-cut samples generally showed a significant increase in total volatile compounds with acetaldehyde being most abundant. However, compared to intact fruits, cut Golden and Red Delicious apples had a lower intensity for ester related peaks. Five parameters were extracted from the nosespace data of peaks related to esters (m/z 43, 61), acetaldehyde (m/z 45), and ethanol (m/z 47): 2 associated with mastication (duration of mastication-t(con); time required for first swallowing event-t(swal)), and 3 related with in-nose volatile compound concentration (area under the curve-AUC; maximum intensity-I(max); time for achieving I(max)-t(max)). Three different behaviors were identified in the nosespace data: a) firm samples with low AUC and t(swal) values (Granny Smith, Fuji), b) mealy samples with high AUC, I(max), t(swal) values, and low t(con) (Morgen Dallago, Golden Delicious), and c) firm samples with high AUC and I(max) values (Red Delicious). Strengths and limitations of the methodology are discussed. PRACTICAL APPLICATION: Volatile compounds play a fundamental role in the perceived quality of food. Using apple cultivars, this research showed that in vivo proton transfer reaction mass spectrometry (PTR-MS) could be used to determine the relationship between the release of volatile flavor compounds and the physicochemical parameters of a real food matrix. This finding suggests that in vivo PTR-MS coupled with traditional physicochemical measurements could be used to yield information on flavor release from a wide range of food matrices and help in the development of strategies to enhance food flavor and quality"
Keywords:Alcohols/analysis Aldehydes/analysis Area Under Curve *Chemical Phenomena Esters/analysis Female Food Handling/methods Fruit/chemistry Humans Male Malus/*chemistry/classification/genetics Mass Spectrometry *Taste Terpenes/analysis Volatile Organic Compoun;
Notes:"MedlineTing, Valentina J L Soukoulis, Christos Silcock, Patrick Cappellin, Luca Romano, Andrea Aprea, Eugenio Bremer, Phil J Mark, Tilmann D Gasperi, Flavia Biasioli, Franco eng 2012/10/13 J Food Sci. 2012 Nov; 77(11):C1226-33. doi: 10.1111/j.1750-3841.2012.02947.x. Epub 2012 Oct 11"

 
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