DÉBORA CHRISTINA SALUM
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Artigo IPEN-doc 11921 Decontamination of biological ferment by gamma radiation2007 - SABUNDJIAN, INGRID T.; SALUM, DEBORA C.; SILVA, PRISCILA V.; FURGERI, CAMILO; DUARTE, RENATO C.; VILLAVICENCIO, ANNA L.C.H.Artigo IPEN-doc 12075 Sensorial effects of gamma radiation processing in cinamom (Laurus cinnamomum) and nut MEG (Myristic fragans)2007 - SALUM, DEBORA C.; SABUNDJIAN, INGRID T.; SILVA, PRISCILA V.; FURGERI, CAMILO; PURGATTO, EDUARDO; VILLAVICENCIO, ANNA L.C.H.Artigo IPEN-doc 14852 Determination of volatiles produced during radiation processing in Laurus cinnamomum2009 - SALUM, D.C.; ARAUJO, M.M.; FANARO, G.B.; PURGATTO, E.; VILLAVICENCIO, A.L.C.H.In order to protect food from pathogenic microorganisms as well as increase its shelf-life, while keeping sensorial properties (e.g., odor and taste), which are important properties required by spice buyers, it is necessary to analyze volatile formation from irradiation of medicinal and food herbs. Possible changes in the odor of these herbs are evaluated by characterizing different radiation doses and effects on sensorial properties, in order to allow better application of the irradiation technology. The aim of the present study was to analyze volatile formation on cinnamon (Laurus cinnamomum) samples after gamma irradiation. These samples were irradiated into plastic packages using a 60Co facility. Radiation doses applied were 0, 5, 10, 15, 20 and 25 kGy. For the analysis of the samples, solid-phase microextraction (SPME) was applied, while for the analysis of volatile compounds, CG/MS. Spice irradiation showed the highest decrease in volatile compounds. For L. cinnamomum, the irradiation decreased volatile compounds by nearly 56% and 89.5%, respectively, comparing to volatile from a sample which had not been previously irradiated.