Page 42 - Summer2020final
P. 42
emissions and fuel consumption. In: Rauch S, Morrison 41. Zisman LS. ACE and ACE2: a tale of two enzymes. Eur Heart J 2005;26:322-4.
G, Monzn A (eds.). Highway and Urban Environment. 42. Zhang X, Xie YW, Nasjletti A et al. ACE inhibitors promote nitric oxide accumulation to
Alliance for Global Sustainability Bookseries (Science modulate myocardial oxygen consumption. Circulation 1997;95(1):176-82.
and Technology: Tools for Sustainable Development), Vol 43. Liu W, Li H. COVID-19: attacks the 1-beta chain of hemoglobin and captures the por-
17. Dordrecht: Springer, 2009. phyrin to inhibit human heme metabolism. ChemRxiv preprint. https://doi.org/10.26434/
19. Acquavella JF, Alexander BH, Mandel JS et al. Glypho- chemrxiv.11938173.v7.
sate biomonitoring for farmers and their families: results 44. Read R. Flawed methods in “COVID-19 attacks the 1-beta chain of hemoglobin and cap-
from the Farm Family Exposure Study. Environ Health tures the porphyrin to inhibit human heme metabolism.” ChemRxiv preprint. https://doi.
Perspect 2004;112(3):321-6. org/10.26434/chemrxiv.12120912.v1.
20. Lyseng R. Straight-cut canola demands dry-down chem- 45. Oudkerk M, Büller HR, Kuijpers D et al. Diagnosis, prevention, and treatment of throm-
istry. The Western Producer, July 20, 2017. boembolic complications in COVID-19: report of the National Institute for Public Health
21. Fukagawa NK, Li M, Poynter ME et al. Soy biodiesel and of the Netherlands. Radiology 2020:201629.
petrodiesel emissions differ in size, chemical composition 46. Liu Y, Koenigs Lightning L, Huang H et al. Replacement of the distal glycine 139 trans-
and stimulation of inflammatory responses in cells and forms human heme oxygenase-1 into a peroxidase. J Biol Chem 2000;275(44):34501-7.
animals. Environ Sci Technol 2013;47(21):12496-504. 47. Gáll T, Balla G, Balla J. Heme, heme oxygenase, and endoplasmic reticulum stress—a
22. Public Broadcasting Service. In the UK, people of color new insight into the pathophysiology of vascular diseases. Int J Mol Sci 2019;20:3675.
are hit harder by COVID-19. Here’s the story of 1 family’s 48. Greil J, Verga-Falzacappa MV, Echner NE et al. Mutating heme oxygenase-1 into a peroxi-
loss. PBS News Hour, May 5, 2020. dase causes a defect in bilirubin synthesis associated with microcytic anemia and severe
23. Sapp M. Heathrow calls for more action on aviation hyperinflammation. Haematologica 2016;101(11):e436-e439.
biofuels at UN and UK level. Biofuels Digest, July 23, 49. Levi M. Antithrombin in sepsis revisited. Crit Care 2005;9(6):624-5.
2019. 50. Li W, Johnson DJD, Esmon CT et al. Structure of the antithrombin-thrombin-heparin
24. Sadiq Kahn. Biodiesel and London buses. July 18, 2017. ternary complex reveals the antithrombotic mechanism of heparin. Nat Struct Mol Biol
https://www.london.gov.uk/questions/2017/2662. 2004;11(9):857-62.
25. Lin M, Kao E. CPC to phase out B2 biodiesel in three 51. Seneff S, Swanson N, Li C. Aluminum and glyphosate can synergistically induce pineal
months. Focus Taiwan, May 5, 2014. gland pathology: connection to gut dysbiosis and neurological disease. Agricultural Sci-
26. Baard E. Business; biodiesel: a fuel that starts low on the ences 2015;6:42-70.
food chain. The New York Times. May 12, 2002. 52. El-Maleky NF, Ebrahim RH. Effects of exposure to electromagnetic field from mobile
27. Lukpat A. Tank containing cooking oil explodes in phone on serum hepcidin and iron status in male albino rats. Electromagn Biol Med
Chelsea. Boston Globe, December 17, 2019. 2019;38(1):66-73.
28. Berke B. Interactive: an updated look at who coronavirus 53. Cfetkin M, Demirel C, Kzlkan N et al. Evaluation of the mobile phone electromagnetic
hits hardest in Massachusetts. The Enterprise, April 14, radiation on serum iron parameters in rats. Afri Health Sci 2017;17(1):186-90.
2020. 54. Fattahi-asl J, Baradaran-Ghahfarokhi M, Karbalae M et al. Effects of radiofrequency radia-
29. Nanda MR, Yuan Z, Qin W et al. Recent advancements tion on human ferritin: An in vitro enzymun assay. J Med Signals Sens 2012;2(4):235-40.
in catalytic conversion of glycerol into propylene glycol: 55. Shao T. EMF-cancer link: the ferritin hypothesis. Medical Hypotheses 1993;41(1):28-30.
a review. Catalysis Reviews 2016;58(3):309-36. 56. Cowling BJ, Fang VJ, Nishiura H et al. Increased risk of noninfluenza respiratory vi-
30. Layden JE, Ghinai I, Pray I et al. Pulmonary illness rus infections associated with receipt of inactivated influenza vaccine. Clin Infect Dis
related to e-cigarette use in Illinois and Wisconsin: final 2012;54(12):1778-83.
report. N Engl J Med 2020;382:903-16. 57. Hibino M, Kondo T. Interstitial pneumonia associated with the influenza vaccine: a report
31. Madison MC, Landers CT, Gu BH et al. Electronic ciga- of two cases. Intern Med 2017;56:197-201.
rettes disrupt lung lipid homeostasis and innate immunity 58. Tseng CT, Sbrana E, Iwata-Yoshikawa N et al. Immunization with SARS coronavirus
vaccines leads to pulmonary immunopathology on challenge with the SARS virus. PLoS
independent of nicotine. J Clin Invest 2019;129(10):4290-
4304. ONE 2012;7(4):e35421.
32. Sorensen GL. Surfactant protein D in respiratory and non- 59. Yao H, Lu X, Chen Q et al. Patient-derived mutations impact pathogenicity of SARS-CoV-2.
MedRxiv preprint. Doi: https://doi.org/10.1101/2020.04.14.20060160.
respiratory diseases. Front Med (Lausanne) 2018;5:18.
33. Mesnage R, Renney G, Séralini G-E et al. Multiomics 60. McAndrews KM, Kalluri R. Mechanisms associated with biogenesis of exosomes in cancer.
Mol Cancer 2019;18(1):52.
reveal non-alcoholic fatty liver disease in rats follow- 61. Li Y, Yao J, Han C et al. Quercetin, inflammation and immunity. Nutrients 2016;8(3):167.
ing chronic exposure to an ultra-low dose of Roundup 62. Brahmkshatriya PP, Brahmkshatriya PS. Terpenes: chemistry, biological role, and
herbicide. Sci Rep 2017;7:39328. therapeutic applications. In: Ramawat K, Mrillon JM (eds.). Natural Products. Berlin and
34. Mills PJ, Caussy C, Loomba R. Glyphosate excretion is Heidelberg: Springer; 2013.
associated with steatohepatitis and advanced liver fibrosis 63. Harris SS. Vitamin D and African Americans. J Nutr 2006;136(4):1126-9.
in patients with fatty liver disease. Clin Gastroenterol 64. Grant WB, Lahore H, McDonnell SL et al. Evidence that vitamin D supplementation could
Hepatol 2020;18(3):741-3. reduce risk of influenza and COVID-19 infections and deaths. Nutrients 2020;12(4).
35. Zhang C, Shi L, Wang FS. Liver injury in COVID-19: 65. Seneff S. Sunlight and vitamin D. Wise Traditions 2020;21(1):27-35.
management and challenges. Lancet Gastroenterol 66. Young RO. Chlorine dioxide (CLO2) as a non-toxic antimicrobial agent for virus, bacteria
Hepatol 2020;5(5):428-30. and yeast (Candida albicans). Int J Vaccines Vaccin 2016;2(6):00052.
36. Ogen Y. Assessing nitrogen dioxide (NO ) levels as a 67. Kutchin AV, Rubtsova SA, Lezina OM et al. Studies on oxidative transformations of thiols,
2
contributing factor to coronavirus (COVID-19) fatality. sulfides and alcohols in the presence of chlorine dioxide. Pure Appl Chem 2017;89(10).
Sci Total Environ 2020;726:138605. 68. Shi C, Wang C, Wang H et al. The potential of low molecular weight
37. Fukagawa NK, Li M, Poynter ME et al. Soy biodiesel and heparin to mitigate cytokine storm in severe COVID-19 patients: a retrospective clinical
petrodiesel emissions differ in size, chemical composition study. medRxiv preprint. doi: 10.1101/2020.03.28.20046144.
and stimulation of inflammatory responses in cells and
animals. Environ Sci Technol 2013;47(21):12496-504.
38. Weinberger B, Laskin DL, Heck DE et al. The toxicology
of inhaled nitric oxide. Toxicol Sci 2001;59:5-16.
39. Fawaz YB, Matta JM, Moustafa ME. Effects of selenium
supplementation on lung oxidative stress after exposure
to exhaust emissions from pyrolysis oil, biodiesel and
diesel. Toxicol Mech Methods 2019;29(8):616-22.
40. Li W, Moore MJ, Vasilieva N et al. Angiotensin-con-
verting enzyme 2 is a functional receptor for the SARS
coronavirus. Nature 2003;426(27):450-4.
40 Wise Traditions SUMMER 2020