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Archives of Environmental Health: An International Journal Volume 39, 1984 - Issue 6
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Original Articles

Effects of Diet on Mercury Metabolism and Excretion in Mice Given Methylmercury: Role of Gut Flora

I. R. Rowland The British Industrial Biological Research Association Woodmansterne Road Carshalton, Surrvey, United Kingdom
,
R. D. Robinson Department of Pediatrics, Environmental Health Sciences Center, University of Rochester, Rochester, New York, 14642
&
R. A. Doherty Department of Pediatrics, Environmental Health Sciences Center, University of Rochester, Rochester, New York, 14642
Pages 401-408 | Published online: 10 Dec 2012

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Felix Beckers & Jörg Rinklebe. (2017) Cycling of mercury in the environment: Sources, fate, and human health implications: A review. Critical Reviews in Environmental Science and Technology 47:9, pages 693-794.
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Jeffrey S Gaffney & Nancy A Marley. (2014) In-depth review of atmospheric mercury: sources, transformations, and potential sinks. Energy and Emission Control Technologies 2, pages 1-21.
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J.B. Adams, J. Romdalvik, K.E. Levine & L.-W. Hu. (2008) Mercury in first-cut baby hair of children with autism typically-developing children. Toxicological & Environmental Chemistry 90:4, pages 739-753.
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JamesB. Adams, Jane Romdalvik, V. M. Sadagopa Ramanujam & MarvinS. Legator. (2007) Mercury, Lead, and Zinc in Baby Teeth of Children with Autism Versus Controls. Journal of Toxicology and Environmental Health, Part A 70:12, pages 1046-1051.
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JanetK. Kern, BruceD. Grannemann, MadhukarH. Trivedi & JamesB. Adams. (2007) Sulfhydryl-Reactive Metals in Autism. Journal of Toxicology and Environmental Health, Part A 70:8, pages 715-721.
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Thomas W. Clarkson & Laszlo Magos. (2006) The Toxicology of Mercury and Its Chemical Compounds. Critical Reviews in Toxicology 36:8, pages 609-662.
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Ray Hashemi & John Young. (2003) The Prediction of Methylmercury Elimination Half-Life in Humans using Animal Data: A Neural Network/Rough Sets Analysis. Journal of Toxicology and Environmental Health, Part A 66:23, pages 2227-2252.
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I. R. Rowland. (1988) Factors Affecting Metabolic Activity of the Intestinal Microflora. Drug Metabolism Reviews 19:3-4, pages 243-261.
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L. Chi & K. Lu. 2018. Comprehensive Toxicology. Comprehensive Toxicology 59 73 .
Xun Wang & Wen-Xiong Wang. (2017) Selenium induces the demethylation of mercury in marine fish. Environmental Pollution 231, pages 1543-1551.
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Xun Wang, Fengchang Wu & Wen-Xiong Wang. (2017) In Vivo Mercury Demethylation in a Marine Fish ( Acanthopagrus schlegeli ) . Environmental Science & Technology 51:11, pages 6441-6451.
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Mark Bradley, Benjamin Barst & Niladri Basu. (2017) A Review of Mercury Bioavailability in Humans and Fish. International Journal of Environmental Research and Public Health 14:2, pages 169.
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Soohong Kim, Joachim De Jonghe, Anthony B. Kulesa, David Feldman, Tommi Vatanen, Roby P. Bhattacharyya, Brittany Berdy, James Gomez, Jill Nolan, Slava Epstein & Paul C. Blainey. (2017) High-throughput automated microfluidic sample preparation for accurate microbial genomics. Nature Communications 8:1.
Crossref
James Adams, Daniel P. Howsmon, Uwe Kruger, Elizabeth Geis, Eva Gehn, Valeria Fimbres, Elena Pollard, Jessica Mitchell, Julie Ingram, Robert Hellmers, David Quig & Juergen Hahn. (2017) Significant Association of Urinary Toxic Metals and Autism-Related Symptoms—A Nonlinear Statistical Analysis with Cross Validation. PLOS ONE 12:1, pages e0169526.
Crossref
Iman Al-Saleh, Rola Elkhatib, Reem Al-Rouqi, Mai Abduljabbar, Chafica Eltabache, Tahreer Al-Rajudi & Michael Nester. (2016) Alterations in biochemical markers due to mercury (Hg) exposure and its influence on infant's neurodevelopment. International Journal of Hygiene and Environmental Health 219:8, pages 898-914.
Crossref
Sónia Puga, Patrícia Pereira, Filipa Pinto-Ribeiro, Nelson J. O’Driscoll, Erin Mann, Marisa Barata, Pedro Pousão-Ferreira, João Canário, Armando Almeida & Mário Pacheco. (2016) Unveiling the neurotoxicity of methylmercury in fish ( Diplodus sargus ) through a regional morphometric analysis of brain and swimming behavior assessment. Aquatic Toxicology 180, pages 320-333.
Crossref
Jun-Ho Lee, Mohammad Moniruzzaman, Hyeonho Yun, Seunghan Lee, Youngjin Park & Sungchul C. Bai. (2016) Dietary vitamin C reduced mercury contents in the tissues of juvenile olive flounder ( Paralichthys olivaceus ) exposed with and without mercury. Environmental Toxicology and Pharmacology 45, pages 8-14.
Crossref
Mathew D. Rand, Daria Vorojeikina, Edwin van Wijngaarden, Brian P. Jackson, Thomas Scrimale, Grazyna Zareba, Tanzy M. Love, Gary J. Myers & Gene E. Watson. (2016) Methods for Individualized Determination of Methylmercury Elimination Rate and De-Methylation Status in Humans Following Fish Consumption. Toxicological Sciences 149:2, pages 385-395.
Crossref
Sarah E. Rothenberg, Sharon Keiser, Nadim J. Ajami, Matthew C. Wong, Jonathan Gesell, Joseph F. Petrosino & Alexander Johs. (2016) The role of gut microbiota in fetal methylmercury exposure: Insights from a pilot study. Toxicology Letters 242, pages 60-67.
Crossref
Miling Li, Katherine von Stackelberg, Christoph M. Rheinberger, James K. Hammitt, David P. Krabbenhoft, Runsheng Yin & Elsie M. Sunderland. (2016) Insights from mercury stable isotopes into factors affecting the internal body burden of methylmercury in frequent fish consumers. Elementa: Science of the Anthropocene 4.
Crossref
M. Vázquez, M. Calatayud, C. Jadán Piedra, G.M. Chiocchetti, D. Vélez & V. Devesa. (2015) Toxic trace elements at gastrointestinal level. Food and Chemical Toxicology 86, pages 163-175.
Crossref
José Dórea. (2015) Exposure to Mercury and Aluminum in Early Life: Developmental Vulnerability as a Modifying Factor in Neurologic and Immunologic Effects. International Journal of Environmental Research and Public Health 12:2, pages 1295-1313.
Crossref
GS Goldman. (2012) Comparison of VAERS fetal-loss reports during three consecutive influenza seasons. Human & Experimental Toxicology 32:5, pages 464-475.
Crossref
James B. Adams, Tapan Audhya, Sharon McDonough-Means, Robert A. Rubin, David Quig, Elizabeth Geis, Eva Gehn, Melissa Loresto, Jessica Mitchell, Sharon Atwood, Suzanne Barnhouse & Wondra Lee. (2012) Toxicological Status of Children with Autism vs. Neurotypical Children and the Association with Autism Severity. Biological Trace Element Research 151:2, pages 171-180.
Crossref
Ingrid KohlstadtDavid Kennedy. 2012. Advancing Medicine with Food and Nutrients, Second Edition. Advancing Medicine with Food and Nutrients, Second Edition 49 54 .
Marc Monachese, Jeremy P. Burton & Gregor Reid. (2012) Bioremediation and Tolerance of Humans to Heavy Metals through Microbial Processes: a Potential Role for Probiotics?. Applied and Environmental Microbiology 78:18, pages 6397-6404.
Crossref
Paleah Black, Lijie Niu, Manisha Sachdeva, David Lean, Raymond Poon, Wayne J. Bowers, Hing Man Chan, John T. Arnason & Guillaume Pelletier. (2011) Modulation of the effects of methylmercury on rat neurodevelopment by co-exposure with Labrador Tea (Rhododendron tomentosum ssp. subarcticum). Food and Chemical Toxicology 49:9, pages 2336-2342.
Crossref
Eman M. Alissa & Gordon A. Ferns. (2011) Heavy Metal Poisoning and Cardiovascular Disease. Journal of Toxicology 2011, pages 1-21.
Crossref
Emiko Nakazawa, Tokutaka Ikemoto, Akiko Hokura, Yasuko Terada, Takashi Kunito, Shinsuke Tanabe & Izumi Nakai. (2011) The presence of mercury selenide in various tissues of the striped dolphin: evidence from ?-XRF-XRD and XAFS analyses. Metallomics 3:7, pages 719.
Crossref
James B Adams, Matthew Baral, Elizabeth Geis, Jessica Mitchell, Julie Ingram, Andrea Hensley, Irene Zappia, Sanford Newmark, Eva Gehn, Robert A Rubin, Ken Mitchell, Jeff Bradstreet & Jane El-Dahr. (2009) Safety and efficacy of oral DMSA therapy for children with autism spectrum disorders: Part A - Medical results. BMC Clinical Pharmacology 9:1.
Crossref
Josè G Dòrea. (2009) Breastfeeding is an essential complement to vaccination. Acta Paediatrica 98:8, pages 1244-1250.
Crossref
Prof José G. Dórea. (2009) Breast-feeding does a lot more than reduce pain in vaccinated neonates and infants. The Journal of Pediatrics 154:6, pages 935-936.
Crossref
Jos? G. D?rea. (2008) Neurodevelopment outcomes and maternal methylmercury exposure: Breastfeeding is part of the solution not the problem. Regulatory Toxicology and Pharmacology 52:2, pages 195-196.
Crossref
Jos? G. D?rea. (2008) Ethylmercury and breastfeeding as confounders in outcomes of functional programming: Where are they?. Reproductive Toxicology 25:1, pages 133.
Crossref
R. Datta, D. Sarkar*P. Punamiya & R. Nagar. (2007) Response to letter to the editor re: Datta et al., 2006 (Boyce et al.). Science of The Total Environment 388:1-3, pages 376-378.
Crossref
Thomas W. Clarkson, Jayesh B. Vyas & Nazzareno Ballatori. (2007) Mechanisms of mercury disposition in the body. American Journal of Industrial Medicine 50:10, pages 757-764.
Crossref
Said Havarinasab, Erik Björn, Jimmy Ekstrand & Per Hultman. (2007) Dose and Hg species determine the T-helper cell activation in murine autoimmunity. Toxicology 229:1-2, pages 23-32.
Crossref
Bernard Weiss, Sander Stern, Elsa Cernichiari & Robert Gelein. (2005) Methylmercury Contamination of Laboratory Animal Diets. Environmental Health Perspectives 113:9, pages 1120-1122.
Crossref
Tina Kold Jensen, Philippe Grandjean, Esben Budtz Jørgensen, Roberta F White, Frodi Debes & Pál Weihe. (2005) Effects of breast feeding on neuropsychological development in a community with methylmercury exposure from seafood. Journal of Exposure Science & Environmental Epidemiology 15:5, pages 423-430.
Crossref
Amy S. Holmes, Mark F. Blaxill & Boyd E. Haley. (2016) Reduced Levels of Mercury in First Baby Haircuts of Autistic Children. International Journal of Toxicology 22:4, pages 277-285.
Crossref
Philippe Grandjean, Esben Budtz‐Jørgensen, Ulrike Steuerwald, Birger Heinzow, Larry L. Needham, Poul J. Jørgensen & Pál Weihe. (2003) Attenuated growth of breast‐fed children exposed to increased concentrations of methylmercury and polychlorinated biphenyls. The FASEB Journal 17:6, pages 699-701.
Crossref
Paul B. Tchounwou, Wellington K. Ayensu, Nanuli Ninashvili & Dwayne Sutton. (2003) Review: Environmental exposure to mercury and its toxicopathologic implications for public health. Environmental Toxicology 18:3, pages 149-175.
Crossref
Yasuhiro Kimura, Yasuo Nagata, Carron W. Bryant & Randal K. Buddington. (2002) Nondigestible Oligosaccharides Do Not Increase Accumulation of Lipid Soluble Environmental Contaminants by Mice. The Journal of Nutrition 132:1, pages 80-87.
Crossref
Akira Yasutake, Atsuhiro Nakano, Ken-ichiro Miyamoto & Komyo Eto. (1997) Chronic Effects of Methylmercury in Rats. I. Biochemical Aspects.. The Tohoku Journal of Experimental Medicine 182:3, pages 185-196.
Crossref
Lennart Dock, Riitta‐Liisa Rissanen & Marie Vahter. (2009) Metabolism of Mercury in Hamster Pups Administered a Single Dose of 203 Hg‐Labeled Methyl Mercury . Pharmacology & Toxicology 76:1, pages 80-84.
Crossref
L. Manzo, L.G. Costa, M. Tonini, C. Minoia & E. Sabbioni. (1992) Metabolic studies as a basis for the interpretation of metal toxicity. Toxicology Letters 64-65, pages 677-686.
Crossref
P. Grandjean. (1992) Individual susceptibility to toxicity. Toxicology Letters 64-65, pages 43-51.
Crossref
S. Højbjerg, J.B. Nielsen & O. Andersen. (1992) Effects of dietary lipids on whole-body retention and organ distribution of organic and inorganic mercury in mice. Food and Chemical Toxicology 30:8, pages 703-708.
Crossref
Ikuo Suda & Kimiko Hirayama. (1992) Degradation of methyl and ethyl mercury into inorganic mercury by hydroxyl radical produced from rat liver microsomes. Archives of Toxicology 66:6, pages 398-402.
Crossref
Ikuo Suda, Shinji Totoki & Hitoshi Takahashi. (1991) Degradation of methyl and ethyl mercury into inorganic mercury by oxygen free radical-producing systems: Involvement of hydroxyl radical. Archives of Toxicology 65:2, pages 129-134.
Crossref
Rikuo Doi. 1991. Advances in Mercury Toxicology. Advances in Mercury Toxicology 77 98 .
Ikuo Suda & Hitoshi Takahashi. (1990) Effect of reticuloendothelial system blockade on the biotransformation of methyl mercury in the rat. Bulletin of Environmental Contamination and Toxicology 44:4, pages 609-615.
Crossref
Jan K. Ludwicki. (1990) In vitro Methylation and demethylation of mercury compounds by the intestinal contents. Bulletin of Environmental Contamination and Toxicology 44:3, pages 357-362.
Crossref
Kenneth F. Ilett, Lisa B.G. Tee, Philip T. Reeves & Rodney F. Minchin. (1990) Mebolism of drugs and other xenobiotics in the gut lumen and wall. Pharmacology & Therapeutics 46:1, pages 67-93.
Crossref
Deborah C. Rice. (1989) Blood mercury concentrations following methyl mercury exposure in adult and infant monkeys. Environmental Research 49:1, pages 115-126.
Crossref
Jan K. Ludwicki. (1989) Studies on the role of gastrointestinal tract contents in the methylation of inorganic mercury compounds. Bulletin of Environmental Contamination and Toxicology 42:2, pages 283-288.
Crossref
M. Aschner & T.W. Clarkson. (1988) Uptake of methylmercury in the rat brain: effects of amino acids. Brain Research 462:1, pages 31-39.
Crossref
Michael Aschner & Thomas W. Clarkson. (2005) Distribution of mercury 203 in pregnant rats and their fetuses following systemic infusions with thiol‐containing amino acids and glutathione during late gestation. Teratology 38:2, pages 145-155.
Crossref
Ian R. Rowland. (2016) Interactions of the Gut Microflora and the Host in Toxicology. Toxicologic Pathology 16:2, pages 147-153.
Crossref
A.K. MALLETT & I.R. ROWLAND. 1988. Role of the Gut Flora in Toxicity and Cancer. Role of the Gut Flora in Toxicity and Cancer 347 382 .
I.R. ROWLAND. 1988. Role of the Gut Flora in Toxicity and Cancer. Role of the Gut Flora in Toxicity and Cancer 207 225 .
M.E. COATES, B.S. DRASAR, A.K. MALLETT & I.R. ROWLAND. 1988. Role of the Gut Flora in Toxicity and Cancer. Role of the Gut Flora in Toxicity and Cancer 1 21 .
M. Czuba, E. Komsta-Szumska, D. C. Mortimer & C. Champagne. (1987) Saline or plant-incorporated methylmercury effects on distribution, demethylation, and blood parameters in rats. Bulletin of Environmental Contamination and Toxicology 38:3, pages 426-434.
Crossref
Akira Yasutake & Kimiko Hirayama. (1986) Strain difference in mercury excretion in methylmercury-treated mice. Archives of Toxicology 59:2, pages 99-102.
Crossref
Ian R. Rowland, Anthony K. Mallett, John Flynn & Richard J. Hargreaves. (1986) The effect of various dietary fibres on tissue concentration and chemical form of mercury after methylmercury exposure in mice. Archives of Toxicology 59:2, pages 94-98.
Crossref

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