Magnetic force microscopy of atherosclerotic plaque.
DOI:
https://doi.org/10.26641/2307-0404.2014.1.23707Keywords:
atherosclerotic plaque, magnetic force microscopy, biogenic magnetite, magnetic phaseAbstract
In this work by methods of scanning probe microscopy, namely by atomic force microscopy and magnetic force microscopy the fragments of atherosclerotic plaque section of different nature were investigated. The fragments of atherosclerotic vessels with elements of immature plaque were taken during the coiled artery bypass surgery by alloprosthesis. As the result of investigation we found magnetically ordered phase of endogenous origin in the fragment of solid plaque of mixed structure. This phase is presents biogenic magnetic nanoparticles and their clusters with average size characteristic of 200-400 nm.References
Магніточутливі наноструктури ендогенного походження в клітинах карциноми Ерліха / В.Ф. Че¬хун, С.В. Горобець, О.Ю. Горобець, І.В. Дем’яненко // Наноструктурное материаловедение. – 2011. – № 2. – С.102-109.
Пат. 78508 Україна, МПК (2013.01) B82Y 35/00. Спосіб визначення місця локалізації магнітної фази в околі біомембрани клітин/ С.В. Горобець, О.Ю. Горобець, І.В. Дем’яненко. – № u2012 09374; заявл. 31.07.12, опубл. 25.03.13, Бюл. № 6.
Copper, iron and zinc in Alzheimer's disease senile plaques / M.A. Lovell, J.D. Robertson, W.J. Tees¬dale [et al.] // J. Neurol. Sci. – 1998. – Vol. 158. – P. 47-52.
Douglas B. Kell Towards a unifying, systems biology understanding of large-scale cellular death and destruction caused by poorly liganded iron: Parkinson’s, Huntington’s, Alzheimer’s, prions, bactericides, chemical toxicology and others as examples / B. Douglas // Arch. Toxicol. – 2010. – Vol. 84. – P. 825–889
Gorobets S.V. Functions of biogenic magnetic nanoparticles in organisms / S.V.Gorobets, O.Yu. Goro¬bets // Functional Materials. – 2012. – Vol. 19, N 1. – Р. 18-26.
Gorobets S.V. Self-organization of magnetite nanoparticles in providing Saccharamyces cerevisiaе yeasts with magnetic properties / S.V. Gorobets, O.Yu. Go¬robets, I.V Demianenko // J. Magnetism Mag¬netic Materials. – 2013. – Р. 53-57.
Grassi-Schultheiss P.P. Analysis of magnetic ma¬terial in the human heart, spleen and liver/ P.P. Grassi-Schultheiss, F. Heller, J. Dobson // BioMetals. – 1997. – N 10. – P. 351-355.
In Vivo MRI Atherosclerotic Plaque Charac¬teri¬zation Using Magnetic Susceptibility Distinguishes Sym¬p¬tom-Producing Plaques / V. Subha Raman, W. Marshall Winner III, Tam Tran [et al.] // JACC Cardiovasc Ima¬ging. – 2008. – N 1. – P. 49-57.
Iron and thrombosis / M. Franchini, G. Targher, M. Montagnana, G. Lippi // Ann. Hematol. – 2008. – Vol. 87. – P.167-173.
Iron Status Is Associated with Carotid Athe¬rosclerotic Plaques in Middle-Aged Adults / N. Ahlu¬walia, A. Genoux, J. Ferrieres [et al.] // J. Nutr. – 2010. – Vol. 140. – P. 812-816.
Involvement of inducible nitric oxide synthase in hydroxyl radical-mediated lipid peroxidation in strepto¬zotocin-induced diabetes / K. Stadler, M.G. Bonini, S. Dallas [et al.] // Free Radic. Biol. Med. – 2008. – Vol. 45. – P. 866-874.
Kirschvink J.L. Ferromagnetic crystals (magne¬tite?) in human tissue / J.L. Kirschvink // J. Exp. Biol. –1981. – Vol. 92. – P. 333-335.
Kobayashi A. Studies of Inorganic Crystals in Biological Tissue: Magnetite in Human Tumor / A. Ko¬bayashi, N. Yamamoto, J. Kirschvink // Reprinted from J. Japan Society of Powder and Powder Metallurgy. – 1997. – N 44. – P. 94.
Magnetic iron compounds in the human brain: a comparison of tumor and hippocampus tissue / F. Brem, A.M. Hirt, M. Winklhofer, K. Frei [et al.] // J. Res. Soc. Interface. – 2006. – N 3. – P. 833-841.
Moos T. The metabolism of neuronal iron and its pathogenic role in neurological disease: review / T. Moos, E.H. Morgan // Ann. NY Acad. Sci. – 2004. – P. 1012-1014.
New magnet-sensitive structures in bacterial and archaeal cells / M. Vainshtein, N. Suzina, E. Kud¬ryashova, E. Ariskina // Biology Cell. – 2002. – Vol. 94. – Р. 29-35.
Preliminary evaluation of nanoscale biogenic magnetite in Alzheimer’s disease brain tissue / D. Hautot, Q.A. Pankhurst, N. Khan, J. Dobson // Proc. Biol Sci. – 2003. – Vol. 270, N 7. – P. 62-64.
Short-term hyperglycemia increases arterial superoxide production and iron dysregulation in athe¬rosclerotic monkeys / P.A. Rowe, K. Kavanagh, L. Zhang, H. James Harwood Jr. [et al.] // Metabolism. – 2011. – Vol. 60, N 8. – P. 1070-1080.
Soloperto G. Progress in atherosclerotic plaque imaging/ G. Soloperto, S. Casciaro // World J. Radiol. – 2012. – Vol. 4, N 8. – P. 353-371.
Chekchun VF, Gorobets SV, Gorobets OYu, Demianenko IV. [Magnet-sensitive nanostructures of en¬do¬genous origin in the cells of Erhih’s carcinoma]. Nanostrukturnoe materialovedenie. 2011;2:102–9. Uk¬rainian.
Gorobets SV, Gorobets OYu, Demianenko IV. [Means of defining place of localization of magnet phase in biomembrane cells sructures. – N u2012 09374; statement 31.07.12, published 25.03.13 Bulletin N 6. Pa¬tent on the model 78508 B82Y 35/00 2013.01]. Ukrainian.
Lovell MA, Robertson JD, Teesdale WJ. Copper, iron and zinc in Alzheimer's disease senile plaques. J Neurol. Sci. 1998;158:47–52.
Douglas B. Kell Towards a unifying, systems biology understanding of large-scale cellular death and destruction caused by poorly liganded iron: Parkinson’s, Huntington’s, Alzheimer’s, prions, bactericides, chemical toxicology and others as examples. Arch Toxicol. 2010;84:825–89.
Gorobets SV, Gorobets Oyu. Functions of biogenic magnetic nanoparticles in organisms. Functional Materials. 2012;1(19):18–26.
Gorobets SV, Gorobets OYu, Demianenko IV. Self-organization of magnetite nanoparticles in providing Saccharamyces cerevisiaе yeasts with magnetic pro¬perties. // Journal of Magnetism and Magnetic Materials. 2013:53–57.
Grassi-Schultheiss PP, Heller F, Dobson J. Ana¬lysis of magnetic material in the human heart, spleen and liver. BioMetals. 1997;10:351–5.
Subha V Raman, Marshall W Winner III, Tam Tran. In Vivo MRI Atherosclerotic Plaque Cha¬rac¬terization Using Magnetic Susceptibility Distinguishes Symptom-Producing Plaques. JACC Cardiovasc Imaging. 2008;1:49–57.
Franchini M, Targher G, Montagnana M, Lippi G. Iron and thrombosis. Ann Hematol. 2008;87:167–73.
Ahluwalia N, Genoux A, Ferrieres J, Perret B, Carayol M, Drouet L, Ruidavets J-B. Iron Status Is As¬sociated with Carotid Atherosclerotic Plaques in Middle-Aged Adults. J. Nutr. 2010;140:812–6.
Stadler K, Bonini MG, Dallas S, Jiang JJ, Mason RP, Kadiiska MB. Involvement of inducible nitric oxide synthase in hydroxyl radical-mediated lipid peroxidation in streptozotocin-induced diabetes. Free Radic Biol Med. 2008;45:866–74.
Kirschvink JL. Ferromagnetic crystals (mag¬netite?) in human tissue. J Exp Biol. 1981;92:333–5.
Kobayashi A, Yamamoto N, Kirschvink J. Stu¬dies of Inorganic Crystals in Biological Tissue: Magnetite in Human Tumor. Reprinted from Journal of the Japan Society of Powder and Powder Metallurgy. 1997;44:94.
Brem F, Hirt AM, Winklhofer M, Frei K, Yone¬kawa Y, Wieser H-G, Dobson J. Magnetic iron com¬pounds in the human brain: a comparison of tumor and hippocampus tissue. JR. Soc. Interface. 2006;3:833–41.
Moos T, Morgan EH. The metabolism of neuronal iron and its pathogenic role in neurological disease: review. Ann. NY Acad. Sci. 2004:1012–4.
Vainshtein M, Suzina N, Kudryashova E, Aris¬kina E. New magnet-sensitive structures in bacterial and archaeal cells. Biology of the Cell. 2002;94:29–35.
Hautot D, Pankhurst QA, Khan N, Dobson J. Preliminary evaluation of nanoscale biogenic magnetite in Alzheimer’s disease brain tissue. Proc. Biol Sci. – 2003;7(270):62–64.
Rowe PA, Kavanagh K, Zhang L, James H, Har¬wood Jr, Wagner JD. Short-term hyperglycemia increases arterial superoxide production and iron dysregulation in atherosclerotic monkeys. Metabolism. 2011;60(8):1070–80.
Soloperto G, Casciaro S. Progress in athero¬scle¬rotic plaque imaging. World J Radiol. 2012;4(8):353–71.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2017 Medical Perspectives
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
Submitting manuscript to the journal "Medicni perspektivi" the author(s) agree with transferring copyright from the author(s) to publisher (including photos, figures, tables, etc.) editor, reproducing materials of the manuscript in the journal, Internet, translation into other languages, export and import of the issue with the author’s article, spreading without limitation of their period of validity both on the territory of Ukraine and other countries. This and other mutual duties of the author and all co-authors separately and editorial board are secured by written agreement by special form to use the article, the sample of which is presented on the site.
Author signs a written agreement and sends it to Editorial Board simultaneously with submission of the manuscript.
