Nanomedicine, Volume IIA: Biocompatibility
© 2003 Robert A. Freitas Jr. All Rights Reserved.
Robert A. Freitas Jr., Nanomedicine, Volume IIA: Biocompatibility, Landes Bioscience, Georgetown, TX, 2003
References 700-799
700. T. Tsuchiya, Y.N. Yamakoshi, N. Miyata, “A novel promoting action of fullerene C60 on the chondrogenesis in rat embryonic limb bud cell culture system,” Biochem. Biophys. Res. Commun. 206(26 January 1995):885-894.
701. Nobuhisa Iwata, Toshiji Mukai, Yoko Nakajima Yamakoshi, Shuichi Hara, Takeshi Yanase, Munesuke Shoji, Takahiko Endo, Naoki Miyata, “Effects of C60, a Fullerene, on the Activities of Glutathione S-Transferase and Glutathione-Related Enzymes in Rodent and Human Livers,” Fullerene Sci. Technol. 6(March-April 1998):213-226.
702. J.C. Lin, C.H. Wu, “Surface characterization and platelet adhesion studies on polyurethane surface immobilized with C60,” Biomaterials 20(September 1999):1613-1620.
703. L.Y. Chiang et al, J. Chem. Soc. Chem. Commun. (1992):1791.
704. L.Y. Chiang, J.B. Bhonsle, L.Y. Wang, S.F. Shu, T.M. Chang, J.R. Hwu, “Efficient one-flask synthesis of water soluble [60] fullerenols,” Tetrahedron 52(1996):4963.
705. Dawson W. Cagle, Stephen J. Kennel, Saed Mirzadeh, J. Michael Alford, Lon J. Wilson, “In vivo studies of fullerene-based materials using endohedral metallofullerene radiotracers,” Proc. Natl. Acad. Sci. USA 96(27 April 1999):5182-5187; http://www.pnas.org/cgi/content/full/96/9/5182
706. A. Bianco, T. Bertolini, M. Crisma, G. Valle, C. Toniolo, M. Maggini, G. Scorrano, M. Prato, “Beta-turn induction by C60-based fulleroproline: synthesis and conformational characterization of Fpr/Pro small peptides,” J. Pept. Res. 50(September 1997):159-170.
707. F. Wudl, A. Hirsch, K.C. Khemani, T. Suzuki, P.-M. Allemand, A. Koch, H. Eckert, G. Srdanov, H.M. Webb, in G.S. Hammond, V.J. Kuck, eds., Fullerenes: Synthesis, Properties and Chemistry of Large Carbon Clusters, American Chemical Society, Washington DC, 1992, pp. 161 et seq.
708. S.R. Wilson et al, in K.M. Kadish, R.S. Ruoff, eds., Fullerenes: Recent Advances in the Chemistry and Physics of Fullerenes and Related Materials, Electrochemical Society, Pennington NJ, Vol. 1, 1994, pp. 22-31.
709. M. Maggini, G. Scorrano, M. Prato, “Addition of azomethine ylides to C60: synthesis, characterization, and functionalization of fullerene pyrrolidines,” J. Am. Chem. Soc. 115(1993):9798-9799.
710. M. Maggini, A. Karlsson, L. Pasimeni, G. Scorrano, M. Prato, L. Valli, “Synthesis of N-acylated fulleropyrrolidines: new materials for the preparation of Langmuir Blodgett films containing fullerenes,” Tetrahedron Lett. 35(1994):2985-2988.
711. L. Isaacs, F. Diederich, “Structures and chemistry
of methanofullerenes: a versatile
route into N-[(methanofullerene)carbonyl]-substituted amino acids,” Helv.
Chim. Acta 76(1993):2454-2464.
712. M.S. Jie, S.W. Cheung, “Fullerene lipids: synthesis of dialkyl 1,2-[6,6]-methano-[60]-fullerene dicarboxylate derivatives,” Lipids 33(July 1998):729-732.
713. Steven H. Hoke, Jay Molstad, Dominique Dilettato, Mary Jennifer Jay, Dean Carlson, Bart Kahr, R. Graham Cooks, “Cooks Reaction of Fullerenes and Benzyne,” J. Org. Chem. 57(11 September 1992):5069-5071.
714. Richard Jaffe, Jie Han, Al Globus, “Formation of Carbon Nanotube Based Gears: Quantum Chemistry and Molecular Dynamics Simulations of the Electrophilic Addition of o-Benzyne to Fullerenes, Graphene, and Nanotubes,” First Electronic Molecular Modelling & Graphics Society Conference, presented to the American Physical Society (MO Division of Materials Physics, Focused Session on Fullerenes, Carbon Nanotubes and Related Materials), Kansas City, 17-21 March 1997.
715. J. Chen, M.A. Hamon, H. Hu, Y. Chen, A.M. Rao, P.C. Eklund, R.C. Haddon, “Solution properties of single-walled carbon nanotubes,” Science 282(2 October 1998):95-98.
716. Robert L. Murry, Gustavo E. Scuseria, “Theoretical Evidence for a C60 ‘Window’ Mechanism,” Science 263(11 February 1994):791-793.
717. G. Schick, T. Jarrosson, Y. Rubin, “Formation of an Effective Opening within the Fullerene Core of C(60) by an Unusual Reaction Sequence,” Angew. Chem. Int. Ed. Engl. 38(August 1999):2360-2363.
718. Jie Liu et al, “Fullerene Pipes,” Science 280(22 May 1998):1253-1256.
719. F. Moussa, M. Pressac, E. Genin, S. Roux, F. Trivin, A. Rassat, R. Ceolin, H. Szwarc, “Quantitative analysis of C60 fullerene in blood and tissues by high-performance liquid chromatography with photodiode-array and mass spectrometric detection,” J. Chromatogr. B. Biomed. Sci. Appl. 696(15 August 1997):153-159. See also: F. Moussa, F. Trivin, R. Ceolin, M. Hadchouel, P.Y. Sizaret, V. Greugny, C. Fabre, A. Rassat, H. Szwarc, Fullerene Sci. Technol. 4(1996):21-29.
720. S. Yamago, H. Tokuyama, E. Nakamura, K. Kikuchi, S. Kananishi, K. Sueki, H. Nakahara, S. Enomoto, F. Ambe, “In vivo biological behavior of a water-miscible fullerene: 14C labeling, absorption, distribution, excretion and acute toxicity,” Chem. Biol. 2(June 1995):385-389.
721. T.H. Ueng, J.J. Kang, H.W. Wang, Y.W. Cheng, L.Y. Chiang, “Suppression of microsomal cytochrome P450-dependent monooxygenases and mitochondrial oxidative phosphorylation by fullerenol, a polyhydroxylated fullerene C60,” Toxicol. Lett. 93(19 September 1997):29-37.
722. H.H. Chen, C. Yu, T.H. Ueng, S. Chen, B.J. Chen, K.J. Huang, L.Y. Chiang, “Acute and subacute toxicity study of water-soluble polyalkylsulfonated C60 in rats,” Toxicol. Pathol. 26(January-February 1998):143-151.
723. K. Irie, Y. Nakamura, H. Ohigashi, H. Tokuyama, S. Yamago, E. Nakamura, “Photocytotoxicity of water-soluble fullerene derivatives,” Biosci. Biotechnol. Biochem. 60(August 1996):1359-1361.
724. David Izhaky, Israel Pecht, “What else can the immune system recognize?” Proc. Natl. Acad. Sci. USA 95(29 September 1998):11509-11510; http://www.pnas.org/cgi/content/full/95/20/11509
725. B.X. Chen, S.R. Wilson, M. Das, D.J. Coughlin, B.F. Erlanger, “Antigenicity of fullerenes: antibodies specific for fullerenes and their characteristics,” Proc. Natl. Acad. Sci. USA 95(1 September 1998):10809-10813; http://www.pnas.org/cgi/content/full/95/18/10809
726. Ia.I. Pukhova, G.N. Churilov, V.G. Isakova, A.Ia. Korets, Ia.N. Titarenko, “Study of the biological activity of the water-soluble fullerene complexes,” Dokl. Biochem. (Dokl. Akad. Nauk.) 355(July 1997):269-272.
727. T. Tsuchiya, I. Oguri, Y.N. Yamakoshi, N. Miyata, “Novel harmful effects of [60]fullerene on mouse embryos in vitro and in vivo,” FEBS Lett. 393(9 September 1996):139-145.
728. M. Satoh, K. Matsuo, H. Kiriya, T. Mashino, M. Hirobe, I. Takayanagi, “Inhibitory effect of a fullerene derivative, monomalonic acid C60, on nitric oxide-dependent relaxation of aortic smooth muscle,” Gen. Pharmacol. 29(September 1997):345-351.
729. M. Satoh, K. Matsuo, H. Kiriya, T. Mashino, T. Nagano, M. Hirobe, I. Takayanagi, “Inhibitory effects of a fullerene derivative, dimalonic acid C60, on nitric oxide-induced relaxation of rabbit aorta,” Eur. J. Pharmacol. 327(30 May 1997):175-181.
730. Rice University, “Fullerene-Based Materials Clear from Tissue, Go to Bone,” Houston, May 12, 1999; http://www.newswise.com/articles/1999/5/FULLER.RIC.html
731. Kelly A. Gonzalez, Lon J. Wilson, paper presented at meeting of the Electrochemical Society in Seattle, WA, May 1999; reported in Science News 155(8 May 1999):292. See also: Kelly A. Gonzalez, Ph.D. dissertation, Rice University, Houston, TX, 1998.
732. R.F. Schinazi, R. Sijbesma, G. Srdanov, C.L. Hill, F. Wudl, “Synthesis and virucidal activity of a water-soluble, configurationally stable, derivatized C60 fullerene,” Antimicrob. Agents Chemother. 37(August 1993):1707-1710; S.H. Friedman, D.L. DeCamp, R.P. Sijbesma, G. Srdanov, F. Wudl, G.L. Kenyon, J. Am. Chem. Soc. 115(1993):6506-6509; R. Sijbesma, G. Srdanov, F. Wudl, J.A. Gastoro, C. Wilkins, S.H. Friedman, D.L. DeCamp, G.L. Kenyon, “Synthesis of a fullerene derivative for the inhibition of HIV enzymes,” J. Am. Chem. Soc. 115(1993):6510-6512.
733. D.I. Schuster, S.R. Wilson, R.F. Schinazi, “Anti-human immunodeficiency virus activity and cytotoxicity of derivatized Buckminsterfullerenes,” Bioorg. Med. Chem. Lett. 6(1996):1253-1256.
734. P. Rajagopalan, F. Wudl, R.F. Schinazi, F.D. Boudinot, “Pharmacokinetics of a water-soluble fullerene in rats,” Antimicrob. Agents Chemother. 40(October 1996):2262-2265; http://aac.asm.org/cgi/reprint/40/10/2262
735. S.H. Friedman, P.S. Ganapathi, Y. Rubin, G.L. Kenyon, “Optimizing the binding of fullerene inhibitors of the HIV-1 protease through predicted increases in hydrophobic desolvation,” J. Med. Chem. 41(18 June 1998):2424-2429.
736. F. Kasermann, C. Kempf, “Buckminsterfullerene and photodynamic inactivation of viruses,” Rev. Med. Virol. 8(July 1998):143-151.
737. O.I. Kiselev, K.N. Kozeletskaia, E.Iu. Melenevskaia, L.V. Vinogradova, E.E. Kever, S.I. Klenin, V.N. Zgonnik, M.A. Dumpis, L.B. Piotrovskii, “Antiviral activity of fullerene (60)C complexed with poly(N-vinylpyrrolidone),” Dokl. Akad. Nauk. 361(August 1998):547-549. In Russian.
738. N. Tsao, P.P. Kanakamma, T.Y. Luh, C.K. Chou, H.Y. Lei, “Inhibition of Escherichia coli-induced meningitis by carboxyfullerence,” Antimicrob. Agents Chemother. 43(September 1999):2273-2277; http://aac.asm.org/cgi/content/full/43/9/2273
739. S.C. Hsu, C.C. Wu, T.Y. Luh, C.K. Chou, S.H. Han, M.Z. Lai, “Apoptotic signal of Fas is not mediated by ceramide,” Blood 91(15 April 1998):2658-2663.
740. E. Straface, B. Natalini, D. Monti, C. Franceschi, G. Schettini, M. Bisaglia, C. Fumelli, C. Pincelli, R. Pellicciari, W. Malorni, “C3-fullero-tris-methanodicarboxylic acid protects epithelial cells from radiation-induced anoikia by influencing cell adhesion ability,” FEBS Lett. 454(9 July 1999):335-340.
741. L.L. Dugan, J.K. Gabrielsen, S.P. Yu, T.S. Lin, D.W. Choi, “Buckminsterfullerenol free radical scavengers reduce excitotoxic and apoptotic death of cultured cortical neurons,” Neurobiol. Dis. 3(April 1996):129-135.
742. M.C. Tsai, Y.H. Chen, L.Y. Chiang, “Polyhydroxylated C60, fullerenol, a novel free-radical trapper, prevented hydrogen peroxide- and cumene hydroperoxide-elicited changes in rat hippocampus in-vitro,” J. Pharm. Pharmacol. 49(April 1997):438-445.
743. Y.L. Lai, L.Y. Chiang, “Water-soluble fullerene
derivatives attenuate exsanguination-induced bronchoconstriction of guinea-pigs,”
J. Auton. Pharmacol. 17(August 1997):229-235; Y.L. Lai, W.Y. Chiou, L.Y. Chiang,
“Fullerene derivatives attenuate bronchoconstriction
induced by xanthine-xanthine oxidase,” Fullerene Sci. Technol. 5(1997):1057-1065.
744. L.H. Lu, Y.T. Lee, H.W. Chen, L.Y. Chiang, H.C. Huang, “The possible mechanisms of the antiproliferative effect of fullerenol, polyhydroxylated C60, on vascular smooth muscle cells,” Br. J. Pharmacol. 123(March 1998):1097-1102.
745. L.L. Dugan, D.M. Turetsky, C. Du, D. Lobner, M. Wheeler, C.R. Almli, C.K. Shen, T.Y. Luh, D.W. Choi, T.S. Lin, “Carboxyfullerenes as neuroprotective agents,” Proc. Natl. Acad. Sci. USA 94(19 August 1997):9434-9439 and Proc. Natl. Acad. Sci. USA 94(28 October 1997):12241 (erratum). See also: Laura L. Dugan, Eva Lovett, Sarah Cuddihy, Bei-wen Ma, Tien-Sung Lin, Dennis W. Choi, “Carboxyfullerenes as Neuroprotective Antioxidants,” in K.M. Kadish, R.S. Ruoff, eds., Fullerenes: Chemistry, Physics, and Technology, John Wiley and Sons, New York, 2000, pp. 467-480.
746. Y.L. Huang, C.K. Shen, T.Y. Luh, H.C. Yang, K.C. Hwang, C.K. Chou, “Blockage of apoptotic signaling of transforming growth factor-beta in human hepatoma cells by carboxyfullerene,” Eur. J. Biochem. 254(15 May 1998):38-43.
747. A.M. Lin, B.Y. Chyi, S.D. Wang, H.H. Yu, P.P. Kanakamma, T.Y. Luh, C.K. Chou, L.T. Ho, “Carboxyfullerene prevents iron-induced oxidative stress in rat brain,” J. Neurochem. 72(April 1999):1634-1640.
748. S.C. Chueh, M.K. Lai, M.S. Lee, L.Y. Chiang, T.I. Ho, S.C. Chen, “Decrease of free radical level in organ perfusate by a novel water-soluble carbon-sixty, hexa(sulfobutyl)fullerenes,” Transplant. Proc. 31(August 1999):1976-1977.
749. Y.L. Lai, W.Y. Chiou, F.J. Lu, L.Y. Chiang, “Roles of oxygen radicals and elastase in citric acid-induced airway constriction of guinea-pigs,” Br. J. Pharmacol. 126(February 1999):778-784.
750. W.D. Huang, K.X. Qian, “Biological study of fullerene C60,” Sheng Li Ko Hsueh Chin Chan 26(October 1995):367-369. In Chinese.
751. R. Bullard-Dillard, K.E. Creek, W.S. Scrivens, J.M. Tour, “In Vivo Effects of Fullerenes Using 14C-Labeled C60,” Bioorg. Chem. 24(1996):376-385.
752. L.H. Leuer, J.M. Gross, K.M. Johnson, “Material properties, biocompatibility, and wear resistance of the Medtronic pyrolytic carbon,” J. Heart Valve Dis. 5(June 1996):S105-S109, 110 (discussion).
753. Nolan B. Holland, Yongxing Qiu, Mark Ruegsegger, Roger E. Marchant, “Biomimetic engineering of non-adhesive glycocalyx-like surfaces using oligosaccharide surfactant polymers,” Nature 392(23 April 1998):799-801. See also: Y. Qiu, N.B. Holland, M. Ruegsegger, R.E. Marchant, “Biomimetic surface engineering: Synthesis and surface-induced assembly of novel oligosaccharide surfactant polymers,” in S. Manne, G.G. Warr, eds., Supramolecular Structure in Confined Geometries, ACS Symposium Series, Washington DC, 1999, pp. 180-193 (Chapter 12).
754. B.E. Rabinow, Y.S. Ding, C. Qin, M.L. McHalsky, J.H. Schneider, K.A. Ashline, T.L. Shelbourn, R.M. Albrecht, “Biomaterials with permanent hydrophilic surfaces and low protein adsoprtion properties,” J. Biomater. Sci. Polym. Ed. 6(1994):91-109.
755. E.V. Sevast’ianova, T.I. Davidenko, “The immobilization of proteolytic enzymes on carbon materials,” Prikl. Biokhim. Mikrobiol. 29(May-June 1993):375-380.
756. J.H. Lee, H.B. Lee, “Platelet adhesion onto wettability gradient surfaces in the absence and presence of plasma proteins,” J. Biomed. Mater. Res. 41(August 1998):304-311.
757. V. Castranova, W. Pailes, D. Judy, T. Blake, D. Schwegler-Berry, W. Jones, “In vitro effects of large and small glass fibers on rat alveolar macrophages,” J. Toxicol. Environ. Health 49(November 1996):357-369.
758. G. Forget, M.J. Lacroix, R.C. Brown, P.H. Evans, P. Sirois, “Response of perifused alveolar macrophages to glass fibers: effect of exposure duration and fiber length,” Environ. Res. 39(February 1986):124-135.
759. T. Blake, V. Castranova, D. Schwegler-Berry, P. Baron, G.J. Deye, C. Li, W. Jones, “Effect of fiber length on glass microfiber cytotoxicity,” J. Toxicol. Environ. Health 54(26 June 1998):243-259.
760. P.S. Lee, R.A. Gorski, W.E. Hering, T.L. Chan, “Lung clearance of inhaled particles after exposure to carbon black generated from a resuspension system,” Environ. Res. 43(August 1987):364-373.
761. K.E. Driscoll, J.M. Carter, B.W. Howard, D.G. Hassenbein, W. Pepelko, R.B. Baggs, G. Oberdorster, “Pulmonary inflammatory, chemokine, and mutagenic responses in rats after subchronic inhalation of carbon black,” Toxicol. Appl. Pharmacol. 136(February 1996):372-380.
762. K. Tanaka, S. Marui, T. Sawahata, T. Ino, “Morphological changes in the lungs caused by intratracheal administration of carbon fibers in rats,” Sangyo Igaku 28(July 1986):288-289.
763. A.B. Cohen, G. Batra, R. Petersen, J. Podany, D. Nguyen, “Size of the pool of alveolar neutrophils in normal rabbit lungs,” J. Appl. Physiol. 47(August 1979):440-444.
764. R.F. Henderson, E.B. Barr, Y.S. Cheng, W.C. Griffith, F.F. Hahn, “The effect of exposure pattern on the accumulation of particles and the response of the lung to inhaled particles,” Fundam. Appl. Toxicol. 19(October 1992):367-374.
765. R.S. Waritz, B. Ballantyne, J.J. Clary, “Subchronic inhalation toxicity of 3.5 microm diameter carbon fibers in rats,” J. Appl. Toxicol. 18(May-June 1998):215-223.
766. D.H. Bowden, I.Y. Adamson, “Pathways of cellular efflux and particulate clearance after carbon instillation to the lung,” J. Pathol. 143(June 1984):117-125.
767. D.H. Bowden, I.Y. Adamson, “Response of pulmonary macrophages to unilateral instillation of carbon,” Am. J. Pathol. 115(May 1984):151-155.
768. M.Lundborg, A. Johansson, L. Lastbom, P. Camner, “Ingested aggregates of ultrafine carbon particles and interferon-gamma impair rat alveolar macrophage function,” Environ. Res. 81(November 1999):309-315.
769. X.Y. Li, D. Brown, S. Smith, W. MacNee, K. Donaldson, “Short-term inflammatory responses following intratracheal instillation of fine and ultrafine carbon black in rats,” Inhal. Toxicol. 11(August 1999):709-731.
770. O. Brandli, “Are inhaled dust particles harmful for our lungs?” Schweiz. Med. Wochenschr. 126(14 December 1996):2165-2174.
771. M. Uehara, T. Imagawa, H. Kitagawa, “Morphological studies of the hyalocytes in the chicken eye: scanning electron microscopy and inflammatory response after the intravitreous injection of carbon particles,” J. Anat. 188(June 1996):661-669.
772. I.Y. Adamson, D.H. Bowden, “Adaptive responses of the pulmonary macrophagic system to carbon. II. Morphologic studies,” Lab. Invest. 38(April 1978):430-438.
773. S.Y. Al-Ali, A.G. Al-Zuhair, B. Dawod, “Ultrastructural study of phagocytic activities of young astrocytes in injured neonatal rat brain following intracerebral injection of colloidal carbon,” Glia 1(1988):211-218.
774. J.D. Elema, J.R. Hoyer, R.L. Vernier, “The glomerular mesangium: uptake and transport of intravenously injected colloidal carbon in rats,” Kidney Int. 9(May 1976):395-406.
775. K.J. Donald, R.J. Tennent, “The relative roles of platelets and macrophages in clearing particles from the blood; the value of carbon clearance as a measure of reticuloendothelial phagocytosis,” J. Pathol. 17(December 1975):235-245.
776. E. Chignier, J. Guidollet, G. Dureau, B. Grousson, B. Buttazzoni, P. Louisot, R. Elloy, “Characterization of the tissue proliferated at the blood interface of carbon/ceramic composites,” J. Biomed. Mater. Res. 21(December 1987):1415-1433.
777. H. Fujita, S. Kawamata, K. Yamashita, “Electron microscopic studies on multinucleate foreign body giant cells derived from Kupffer cells in mice given Indian ink intravenously,” Virchows Arch. B Cell. Pathol. Incl. Mol. Pathol. 42(1983):33-42.
778. H. Fujita, Y. Nishii, K. Yamashita, S. Kawamata, K. Yoshikawa, “The uptake and long-term storage of India ink particles and latex beads by fibroblasts in the dermis and subcutis of mice, with special regard to the non-inflammatory defense reaction by fibroblasts,” Arch. Histol. Cytol. 51(July 1988):285-294.
779. M. Ohata, T. Ito, “Experimental study on the fine structure of chicken liver parenchyme with special references to extrasinusoidal macrophages and sinusoidal blood cells. Part 2. Sinusoidal blood cells in normal and India ink perfused livers,” Arch. Histol. Jpn. 49(June 1986):199-209.
780. M.E. LeFevre, J.B. Warren, D.D. Joel, “Particles and macrophages in murine Peyer’s patches,” Exp. Cell. Biol. 53(1985):121-129.
781. G. Oberdorster, “Lung particle overload: implications for occupational exposures to particles,” Regul. Toxicol. Pharmacol. 21(February 1995):123-135.
782. J.A. Hobkirk, “Tissue reactions to implanted vitreous carbon and high purity sintered alumina,” J. Oral Rehabil. 4(October 1977):355-368.
783. John H. Yoe, “Carbon,” Encyclopedia Britannica 4(1963):868-869.
784. A. Brandwood, K.R. Noble, K. Schindhelm, “Phagocytosis of carbon particles by macrophages in vitro,” Biomaterials 13(1992):646-648.
785. B.P. Thornton, V. Vetvicka, G.D. Ross, “Natural antibody and complement-mediated antigen processing and presentation by B lymphocytes,” J. Immunol. 152(15 February 1994):1727-1737.
786. M.C. Carroll, “The role of complement and complement receptors in induction and regulation of immunity,” Annu. Rev. Immunol. 16(1998):545-568.
787. Adrian F. Ochsenbein, Thomas Fehr, Claudia Lutz, Mark Suter, Frank Brombacher, Hans Hengartner, Rolf M. Zinkernagel, “Control of Early Viral and Bacterial Distribution and Disease by Natural Antibodies,” Science 286(10 December 1999):2156-2159.
788. John Travis, “Kill the Messenger,” Science News 156(4 December 1999):362-364.
789. J.R. Head, W.S. Griffin, “Functional capacity of solid tissue transplants in the brain: evidence for immunological privilege,” Proc. R. Soc. Lond. B Biol. Sci. 224(22 May 1985):375-387.
790. G.E. Westgate, R.I. Craggs, W.T. Gibson, “Immune privilege in hair growth,” J. Invest. Dermatol. 97(September 1991):417-420.
791. A.J. Reynolds, C. Lawrence, P.B. Cserhalmi-Friedman, A.M. Christiano, C.A. Jahoda, “Trans-gender induction of hair follicles,” Nature 402(4 November 1999):33-34.
792. L. Feng, J.D. Andrade, “Surface atomic and domain structures of biomedical carbons observed by scanning tunneling microscopy (STM),” J. Biomed. Mater. Res. 27(February 1993):177-182.
793. M.L. Rudee, T.M. Price, “The initial stages of adsorption of plasma derived proteins on artificial surfaces in a controlled flow environment,” J. Biomed. Mater. Res. 19(January 1985):57-66.
794. F. Lacour, M.M. de Ficquelmont-Loizos, A. Caprani, “Adsorption of bovine serum albumin onto glassy carbon in a Couette flow. Effect of shear rate on the adsorption kinetics and on the structure of the adsorbed proteic layer,” Biorheology 29(March-June 1992):273-284.
795. B. Guo, J. Anzai, T. Osa, “Adsorption behavior of serum albumin on electrode surfaces and the effects of electrode potential,” Chem. Pharm. Bull. (Tokyo) 44(April 1996):800-803.
796. K. Lauslahti, H. Patiala, P. Rokkanen, T. Tarvainen, J. Rautavuori, P. Tormala, “Interaction of microporous glassy carbon and living tissue,” Ann. Biomed. Eng. 11(1983):495-498.
797. G.H. Kenner, S.D. Brown, W.D. Pasco, A.E. Marshall, J.E. Lovell, “Biocompatibility and state fatigue behavior of glassy carbon,” J. Biomed. Mater. Res. 9(January 1975):111-120.
798. D.H. Klasson, P. Scheman, “Purified carbon as a tissue replacement,” Int. Surg. 62(March 1977):179-182.
799. J.A. Hobkirk, “The reaction of rabbit tissues to implanted vitreous carbon,” J. Dent. 3(November 1975):271-278.
Last updated on 16 April 2004