Archives

  • 2022-08
  • 2022-07
  • 2022-06
  • 2022-05
  • 2022-04
  • 2022-02
  • 2021-03
  • 2020-08
  • 2020-07
  • 2020-03
  • 2019-11
  • 2019-10
  • 2019-09
  • 2019-08
  • 2019-07
  • Ecotoxicology and Environmental Safety br combination of vitamins

    2022-06-21

     Ecotoxicology and Environmental Safety 178 (2019) 79–85
    combination of 26 vitamins and minerals and the Linxian General Population Trial on four nutrient groups: 1) retinol and zinc, 2) ribo-flavin and niacin), 3) ascorbic Calcipotriol and molybdenum, and 4) selenium,
    α -tocopherol, and β -carotene. After 6 years of intervention, neither of the two trials demonstrated any risk reduction for ESCC using any of these nutrient supplements (Kamangar et al., 2009). Overall mortality or cancer incidence was not reduced by the nutritional intervention, either (Wang et al., 2013).
    2.5. Silica fibers from millet bran
    Dr. C. H. O'Neill (Imperial Cancer Research Fund, London, UK) first reported the linkage between biogenic silica fibers in millet bran and ESCC development in Linxian, China (O'Neill et al., 1982). Sharply pointed silica fragments was detected in the esophagus of the ESCC patients. These silica fibers lodged in the esophageal tumors and throughout the depth of the mucosa. Esophagus of domestic chickens in Linxian, which also had a high incidence of ESCC, contained similarly high content of silica. These silica fibers can cause repeated local injury as they pass down the esophagus and stimulate proliferation by pro-viding anchorage (O'Neill et al., 1986). The findings of O'Neill was challenged by van Rensburg (1982) for at least two reasons: 1) high contents of silica in esophagus tissue in Linxian cases was based on the comparison with England controls, which was not considered an ap-propriate comparison; 2) in the regions of China with the highest in-cidence of esophageal cancer, maize and wheat, instead of millet, were the major staple. This research area on silica fiber and cancer lost an important drive with the retirement of Dr. O'Neill in the late 1980s (Sangster et al., 2001). This hypothesis of millet bran derived silica has since been largely ignored in later etiologic studies of ESCC in China.
    Silica fibers from wheat husks and esophageal cancer: a renewed hypothesis.
    Integrating the previous multidisciplinary findings, we hypothesize that silica fiber from wheat husks is an important risk factor for the ESCC epidemic in north China. This hypothesis is supported by the following observations: 1) Wheat, silica, and ESCC. By genotype, wheat (Triticum aestivum) is a silica accumulator (Hodson et al., 2005; Rodrigues and Datnoff, 2015); wheat consumption is linked to an ele-vated ESCC risk in human population studies (Chen et al., 1993; Li et al., 1989; Rensburg, 1981). As seen in Fig. 1, siliceous prickles are abundant on the surface of wheat husks (Hodson and Sangster, 1989, 1988; Sangster et al., 2001); these silica prickles can contaminate wheat flour, lodge in the esophagus tissue, and enhance cell proliferation by providing anchorage stimulation (O'Neill et al., 1986). Silicified prickles broken from the wheat husks during the wheat threshing process cannot be easily removed from the subsequent winnowing process because of their siliceous nature and high density. As seen in Fig. 1F, these prickles occur with a high frequency in wheat dust (Martin, 1981). Only in wheat and rye, these silica prickles occur on both inner and outer surfaces of inflorescence bracts while they occur only on the outer surfaces of the bracts in other genera (Hodson and Sangster, 1989). Wheat is a C3 plant. Silicified prickles occur more frequently on C3 leaves than on C4 grass leaves (Sangster and Hodson, 1986). 2) Aridity, silica, and ESCC. By climate conditions, aridity enhances silica deposit in plants (Cooke and Leishman, 2011; Coskun et al., 2016; Morgan-Edel et al., 2015; Sangster and Hodson, 1986); aridity is linked to an elevated ESCC risk (Rensburg, 1981; Wu and Li, 2007). 3) Siallitic soil, silica, and ESCC. The soil in the ESCC epidemic area of north China is siallitic soil (Wei et al., 1991), a soil type with high silica content. Biogenic silica formation in plants depends on not only genotype and climate, but also silicon availability in soil. 4) Chicken, silica, and ESCC. Chicken in the ESCC epidemic area had a similarly high incidence of ESCC (Liu and Li, 1984); the esophagus of domestic chickens in Linxian contained a similarly high content of silica as in the human esophageal tumors (O'Neill et al., 1982); wheat husks, an unintentional food source shared by men and chicken, have much