Ingredient ID 828 
Chinese Pronunciation ZHESHI 
English Name Magnetite  
Latin Name Magnetitum  
Aliases XuanShi
CiShi
XiTieShi
XiZhenShi
ZhiNanZhen  
Cancers  
Identified Compounds
1

order by name

1. Feo.fe2o3

      

 
Recipes that contain
ZHESHI
  1. 21      LiWeiTongGuanTang
  2. 40      QiChongSan
  3. 76      GongJingWan
  4. 228      ShiGuanAiFang
  5. 238      ShiGuanAiFangIII
  6. 241      LiWeiKangAiTang
  7. 259      WeiAiFang
  8. 335      GongJingWan(Fen)
  9. 429      KangAiDan
 

Available references (order by impact factor):

1:  Coey JM, Venkatesan M, Fitzgerald CB, Douvalis AP, Sanders IS.
Ferromagnetism of a graphite nodule from the Canyon Diablo meteorite.
Nature.    impact factor:   29.491
2002;  420(6912): 156-9

2:  Radaelli PG, Horibe Y, Gutmann MJ, Ishibashi H, Chen CH, Ibberson RM, Koyama Y, Hor YS, Kiryukhin V, Cheong SW.
Formation of isomorphic Ir3+ and Ir4+ octamers and spin dimerization in the spinel CuIr2S4.
Nature.    impact factor:   29.491
2002;  416(6877): 155-8

3:  Robinson P, Harrison RJ, McEnroe SA, Hargraves RB.
Lamellar magnetism in the haematite-ilmenite series as an explanation for strong remanent magnetization.
Nature.    impact factor:   29.491
2002;  418(6897): 517-20

4:  Weaver JC, Vaughan TE, Astumian RD.
Biological sensing of small field differences by magnetically sensitive chemical reactions.
Nature.    impact factor:   29.491
2000;  405(6787): 707-9

5:  Diebel CE, Proksch R, Green CR, Neilson P, Walker MM.
Magnetite defines a vertebrate magnetoreceptor.
Nature.    impact factor:   29.491
2000;  406(6793): 299-302

6:  Grady M, Wright I, Pillinger C.
Opening a martian can of worms?
Nature.    impact factor:   29.491
1996;  382(6592): 575-6

7:  Kobayashi AK, Kirschvink JL, Nesson MH.
Ferromagnetism and EMFs.
Nature.    impact factor:   29.491
1995;  374(6518): 123

8:  Kerr RA.
Paleontology. Reversals reveal pitfalls in spotting ancient and E.T. life.
Science.    impact factor:   24.595
2002;  296(5572): 1384-5

9:  Blowes D.
Environmental chemistry. Tracking hexavalent Cr in groundwater.
Science.    impact factor:   24.595
2002;  295(5562): 2024-5

10:  Glasauer S, Langley S, Beveridge TJ.
Intracellular iron minerals in a dissimilatory iron-reducing bacterium.
Science.    impact factor:   24.595
2002;  295(5552): 117-9

11:  Ellis AS, Johnson TM, Bullen TD.
Chromium isotopes and the fate of hexavalent chromium in the environment.
Science.    impact factor:   24.595
2002;  295(5562): 2060-2

12:  Kerr RA.
Astrobiology. Are Martian 'pearl chains' signs of life?
Science.    impact factor:   24.595
2001;  291(5510): 1875-6

13:  Wadhwa M.
Redox state of Mars' upper mantle and crust from Eu anomalies in shergottite pyroxenes.
Science.    impact factor:   24.595
2001;  291(5508): 1527-30

14:  Kerr RA.
Lunar and Planetary Science Conference. Oddities both lunar and Martian.
Science.    impact factor:   24.595
2000;  287(5462): 2402-3

15:  Spencer JR, Jessup KL, McGrath MA, Ballester GE, Yelle R.
Discovery of gaseous S2 in Io's Pele plume.
Science.    impact factor:   24.595
2000;  288(5469): 1208-10

16:  Loucks RR, Mavrogenes JA.
Gold solubility in supercritical hydrothermal brines measured in synthetic fluid inclusions
Science.    impact factor:   24.595
1999;  284(5423): 2159-63

17:  Majetich SA, Jin Y.
Magnetization directions of individual nanoparticles
Science.    impact factor:   24.595
1999;  284(5413): 470-3

18:  Mertl M.
Magnetic cells: stuff of legend?
Science.    impact factor:   24.595
1999;  283(5403): 775

19:  Mandernack KW, Bazylinski DA, Shanks WC 3rd, Bullen TD.
Oxygen and iron isotope studies of magnetite produced by magnetotactic bacteria
Science.    impact factor:   24.595
1999;  285(5435): 1892-6

20:  Dunin-Borkowski RE, McCartney MR, Frankel RB, Bazylinski DA, Posfai M, Buseck PR.
Magnetic microstructure of magnetotactic bacteria by electron holography
Science.    impact factor:   24.595
1998;  282(5395): 1868-70

21:  Kerr RA.
Requiem for life on Mars? Support for microbes fades.
Science.    impact factor:   24.595
1998;  282(5393): 1398-400

22:  Hviid SF, Madsen MB, Gunnlaugsson HP, Goetz W, Knudsen JM, Hargraves RB, Smith P, Britt D, Dinesen AR, Mogensen CT, Olsen M, Pedersen CT, Vistisen L.
Magnetic properties experiments on the Mars Pathfinder lander: preliminary results.
Science.    impact factor:   24.595
1997;  278(5344): 1768-70

23:  Kerr RA.
Martian 'microbes' cover their tracks.
Science.    impact factor:   24.595
1997;  276(5309): 30-1

24:  Kerr RA.
Ancient life on Mars?
Science.    impact factor:   24.595
1996;  273(5277): 864-6

25:  McKay DS, Gibson EK Jr, Thomas-Keprta KL, Vali H, Romanek CS, Clemett SJ, Chillier XD, Maechling CR, Zare RN.
Search for past life on Mars: possible relic biogenic activity in martian meteorite ALH84001.
Science.    impact factor:   24.595
1996;  273(5277): 924-30

26:  Morowitz HJ.
Past life on Mars?
Science.    impact factor:   24.595
1996;  273(5282): 1639-40; discussion 1640

27:  Cooper RF, Fanselow JB, Weber JKR, Merkley DR, Poker DB.
Dynamics of Oxidation of a Fe2+-Bearing Aluminosilicate (Basaltic) Melt
Science.    impact factor:   24.595
1996;  274(5290): 1173-6

28:  Pettengill GH, Ford PG, Simpson RA.
Electrical Properties of the Venus Surface from Bistatic Radar Observations
Science.    impact factor:   24.595
1996;  272(5268): 1628-31

29:  Gider S, Awschalom DD, Douglas T, Mann S, Chaparala M.
Classical and quantum magnetic phenomena in natural and artificial ferritin proteins.
Science.    impact factor:   24.595
1995;  268(5207): 77-80

30:  Meldrum FC, Heywood BR, Mann S.
Magnetoferritin: in vitro synthesis of a novel magnetic protein.
Science.    impact factor:   24.595
1992;  257(5069): 522-3

31:  Barinaga M.
Neurobiology. Giving personal magnetism a whole new meaning.
Science.    impact factor:   24.595
1992;  256(5059): 967

32:  Mendelson NH.
Production and initial characterization of bionites: materials formed on a bacterial backbone.
Science.    impact factor:   24.595
1992;  258(5088): 1633-6

33:  Lohmann KJ, Johnsen S.
The neurobiology of magnetoreception in vertebrate animals.
Trends Neurosci.    impact factor:   19.925
2000;  23(4): 153-9

34:  Vanduffel W, Fize D, Mandeville JB, Nelissen K, Van Hecke P, Rosen BR, Tootell RB, Orban GA.
Visual motion processing investigated using contrast agent-enhanced fMRI in awake behaving monkeys.
Neuron.    impact factor:   16.782
2001;  32(4): 565-77

35:  Macklis RM.
Magnetic healing, quackery, and the debate about the health effects of electromagnetic fields.
Ann Intern Med.    impact factor:   10.097
1993;  118(5): 376-83

36:  Kirschvink JL, Walker MM, Diebel CE.
Magnetite-based magnetoreception.
Curr Opin Neurobiol.    impact factor:   9.287
2001;  11(4): 462-7

37:  Leite FP, Tsao D, Vanduffel W, Fize D, Sasaki Y, Wald LL, Dale AM, Kwong KK, Orban GA, Rosen BR, Tootell RB, Mandeville JB.
Repeated fMRI using iron oxide contrast agent in awake, behaving macaques at 3 Tesla.
Neuroimage.    impact factor:   8.93
2002;  16(2): 283-94

38:  Gould JL.
Sensory bases of navigation.
Curr Biol.    impact factor:   8.733
1998;  8(20): R731-8

39:  Wang J, Su M, Fan J, Seth A, McCulloch CA.
Transcriptional regulation of a contractile gene by mechanical forces applied through integrins in osteoblasts.
J Biol Chem.    impact factor:   7.666
2002;  277(25): 22889-95

40:  Kainulainen T, Pender A, D'Addario M, Feng Y, Lekic P, McCulloch CA.
Cell death and mechanoprotection by filamin a in connective tissues after challenge by applied tensile forces.
J Biol Chem.    impact factor:   7.666
2002;  277(24): 21998-2009

41:  D'Addario M, Arora PD, Ellen RP, McCulloch CA.
Interaction of p38 and Sp1 in a Mechanical Force-induced, beta 1 Integrin-mediated Transcriptional Circuit That Regulates the Actin-binding Protein Filamin-A.
J Biol Chem.    impact factor:   7.666
2002;  277(49): 47541-50

42:  Arakaki A, Webb J, Matsunaga T.
A novel protein tightly bound to bacterial magnetic particles in Magnetospirillum magneticum strain AMB-1.
J Biol Chem.    impact factor:   7.666
2002;  ;[e-pub ahead of print]  43:  Ko KS, Arora PD, McCulloch CA.
Cadherins mediate intercellular mechanical signaling in fibroblasts by activation of stretch-sensitive calcium-permeable channels.
J Biol Chem.    impact factor:   7.666
2001;  276(38): 35967-77

44:  D'Addario M, Arora PD, Fan J, Ganss B, Ellen RP, McCulloch CA.
Cytoprotection against mechanical forces delivered through beta 1 integrins requires induction of filamin A.
J Biol Chem.    impact factor:   7.666
2001;  276(34): 31969-77

45:  Okamura Y, Takeyama H, Matsunaga T.
A magnetosome-specific GTPase from the magnetic bacterium Magnetospirillum magneticum AMB-1.
J Biol Chem.    impact factor:   7.666
2001;  276(51): 48183-8

46:  Nakamura C, Burgess JG, Sode K, Matsunaga T.
An iron-regulated gene, magA, encoding an iron transport protein of Magnetospirillum sp. strain AMB-1.
J Biol Chem.    impact factor:   7.666
1995;  270(47): 28392-6

47:  Rainov NG, Zimmer C, Chase M, Kramm CM, Chiocca EA, Weissleder R, Breakefield XO.
Selective uptake of viral and monocrystalline particles delivered intra-arterially to experimental brain neoplasms.
Hum Gene Ther.    impact factor:   6.403
1995;  6(12): 1543-52

48:  Hu G, Suzuki Y.
Negative Spin Polarization of Fe3O4 in Magnetite/Manganite-Based Junctions.
Phys Rev Lett.    impact factor:   6.095
2002;  89(27): 276601

49:  Wright JP, Attfield JP, Radaelli PG.
Long range charge ordering in magnetite below the Verwey transition.
Phys Rev Lett.    impact factor:   6.095
2001;  87(26): 266401

50:  Garcia J, Subias G, Proietti MG, Renevier H, Joly Y, Hodeau JL, Blasco J, Sanchez MC, Berar JF.
Resonant "forbidden" reflections in magnetite.
Phys Rev Lett.    impact factor:   6.095
2000;  85(3): 578-81

51:  Aragon R, Gehring PM, Shapiro SM.
Stoichiometry, percolation, and Verwey ordering in magnetite.
Phys Rev Lett.    impact factor:   6.095
1993;  70(11): 1635-1638

52:  Matsunaga T.
Applications of bacterial magnets.
Trends Biotechnol.    impact factor:   5.545
1991;  9(3): 91-5

53:  Katz E, Willner I.
Magneto-stimulated hydrodynamic control of electrocatalytic and bioelectrocatalytic processes.
J Am Chem Soc.    impact factor:   5.537
2002;  124(35): 10290-1

54:  Osterloh FE.
Solution self-assembly of magnetic light modulators from exfoliated perovskite and magnetite nanoparticles.
J Am Chem Soc.    impact factor:   5.537
2002;  124(22): 6248-9

55:  Sun S, Zeng H.
Size-controlled synthesis of magnetite nanoparticles.
J Am Chem Soc.    impact factor:   5.537
2002;  124(28): 8204-5

56:  Dijkhuizen RM, Asahi M, Wu O, Rosen BR, Lo EH.
Rapid breakdown of microvascular barriers and subsequent hemorrhagic transformation after delayed recombinant tissue plasminogen activator treatment in a rat embolic stroke model.
Stroke.    impact factor:   5.528
2002;  33(8): 2100-4

57:  Frankel RB, Buseck PR.
Magnetite biomineralization and ancient life on Mars.
Curr Opin Chem Biol.    impact factor:   4.809
2000;  4(2): 171-6

58:  Moore A, Josephson L, Bhorade RM, Basilion JP, Weissleder R.
Human transferrin receptor gene as a marker gene for MR imaging.
Radiology.    impact factor:   4.621
2001;  221(1): 244-50

59:  Hilger I, Andra W, Hergt R, Hiergeist R, Schubert H, Kaiser WA.
Electromagnetic heating of breast tumors in interventional radiology: in vitro and in vivo studies in human cadavers and mice.
Radiology.    impact factor:   4.621
2001;  218(2): 570-5

60:  Ward J, Guthrie JA, Scott DJ, Atchley J, Wilson D, Davies MH, Wyatt JI, Robinson PJ.
Hepatocellular carcinoma in the cirrhotic liver: double-contrast MR imaging for diagnosis.
Radiology.    impact factor:   4.621
2000;  216(1): 154-62

61:  Lauffer RB, Parmelee DJ, Dunham SU, Ouellet HS, Dolan RP, Witte S, McMurry TJ, Walovitch RC.
MS-325: albumin-targeted contrast agent for MR angiography.
Radiology.    impact factor:   4.621
1998;  207(2): 529-38

62:  Faber SC, Stehling MK, Holzknecht N, Gauger J, Helmberger T, Reiser M.
Pathologic conditions in the small bowel: findings at fat-suppressed gadolinium-enhanced MR imaging with an optimized suspension of oral magnetic particles.
Radiology.    impact factor:   4.621
1997;  205(1): 278-82

63:  Blakeborough A, Ward J, Wilson D, Griffiths M, Kajiya Y, Guthrie JA, Robinson PJ.
Hepatic lesion detection at MR imaging: a comparative study with four sequences.
Radiology.    impact factor:   4.621
1997;  203(3): 759-65

64:  Siegelman ES, Mitchell DG, Semelka RC.
Abdominal iron deposition: metabolism, MR findings, and clinical importance.
Radiology.    impact factor:   4.621
1996;  199(1): 13-22

65:  Zimmer C, Weissleder R, O'Connor D, LaPointe L, Brady TJ, Enochs WS.
Cerebral iron oxide distribution: in vivo mapping with MR imaging.
Radiology.    impact factor:   4.621
1995;  196(2): 521-7

66:  Weissleder R, Heautot JF, Schaffer BK, Nossiff N, Papisov MI, Bogdanov A Jr, Brady TJ.
MR lymphography: study of a high-efficiency lymphotrophic agent.
Radiology.    impact factor:   4.621
1994;  191(1): 225-30

67:  Reimer P, Weissleder R, Shen T, Knoefel WT, Brady TJ.
Pancreatic receptors: initial feasibility studies with a targeted contrast agent for MR imaging.
Radiology.    impact factor:   4.621
1994;  193(2): 527-31

68:  van Everdingen KJ, Enochs WS, Bhide PG, Nossiff N, Papisov M, Bogdanov A Jr, Brady TJ, Weissleder R.
Determinants of in vivo MR imaging of slow axonal transport.
Radiology.    impact factor:   4.621
1994;  193(2): 485-91

69:  Lee AS, Weissleder R, Brady TJ, Wittenberg J.
Lymph nodes: microstructural anatomy at MR imaging.
Radiology.    impact factor:   4.621
1991;  178(2): 519-22

70:  Lacava LM, Lacava ZG, Da Silva MF, Silva O, Chaves SB, Azevedo RB, Pelegrini F, Gansau C, Buske N, Sabolovic D, Morais PC.
Magnetic resonance of a dextran-coated magnetic fluid intravenously administered in mice.
Biophys J.    impact factor:   4.58
2001;  80(5): 2483-6

71:  Wajnberg E, Acosta-Avalos D, El-Jaick LJ, Abracado L, Coelho JL, Bakuzis AF, Morais PC, Esquivel DM.
Electron paramagnetic resonance study of the migratory ant Pachycondyla marginata abdomens.
Biophys J.    impact factor:   4.58
2000;  78(2): 1018-23

72:  Moller W, Nemoto I, Matsuzaki T, Hofer T, Heyder J.
Magnetic phagosome motion in J774A.1 macrophages: influence of cytoskeletal drugs.
Biophys J.    impact factor:   4.58
2000;  79(2): 720-30

73:  Lvov Y, Caruso F.
Biocolloids with ordered urease multilayer shells as enzymatic reactors.
Anal Chem.    impact factor:   4.555
2001;  73(17): 4212-7

74:  Zborowski M, Fuh CB, Green R, Sun L, Chalmers JJ.
Analytical magnetapheresis of ferritin-labeled lymphocytes.
Anal Chem.    impact factor:   4.555
1995;  67(20): 3702-12

75:  Okon E, Pouliquen D, Okon P, Kovaleva ZV, Stepanova TP, Lavit SG, Kudryavtsev BN, Jallet P.
Biodegradation of magnetite dextran nanoparticles in the rat. A histologic and biophysical study.
Lab Invest.    impact factor:   4.53
1994;  71(6): 895-903

76:  Huber R, Huber H, Stetter KO.
Towards the ecology of hyperthermophiles: biotopes, new isolation strategies and novel metabolic properties.
FEMS Microbiol Rev.    impact factor:   4.209
2000;  24(5): 615-23

77:  Ito A, Shinkai M, Honda H, Kobayashi T.
Heat-inducible TNF-alpha gene therapy combined with hyperthermia using magnetic nanoparticles as a novel tumor-targeted therapy.
Cancer Gene Ther.    impact factor:   4.188
2001;  8(9): 649-54

78:  Berger M, de Hazen M, Nejjari A, Fournier J, Guignard J, Pezerat H, Cadet J.
Radical oxidation reactions of the purine moiety of 2'-deoxyribonucleosides and DNA by iron-containing minerals.
Carcinogenesis.    impact factor:   4.118
1993;  14(1): 41-6

79:  Tajima Y, Nagasawa Z, Tanabe I, Yamada H, Kusaba K, Tadano J.
A minor improvement of the Limulus test.
Clin Chem.    impact factor:   3.769
1993;  39(1): 171-2

80:  McCormick ML, Bouwer EJ, Adriaens P.
Carbon tetrachloride transformation in a model iron-reducing culture: relative kinetics of biotic and abiotic reactions.
Environ Sci Technol.    impact factor:   3.751
2002;  36(3): 403-10

81:  Ona-Nguema G, Abdelmoula M, Jorand F, Benali O, Gehin A, Block JC, Genin JM.
Iron(II,III) hydroxycarbonate green rust formation and stabilization from lepidocrocite bioreduction.
Environ Sci Technol.    impact factor:   3.751
2002;  36(1): 16-20

82:  Dodge CJ, Francis AJ, Gillow JB, Halada GP, Eng C, Clayton CR.
Association of uranium with iron oxides typically formed on corroding steel surfaces.
Environ Sci Technol.    impact factor:   3.751
2002;  36(16): 3504-11

83:  Vikesland PJ, Valentine RL.
Iron oxide surface-catalyzed oxidation of ferrous iron by monochloramine: implications of oxide type and carbonate on reactivity.
Environ Sci Technol.    impact factor:   3.751
2002;  36(3): 512-9

84:  Holman HY, Nieman K, Sorensen DL, Miller CD, Martin MC, Borch T, Mckinney WR, Sims RC.
Catalysis of PAH biodegradation by humic acid shown in synchrotron infrared studies.
Environ Sci Technol.    impact factor:   3.751
2002;  36(6): 1276-80

85:  Melitas N, Wang J, Conklin M, O'Day P, Farrell J.
Understanding soluble arsenate removal kinetics by zerovalent iron media.
Environ Sci Technol.    impact factor:   3.751
2002;  36(9): 2074-81

86:  Benner SG, Hansel CM, Wielinga BW, Barber TM, Fendorf S.
Reductive dissolution and biomineralization of iron hydroxide under dynamic flow conditions.
Environ Sci Technol.    impact factor:   3.751
2002;  36(8): 1705-11

87:  Fredrickson JK, Zachara JM, Kukkadapu RK, Gorby YA, Smith SC, Brown CF.
Biotransformation of Ni-substituted hydrous ferric oxide by an Fe(III)-reducing bacterium.
Environ Sci Technol.    impact factor:   3.751
2001;  35(4): 703-12

88:  Nelson MD, Parker BL, Al TA, Cherry JA, Loomer D.
Geochemical reactions resulting from in situ oxidation of PCE-DNAPL by KMnO4 in a sandy aquifer.
Environ Sci Technol.    impact factor:   3.751
2001;  35(6): 1266-75

89:  Kostka JE, Nealson KH.
Dissolution and reduction of magnetite by bacteria.
Environ Sci Technol.    impact factor:   3.751
1995;  29(10): 2535-40

90:  Dobson J.
Nanoscale biogenic iron oxides and neurodegenerative disease.
FEBS Lett.    impact factor:   3.72
2001;  496(1): 1-5

91:  Noguchi Y, Fujiwara T, Yoshimatsu K, Fukumori Y.
Iron reductase for magnetite synthesis in the magnetotactic bacterium Magnetospirillum magnetotacticum.
J Bacteriol.    impact factor:   3.712
1999;  181(7): 2142-7

92:  Schuler D, Baeuerlein E.
Dynamics of iron uptake and Fe3O4 biomineralization during aerobic and microaerobic growth of Magnetospirillum gryphiswaldense.
J Bacteriol.    impact factor:   3.712
1998;  180(1): 159-62

93:  Matsunaga T, Nakamura C, Burgess JG, Sode K.
Gene transfer in magnetic bacteria: transposon mutagenesis and cloning of genomic DNA fragments required for magnetosome synthesis.
J Bacteriol.    impact factor:   3.712
1992;  174(9): 2748-53

94:  Suwa T, Ozawa S, Ueda M, Ando N, Kitajima M.
Magnetic resonance imaging of esophageal squamous cell carcinoma using magnetite particles coated with anti-epidermal growth factor receptor antibody.
Int J Cancer.    impact factor:   3.545
1998;  75(4): 626-34

95:  Kashefi K, Holmes DE, Reysenbach AL, Lovley DR.
Use of Fe(III) as an electron acceptor to recover previously uncultured hyperthermophiles: isolation and characterization of Geothermobacterium ferrireducens gen. nov., sp. nov.
Appl Environ Microbiol.    impact factor:   3.541
2002;  68(4): 1735-42

96:  Thomas-Keprta KL, Clemett SJ, Bazylinski DA, Kirschvink JL, McKay DS, Wentworth SJ, Vali H, Gibson Jr EK Jr, Romanek CS.
Magnetofossils from ancient Mars: a robust biosignature in the martian meteorite ALH84001.
Appl Environ Microbiol.    impact factor:   3.541
2002;  68(8): 3663-72

97:  Roh Y, Liu SV, Li G, Huang H, Phelps TJ, Zhou J.
Isolation and characterization of metal-reducing thermoanaerobacter strains from deep subsurface environments of the piceance basin, colorado.
Appl Environ Microbiol.    impact factor:   3.541
2002;  68(12): 6013-20

98:  Grunberg K, Wawer C, Tebo BM, Schuler D.
A large gene cluster encoding several magnetosome proteins is conserved in different species of magnetotactic bacteria.
Appl Environ Microbiol.    impact factor:   3.541
2001;  67(10): 4573-82

99:  Chaudhuri SK, Lack JG, Coates JD.
Biogenic magnetite formation through anaerobic biooxidation of Fe(II).
Appl Environ Microbiol.    impact factor:   3.541
2001;  67(6): 2844-8

100:  Lloyd JR, Sole VA, Van Praagh CV, Lovley DR.
Direct and Fe(II)-mediated reduction of technetium by Fe(III)-reducing bacteria.
Appl Environ Microbiol.    impact factor:   3.541
2000;  66(9): 3743-9

101:  Kashefi K, Lovley DR.
Reduction of Fe(III), Mn(IV), and toxic metals at 100 degrees C by Pyrobaculum islandicum.
Appl Environ Microbiol.    impact factor:   3.541
2000;  66(3): 1050-6

102:  Cummings DE, March AW, Bostick B, Spring S, Caccavo F Jr, Fendorf S, Rosenzweig RF.
Evidence for microbial Fe(III) reduction in anoxic, mining-impacted lake sediments (Lake Coeur d'Alene, Idaho).
Appl Environ Microbiol.    impact factor:   3.541
2000;  66(1): 154-62

103:  Bifulco JM, Schaefer FW 3rd.
Antibody-magnetite method for selective concentration of Giardia lamblia cysts from water samples.
Appl Environ Microbiol.    impact factor:   3.541
1993;  59(3): 772-6

104:  Straub KL, Rainey FA, Widdel F.
Rhodovulum iodosum sp. nov. and Rhodovulum robiginosum sp. nov., two new marine phototrophic ferrous-iron-oxidizing purple bacteria.
Int J Syst Bacteriol.    impact factor:   3.503
1999;  49 Pt 2: 729-35

105:  Sestier C, Da-Silva MF, Sabolovic D, Roger J, Pons JN.
Surface modification of superparamagnetic nanoparticles (Ferrofluid) studied with particle electrophoresis: application to the specific targeting of cells.
Electrophoresis.    impact factor:   3.447
1998;  19(7): 1220-6

106:  Yamazaki T, Oyanagi H, Fujiwara T, Fukumori Y.
Nitrite reductase from the magnetotactic bacterium Magnetospirillum magnetotacticum. A novel cytochrome cd1 with Fe(II):nitrite oxidoreductase activity.
Eur J Biochem.    impact factor:   3.307
1995;  233(2): 665-71

107:  Enochs WS, Schaffer B, Bhide PG, Nossiff N, Papisov M, Bogdanov A Jr, Brady TJ, Weissleder R.
MR imaging of slow axonal transport in vivo.
Exp Neurol.    impact factor:   3.26
1993;  123(2): 235-42

108:  Naim JO, van Oss CJ, Wu W, Giese RF, Nickerson PA.
Mechanisms of adjuvancy: I--Metal oxides as adjuvants.
Vaccine.    impact factor:   3.173
1997;  15(11): 1183-93

109:  Dobson J, St Pierre T.
Application of the ferromagnetic transduction model to D.C. and pulsed magnetic fields: effects on epileptogenic tissue and implications for cellular phone safety.
Biochem Biophys Res Commun.    impact factor:   3.161
1996;  227(3): 718-23

110:  Slobodkin AI, Wiegel J.
Fe(III) as an electron acceptor for H2 oxidation in thermophilic anaerobic enrichment cultures from geothermal areas.
Extremophiles.    impact factor:   3.133
1997;  1(2): 106-9

111:  Xu S, Jordan EK, Brocke S, Bulte JW, Quigley L, Tresser N, Ostuni JL, Yang Y, McFarland HF, Frank JA.
Study of relapsing remitting experimental allergic encephalomyelitis SJL mouse model using MION-46L enhanced in vivo MRI: early histopathological correlation.
J Neurosci Res.    impact factor:   3.126
1998;  52(5): 549-58

112:  Gridin VV, Hearne GR, Honig JM.
Magnetoresistance extremum at the first-order Verwey transition in magnetite (Fe3O4).
Phys Rev B Condens Matter.    impact factor:   3.008
1996;  53(23): 15518-15521

113:  Rozenberg GK, Hearne GR, Pasternak MP, Metcalf PA, Honig JM.
Nature of the Verwey transition in magnetite (Fe3O4) to pressures of 16 GPa.
Phys Rev B Condens Matter.    impact factor:   3.008
1996;  53(10): 6482-6487

114:  Rennert P, Muck W, Chasse A.
Calculated spin polarization and magnetic dichroism of photoelectron diffraction spectra for magnetite below the Verwey temperature.
Phys Rev B Condens Matter.    impact factor:   3.008
1996;  53(21): 14262-14267

115:  Samiullah M.
Verwey transition in magnetite: Finite-temperature mean-field solution of the Cullen-Callen model.
Phys Rev B Condens Matter.    impact factor:   3.008
1995;  51(16): 10352-10356

116:  Kakol Z, Sabol J, Stickler J, Kozlowski A, Honig JM.
Influence of titanium doping on the magnetocrystalline anisotropy of magnetite.
Phys Rev B Condens Matter.    impact factor:   3.008
1994;  49(18): 12767-12772

117:  Pasternak MP, Nasu S, Wada K, Endo S.
High-pressure phase of magnetite.
Phys Rev B Condens Matter.    impact factor:   3.008
1994;  50(9): 6446-6449

118:  Mishra SK, Satpathy S.
Energetic stabilization of the Mizoguchi structure for magnetite by band-structure effects.
Phys Rev B Condens Matter.    impact factor:   3.008
1993;  47(10): 5564-5570

119:  Kakol Z, Sabol J, Stickler J, Honig JM.
Effect of low-level titanium(IV) doping on the resistivity of magnetite near the Verwey transition.
Phys Rev B Condens Matter.    impact factor:   3.008
1992;  46(4): 1975-1978

120:  Aragon R.
Magnetization and exchange in nonstoichiometric magnetite.
Phys Rev B Condens Matter.    impact factor:   3.008
1992;  46(9): 5328-5333

121:  Aragon R.
Cubic magnetic anisotropy of nonstoichiometric magnetite.
Phys Rev B Condens Matter.    impact factor:   3.008
1992;  46(9): 5334-5338

122:  Zhang Z, Satpathy S.
Electron states, magnetism, and the Verwey transition in magnetite.
Phys Rev B Condens Matter.    impact factor:   3.008
1991;  44(24): 13319-13331

123:  Shepherd JP, Koenitzer JW, Aragon R, Spalek J, Honig JM.
Heat capacity and entropy of nonstoichiometric magnetite Fe3(1- delta )O4: The thermodynamic nature of the Verwey transition.
Phys Rev B Condens Matter.    impact factor:   3.008
1991;  43(10): 8461-8471

124:  Zuo JM, Spence JC, Petuskey W.
Charge ordering in magnetite at low temperatures.
Phys Rev B Condens Matter.    impact factor:   3.008
1990;  42(13): 8451-8464

125:  Kakol Z, Honig JM.
Influence of deviations from ideal stoichiometry on the anisotropy parameters of magnetite Fe3(1- delta )O4.
Phys Rev B Condens Matter.    impact factor:   3.008
1989;  40(13): 9090-9097

126:  Koenitzer JW, Keesom PH, Honig JM.
Heat capacity of magnetite in the range 0.3 to 10 K.
Phys Rev B Condens Matter.    impact factor:   3.008
1989;  39(9): 6231-6233

127:  Aragon R, Honig JM.
Mean-field model of the Verwey transition in magnetite.
Phys Rev B Condens Matter.    impact factor:   3.008
1988;  37(1): 209-218

128:  Degiorgi L, Wachter P, Ihle D.
Small-polaron conductivity in magnetite.
Phys Rev B Condens Matter.    impact factor:   3.008
1987;  35(17): 9259-9264

129:  Degiorgi L, Blatter-Morke I I, Wachter P.
Magnetite: Phonon modes and the Verwey transition.
Phys Rev B Condens Matter.    impact factor:   3.008
1987;  35(11): 5421-5424

130:  Boekema C, Lichti RL, Chan KC, Brabers VA, Denison AB, Cooke DW, Heffner RH, Hutson RL, Schillaci ME.
Experimental evidence for a Mott-Wigner glass phase of magnetite above the Verwey temperature.
Phys Rev B Condens Matter.    impact factor:   3.008
1986;  33(1): 210-214

131:  Shepherd JP, Aragon R, Koenitzer JW, Honig JM.
Changes in the nature of the Verwey transition in nonstoichiometric magnetite (Fe3O4).
Phys Rev B Condens Matter.    impact factor:   3.008
1985;  32(3): 1818-1819

132:  Boekema C, Lichti RL, Brabers VA, Denison AB, Cooke DW, Heffner RH, Hutson RL, Leon M, Schillaci ME.
Magnetic interactions, bonding, and motion of positive muons in magnetite.
Phys Rev B Condens Matter.    impact factor:   3.008
1985;  31(3): 1233-1238

133:  Cowley JM, Janney DE, Gerkin RC, Buseck PR.
The structure of ferritin cores determined by electron nanodiffraction.
J Struct Biol.    impact factor:   2.986
2000;  131(3): 210-6

134:  Farina M, Schemmel A, Weissmuller G, Cruz R, Kachar B, Bisch PM.
Atomic force microscopy study of tooth surfaces.
J Struct Biol.    impact factor:   2.986
1999;  125(1): 39-49

135:  Niggel J, Sigurdson W, Sachs F.
Mechanically induced calcium movements in astrocytes, bovine aortic endothelial cells and C6 glioma cells.
J Membr Biol.    impact factor:   2.973
2000;  174(2): 121-34

136:  Zborowski M, Fuh CB, Green R, Baldwin NJ, Reddy S, Douglas T, Mann S, Chalmers JJ.
Immunomagnetic isolation of magnetoferritin-labeled cells in a modified ferrograph.
Cytometry.    impact factor:   2.843
1996;  24(3): 251-9

137:  Kroll RA, Pagel MA, Muldoon LL, Roman-Goldstein S, Neuwelt EA.
Increasing volume of distribution to the brain with interstitial infusion: dose, rather than convection, might be the most important factor.
Neurosurgery.    impact factor:   2.821
1996;  38(4): 746-52; discussion 752-4

138:  Zolotov MY, Shock EL.
A thermodynamic assessment of the potential synthesis of condensed hydrocarbons during cooling and dilution of volcanic gases.
J Geophys Res.    impact factor:   2.781
2000;  105(B1): 539-59

139:  Scott ER.
Origin of carbonate-magnetite-sulfide assemblages in Martian meteorite ALH84001.
J Geophys Res.    impact factor:   2.781
1999;  104(E2): 3803-13

140:  Bishop JL, Froschl H, Mancinelli RL.
Alteration processes in volcanic soils and identification of exobiologically important weathering products on Mars using remote sensing.
J Geophys Res.    impact factor:   2.781
1998;  103(E13): 31457-76

141:  Morris RV, Lauer HV Jr, Lawson CA, Gibson EK Jr, Nace GA, Stewart C.
Spectral and other physicochemical properties of submicron powders of hematite (alpha-Fe2O3), maghemite (gamma-Fe2O3), magnetite (Fe3O4), goethite (alpha-FeOOH), and lepidocrocite (gamma-FeOOH).
J Geophys Res.    impact factor:   2.781
1985;  90(B4): 3126-44

142:  Chignell CF, Sik RH.
Effect of magnetite particles on photoinduced and nonphotoinduced free radical processes in human erythrocytes.
Photochem Photobiol.    impact factor:   2.768
1998;  68(4): 598-601

143:  Craighead JE, Emerson RJ, Stanley DE.
Slateworker's pneumoconiosis.
Hum Pathol.    impact factor:   2.749
1992;  23(10): 1098-105

144:  Wang J, Seth A, McCulloch CA.
Force regulates smooth muscle actin in cardiac fibroblasts.
Am J Physiol Heart Circ Physiol.    impact factor:   2.747
2000;  279(6): H2776-85

145:  Dubowitz DJ, Bernheim KA, Chen DY, Bradley Jr WG, Andersen RA.
Enhancing fMRI contrast in awake-behaving primates using intravascular magnetite dextran nanopartieles.
Neuroreport.    impact factor:   2.682
2001;  12(11): 2335-40

146:  Suzuki M, Shinkai M, Honda H, Kamihira M, Iijima S, Kobayashi T.
Construction of tumor-specific cells expressing a membrane-anchored single-chain Fv of anti-ErbB-2 antibody.
Biochim Biophys Acta.    impact factor:   2.59
2001;  1525(1-2): 191-6

147:  Schultheiss-Grassi PP, Wessiken R, Dobson J.
TEM investigations of biogenic magnetite extracted from the human hippocampus.
Biochim Biophys Acta.    impact factor:   2.59
1999;  1426(1): 212-6

148:  Moore A, Basilion JP, Chiocca EA, Weissleder R.
Measuring transferrin receptor gene expression by NMR imaging.
Biochim Biophys Acta.    impact factor:   2.59
1998;  1402(3): 239-49

149:  Shen TT, Bogdanov A Jr, Bogdanova A, Poss K, Brady TJ, Weissleder R.
Magnetically labeled secretin retains receptor affinity to pancreas acinar cells.
Bioconjug Chem.    impact factor:   2.55
1996;  7(3): 311-6

150:  Tiefenauer LX, Kuhne G, Andres RY.
Antibody-magnetite nanoparticles: in vitro characterization of a potential tumor-specific contrast agent for magnetic resonance imaging.
Bioconjug Chem.    impact factor:   2.55
1993;  4(5): 347-52

151:  Xue B, Sun Y.
Fabrication and characterization of a rigid magnetic matrix for protein adsorption.
J Chromatogr A.    impact factor:   2.52
2002;  947(2): 185-93

152:  Taylor JI, Hurst CD, Davies MJ, Sachsinger N, Bruce IJ.
Application of magnetite and silica-magnetite composites to the isolation of genomic DNA.
J Chromatogr A.    impact factor:   2.52
2000;  890(1): 159-66

153:  Fubini B, Mollo L, Giamello E.
Free radical generation at the solid/liquid interface in iron containing minerals.
Free Radic Res.    impact factor:   2.493
1995;  23(6): 593-614

154:  Illum L, Church AE, Butterworth MD, Arien A, Whetstone J, Davis SS.
Development of systems for targeting the regional lymph nodes for diagnostic imaging: in vivo behaviour of colloidal PEG-coated magnetite nanospheres in the rat following interstitial administration.
Pharm Res.    impact factor:   2.475
2001;  18(5): 640-5

155:  Hu Z, Mawatari S, Shibata N, Takada K, Yoshikawa H, Arakawa A, Yosida Y.
Application of a biomagnetic measurement system (BMS) to the evaluation of gastrointestinal transit of intestinal pressure-controlled colon delivery capsules (PCDCs) in human subjects.
Pharm Res.    impact factor:   2.475
2000;  17(2): 160-7

156:  Christmann V, Rosenberg J, Seega J, Lehr CM.
Simultaneous in vivo visualization and localization of solid oral dosage forms in the rat gastrointestinal tract by magnetic resonance imaging (MRI).
Pharm Res.    impact factor:   2.475
1997;  14(8): 1066-72

157:  Viroonchatapan E, Ueno M, Sato H, Adachi I, Nagae H, Tazawa K, Horikoshi I.
Preparation and characterization of dextran magnetite-incorporated thermosensitive liposomes: an on-line flow system for quantifying magnetic responsiveness.
Pharm Res.    impact factor:   2.475
1995;  12(8): 1176-83

158:  Aitken RJ, Buckingham DW, West K, Brindle J.
On the use of paramagnetic beads and ferrofluids to assess and eliminate the leukocytic contribution to oxygen radical generation by human sperm suspensions.
Am J Reprod Immunol.    impact factor:   2.448
1996;  35(6): 541-51

159:  Nealson KH, Cox BL.
Microbial metal-ion reduction and Mars: extraterrestrial expectations?
Curr Opin Microbiol.    impact factor:   2.422
2002;  5(3): 296-300

160:  Laperche V, Bigham JM.
Quantitative, chemical, and mineralogical characterization of flue gas desulfurization by-products.
J Environ Qual.    impact factor:   2.357
2002;  31(3): 979-88

161:  Phillips JB, Borland SC, Freake MJ, Brassart J, Kirschvink JL.
'Fixed-axis' magnetic orientation by an amphibian: non-shoreward-directed compass orientation, misdirected homing or positioning a magnetite-based map detector in a consistent alignment relative to the magnetic field?
J Exp Biol.    impact factor:   2.354
2002;  205(Pt 24): 3903-3914

162:  Wiltschko W, Munro U, Wiltschko R, Kirschvink JL.
Magnetite-based magnetoreception in birds: the effect of a biasing field and a pulse on migratory behavior.
J Exp Biol.    impact factor:   2.354
2002;  205(Pt 19): 3031-7

163:  Deutschlander ME, Phillips JB, Borland SC.
The case for light-dependent magnetic orientation in animals
J Exp Biol.    impact factor:   2.354
1999;  202 (Pt 8): 891-908

164:  Brassart J, Kirschvink JL, Phillips JB, Borland SC.
Ferromagnetic material in the eastern red-spotted newt notophthalmus viridescens
J Exp Biol.    impact factor:   2.354
1999;  202 Pt 22: 3155-60

165:  Acosta-Avalos D, Wajnberg E, Oliveira PS, Leal I I, Farina M, Esquivel DM.
Isolation of magnetic nanoparticles from pachycondyla marginata ants
J Exp Biol.    impact factor:   2.354
1999;  202 (Pt 19): 2687-92

166:  Wiltschko W, Munro U, Ford H, Wiltschko R.
Effect of a magnetic pulse on the orientation of silvereyes, zosterops l. lateralis, during spring migration
J Exp Biol.    impact factor:   2.354
1998;  201 (Pt 23): 3257-61

167:  Kirschvink J, Padmanabha S, Boyce C, Oglesby J.
Measurement of the threshold sensitivity of honeybees to weak, extremely low-frequency magnetic fields
J Exp Biol.    impact factor:   2.354
1997;  200(Pt 9): 1363-8

168:  Beason R, Semm P.
Does the avian ophthalmic nerve carry magnetic navigational information?
J Exp Biol.    impact factor:   2.354
1996;  199(Pt 5): 1241-4

169:  Beason R, Dussourd N, Deutschlander M.
Behavioural evidence for the use of magnetic material in magnetoreception by a migratory bird
J Exp Biol.    impact factor:   2.354
1995;  198(Pt 1): 141-6

170:  Huzaira M, Anderson RR.
Magnetite tattoos.
Lasers Surg Med.    impact factor:   2.348
2002;  31(2): 121-8

171:  Gruhn B, Hafer R, Muller A, Andra W, Danan H, Zintl F.
Model experiments for immunomagnetic elimination of leukemic cells from human bone marrow. Presentation of a novel magnetic separation system.
Immunobiology.    impact factor:   2.276
1991;  183(5): 374-85

172:  Weitschies W, Kotitz R, Cordini D, Trahms L.
High-resolution monitoring of the gastrointestinal transit of a magnetically marked capsule.
J Pharm Sci.    impact factor:   2.27
1997;  86(11): 1218-22

173:  Bertani LE, Weko J, Phillips KV, Gray RF, Kirschvink JL.
Physical and genetic characterization of the genome of Magnetospirillum magnetotacticum, strain MS-1.
Gene.    impact factor:   2.258
2001;  264(2): 257-63

174:  Bertani LE, Huang JS, Weir BA, Kirschvink JL.
Evidence for two types of subunits in the bacterioferritin of Magnetospirillum magnetotacticum.
Gene.    impact factor:   2.258
1997;  201(1-2): 31-6

175:  Dobson J.
Investigation of age-related variations in biogenic magnetite levels in the human hippocampus.
Exp Brain Res.    impact factor:   2.246
2002;  144(1): 122-6

176:  Kuhlman KR, Martens RL, Kelly TF, Evans ND, Miller MK.
Fabrication of specimens of metamorphic magnetite crystals for field ion microscopy and atom probe microanalysis.
Ultramicroscopy.    impact factor:   2.244
2001;  89(1-3): 169-76

177:  Iannotti JP, Baradet TC, Tobin M, Alavi A, Staum M.
Synthesis and characterization of magnetically responsive albumin microspheres containing cis-hydroxyproline for scar inhibition.
J Orthop Res.    impact factor:   2.233
1991;  9(3): 432-44

178:  Schuler D, Baeuerlein E.
Iron-limited growth and kinetics of iron uptake in Magnetospirillum gryphiswaldense.
Arch Microbiol.    impact factor:   2.209
1996;  166(5): 301-7

179:  Lee AP, Brooker LR, Macey DJ, van Bronswijk W, Webb J.
Apatite mineralization in teeth of the chiton Acanthopleura echinata.
Calcif Tissue Int.    impact factor:   2.189
2000;  67(5): 408-15

180:  Reese T, Bjelke B, Porszasz R, Baumann D, Bochelen D, Sauter A, Rudin M.
Regional brain activation by bicuculline visualized by functional magnetic resonance imaging. Time-resolved assessment of bicuculline-induced changes in local cerebral blood volume using an intravascular contrast agent.
NMR Biomed.    impact factor:   2.176
2000;  13(1): 43-9

181:  Davies MJ, Taylor JI, Sachsinger N, Bruce IJ.
Isolation of plasmid DNA using magnetite as a solid-phase adsorbent.
Anal Biochem.    impact factor:   2.146
1998;  262(1): 92-4

182:  Shinkai M, Ueda K, Ohtsu S, Honda H, Kohri K, Kobayashi T.
Effect of functional magnetic particles on radiofrequency capacitive heating: an in vivo study.
Jpn J Cancer Res.    impact factor:   2.12
2002;  93(1): 103-8

183:  Shinkai M, Le B, Honda H, Yoshikawa K, Shimizu K, Saga S, Wakabayashi T, Yoshida J, Kobayashi T.
Targeting hyperthermia for renal cell carcinoma using human MN antigen-specific magnetoliposomes.
Jpn J Cancer Res.    impact factor:   2.12
2001;  92(10): 1138-45

184:  Shinkai M, Ueda K, Ohtsu S, Honda H, Kohri K, Kobayashi T.
Effect of functional magnetic particles on radiofrequency capacitive heating.
Jpn J Cancer Res.    impact factor:   2.12
1999;  90(6): 699-704

185:  Yanase M, Shinkai M, Honda H, Wakabayashi T, Yoshida J, Kobayashi T.
Intracellular hyperthermia for cancer using magnetite cationic liposomes: an in vivo study.
Jpn J Cancer Res.    impact factor:   2.12
1998;  89(4): 463-9

186:  Yanase M, Shinkai M, Honda H, Wakabayashi T, Yoshida J, Kobayashi T.
Antitumor immunity induction by intracellular hyperthermia using magnetite cationic liposomes.
Jpn J Cancer Res.    impact factor:   2.12
1998;  89(7): 775-82

187:  Yanase M, Shinkai M, Honda H, Wakabayashi T, Yoshida J, Kobayashi T.
Intracellular hyperthermia for cancer using magnetite cationic liposomes: ex vivo study.
Jpn J Cancer Res.    impact factor:   2.12
1997;  88(7): 630-2

188:  Shinkai M, Yanase M, Honda H, Wakabayashi T, Yoshida J, Kobayashi T.
Intracellular hyperthermia for cancer using magnetite cationic liposomes: in vitro study.
Jpn J Cancer Res.    impact factor:   2.12
1996;  87(11): 1179-83

189:  Matsunaga T, Togo H, Kikuchi T, Tanaka T.
Production of luciferase-magnetic particle complex by recombinant Magnetospirillum sp. AMB-1.
Biotechnol Bioeng.    impact factor:   2.115
2000;  70(6): 704-9

190:  Holland HD, Beukes NJ.
A paleoweathering profile from Griqualand West, South Africa: evidence for a dramatic rise in atmospheric oxygen between 2.2 and 1.9 bybp.
Am J Sci.    impact factor:   2.071
1990;  290-A: 1-34

191:  Arias JL, Gallardo V, Gomez-Lopera SA, Plaza RC, Delgado AV.
Synthesis and characterization of poly(ethyl-2-cyanoacrylate) nanoparticles with a magnetic core.
J Control Release.    impact factor:   2.059
2001;  77(3): 309-21

192:  Oh SH, Choi SY, Lee YK, Kim KN.
Research on annihilation of cancer cells by glass-ceramics for cancer treatment with external magnetic field. I. Preparation and cytotoxicity.
J Biomed Mater Res.    impact factor:   2.038
2001;  54(3): 360-5

193:  Takegami K, Sano T, Wakabayashi H, Sonoda J, Yamazaki T, Morita S, Shibuya T, Uchida A.
New ferromagnetic bone cement for local hyperthermia.
J Biomed Mater Res.    impact factor:   2.038
1998;  43(2): 210-4

194:  Hafeli UO, Sweeney SM, Beresford BA, Sim EH, Macklis RM.
Magnetically directed poly(lactic acid) 90Y-microspheres: novel agents for targeted intracavitary radiotherapy.
J Biomed Mater Res.    impact factor:   2.038
1994;  28(8): 901-8

195:  Dobson J, Grassi P.
Magnetic properties of human hippocampal tissue--evaluation of artefact and contamination sources.
Brain Res Bull.    impact factor:   1.977
1996;  39(4): 255-9

196:  Dunn JR, Fuller M, Zoeger J, Dobson J, Heller F, Hammann J, Caine E, Moskowitz BM.
Magnetic material in the human hippocampus.
Brain Res Bull.    impact factor:   1.977
1995;  36(2): 149-53

197:  Loster K, Seidel S, Kirstein D, Schneider F, Noll F.
Novel antibody coating of a magnetizable solid phase for use in enzyme immunoassays.
J Immunol Methods.    impact factor:   1.95
1992;  148(1-2): 41-7

198:  Qian X, Zhao JG, Liu CL, Guo CH.
Magnetic anisotropy of the radula of chiton Acanthochiton rubrolinestus LISCHKE.
Bioelectromagnetics.    impact factor:   1.919
2002;  23(6): 480-4

199:  Pickard WF, Moros EG.
Energy deposition processes in biological tissue: nonthermal biohazards seem unlikely in the ultra-high frequency range.
Bioelectromagnetics.    impact factor:   1.919
2001;  22(2): 97-105

200:  Prato FS, Kavaliers M, Thomas AW.
Extremely low frequency magnetic fields can either increase or decrease analgaesia in the land snail depending on field and light conditions.
Bioelectromagnetics.    impact factor:   1.919
2000;  21(4): 287-301

201:  Prato FS, Kavaliers M, Carson JJ.
Behavioural evidence that magnetic field effects in the land snail, Cepaea nemoralis, might not depend on magnetite or induced electric currents.
Bioelectromagnetics.    impact factor:   1.919
1996;  17(2): 123-30

202:  Kirschvink JL.
Microwave absorption by magnetite: a possible mechanism for coupling nonthermal levels of radiation to biological systems.
Bioelectromagnetics.    impact factor:   1.919
1996;  17(3): 187-94

203:  Polk C.
Effects of extremely-low-frequency magnetic fields on biological magnetite.
Bioelectromagnetics.    impact factor:   1.919
1994;  15(3): 261-70

204:  Adair RK.
Effects of ELF magnetic fields on biological magnetite.
Bioelectromagnetics.    impact factor:   1.919
1993;  14(1): 1-4

205:  Kirschvink JL, Kobayashi-Kirschvink A, Diaz-Ricci JC, Kirschvink SJ.
Magnetite in human tissues: a mechanism for the biological effects of weak ELF magnetic fields.
Bioelectromagnetics.    impact factor:   1.919
1992;  Suppl 1: 101-13

206:  Barnes FS.
Some engineering models for interactions of electric and magnetic fields with biological systems.
Bioelectromagnetics.    impact factor:   1.919
1992;  Suppl 1: 67-85

207:  Chen JP, Su DR.
Latex particles with thermo-flocculation and magnetic properties for immobilization of alpha-chymotrypsin.
Biotechnol Prog.    impact factor:   1.897
2001;  17(2): 369-75

208:  Horak D, Rittich B, Safar J, Spanova A, Lenfeld J, Benes MJ.
Properties of RNase A immobilized on magnetic Poly(2-hydroxyethyl methacrylate) microspheres.
Biotechnol Prog.    impact factor:   1.897
2001;  17(3): 447-52

209:  Viroonchatapan E, Sato H, Ueno M, Adachi I, Tazawa K, Horikoshi I.
Magnetic targeting of thermosensitive magnetoliposomes to mouse livers in an in situ on-line perfusion system.
Life Sci.    impact factor:   1.774
1996;  58(24): 2251-61

210:  Hilger I, Hiergeist R, Hergt R, Winnefeld K, Schubert H, Kaiser WA.
Thermal ablation of tumors using magnetic nanoparticles: an in vivo feasibility study.
Invest Radiol.    impact factor:   1.757
2002;  37(10): 580-6

211:  Hilger I, Hergt R, Kaiser WA.
Effects of magnetic thermoablation in muscle tissue using iron oxide particles: an in vitro study.
Invest Radiol.    impact factor:   1.757
2000;  35(3): 170-9

212:  Grimm J, Karger N, Lusse S, Winoto-Morbach S, Krisch B, Muller-Hulsbeck S, Heller M.
Characterization of ultrasmall magnetite [correction of paramagnetic magnetite] particles as superparamagnetic contrast agents in MRI.
Invest Radiol.    impact factor:   1.757
2000;  35(9): 553-6

213:  Frank H, Loewe R, Loewe C, Oberhuber G, Schwaighofer B, Huber K, Weissleder R.
Efficacy of thrombolytic therapy in pulmonary embolism determined by MION-enhanced MRA: an experimental study in rabbits.
Invest Radiol.    impact factor:   1.757
1998;  33(12): 853-7

214:  Knollmann FD, Bock JC, Rautenberg K, Beier J, Ebert W, Felix R.
Differences in predominant enhancement mechanisms of superparamagnetic iron oxide and ultrasmall superparamagnetic iron oxide for contrast-enhanced portal magnetic resonance angiography. Preliminary results of an animal study original investigation.
Invest Radiol.    impact factor:   1.757
1998;  33(9): 637-43

215:  Hilger I, Andra W, Bahring R, Daum A, Hergt R, Kaiser WA.
Evaluation of temperature increase with different amounts of magnetite in liver tissue samples.
Invest Radiol.    impact factor:   1.757
1997;  32(11): 705-12

216:  Muhler A, Zhang X, Wang H, Lawaczeck R, Weinmann HJ.
Investigation of mechanisms influencing the accumulation of ultrasmall superparamagnetic iron oxide particles in lymph nodes.
Invest Radiol.    impact factor:   1.757
1995;  30(2): 98-103

217:  Schulze E, Ferrucci JT Jr, Poss K, Lapointe L, Bogdanova A, Weissleder R.
Cellular uptake and trafficking of a prototypical magnetic iron oxide label in vitro.
Invest Radiol.    impact factor:   1.757
1995;  30(10): 604-10

218:  Iannone A, Federico M, Tomasi A, Magin RL, Casasco A, Calligaro A, Vannini V.
Detection and quantitation in rat tissues of the superparamagnetic magnetic resonance contrast agent dextran magnetite as demonstrated by electron spin resonance spectroscopy.
Invest Radiol.    impact factor:   1.757
1992;  27(6): 450-5

219:  Schoepf U, Marecos EM, Melder RJ, Jain RK, Weissleder R.
Intracellular magnetic labeling of lymphocytes for in vivo trafficking studies.
Biotechniques.    impact factor:   1.749
1998;  24(4): 642-6, 648-51

220:  Safarik I, Safarikova M.
Detection of low concentrations of malachite green and crystal violet in water.
Water Res.    impact factor:   1.748
2002;  36(1): 196-200

221:  Sarin P, Snoeyink VL, Bebee J, Kriven WM, Clement JA.
Physico-chemical characteristics of corrosion scales in old iron pipes.
Water Res.    impact factor:   1.748
2001;  35(12): 2961-9

222:  Lins U, Kachar B, Farina M.
Imaging faces of shadowed magnetite (Fe(3)O(4)) crystals from magnetotactic bacteria with energy-filtering transmission electron microscopy.
Microsc Res Tech.    impact factor:   1.746
1999;  46(4-5): 319-24

223:  Lins U, Farina M.
Magnetosome size distribution in uncultured rod-shaped bacteria as determined by electron microscopy and electron spectroscopic imaging.
Microsc Res Tech.    impact factor:   1.746
1998;  42(6): 459-64

224:  Bazylinski DA, Garratt-Reed AJ, Frankel RB.
Electron microscopic studies of magnetosomes in magnetotactic bacteria.
Microsc Res Tech.    impact factor:   1.746
1994;  27(5): 389-401

225:  Zolotov MYu, Shock EL.
An abiotic origin for hydrocarbons in the Allan Hills 84001 martian meteorite through cooling of magmatic and impact-generated gases.
Meteorit Planet Sci.    impact factor:   1.679
2000;  35(3): 629-38

226:  Treiman AH.
The history of Allan Hills 84001 revised: multiple shock events.
Meteorit Planet Sci.    impact factor:   1.679
1998;  33(4): 753-64

227:  Bradley JP, McSween HY Jr, Harvey RP.
Epitaxial growth of nanophase magnetite in Martian meteorite Allan Hills 84001: implications for biogenic mineralization.
Meteorit Planet Sci.    impact factor:   1.679
1998;  33(4): 765-73

228:  Kawaguchi R, Burgess JG, Sakaguchi T, Takeyama H, Thornhill RH, Matsunaga T.
Phylogenetic analysis of a novel sulfate-reducing magnetic bacterium, RS-1, demonstrates its membership of the delta-Proteobacteria.
FEMS Microbiol Lett.    impact factor:   1.673
1995;  126(3): 277-82

229:  Denizli A, Say R.
Preparation of magnetic dye affinity adsorbent and its use in the removal of aluminium ions.
J Biomater Sci Polym Ed.    impact factor:   1.669
2001;  12(10): 1059-73

230:  Hafeli UO, Sweeney SM, Beresford BA, Humm JL, Macklis RM.
Effective targeting of magnetic radioactive 90Y-microspheres to tumor cells by an externally applied magnetic field. Preliminary in vitro and in vivo results.
Nucl Med Biol.    impact factor:   1.623
1995;  22(2): 147-55

231:  Keim CN, Cruz-Landim C, Carneiro FG, Farina M.
Ferritin in iron containing granules from the fat body of the honeybees Apis mellifera and Scaptotrigona postica.
Micron.    impact factor:   1.593
2002;  33(1): 53-9

232:  Zuo JM, Pacaud J, Hoier R, Spence JC.
Experimental measurement of electron diffuse scattering in magnetite using energy-filter and imaging plates
Micron.    impact factor:   1.593
2000;  31(5): 527-32

233:  Morgan A, Talbot RJ.
Acid leaching studies of neutron-irradiated chyrsotile asbestos.
Ann Occup Hyg.    impact factor:   1.577
1997;  41(3): 269-79

234:  Anastassakis GN.
Separation of fine mineral particles by selective magnetic coating.
J Colloid Interface Sci.    impact factor:   1.494
2002;  256(1): 114-20

235:  Machesky ML, Wesolowski DJ, Palmer DA, Ridley MK.
On the Temperature Dependence of Intrinsic Surface Protonation Equilibrium Constants: An Extension of the Revised MUSIC Model.
J Colloid Interface Sci.    impact factor:   1.494
2001;  239(2): 314-327

236:  Marmier N.
Using CCM for the Prediction of Sorption Curves under Varying Ionic Strength Conditions: Reply to Some Comments.
J Colloid Interface Sci.    impact factor:   1.494
2001;  237(2): 299-300

237:  Lutzenkirchen J.
Oxide Surface Behavior in Aqueous Electrolytes: An Example of Inconsistent Modeling.
J Colloid Interface Sci.    impact factor:   1.494
2001;  237(2): 297-298

238:  Gomez-Lopera SA, Plaza RC, Delgado AV.
Synthesis and Characterization of Spherical Magnetite/Biodegradable Polymer Composite Particles.
J Colloid Interface Sci.    impact factor:   1.494
2001;  240(1): 40-47

239:  Ebner AD, Ritter JA, Ploehn HJ.
Magnetic Hetero-flocculation of Paramagnetic Colloidal Particles.
J Colloid Interface Sci.    impact factor:   1.494
2000;  225(1): 39-46

240:  Marmier N, Fromage F.
Sorption of Cs(I) on Magnetite in the Presence of Silicates.
J Colloid Interface Sci.    impact factor:   1.494
2000;  223(1): 83-88

241:  Szabo D, Czako-Nagy I I, Zrinyi M, Vertes A.
Magnetic and Mossbauer Studies of Magnetite-Loaded Polyvinyl Alcohol Hydrogels.
J Colloid Interface Sci.    impact factor:   1.494
2000;  221(2): 166-172

242:  Donselaar LN, Philipse AP.
Interactions between Silica Colloids with Magnetite Cores: Diffusion, Sedimentation and Light Scattering.
J Colloid Interface Sci.    impact factor:   1.494
1999;  212(1): 14-23

243:  Qu S, Yang H, Ren D, Kan S, Zou G, Li D, Li M.
Magnetite Nanoparticles Prepared by Precipitation from Partially Reduced Ferric Chloride Aqueous Solutions.
J Colloid Interface Sci.    impact factor:   1.494
1999;  215(1): 190-192

244:  Shen J, Ebner AD, Ritter JA.
Points of Zero Charge and Intrinsic Equilibrium Constants of Silica-Magnetite Composite Oxides.
J Colloid Interface Sci.    impact factor:   1.494
1999;  214(2): 333-343

245:  Zaitsev VS, Filimonov DS, Presnyakov IA, Gambino RJ, Chu B.
Physical and Chemical Properties of Magnetite and Magnetite-Polymer Nanoparticles and Their Colloidal Dispersions.
J Colloid Interface Sci.    impact factor:   1.494
1999;  212(1): 49-57

246:  Marmier N, Delisee A, Fromage F.
Surface Complexation Modeling of Yb(III), Ni(II), and Cs(I) Sorption on Magnetite.
J Colloid Interface Sci.    impact factor:   1.494
1999;  211(1): 54-60

247:  Chin CJ, Yiacoumi S, Tsouris C.
Shear-Induced Flocculation of Colloidal Particles in Stirred Tanks.
J Colloid Interface Sci.    impact factor:   1.494
1998;  206(2): 532-545

248:  Garcell L, Morales MP, Andres-Verges M, Tartaj P, Serna CJ.
Interfacial and Rheological Characteristics of Maghemite Aqueous Suspensions.
J Colloid Interface Sci.    impact factor:   1.494
1998;  205(2): 470-475

249:  Sun ZX, Su FW, Forsling W, Samskog PO.
Surface Characteristics of Magnetite in Aqueous Suspension
J Colloid Interface Sci.    impact factor:   1.494
1998;  197(1): 151-9

250:  Vayssieres L, Chaneac C, Tronc E, Jolivet JP.
Size Tailoring of Magnetite Particles Formed by Aqueous Precipitation: An Example of Thermodynamic Stability of Nanometric Oxide Particles.
J Colloid Interface Sci.    impact factor:   1.494
1998;  205(2): 205-212

251:  Frini A, El Maaoui M.
Influence of Nitrate and Perchlorate Anions on the Kinetics of the Goethite Formation.
J Colloid Interface Sci.    impact factor:   1.494
1998;  208(2): 373-378

252:  Raju GB, Holmgren A, Forsling W.
Adsorption of Dextrin at Mineral/Water Interface
J Colloid Interface Sci.    impact factor:   1.494
1997;  193(2): 215-22

253:  Mendenhall GD, Geng Y, Hwang J.
Optimization of Long-Term Stability of Magnetic Fluids from Magnetite and Synthetic Polyelectrolytes
J Colloid Interface Sci.    impact factor:   1.494
1996;  184(2): 519-26

254:  Straub KL, Hanzlik M, Buchholz-Cleven BE.
The use of biologically produced ferrihydrite for the isolation of novel iron-reducing bacteria.
Syst Appl Microbiol.    impact factor:   1.49
1998;  21(3): 442-9

255:  Rudee ML, Smith DJ, Margulies DT.
Electron Crystallography of Room Temperature Charge Ordering in Fe(3)O(4).
Microsc Microanal.    impact factor:   1.488
2000;  6(4): 400-402

256:  Zhang Y, Kohler N, Zhang M.
Surface modification of superparamagnetic magnetite nanoparticles and their intracellular uptake.
Biomaterials.    impact factor:   1.486
2002;  23(7): 1553-61

257:  Ebisawa Y, Miyaji F, Kokubo T, Ohura K, Nakamura T.
Bioactivity of ferrimagnetic glass-ceramics in the system FeO-Fe2O3-CaO-SiO2.
Biomaterials.    impact factor:   1.486
1997;  18(19): 1277-84

258:  Arshady R.
Microspheres for biomedical applications: preparation of reactive and labelled microspheres.
Biomaterials.    impact factor:   1.486
1993;  14(1): 5-15

259:  Kokubo T.
Bioactive glass ceramics: properties and applications.
Biomaterials.    impact factor:   1.486
1991;  12(2): 155-63

260:  Wisner ER, Amparo EG, Vera DR, Brock JM, Barlow TW, Griffey SM, Drake C, Katzberg RW.
Arabinogalactan-coated superparamagnetic iron oxide: effect of particle size in liver MRI.
J Comput Assist Tomogr.    impact factor:   1.484
1995;  19(2): 211-5

261:  Coe EM, Bowen LH, Speer JA, Bereman RD.
Comparison of polysaccharide iron complexes used as iron supplements.
J Inorg Biochem.    impact factor:   1.463
1995;  57(4): 287-92

262:  Yoza B, Matsumoto M, Matsunaga T.
DNA extraction using modified bacterial magnetic particles in the presence of amino silane compound.
J Biotechnol.    impact factor:   1.458
2002;  94(3): 217-24

263:  Venditti D, Berthelin J, Durecu S.
A multidisciplinary approach to assess history, environmental risks, and remediation feasability of soils contaminated by metallurgical activities. Part B: direct metal speciation in the solid phase.
Arch Environ Contam Toxicol.    impact factor:   1.437
2000;  38(4): 421-7

264:  Odegard M, Mansfeld J, Dundas SH.
Preparation of calibration materials for microanalysis of Ti minerals by direct fusion of synthetic and natural materials: experience with LA-ICP-MS analysis of some important minor and trace elements in ilmenite and rutile.
Fresenius J Anal Chem.    impact factor:   1.418
2001;  370(7): 819-27

265:  Briggs RW, Wu Z, Mladinich CR, Stoupis C, Gauger J, Liebig T, Ros PR, Ballinger JR, Kubilis P.
In vivo animal tests of an artifact-free contrast agent for gastrointestinal MRI.
Magn Reson Imaging.    impact factor:   1.389
1997;  15(5): 559-66

266:  Rudin M, Beckmann N, Sauter A.
Analysis of tracer transit in rat brain after carotid artery and femoral vein administrations using linear system theory.
Magn Reson Imaging.    impact factor:   1.389
1997;  15(5): 551-8

267:  Mascalchi M, Jin XN, Agen C, Petruzzi P, Nardini D, Tessa C, Caramella D, Bartolozzi C.
Ex-vivo MR imaging of liver intracellular contrast agents.
Magn Reson Imaging.    impact factor:   1.389
1997;  15(4): 469-74

268:  Sjogren CE, Johansson C, Naevestad A, Sontum PC, Briley-Saebo K, Fahlvik AK.
Crystal size and properties of superparamagnetic iron oxide (SPIO) particles.
Magn Reson Imaging.    impact factor:   1.389
1997;  15(1): 55-67

269:  Tiefenauer LX, Tschirky A, Kuhne G, Andres RY.
In vivo evaluation of magnetite nanoparticles for use as a tumor contrast agent in MRI.
Magn Reson Imaging.    impact factor:   1.389
1996;  14(4): 391-402

270:  Johnson WK, Stoupis C, Torres GM, Rosenberg EB, Ros PR.
Superparamagnetic iron oxide (SPIO) as an oral contrast agent in gastrointestinal (GI) magnetic resonance imaging (MRI): comparison with state-of-the-art computed tomography (CT).
Magn Reson Imaging.    impact factor:   1.389
1996;  14(1): 43-9

271:  Jung CW.
Surface properties of superparamagnetic iron oxide MR contrast agents: ferumoxides, ferumoxtran, ferumoxsil.
Magn Reson Imaging.    impact factor:   1.389
1995;  13(5): 675-91

272:  Jung CW, Jacobs P.
Physical and chemical properties of superparamagnetic iron oxide MR contrast agents: ferumoxides, ferumoxtran, ferumoxsil.
Magn Reson Imaging.    impact factor:   1.389
1995;  13(5): 661-74

273:  Krieg FM, Andres RY, Winterhalter KH.
Superparamagnetically labelled neutrophils as potential abscess-specific contrast agent for MRI.
Magn Reson Imaging.    impact factor:   1.389
1995;  13(3): 393-400

274:  Bader A, Reimer P, Knop E, Boker K, Christians U, Weissleder R, Sewing KF.
An organotypical in vitro model of the liver parenchyma for uptake studies of diagnostic MR receptor agents.
Magn Reson Imaging.    impact factor:   1.389
1995;  13(7): 991-1002

275:  Vlahos L, Gouliamos A, Athanasopoulou A, Kotoulas G, Claus W, Hatziioannou A, Kalovidouris A, Papavasiliou C.
A comparative study between Gd-DTPA and oral magnetic particles (OMP) as gastrointestinal (GI) contrast agents for MRI of the abdomen.
Magn Reson Imaging.    impact factor:   1.389
1994;  12(5): 719-26

276:  Kubo T, Sugita T, Shimose S, Nitta Y, Ikuta Y, Murakami T.
Targeted systemic chemotherapy using magnetic liposomes with incorporated adriamycin for osteosarcoma in hamsters.
Int J Oncol.    impact factor:   1.381
2001;  18(1): 121-5

277:  Minamimura T, Sato H, Kasaoka S, Saito T, Ishizawa S, Takemori S, Tazawa K, Tsukada K.
Tumor regression by inductive hyperthermia combined with hepatic embolization using dextran magnetite-incorporated microspheres in rats.
Int J Oncol.    impact factor:   1.381
2000;  16(6): 1153-8

278:  Morrison SJ, Metzler DR, Dwyer BP.
Removal of As, Mn, Mo, Se, U, V and Zn from groundwater by zero-valent iron in a passive treatment cell: reaction progress modeling.
J Contam Hydrol.    impact factor:   1.351
2002;  56(1-2): 99-116

279:  Ritter K, Odziemkowski MS, Gillham RW.
An in situ study of the role of surface films on granular iron in the permeable iron wall technology.
J Contam Hydrol.    impact factor:   1.351
2002;  55(1-2): 87-111

280:  Levine RL, Dooley JK, Bluni TD.
Magnetic field effects on spatial discrimination and melatonin levels in mice.
Physiol Behav.    impact factor:   1.285
1995;  58(3): 535-7

281:  Levine RL, Bluni TD.
Magnetic field effects on spatial discrimination learning in mice.
Physiol Behav.    impact factor:   1.285
1994;  55(3): 465-7

282:  Hodenius M, De Cuyper M, Desender L, Muller-Schulte D, Steigel A, Lueken H.
Biotinylated Stealth(R) magnetoliposomes.
Chem Phys Lipids.    impact factor:   1.266
2002;  120(1-2): 75-85

283:  Krause M, Kwong KK, Xiong J, Gragoudas ES, Young LH.
MRI of blood volume and cellular uptake of superparamagnetic iron in an animal model of choroidal melanoma.
Ophthalmic Res.    impact factor:   1.257
2002;  34(4): 241-50

284:  Shinkai M, Suzuki M, Iijima S, Kobayashi T.
Antibody-conjugated magnetoliposomes for targeting cancer cells and their application in hyperthermia.
Biotechnol Appl Biochem.    impact factor:   1.216
1995;  21 ( Pt 2): 125-37

285:  Suzuki M, Shinkai M, Kamihira M, Kobayashi T.
Preparation and characteristics of magnetite-labelled antibody with the use of poly(ethylene glycol) derivatives.
Biotechnol Appl Biochem.    impact factor:   1.216
1995;  21 ( Pt 3): 335-45

286:  de Cuyper M, Joniau M.
Binding characteristics and thermal behaviour of cytochrome-C oxidase, inserted into phospholipid-coated, magnetic nanoparticles.
Biotechnol Appl Biochem.    impact factor:   1.216
1992;  16(2): 201-10

287:  To SY, Castro DJ, Lufkin RB, Soudant J, Saxton RE.
Monoclonal antibody-coated magnetite particles as contrast agents for MR imaging and laser therapy of human tumors.
J Clin Laser Med Surg.    impact factor:   1.205
1992;  10(3): 159-69

288:  Adamo P, Arienzo M, Bianco MR, Terribile F, Violante P.
Heavy metal contamination of the soils used for stocking raw materials in the former ILVA iron-steel industrial plant of Bagnoli (southern Italy).
Sci Total Environ.    impact factor:   1.126
2002;  295(1-3): 17-34

289:  Zhang W, Yu L, Hutchinson SM.
Diagenesis of magnetic minerals in the intertidal sediments of the Yangtze Estuary, China, and its environmental significance.
Sci Total Environ.    impact factor:   1.126
2001;  266(1-3): 169-75

290:  Miller JD, Kelly A, Milne FW.
Changes in rainfall chemistry and airborne particulates during a period of major local industrial change.
Sci Total Environ.    impact factor:   1.126
2000;  262(1-2): 137-45

291:  Renevier H, Joly Y, Garcia J, Subias G, Proietti MG, Hodeau JL, Blasco J.
Diffraction anomalous fine structure of forbidden Bragg reflections: charge localization and structure of the octahedral site in magnetite.
J Synchrotron Radiat.    impact factor:   1.114
2001;  8(Pt 2): 390-2

292:  Stahlhofen W, Moller W.
Behaviour of magnetic micro-particles in the human lung.
Radiat Environ Biophys.    impact factor:   1.11
1993;  32(3): 221-38

293:  Lind K, Kresse M, Debus NP, Muller RH.
A novel formulation for superparamagnetic iron oxide (SPIO) particles enhancing MR lymphography: comparison of physicochemical properties and the in vivo behaviour.
J Drug Target.    impact factor:   1.096
2002;  10(3): 221-30

294:  Pulfer SK, Gallo JM.
Enhanced brain tumor selectivity of cationic magnetic polysaccharide microspheres.
J Drug Target.    impact factor:   1.096
1998;  6(3): 215-27

295:  Wallengren NO, Holtas S, Andren-Sandberg A.
Preoperative staging of rectal carcinoma using double-contrast MR imaging. Technical aspects and early clinical experiences.
Acta Radiol.    impact factor:   1.096
1996;  37(5): 791-8

296:  Wakui Y, Ebina T, Matsunaga H, Suzuki TM.
Solvent extraction of arsenic(V) with dispersed ultrafine magnetite particles.
Anal Sci.    impact factor:   1.07
2002;  18(7): 793-8

297:  Hamaya T, Ohta A, Kono T, Aono R, Horikoshi K.
Effect of magnetite on the hematocrit value in exsanguinated rats.
Biosci Biotechnol Biochem.    impact factor:   1.039
1998;  62(5): 993-5

298:  Wang J, Lukse E, Seth A, McCulloch CA.
Use of conditionally immortalized mouse cardiac fibroblasts to examine the effect of mechanical stretch on alpha-smooth muscle actin.
Tissue Cell.    impact factor:   1.028
2001;  33(1): 86-96

299:  Tajima Y, Nagasawa Z, Tanabe I, Yamada H, Kusaba K, Tadano J.
An improved method for the serotyping of free coagulase from Staphylococcus aureus.
Microbiol Immunol.    impact factor:   1.004
1992;  36(12): 1233-7

300:  Mizutani H, Suzuki M, Mizutani H, Fujiwara K, Shibata S, Arishima K, Hoshino M, Ushijima H, Honma H, Kitamura T.
Sensitive detection of viral antigens with a new method, "laser magnet immunoassay".
Microbiol Immunol.    impact factor:   1.004
1991;  35(9): 717-27

301:  Omi S, Kanetaka A, Shimamori Y, Supsakulchai A, Nagai M, Ma GH.
Magnetite (Fe3O4) microcapsules prepared using a glass membrane and solvent removal.
J Microencapsul.    impact factor:   .991
2001;  18(6): 749-65

302:  Domingo JC, Mercadal M, Petriz J, De Madariaga MA.
Preparation of PEG-grafted immunomagnetoliposomes entrapping citrate stabilized magnetite particles and their application in CD34+ cell sorting.
J Microencapsul.    impact factor:   .991
2001;  18(1): 41-54

303:  Sukhorukov GB, Donath E, Moya S, Susha AS, Voigt A, Hartmann J, Mohwald H.
Microencapsulation by means of step-wise adsorption of polyelectrolytes.
J Microencapsul.    impact factor:   .991
2000;  17(2): 177-85

304:  Chouly C, Pouliquen D, Lucet I, Jeune JJ, Jallet P.
Development of superparamagnetic nanoparticles for MRI: effect of particle size, charge and surface nature on biodistribution.
J Microencapsul.    impact factor:   .991
1996;  13(3): 245-55

305:  Jain SK, Vyas SP.
Magnetically responsive diclofenac sodium-loaded erythrocytes: preparation and in vitro characterization.
J Microencapsul.    impact factor:   .991
1994;  11(2): 141-51

306:  Vyas SP, Jain SK.
Preparation and in vitro characterization of a magnetically responsive ibuprofen-loaded erythrocytes carrier.
J Microencapsul.    impact factor:   .991
1994;  11(1): 19-29

307:  Pande SK, Vyas SP, Dixit VK.
Hydroxy-urea bearing albumin microspheres--preparation, characterization and evaluation.
J Microencapsul.    impact factor:   .991
1991;  8(1): 9-19

308:  Lalla JK, Ahuja PL.
Drug targeting using non-magnetic and magnetic albumin-globulin mix microspheres of mefenamic acid.
J Microencapsul.    impact factor:   .991
1991;  8(1): 37-52

309:  Hanzlik M, Heunemann C, Holtkamp-Rotzler E, Winklhofer M, Petersen N, Fleissner G.
Superparamagnetic magnetite in the upper beak tissue of homing pigeons.
Biometals.    impact factor:   .978
2000;  13(4): 325-31

310:  Pardoe H, Dobson J.
Magnetic iron biomineralization in rat brains: effects of iron loading.
Biometals.    impact factor:   .978
1999;  12(1): 77-82

311:  Schultheiss-Grassi PP, Dobson J.
Magnetic analysis of human brain tissue.
Biometals.    impact factor:   .978
1999;  12(1): 67-72

312:  Grassi-Schultheiss PP, Heller F, Dobson J.
Analysis of magnetic material in the human heart, spleen and liver.
Biometals.    impact factor:   .978
1997;  10(4): 351-5

313:  Mitamura Y, Wada T, Okamoto E.
Ferromagnetic artificial cells for artificial circulation.
ASAIO J.    impact factor:   .976
1996;  42(5): M402-6

314:  Igartua M, Saulnier P, Heurtault B, Pech B, Proust JE, Pedraz JL, Benoit JP.
Development and characterization of solid lipid nanoparticles loaded with magnetite.
Int J Pharm.    impact factor:   .952
2002;  233(1-2): 149-57

315:  Jordan A, Scholz R, Wust P, Fahling H, Krause J, Wlodarczyk W, Sander B, Vogl T, Felix R.
Effects of magnetic fluid hyperthermia (MFH) on C3H mammary carcinoma in vivo.
Int J Hyperthermia.    impact factor:   .952
1997;  13(6): 587-605

316:  Jordan A, Wust P, Scholz R, Tesche B, Fahling H, Mitrovics T, Vogl T, Cervos-Navarro J, Felix R.
Cellular uptake of magnetic fluid particles and their effects on human adenocarcinoma cells exposed to AC magnetic fields in vitro.
Int J Hyperthermia.    impact factor:   .952
1996;  12(6): 705-22

317:  Mitsumori M, Hiraoka M, Shibata T, Okuno Y, Masunaga S, Koishi M, Okajima K, Nagata Y, Nishimura Y, Abe M, et al.
Development of intra-arterial hyperthermia using a dextran-magnetite complex.
Int J Hyperthermia.    impact factor:   .952
1994;  10(6): 785-93

318:  Chen ZP, Roemer RB, Cetas TC.
Errors in the two-dimensional simulation of ferromagnetic implant hyperthermia.
Int J Hyperthermia.    impact factor:   .952
1991;  7(5): 735-9

319:  Teotia S, Gupta MN.
Magnetite-alginate beads for purification of some starch degrading enzymes.
Mol Biotechnol.    impact factor:   .939
2002;  20(3): 231-7

320:  Elias Z, Poirot O, Schneider O, Marande AM, Daniere MC, Terzetti F, Pezerat H, Fournier J, Zalma R.
Cytotoxic and transforming effects of some iron-containing minerals in Syrian hamster embryo cells.
Cancer Detect Prev.    impact factor:   .927
1995;  19(5): 405-14

321:  Mitsumori M, Hiraoka M, Shibata T, Okuno Y, Nagata Y, Nishimura Y, Abe M, Hasegawa M, Nagae H, Ebisawa Y.
Targeted hyperthermia using dextran magnetite complex: a new treatment modality for liver tumors.
Hepatogastroenterology.    impact factor:   .905
1996;  43(12): 1431-7

322:  Vlahos L, Gouliamos A, Kalovidouris A, Athanasopoulou A, Kotoulas G, Lygidakis N, Liaou A, Matsaidonis D, Papavasiliou C.
Oral magnetic particles as a contrast agent for MR imaging of the abdomen. A phase III clinical trial.
Hepatogastroenterology.    impact factor:   .905
1994;  41(1): 82-5

323:  Kellar KE, Fujii DK, Gunther WH, Briley-Saebo K, Bjornerod A, Spiller M, Koenig SH.
Important considerations in the design of iron oxide nanoparticles as contrast agents for TI-weighted MRI and MRA.
Acad Radiol.    impact factor:   .904
2002;  9 Suppl 1: S34-7

324:  Bulte JW, Zhang SC, van Gelderen P, Herynek V, Jordan EK, Janssen CH, Duncan ID, Frank JA.
Magnetically labeled glial cells as cellular MR contrast agents.
Acad Radiol.    impact factor:   .904
2002;  9 Suppl 1: S148-50

325:  Koenig SH, Kellar KE, Fujii DK, Gunther WH, Briley-Saebo K, Spiller M.
Three types of physical measurements needed to characterize iron oxide nanoparticles for MRI and MRA: magnetization, relaxometry, and light scattering.
Acad Radiol.    impact factor:   .904
2002;  9 Suppl 1: S5-10

326:  Hilger I, Fruhauf K, Andra W, Hiergeist R, Hergt R, Kaiser WA.
Heating potential of iron oxides for therapeutic purposes in interventional radiology.
Acad Radiol.    impact factor:   .904
2002;  9(2): 198-202

327:  Bulte JW, Brooks RA, Moskowitz BM, Bryant LH Jr, Frank JA.
T1 and T2 relaxometry of monocrystalline iron oxide nanoparticles (MION-46L): theory and experiment.
Acad Radiol.    impact factor:   .904
1998;  5 Suppl 1: S137-40; discussion S145-6

328:  Benderbous S, Corot C, Jacobs P, Bonnemain B.
Superparamagnetic agents: physicochemical characteristics and preclinical imaging evaluation.
Acad Radiol.    impact factor:   .904
1996;  3 Suppl 2: S292-4

329:  Koenig SH, Kellar KE.
Theory of proton relaxation in solutions of magnetic nanoparticles, including the superparamagnetic size range.
Acad Radiol.    impact factor:   .904
1996;  3 Suppl 2: S273-6

330:  Khangure MS, Hua J.
Comparative assessment of gadoxetate disodium, manganese dipyridoxal diphosphate, and superparamagnetic iron oxide for enhancement of the liver in dogs.
Acad Radiol.    impact factor:   .904
1996;  3 Suppl 2: S458-60

331:  Terrier F, Tourniaire J, Belenger J, Slosman D, Rubbia L, Grossholz M, Mentha G, Hiltbrand E, Mermillod B.
Magnetic resonance imaging with superparamagnetic iron oxide particles to evaluate hepatic macrophage-monocytic phagocytosis after arterial devascularization in minipigs.
Acad Radiol.    impact factor:   .904
1995;  2(7): 565-75

332:  Reimer P, Bader A, Weissleder R.
Application of a stable cell culture assay for the functional assessment of novel MR contrast agents.
Eur Radiol.    impact factor:   .897
1997;  7(4): 527-31

333:  Yamashita Y, Yamamoto H, Hirai A, Yoshimatsu S, Baba Y, Takahashi M.
MR imaging enhancement with superparamagnetic iron oxide in chronic liver disease: influence of liver dysfunction and parenchymal pathology.
Abdom Imaging.    impact factor:   .891
1996;  21(4): 318-23

334:  Jang KH, Song KB, Park BS, Kim CH, Chung BH, Choue RW, Lee KS, Lee C, Chun UH, Rhee SK.
Levan production by use of the recombinant levansucrase immobilized on titanium-activated magnetite.
Process Biochem.    impact factor:   .874
200;  37(4): 339-343

335:  Masuko Y, Tazawa K, Viroonchatapan E, Takemori S, Shimizu T, Fujimaki M, Nagae H, Sato H, Horikoshi I.
Possibility of thermosensitive magnetoliposomes as a new agent for electromagnetic induced hyperthermia.
Biol Pharm Bull.    impact factor:   .844
1995;  18(12): 1802-4

336:  Peroni CN, Ribela MT, Bartolini P.
Sensitive human thyrotropin immunoradiometric assay set up by the identification and minimization of nonspecific bindings.
J Immunoassay.    impact factor:   .821
1997;  18(3): 247-65

337:  Petropoulos AE, Schaffer BK, Cheney ML, Enochs S, Zimmer C, Weissleder R.
MR imaging of neuronal transport in the guinea pig facial nerve: initial findings.
Acta Otolaryngol.    impact factor:   .812
1995;  115(4): 512-6

338:  Fan Y, Preti RA, Ahmed T, Ciavarella D.
Selection and purification of CD34+ cells using monoclonal antibody and ferrofluids.
Prog Clin Biol Res.    impact factor:   .782
1994;  389: 309-15

339:  Fletcher RC, Piccoli SP.
Capacity of a colloidal goat anti-mouse IgG ferrofluid to negatively deplete cells.
Prog Clin Biol Res.    impact factor:   .782
1994;  389: 79-87

340:  Plavins J, Harris J, Roath S, Smith RJ, Richards AJ.
Colloidal magnetite-bound blood cells: their potential in separation technology.
Prog Clin Biol Res.    impact factor:   .782
1992;  377: 245-50

341:  Moller W, Barth W, Pohlit W, Rust M, Siekmeier R, Stahlhofen W, Heyder J.
Smoking impairs alveolar macrophage activation after inert dust exposure.
Toxicol Lett.    impact factor:   .773
1996;  88(1-3): 131-7

342:  Stahlhofen W, Moller W.
In vivo and in vitro studies of the cellular defense system of the human lung.
Toxicol Lett.    impact factor:   .773
1994;  72(1-3): 127-36

343:  Stahlhofen W, Moller W.
Investigation of the defense system of the human lungs with ferrimagnetic particles.
J Aerosol Med.    impact factor:   .771
1992;  5(4): 221-8

344:  Green CR, Holloway H, Walker MM.
Detection of submicroscopic magnetite particles using reflectance mode confocal laser scanning microscopy.
Cell Biol Int.    impact factor:   .731
2001;  25(10): 985-90

345:  Sengupta D, Kumar R, Singh AK, Prasad R.
Radon exhalation and radiometric prospecting on rocks associated with Cu-U mineralizations in the Singhbhum shear zone, Bihar.
Appl Radiat Isot.    impact factor:   .716
2001;  55(6): 889-94

346:  Babincova M, Altanerova V, Lampert M, Altaner C, Machova E, Sramka M, Babinec P.
Site-specific in vivo targeting of magnetoliposomes using externally applied magnetic field.
Z Naturforsch [C].    impact factor:   .709
2000;  55(3-4): 278-81

347:  Babincova M, Machova E.
Magnetoliposomes may be useful for elimination of HIV from infected individuals.
Z Naturforsch [C].    impact factor:   .709
1998;  53(9-10): 935-6

348:  Hardy AD, Vaishnav R, Al-Kharusi SS, Sutherland HH, Worthing MA.
Composition of eye cosmetics (kohls) used in Oman.
J Ethnopharmacol.    impact factor:   .687
1998;  60(3): 223-34

349:  Babincova M, Sourivong P, Leszczynska D, Babinec P.
Blood-specific whole-body electromagnetic hyperthermia.
Med Hypotheses.    impact factor:   .678
2000;  55(6): 459-60

350:  Shao T.
EMF-cancer link: the ferritin hypothesis.
Med Hypotheses.    impact factor:   .678
1993;  41(1): 28-30

351:  Furukawa Y, Aizawa Y, Okada M, Watanabe M, Niitsuya M, Kotani M.
Negative effect of photocopier toner on alveolar macrophages determined by in vitro magnetometric evaluation.
Ind Health.    impact factor:   .651
2002;  40(2): 214-21

352:  Roullin VG, Deverre JR, Lemaire L, Hindre F, Venier-Julienne MC, Vienet R, Benoit JP.
Anti-cancer drug diffusion within living rat brain tissue: an experimental study using [3H](6)-5-fluorouracil-loaded PLGA microspheres.
Eur J Pharm Biopharm.    impact factor:   .616
2002;  53(3): 293-9

353:  Roser M, Fischer D, Kissel T.
Surface-modified biodegradable albumin nano- and microspheres. II: effect of surface charges on in vitro phagocytosis and biodistribution in rats.
Eur J Pharm Biopharm.    impact factor:   .616
1998;  46(3): 255-63

354:  Go KG, Bulte JW, de Ley L, The TH, Kamman RL, Hulstaert CE, Blaauw EH, Ma LD.
Our approach towards developing a specific tumour-targeted MRI contrast agent for the brain.
Eur J Radiol.    impact factor:   .574
1993;  16(3): 171-5

355:  Maurette M, Brack A, Kurat G, Perreau M, Engrand C.
Were micrometeorites a source of prebiotic molecules on the early Earth?
Adv Space Res.    impact factor:   .521
1995;  15(3): 113-26

356:  Keira T, Okada M, Katagiri H, Aizawa Y, Okayasu I, Kotani M.
Magnetometric evaluation for the effect of chrysotile on alveolar macrophages.
Tohoku J Exp Med.    impact factor:   .409
1998;  186(2): 87-98

357:  Jijiwa H, Watanabe N, Hattori T, Matuda F, Hashiba M, Mizuno Y, Shindo M, Watanabe S.
Does the endolymph pass through the base of the cupula?
Acta Astronaut.    impact factor:   .156
2001;  49(3-10): 365-9

358:  Fukumori Y.
[Structure and function of nano-size biomagnetic particles]
Seikagaku.    impact factor:   .054
2000;  72(9): 1165-8

359:  Matsunaga T.
[Production of magnetic material by magnetic bacteria]
Seikagaku.    impact factor:   .054
1991;  63(5): 362-6

360:  Schuler D.
The biomineralization of magnetosomes in Magnetospirillum gryphiswaldense.
Int Microbiol.    impact factor:   0
2002;  5(4): 209-14

361:  Barber DJ, Scott ER.
Origin of supposedly biogenic magnetite in the Martian meteorite Allan Hills 84001.
Proc Natl Acad Sci U S A.    impact factor:   0
2002;  99(10): 6556-61

362:  Rittich B, Spanova A, Ohlashennyy Y, Lenfeld J, Rudolf I, Horak D, Benes MJ.
Characterization of deoxyribonuclease I immobilized on magnetic hydrophilic polymer particles.
J Chromatogr B Analyt Technol Biomed Life Sci.    impact factor:   0
2002;  774(1): 25-31

363:  Sakaguchi T, Arakaki A, Matsunaga T.
Desulfovibrio magneticus sp. nov., a novel sulfate-reducing bacterium that produces intracellular single-domain-sized magnetite particles.
Int J Syst Evol Microbiol.    impact factor:   0
2002;  52(Pt 1): 215-21

364:  Ohno T, Wakabayashi T, Takemura A, Yoshida J, Ito A, Shinkai M, Honda H, Kobayashi T.
Effective solitary hyperthermia treatment of malignant glioma using stick type CMC-magnetite. In vivo study.
J Neurooncol.    impact factor:   0
2002;  56(3): 233-9

365:  Hilger I, Hofmann F, Reichenbach JR, Bergemann C, Hiergeist R, Andra W, Hergt R, Kaiser WA.
[In vitro imaging of magnetite particles]
Rofo Fortschr Geb Rontgenstr Neuen Bildgeb Verfahr.    impact factor:   0
2002;  174(1): 101-3

366:  Harrison RJ, Dunin-Borkowski RE, Putnis A.
Direct imaging of nanoscale magnetic interactions in minerals.
Proc Natl Acad Sci U S A.    impact factor:   0
2002;  99(26): 16556-61

367:  Moller W, Kohlhaufl M, Haussinger K, Heyder J.
[Pneumological diagnostics by means of models aerosols. IV. Clearance of aerosol particles from the pulmonary alveoli. Foundations and first clinical results]
Pneumologie.    impact factor:   0
2002;  56(8): 503-10

368:  Song L, Liu T, Liang D, Wu C, Zaitsev VS, Dresco PA, Chu B.
Coupling of optical characterization with particle and network synthesis for biomedical applications.
J Biomed Opt.    impact factor:   0
2002;  7(3): 498-506

369:  Katz E, Sheeney-Haj-Ichia L, Willner I.
Magneto-switchable electrocatalytic and bioelectrocatalytic transformations.
Chemistry.    impact factor:   0
2002;  8(18): 4138-48

370:  Chapon C, Franconi F, Roux J, Marescaux L, Le Jeune JJ, Lemaire L.
In utero time-course assessment of mouse embryo development using high resolution magnetic resonance imaging.
Anat Embryol (Berl).    impact factor:   0
2002;  206(1-2): 131-7

371:  Ascaso C, Wierzchos J.
New approaches to the study of Antarctic lithobiontic microorganisms and their inorganic traces, and their application in the detection of life in Martian rocks.
Int Microbiol.    impact factor:   0
2002;  5(4): 215-22

372:  Sastre A, Graham C, Cook MR, Gerkovich MM, Gailey P.
Human EEG responses to controlled alterations of the Earth's magnetic field.
Clin Neurophysiol.    impact factor:   0
2002;  113(9): 1382-90

373:  Ortiz N, Pires MA, Bressiani JC.
Use of steel converter slag as nickel adsorber to wastewater treatment.
Waste Manag.    impact factor:   0
2001;  21(7): 631-5

374:  Buseck PR, Dunin-Borkowski RE, Devouard B, Frankel RB, McCartney MR, Midgley PA, Posfai M, Weyland M.
Magnetite morphology and life on Mars.
Proc Natl Acad Sci U S A.    impact factor:   0
2001;  98(24): 13490-5

375:  Constantinides CD, Rogers J, Herzka DA, Boada FE, Bolar D, Kraitchman D, Gillen J, Bottomley PA.
Superparamagnetic iron oxide MION as a contrast agent for sodium MRI in myocardial infarction.
Magn Reson Med.    impact factor:   0
2001;  46(6): 1164-8

376:  Suess LA, Persinger MA.
Geophysical variables and behavior: XCVI. "Experiences" attributed to Christ and Mary at Marmora, Ontario, Canada may have been consequences of environmental electromagnetic stimulation: implications for religious movements.
Percept Mot Skills.    impact factor:   0
2001;  93(2): 435-50

377:  Zoppi A, Perardi A, Castellucci E.
Characterisation of pigments and corrosion patinas by means of micro-Raman spectroscopy.
Ann Chim.    impact factor:   0
2001;  91(11-12): 833-41

378:  Dobson J.
On the structural form of iron in ferritin cores associated with progressive supranuclear palsy and Alzheimer's disease.
Cell Mol Biol (Noisy-le-grand).    impact factor:   0
2001;  47 Online Pub: OL49-50

379:  Wahyudi AT, Takeyama H, Matsunaga T.
Isolation of Magnetospirillum magneticum AMB-1 mutants defective in bacterial magnetic particle synthesis by transposon mutagenesis.
Appl Biochem Biotechnol.    impact factor:   0
2001;  91-93: 147-54

380:  Yang CD, Takeyama H, Tanaka T, Hasegawa A, Matsunaga T.
Synthesis of bacterial magnetic particles during cell cycle of Magnetospirillum magneticum AMB-1.
Appl Biochem Biotechnol.    impact factor:   0
2001;  91-93: 155-60

381:  Odabasi M, Denizli A.
Polyhydroxyethylmethacrylate-based magnetic DNA-affinity beads for anti-DNA antibody removal from systemic lupus erythematosus patient plasma.
J Chromatogr B Biomed Sci Appl.    impact factor:   0
2001;  760(1): 137-48

382:  Wada S, Yue L, Tazawa K, Furuta I, Nagae H, Takemori S, Minamimura T.
New local hyperthermia using dextran magnetite complex (DM) for oral cavity: experimental study in normal hamster tongue.
Oral Dis.    impact factor:   0
2001;  7(3): 192-5

383:  Li LY.
A study of iron mineral transformation to reduce red mud tailings.
Waste Manag.    impact factor:   0
2001;  21(6): 525-34

384:  Mueggler T, Baumann D, Rausch M, Rudin M.
Bicuculline-induced brain activation in mice detected by functional magnetic resonance imaging.
Magn Reson Med.    impact factor:   0
2001;  46(2): 292-8

385:  Reynolds R, Belnap J, Reheis M, Lamothe P, Luiszer F.
Aeolian dust in Colorado Plateau soils: nutrient inputs and recent change in source.
Proc Natl Acad Sci U S A.    impact factor:   0
2001;  98(13): 7123-7

386:  Teotia S, Gupta MN.
Purification of alpha-amylases using magnetic alginate beads.
Appl Biochem Biotechnol.    impact factor:   0
2001;  90(3): 211-20

387:  El-Jaick LJ, Acosta-Avalos D, de Souza Esquivel DM, Wajnberg E, Linhares MP.
Electron paramagnetic resonance study of honeybee Apis mellifera abdomens.
Eur Biophys J.    impact factor:   0
2001;  29(8): 579-86

388:  Mandeville JB, Jenkins BG, Kosofsky BE, Moskowitz MA, Rosen BR, Marota JJ.
Regional sensitivity and coupling of BOLD and CBV changes during stimulation of rat brain.
Magn Reson Med.    impact factor:   0
2001;  45(3): 443-7

389:  Friedmann EI, Wierzchos J, Ascaso C, Winklhofer M.
Chains of magnetite crystals in the meteorite ALH84001: evidence of biological origin.
Proc Natl Acad Sci U S A.    impact factor:   0
2001;  98(5): 2176-81

390:  Thomas-Keprta KL, Clemett SJ, Bazylinski DA, Kirschvink JL, McKay DS, Wentworth SJ, Vali H, Gibson EK Jr, McKay MF, Romanek CS.
Truncated hexa-octahedral magnetite crystals in ALH84001: presumptive biosignatures.
Proc Natl Acad Sci U S A.    impact factor:   0
2001;  98(5): 2164-9

391:  Knauth M, Egelhof T, Roth SU, Wirtz CR, Sartor K.
Monocrystalline iron oxide nanoparticles: possible solution to the problem of surgically induced intracranial contrast enhancement in intraoperative MR imaging.
AJNR Am J Neuroradiol.    impact factor:   0
2001;  22(1): 99-102

392:  Pisciella P, Crisucci S, Karamanov A, Pelino M.
Chemical durability of glasses obtained by vitrification of industrial wastes.
Waste Manag.    impact factor:   0
2001;  21(1): 1-9

393:  Taylor AP, Barry JC, Webb RI.
Structural and morphological anomalies in magnetosomes: possible biogenic origin for magnetite in ALH84001.
J Microsc.    impact factor:   0
2001;  201(Pt 1): 84-106

394:  Sakai H, Wang H, Murai Y, Soukejima S, Kagamimori S.
[Study of remanent magnetization of the human body: lung and liver tissues]
Nippon Eiseigaku Zasshi.    impact factor:   0
2001;  56(2): 523-7

395:  Jijiwa H, Watanabe N, Hattori T, Matsuda F, Hashiba M, Mizuno Y, Shindo M, Mizuno Y Jr, Scherer H, Helling K, Watanabe S.
Passage of dextran magnetite nanoparticles through the subcupular space of the pigeon.
Biol Sci Space.    impact factor:   0
2001;  15(4): 405-8

396:  Beyersdorff D, Taupitz M, Giessing M, Turk I, Schnorr D, Loening S, Hamm B.
[The staging of bladder tumors in MRT: the value of the intravesical application of an iron oxide-containing contrast medium in combination with high-resolution T2-weighted imaging]
Rofo Fortschr Geb Rontgenstr Neuen Bildgeb Verfahr.    impact factor:   0
2000;  172(6): 504-8

397:  Ozawa S, Imai Y, Suwa T, Kitajima M.
What's new in imaging? New magnetic resonance imaging of esophageal cancer using an endoluminal surface coil and antibody-coated magnetite particles.
Recent Results Cancer Res.    impact factor:   0
2000;  155: 73-87

398:  Moore LR, Zborowski M, Nakamura M, McCloskey K, Gura S, Zuberi M, Margel S, Chalmers JJ.
The use of magnetite-doped polymeric microspheres in calibrating cell tracking velocimetry.
J Biochem Biophys Methods.    impact factor:   0
2000;  44(1-2): 115-30

399:  Quintana C, Lancin M, Marhic C, Perez M, Martin-Benito J, Avila J, Carrascosa JL.
Initial studies with high resolution TEM and electron energy loss spectroscopy studies of ferritin cores extracted from brains of patients with progressive supranuclear palsy and Alzheimer disease.
Cell Mol Biol (Noisy-le-grand).    impact factor:   0
2000;  46(4): 807-20

400:  Yoshikawa T, Tanigawa M, Tanigawa T, Imai A, Hongo H, Kondo M.
Enhancement of nitric oxide generation by low frequency electromagnetic field.
Pathophysiology.    impact factor:   0
2000;  7(2): 131-135

401:  Lei W, Chua H, Lo WH, Yu PH, Zhao YG, Wong PK.
A novel magnetite-immobilized cell process for heavy metal removal from industrial effluent.
Appl Biochem Biotechnol.    impact factor:   0
2000;  84-86: 1113-26

402:  Nemoto I, Moeller W.
A viscoelastic model of phagosome motion within cells based on cytomagnetometric measurements.
IEEE Trans Biomed Eng.    impact factor:   0
2000;  47(2): 170-82

403:  Schmitz SA, Albrecht T, Jensen K, Wolf KJ.
[Superparamagnetic iron oxide enhanced MR angiography of the portal vein system]
Rofo Fortschr Geb Rontgenstr Neuen Bildgeb Verfahr.    impact factor:   0
2000;  172(1): 51-4

404:  Jensen JH, Chandra R.
MR imaging of microvasculature.
Magn Reson Med.    impact factor:   0
2000;  44(2): 224-30

405:  Okon EE, Pulikan D, Pereverzev AE, Kudriavtsev BN, Zhale P.
[Toxicity of magnetite-dextran particles: morphological study]
Tsitologiia.    impact factor:   0
2000;  42(4): 358-66

406:  Bulte JW, Brooks RA, Moskowitz BM, Bryant LH Jr, Frank JA.
Relaxometry and magnetometry of the MR contrast agent MION-46L.
Magn Reson Med.    impact factor:   0
1999;  42(2): 379-84

407:  Mandeville JB, Marota JJ.
Vascular filters of functional MRI: spatial localization using BOLD and CBV contrast.
Magn Reson Med.    impact factor:   0
1999;  42(3): 591-8

408:  Cihal S, Maas R, Delling G, Klich S, Nielsen P, Lodemann KP, Bucheler E.
[Ultra-small superparamagnetic iron oxide particles: the signal behavior and relaxation times of the bone marrow after repeated i.v. application in the pig model at 1.5 tesla]
Rofo Fortschr Geb Rontgenstr Neuen Bildgeb Verfahr.    impact factor:   0
1999;  171(2): 149-54

409:  Scheffler K, Seifritz E, Haselhorst R, Bilecen D.
Titration of the BOLD effect: separation and quantitation of blood volume and oxygenation changes in the human cerebral cortex during neuronal activation and ferumoxide infusion.
Magn Reson Med.    impact factor:   0
1999;  42(5): 829-36

410:  Schuler D, Frankel RB.
Bacterial magnetosomes: microbiology, biomineralization and biotechnological applications.
Appl Microbiol Biotechnol.    impact factor:   0
1999;  52(4): 464-73

411:  Bulte JW, Zhang S, van Gelderen P, Herynek V, Jordan EK, Duncan ID, Frank JA.
Neurotransplantation of magnetically labeled oligodendrocyte progenitors: magnetic resonance tracking of cell migration and myelination.
Proc Natl Acad Sci U S A.    impact factor:   0
1999;  96(26): 15256-61

412:  Bazylinski DA.
Synthesis of the bacterial magnetosome: the making of a magnetic personality.
Int Microbiol.    impact factor:   0
1999;  2(2): 71-80

413:  Muldoon LL, Pagel MA, Kroll RA, Roman-Goldstein S, Jones RS, Neuwelt EA.
A physiological barrier distal to the anatomic blood-brain barrier in a model of transvascular delivery.
AJNR Am J Neuroradiol.    impact factor:   0
1999;  20(2): 217-22

414:  Pulfer SK, Ciccotto SL, Gallo JM.
Distribution of small magnetic particles in brain tumor-bearing rats.
J Neurooncol.    impact factor:   0
1999;  41(2): 99-105

415:  Schmitz SA, Hansel J, Wagner S, Kressel M, Huningen H, Wacker F, Wolf KJ.
[SPIO-enhanced MR angiography for the detection of venous thrombi in an animal model]
Rofo Fortschr Geb Rontgenstr Neuen Bildgeb Verfahr.    impact factor:   0
1999;  170(3): 316-21

416:  Morimoto N, Ebara M, Kato H, Obata T, Fujita J, Kondo F, Tsujii H, Saisho H.
Early detection of radiation-induced liver injury in rat by superparamagnetic iron oxide-enhanced MR imaging.
J Magn Reson Imaging.    impact factor:   0
1999;  9(4): 573-8

417:  Babincova M.
[Targeted and controlled release of drugs using magnetoliposomes]
Ceska Slov Farm.    impact factor:   0
1999;  48(1): 27-9

418:  Kotsiuruba AV, Bukhanevych OM, Berdyshev AG, Mehed' OF, Hula NM, Mykhailik OM, Bakai EA.
[In vitro study of the early membrane effects of C27-steroid hormone ecdysterone, immobilized on the nanodispersed magnetite surface]
Ukr Biokhim Zh.    impact factor:   0
1998;  70(2): 22-32

419:  Hisakane M, Katayama Y, Igarashi H, Terashi A.
[Usefulness of magnetite as an MRI contrasting agent in an experimental cerebral ischemic model evaluation of injecting time point]
Nippon Ika Daigaku Zasshi.    impact factor:   0
1998;  65(2): 135-9

420:  Song Y, Chen Q, Guan Y.
[An in vitro study on toxic effect of vanadium-titanium-magnetite dust on alveolar macrophage in rabbits]
Zhonghua Yu Fang Yi Xue Za Zhi.    impact factor:   0
1998;  32(6): 343-5

421:  Economou-Eliopoulos M, Eliopoulos DG.
Selenium content of sulfide ores related to ophiolites of Greece.
J Environ Pathol Toxicol Oncol.    impact factor:   0
1998;  17(3-4): 199-204

422:  Mandeville JB, Marota JJ, Kosofsky BE, Keltner JR, Weissleder R, Rosen BR, Weisskoff RM.
Dynamic functional imaging of relative cerebral blood volume during rat forepaw stimulation.
Magn Reson Med.    impact factor:   0
1998;  39(4): 615-24

423:  Rousseau V, Pouliquen D, Darcel F, Jallet P, Le Jeune JJ.
NMR investigation of experimental chemical induced brain tumors in rats, potential of a superparamagnetic contrast agent (MD3) to improve diagnosis.
MAGMA.    impact factor:   0
1998;  6(1): 13-21

424:  Reimer P, Bader A, Weissleder R.
Preclinical assessment of hepatocyte-targeted MR contrast agents in stable human liver cell cultures.
J Magn Reson Imaging.    impact factor:   0
1998;  8(3): 687-9

425:  Hisakane M, Katayama Y, Igarashi H, Terashi A.
[Usefulness of magnetite as an MRI contrasting agent in an experimental cerebral ischemic model. Evaluation of lesion detecting time]
Nippon Ika Daigaku Zasshi.    impact factor:   0
1998;  65(3): 201-6

426:  Di Cesare E, Cariello G, Marchese F, Michelini O, Costanzi A, Catalucci A, Splendiani A, Masciocchi C.
[Superparamagnetic iron oxide in the differential diagnosis of focal hepatic lesions using a 0.5-tesla magnetic resonance apparatus]
Radiol Med (Torino).    impact factor:   0
1998;  95(6): 593-8

427:  Finazzo M, Midiri M, Gallo C, Bartolotta TV, Luca A.
[Focal liver lesions. A comparison between magnetic resonance under base conditions and after a superparamagentic contrast medium]
Radiol Med (Torino).    impact factor:   0
1998;  95(6): 599-607

428:  Dennie J, Mandeville JB, Boxerman JL, Packard SD, Rosen BR, Weisskoff RM.
NMR imaging of changes in vascular morphology due to tumor angiogenesis.
Magn Reson Med.    impact factor:   0
1998;  40(6): 793-9

429:  Rousseau V, Denizot B, Pouliquen D, Jallet P, Le Jeune JJ.
Investigation of blood-brain barrier permeability to magnetite-dextran nanoparticles (MD3) after osmotic disruption in rats.
MAGMA.    impact factor:   0
1997;  5(3): 213-22

430:  Zagal'skaia EO, Maksimovich AA.
[Where to search for the magnetoreceptor]
Izv Akad Nauk Ser Biol.    impact factor:   0
1997;  (4): 473-83

431:  Walker MM.
Magnetic orientation and the magnetic sense in arthropods.
EXS.    impact factor:   0
1997;  84: 187-213

432:  Wang R, Huang Y, Zhu W, Zhang H, Sun S.
[Pharmacological study on magnetite]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1997;  22(5): 305-7 inside back cover

433:  Axmann C, Bohndorf K, Gellissen J, Prescher A, Lodemann M.
[A comparison between GE and SE sequences in MRT after the i.v. application of superparamagnetic iron particles in the assessment of experimentally induced soft-tissue osteosarcomas]
Rofo Fortschr Geb Rontgenstr Neuen Bildgeb Verfahr.    impact factor:   0
1997;  166(2): 146-52

434:  Weissleder R, Cheng HC, Bogdanova A, Bogdanov A Jr.
Magnetically labeled cells can be detected by MR imaging.
J Magn Reson Imaging.    impact factor:   0
1997;  7(1): 258-63

435:  Kruskal JB.
Direct visualization of peritumoral rims.
AJR Am J Roentgenol.    impact factor:   0
1997;  169(2): 595-6

436:  Bock JC, Knollmann FD, Teltenkotter S, Wlodarczyk W, Muhler A, Vogl TJ, Felix R.
[Iron oxide contrast media improve the magnetic resonance imaging of the portal vein system--an animal experimental study]
Rofo Fortschr Geb Rontgenstr Neuen Bildgeb Verfahr.    impact factor:   0
1997;  166(2): 153-8

437:  Stiskal M, Schwickert HC, Demsar F, Roberts TP, Szolar D, Weissleder R, Brasch RC.
Contrast enhancement in experimental radiation-induced liver injury: comparison of hepatocellular and reticuloendothelial particulate contrast agents.
J Magn Reson Imaging.    impact factor:   0
1996;  6(2): 286-90

438:  Boutin AC, Shirali P, Marez T, Gosset P, Maunit B, Hachimi A, Muller JF, Haguenoer JM.
Toxicity of iron oxides and metabolites of benzo[a]pyrene alone or in combination in cells culture and identification by laser microprobe mass spectrometry.
Cent Eur J Public Health.    impact factor:   0
1996;  4 Suppl: 58-9

439:  Caramella D, Jin XN, Mascalchi M, Agen C, Petruzzi P, Kresse M, Bianucci D, Ceretti E, Semmler W, Bartolozzi C.
Liver and spleen enhancement after intravenous injection of carboxydextran magnetite: effect of dose, delay of imaging, and field strength in an ex vivo model.
MAGMA.    impact factor:   0
1996;  4(3-4): 225-30

440:  Suzuki M, Honda H, Kobayashi T, Wakabayashi T, Yoshida J, Takahashi M.
Development of a target-directed magnetic resonance contrast agent using monoclonal antibody-conjugated magnetic particles.
Noshuyo Byori.    impact factor:   0
1996;  13(2): 127-32

441:  Haraldseth O, Jones RA, Muller TB, Fahlvik AK, Oksendal AN.
Comparison of dysprosium DTPA BMA and superparamagnetic iron oxide particles as susceptibility contrast agents for perfusion imaging of regional cerebral ischemia in the rat.
J Magn Reson Imaging.    impact factor:   0
1996;  6(5): 714-7

442:  Fujita M, Yamamoto R, Fritz-Zieroth B, Yamanaka T, Takahashi M, Miyazawa T, Tatsuta M, Terada N, Hosomi N, Inoue E, Kuroda C.
Contrast enhancement with Gd-EOB-DTPA in MR imaging of hepatocellular carcinoma in mice: a comparison with superparamagnetic iron oxide.
J Magn Reson Imaging.    impact factor:   0
1996;  6(3): 472-7

443:  Remsen LG, McCormick CI, Roman-Goldstein S, Nilaver G, Weissleder R, Bogdanov A, Hellstrom I, Kroll RA, Neuwelt EA.
MR of carcinoma-specific monoclonal antibody conjugated to monocrystalline iron oxide nanoparticles: the potential for noninvasive diagnosis.
AJNR Am J Neuroradiol.    impact factor:   0
1996;  17(3): 411-8

444:  Tatishvili GG, Surguladze BV, Bakhutashvili AV.
[Evaluation of abdominal treatment with magnetite suspension in peritonitis]
Khirurgiia (Mosk).    impact factor:   0
1995;  (3): 17-9

445:  Fukuya T, Honda H, Maeda T, Hayashi T, Kawashima A, Matsumata T, Masuda K.
Well-differentiated hepatocellular carcinoma: isointense to liver parenchyma on superparamagnetic iron oxide-enhanced MR.
Radiat Med.    impact factor:   0
1995;  13(1): 35-7

446:  Tie B, Xing L.
[Effect of unprepared and calcined magnetitum of arsenic solubility in boiling water extracts]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1995;  20(5): 278-80, 318

447:  Koenig SH, Kellar KE.
Theory of 1/T1 and 1/T2 NMRD profiles of solutions of magnetic nanoparticles.
Magn Reson Med.    impact factor:   0
1995;  34(2): 227-33

448:  Yeh TC, Zhang W, Ildstad ST, Ho C.
In vivo dynamic MRI tracking of rat T-cells labeled with superparamagnetic iron-oxide particles.
Magn Reson Med.    impact factor:   0
1995;  33(2): 200-8

449:  Adair RK.
Constraints of thermal noise on the effects of weak 60-Hz magnetic fields acting on biological magnetite.
Proc Natl Acad Sci U S A.    impact factor:   0
1994;  91(8): 2925-9

450:  Bulte JW, Douglas T, Mann S, Frankel RB, Moskowitz BM, Brooks RA, Baumgarner CD, Vymazal J, Strub MP, Frank JA.
Magnetoferritin: characterization of a novel superparamagnetic MR contrast agent.
J Magn Reson Imaging.    impact factor:   0
1994;  4(3): 497-505

451:  Kondo A, Kamura H, Higashitani K.
Development and application of thermo-sensitive magnetic immunomicrospheres for antibody purification.
Appl Microbiol Biotechnol.    impact factor:   0
1994;  41(1): 99-105

452:  Filler AG.
Axonal transport and MR imaging: prospects for contrast agent development.
J Magn Reson Imaging.    impact factor:   0
1994;  4(3): 259-67

453:  Matsumoto M, Yoshimura N, Honda Y, Hiraoka M, Ohura K.
Ferromagnetic hyperthermia in rabbit eyes using a new glass-ceramic thermoseed.
Graefes Arch Clin Exp Ophthalmol.    impact factor:   0
1994;  232(3): 176-81

454:  Bulte JM, Vymazal J, Brooks RA, Pierpaoli C, Frank JA.
Frequency dependence of MR relaxation times. II. Iron oxides.
J Magn Reson Imaging.    impact factor:   0
1993;  3(4): 641-8

455:  Barbas CF 3rd, Rosenblum JS, Lerner RA.
Direct selection of antibodies that coordinate metals from semisynthetic combinatorial libraries.
Proc Natl Acad Sci U S A.    impact factor:   0
1993;  90(14): 6385-9

456:  Liebig T, Stoupis C, Ros PR, Ballinger JR, Briggs RW.
A potentially artifact-free oral contrast agent for gastrointestinal MRI.
Magn Reson Med.    impact factor:   0
1993;  30(5): 646-9

457:  Tie BR, Niu FX.
[The effect of processing on the content of toxic constituent arsenic in magnetitum]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1993;  18(4): 217-8, 254

458:  Tatishvili GG, Surguladze BV.
[The results of using a magnetite suspension for the intraoperative treatment of the abdominal cavity in peritonitis]
Vestn Khir Im I I Grek.    impact factor:   0
1993;  150(5-6): 16-8

459:  Zhou X, Magin RL, Alameda JC Jr, Reynolds HA, Lauterbur PC.
Three-dimensional NMR microscopy of rat spleen and liver.
Magn Reson Med.    impact factor:   0
1993;  30(1): 92-7

460:  Bulte JW, Ma LD, Magin RL, Kamman RL, Hulstaert CE, Go KG, The TH, de Leij L.
Selective MR imaging of labeled human peripheral blood mononuclear cells by liposome mediated incorporation of dextran-magnetite particles.
Magn Reson Med.    impact factor:   0
1993;  29(1): 32-7

461:  Brown RJ.
Some contrast agents in oil well logging and in medical MRI.
Magn Reson Med.    impact factor:   0
1993;  29(4): 551-2

462:  Tie BR, Niu FX.
[Preliminary studies on arsenic content in cishi]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1992;  17(12): 725-6, 763

463:  Kemshead JT.
Immunomagnetic manipulation of hematopoietic cells: a review of current technology.
J Hematother.    impact factor:   0
1992;  1(1): 35-44

464:  Pieters BR, Bardeletti G.
Enzyme immobilization on a low-cost magnetic support: kinetic studies on immobilized and coimmobilized glucose oxidase and glucoamylase.
Enzyme Microb Technol.    impact factor:   0
1992;  14(5): 361-70

465:  Bulte JW, De Jonge MW, Kamman RL, Go KG, Zuiderveen F, Blaauw B, Oosterbaan JA, The TH, de Leij L.
Dextran-magnetite particles: contrast-enhanced MRI of blood-brain barrier disruption in a rat model.
Magn Reson Med.    impact factor:   0
1992;  23(2): 215-23

466:  Bulte JW, Hoekstra Y, Kamman RL, Magin RL, Webb AG, Briggs RW, Go KG, Hulstaert CE, Miltenyi S, The TH, et al.
Specific MR imaging of human lymphocytes by monoclonal antibody-guided dextran-magnetite particles.
Magn Reson Med.    impact factor:   0
1992;  25(1): 148-57

467:  Bauer WR, Schulten K.
Theory of contrast agents in magnetic resonance imaging: coupling of spin relaxation and transport.
Magn Reson Med.    impact factor:   0
1992;  26(1): 16-39

468:  Pouliquen D, Perroud H, Calza F, Jallet P, Le Jeune JJ.
Investigation of the magnetic properties of iron oxide nanoparticles used as contrast agent for MRI.
Magn Reson Med.    impact factor:   0
1992;  24(1): 75-84

469:  Matitashvili EA, Matojan DA, Gendler TS, Kurzchalia TV, Adamia RS.
Magnetotactic bacteria from freshwater lakes in Georgia.
J Basic Microbiol.    impact factor:   0
1992;  32(3): 185-92

470:  Kirschvink JL, Kobayashi-Kirschvink A, Woodford BJ.
Magnetite biomineralization in the human brain.
Proc Natl Acad Sci U S A.    impact factor:   0
1992;  89(16): 7683-7

471:  Pieters BR, Bardeletti G, Coulet PR.
Glucoamylase immobilization on a magnetic microparticle for the continuous hydrolysis of maltodextrin in a fluidized bed reactor.
Appl Biochem Biotechnol.    impact factor:   0
1992;  32: 37-53

472:  Takemori S, Tazawa K, Nagae H, Shimizu T, Masuko Y, Okamoto M, Fujimaki M.
[Hyperthermia for cancer with dextran magnetite using tubular implants]
Gan To Kagaku Ryoho.    impact factor:   0
1992;  19(10 Suppl): 1648-50

473:  Lancaster L, Bogdan AR, Kundel HL, McAffee B.
Sodium MRI with coated magnetite: measurement of extravascular lung water in rats.
Magn Reson Med.    impact factor:   0
1991;  19(1): 96-104

474:  Iannone A, Magin RL, Walczak T, Federico M, Swartz HM, Tomasi A, Vannini V.
Blood clearance of dextran magnetite particles determined by a noninvasive in vivo ESR method.
Magn Reson Med.    impact factor:   0
1991;  22(2): 435-42

475:  Koenig SH.
From the relaxivity of Gd(DTPA)2- to everything else.
Magn Reson Med.    impact factor:   0
1991;  22(2): 183-90

476:  Stark DD.
Physiological principles for the design of hepatic contrast agents.
Magn Reson Med.    impact factor:   0
1991;  22(2): 324-8; discussion 343-6

477:  Magin RL, Bacic G, Niesman MR, Alameda JC Jr, Wright SM, Swartz HM.
Dextran magnetite as a liver contrast agent.
Magn Reson Med.    impact factor:   0
1991;  20(1): 1-16

 

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