Dietary isothiocyanates are a group of promising chemopreventive agents obtained primarily from cruciferous vegetables. Due to their potent chemopreventive and/or anti-cancer activities, there is a growing interest in assessing dietary isothiocyanate exposure and its impact on human health. Using the HPLC-based cyclocondensation assay, the current study measured total isothiocyanate yield from raw cruciferous vegetables. A total of 73 samples comprising nine types of cruciferous vegetables were analyzed. We observed a wide range of isothiocyanate content across the individual vegetables with an average level of 16.2 μmol/100g wet weight, ranging from 1.5 μmol in raw cauliflower to 61.3 μmol in raw mustard greens. The data represent the maximum amount of isothiocyanates released from the intake of raw cruciferous vegetables. Given that the vegetables assayed in this study include the most commonly consumed cruciferous vegetables in western diets, the data may be particularly useful in estimation of dietary isothiocyanate exposure in these populations. However, due to the variation observed within each vegetable, biomarkers such as urinary isothiocyanate level may be necessary for accurate estimation of individual exposure.
Dietary isothiocyanates are a group of promising chemopreventive agents obtained primarily from cruciferous vegetables. Due to their potent chemopreventive and/or anti-n class="Disease">cancer activities, there is a growing interest in assessing dietary isothiocyanate exposure and its impact on human health. Using the HPLC-based cyclocondensation assay, the current study measured total isothiocyanate yield from raw cruciferous vegetables. A total of 73 samples comprising nine types of cruciferous vegetables were analyzed. We observed a wide range of isothiocyanate content across the individual vegetables with an average level of 16.2 μmol/100g wet weight, ranging from 1.5 μmol in raw cauliflower to 61.3 μmol in raw mustard greens. The data represent the maximum amount of isothiocyanates released from the intake of raw cruciferous vegetables. Given that the vegetables assayed in this study include the most commonly consumed cruciferous vegetables in western diets, the data may be particularly useful in estimation of dietary isothiocyanate exposure in these populations. However, due to the variation observed within each vegetable, biomarkers such as urinary isothiocyanate level may be necessary for accurate estimation of individual exposure.
Entities:
Keywords:
Isothiocyanates; cruciferous vegetables; food composition; glucosinolates; phytochemicals; the United States
Authors: Xiantao Wang; Anthony J Di Pasqua; Sudha Govind; Erin McCracken; Charles Hong; Lixin Mi; Yuehua Mao; Jessie Yu-Chieh Wu; York Tomita; Jordan C Woodrick; Robert L Fine; Fung-Lung Chung Journal: J Med Chem Date: 2011-01-11 Impact factor: 7.446
Authors: Rex Munday; Paulette Mhawech-Fauceglia; Christine M Munday; Joseph D Paonessa; Li Tang; John S Munday; Carolyn Lister; Paula Wilson; Jed W Fahey; Warren Davis; Yuesheng Zhang Journal: Cancer Res Date: 2008-02-29 Impact factor: 12.701
Authors: A Agudo; R Ibáñez; P Amiano; E Ardanaz; A Barricarte; A Berenguer; M Dolores Chirlaque; M Dorronsoro; P Jakszyn; N Larrañaga; C Martinez; C Navarro; G Pera; J R Quirós; M J Sanchéz; M J Tormo; C A González Journal: Eur J Clin Nutr Date: 2007-04-04 Impact factor: 4.016
Authors: Joseph C Gigliotti; Adrienne Tin; Shirin Pourafshar; Sylvia Cechova; Yves T Wang; Sun-Sang J Sung; Gabor Bodonyi-Kovacs; Janet V Cross; Guang Yang; Nhu Nguyen; Fang Chan; Casey Rebholz; Bing Yu; Megan L Grove; Morgan E Grams; Anna Köttgen; Robert Scharpf; Phillip Ruiz; Eric Boerwinkle; Josef Coresh; Thu H Le Journal: J Am Soc Nephrol Date: 2019-11-14 Impact factor: 10.121
Authors: Maia E W Morrison; Janine M Joseph; Susan E McCann; Li Tang; Hani M Almohanna; Kirsten B Moysich Journal: Nutr Cancer Date: 2019-05-16 Impact factor: 2.900