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 800-899

800. T. Tarvainen, H. Patiala, T. Tunturi, I. Paronen, K. Lauslahti, P. Rokkanen, “Bone growth into glassy carbon implants. A rabbit experiment,” Acta Orthop. Scand. 56(February 1985):63-66.

801. P.S. Maropis, J.A. Molinari, B.N. Appel, A. Baumhammers, “Comparative study of vitreous carbon, pyrolytic carbon, pyrolytic graphite/silicon-carbide, and titanium implants in rabbit mandibles,” Oral Surg. Oral Med. Oral Pathol. 43(April 1977):506-512.

802. D.H. Markle, D.E. Grenoble, R.J. Melrose, “Histologic evaluation of vitreous carbon endosteal implants in dogs,” Biomater. Med. Devices Artif. Organs 3(1975):97-114; D.E. Grenoble, R.J. Melrose, D.H. Markle, “Histologic evaluation of vitreous carbon endosteal implants in occlusion in dogs,” Biomater. Med. Devices Artif. Organs 3(1975):245-258.

803. M. Schrader, K. Jahnke, “Vitreous carbon: a new material for middle ear ventilation tubes,” Clin. Otolaryngol. 15(August 1990):355-362.

804. A.W. Blayney, J.A. Romero Rio, K.R. Williams, A. Guilhaume, M. Bagot D’Arc, M. Portmann, “Experimental and clinical aspects of carbon as a middle ear prosthesis,” Clin. Otolaryngol. 11(June 1986):189-197.

805. F.J. Krummel, R. Reck, A. Meyer, “Compatibility of glass-carbon implants in the middle ear–animal experiment studies,” Laryngol. Rhinol. Otol. (Stuttg) 66(August 1987):409-411. In German.

806. L. Feng, J.D. Andrade, “Protein adsorption on low temperature isotropic carbon: V. How is it related to its blood compatibility?” J. Biomater. Sci. Polym. Ed. 7(1995):439-452.

807. J.M. Sogo, R. Portmann, P. Kaufmann, T. Koller, “Adsorption of DNA molecules to different support films,” J. Microsc. 104(July 1975):187-198.

808. L. Feng, J.D. Andrade, “Protein adsorption on low-temperature isotropic carbon: I. Protein conformational change probed by differential scanning calorimetry,” J. Biomed. Mater. Res. 28(June 1994):735-743.

809. S.D. Riccitelli, F.H. Bilge, R.C. Eberhart, “Adsorbed protein visualization on LTI carbon,” Trans. Am. Soc. Artif. Intern. Organs 30(1984):420-426.

810. H.S. Borovetz, G.E. Molek, G. Levine, R.L. Hardesty, A.D. Haubold, “Protein adsorption in vitro onto biomaterial surfaces covered with ULTI carbon,” Biomater. Med. Devices Artif. Organs 10(1982):187-203.

811. T.H. Chiu, E. Nyilas, D.M. Lederman, “Thermodynamics of native protein/foreign surface interactions. IV. Calorimetric and microelectrophoretic study of human fibrinogen sorption onto glass and LTI-carbon,” Trans. Am. Soc. Artif. Intern. Organs 22(1976):498-513.

812. J.A. Chinn, R.E. Phillips Jr., K.R. Lew, T.A. Horbett, “Tenacious Binding of Fibrinogen and Albumin to Pyrolite Carbon and Biomer,” J. Colloid. Interface Sci. 184(1 December 1996):11-19.

813. Y. Okazaki, K.E. Wika, T. Matsuyoshi, K. Fukamachi, R. Kunitomo, K.S. Tweden, H. Harasaki, “Platelets are deposited early post-operatively on the leaflet of a mechanical heart valve in sheep without post-operative anticoagulants or antiplatelet agents. A scanning electron microscopic observation of the pyrolytic carbon surface in a mechanical heart valve,” ASAIO J. 42(September-October 1996):M750-M754. See also: S.L. Goodman, K.S. Tweden, R.M. Albrecht, “Platelet interaction with pyrolytic carbon heart-valve leaflets,” J. Biomed. Mater. Res. 32(1996):249-258.

814. Y. Yang, S.F. Franzen, C.L. Olin, “In vivo comparison of hemocompatibility of materials used in mechanical heart valves,” J. Heart Valve Dis. 5(September 1996):532-537.

815. F. Bernex, J.P. Mazzucotelli, J.L. Roudiere, N. Benhaiem-Sigaux, J. Leandri, D. Loisance, “In vitro endothelialization of carbon-coated Dacron vascular grafts,” Int. J. Artif. Organs 15(March 1992):172-180.

816. S. Michieli, F. Gasparini, D. Leake, A. Pizzoferrato, J. Bokros, “Dental implants coated with isotropic carbon,” Minerva Stomatol. 27(October-December 1978):209-230. In Italian.

817. S.D. Cook, R.D. Beckenbaugh, J. Redondo, L.S. Popich, J.J. Klawitter, R.L. Linscheid, “Long-term follow-up of pyrolytic carbon metacarpophalangeal implants,” J. Bone Joint Surg. Am. 81(May 1999):635-648.

818. R.C. Anderson, S.D. Cook, A.M. Weinstein, R.J. Haddad Jr., “An evaluation of skeletal attachment to LTI pyrolytic carbon, porous titanium, and carbon-coated porous titanium implants,” Clin. Orthop. 182(January-February 1984):242-257.

819. J.S. Wright, J.B. Johnston, “Thrombosis on graphite-coated prostheses,” Surgery 60(November 1966):1036-1039.

820. U. Weber, H. Rettig, “The use of carbon as manufacturing material of endoprotheses,” Z. Orthop. 117(April 1979):268-276. In German.

821. E. Droz, M. Taborelli, P. Descouts, T.N. Wells, “Influence of surface and protein modification on immunoglobulin G adsorption observed by scanning force microscopy,” Biophys. J. 67(September 1994):1316-1323.

822. C. Eriksson, H. Nygren, “The initial reactions of graphite and gold with blood,” J. Biomed. Mater. Res. 37(October 1997):130-136.

823. R.S. Anderson, S.M. Thomson, L.L. Gutshall Jr., “Comparative effects of inhaled silica or synthetic graphite dusts on rat alveolar cells,” Arch. Environ. Contam. Toxicol. 18(November 1989):844-849.

824. T. Ohtoshi, H. Takizawa, H. Okazaki, S. Kawasaki, N. Takeuchi, K. Ohta, K. Ito, “Diesel exhaust particles stimulate human airway epithelial cells to produce cytokines relevant to airway inflammation in vitro,” J. Allergy Clin. Immunol. 101(June 1998):778-785.

825. E. Peters, D.G. Gardner, “A method of distinguishing between amalgam and graphite in tissue,” Oral Surg. Oral Med. Oral Pathol. 62(July 1986):73-76.

826. W.D. Belangero, G. Koberle, W.A. Hadler, “Inflammatory reaction of rat striated muscle to particles of carbon fiber reinforced carbon,” Braz. J. Med. Biol. Res. 26(August 1993):819-826.

827. M. Matsuhashi, A.N. Pankrushina, K. Endoh, H. Watanabe, Y. Mano, M. Hyodo, T. Fujita, K. Kunugita, T. Kaneko, S. Otani, “Studies on carbon material requirements for bacterial proliferation and spore germination under stress conditions: a new mechanism involving transmission of physical signals,” J. Bacteriol. 177(February 1995):688-693.

828. H.S. Shim, A.D. Haubold, “Gaseous flow through thin carbon films,” Biomater. Med. Devices. Artif. Organs 8(1980):257-264.

829. G.B. Ratto, R. Di Primio, P. Romano, A. Sacco, R. Franchini, S. Romagnoli, D. Zaccheo, G. Motta, “A new type of small calibre carbon fiber arterial prosthesis,” Ann. Chir. 43(1989):224-228. In French.

830. C. Baquey, L. Bordenave, N. More, J. Caix, B. Basse-Cathalinat, “Biocompatibility of carbon-carbon materials: blood tolerability,” Biomaterials 10(September 1989):435-440.

831. R.J. Minns, M.J. Denton, G.H. Dunstone, J.P. Sunter, “An experimental study of the use of a carbon fibre patch as a hernia prosthesis material,” Biomaterials 3(October 1982):199-203.

832. O. Tagusari, K. Yamazaki, P. Litwak, A. Kojima, E.C. Klein, J.F. Antaki, M. Watach, L.M. Gordon, K. Kono, T. Mori, H. Koyanagi, B.P. Griffith, R.L. Kormos, “Fine trabecularized carbon: ideal material and texture for percutaneous device system of permanent left ventricular assist device,” Artif. Organs 22(June 1998):481-487.

833. A.E. Goodship, S.A. Wilcock, J.S. Shah, “The development of tissue around various prosthetic implants used as replacements for ligaments and tendons,” Clin. Orthop. 196(June 1985):61-68.

834. R. Neugebauer, L. Claes, “The biological reaction of the tissues to carbon fibre ligament prosthesis in sheep-knees,” Aktuelle Probl. Chir. Orthop. 26(1983):96-100.

835. 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. In Japanese.

836. M. Sparmann, W. Noack, “Recent aspects of the biocompatibility of carbon fibers. A histologic and electron microscopy analysis,” Z. Orthop. 124(November-December 1986):671-676. In German.

837. K. Rohe, A. Braun, H. Cotta, “Carbon band implants in animal experiments. Light and transmission electron microscopy studies of biocompatibility,” Z. Orthop. 124(September-October 1986):569-577. In German.

838. D.G. Mendes, D. Angel, A. Grishkan, J. Boss, “Histological response to carbon fibre,” J. Bone Joint Surg. (Brit.) 67(August 1985):645-649.

839. T. Tullberg, “Failure of a carbon fiber implant. A case report,” Spine 23(15 August 1998):1804-1806.

840. L. Podoshin, R.H. Nodar, G.B. Hughes, T. Bauer, J.D. Hayes, M. Fradis, J. Boss, L. Ramsey, “Long-term histologic study of a new carbon-carbon ossicular replacement prosthesis,” Am. J. Otol. 9(September 1988):366-375.

841. D. Adams, D.F. Williams, J. Hill, “Carbon fiber-reinforced carbon as a potential implant material,” J. Biomed. Mater. Res. 12(January 1978):35-42.

842. D. Adams, D.F. Williams, “The response of bone to carbon–carbon composites,” Biomaterials 5(March 1984):59-64.

843. M. Lewandowska-Szumiel, J. Komender, J. Chlopek, “Interaction between carbon composites and bone after intrabone implantation,” J. Biomed. Mater. Res. 48(1999):289-296.

844. P.F. Holt, “Submicron carbon dust in the guinea pig lung,” Environ. Res. 28(August 1982):434-442.

845. T.R. Martin, S.W. Meyer, D.R. Luchtel, “An evaluation of the toxicity of carbon fiber composites for lung cells in vitro and in vivo,” Environ. Res. 49(August 1989):246-261.

846. E.J. Olson, J.D. Kang, F.H. Fu, H.I. Georgescu, G.C. Mason, C.H. Evans, “The biochemical and histological effects of artificial ligament wear particles: in vitro and in vivo studies,” Am. J. Sports Med. 16(November-December 1988):558-570.

847. P.E. Greis, H.I. Georgescu, F.H. Fu, C.H. Evans, “Particle-induced synthesis of collagenase by synovial fibroblasts: an immunocytochemical study,” J. Orthop. Res. 12(March 1994):286-293.

848. D. Wolter, “Biocompatibility of carbon fibre and carbon fibre microparticles,” Aktuelle Probl. Chir. Orthop. 26(1983):28-36; D. Wolter, “Biocompatibility of carbon fibers and carbon microparticles,” Aktuelle Probl. Chir. Orthop. 25(1983):30-38. In German.

849. R. Neugebauer, G. Helbing, D. Wolter, W. Mohr, G. Gistinger, “The body reaction to carbon fibre particles implanted into the medullary space of rabbits,” Biomaterials 2(July 1981):182-184.

850. D. Wolter, C. Burri, G. Helbing, W. Mohr, A. Ruter, “Body reaction to implanted carbon microparticles,” Arch. Orthop. Trauma Surg. 91(10 February 1978):19-29. In German.

851. I.Y. Adamson, H.L. Prieditis, “Response of mouse lung to carbon deposition during injury and repair,” Environ. Health Perspect. 103(January 1995):72-76.

852. D.C. Hammond, F.R. Lane, R.A. Welk, M.J. Madura, D.K. Borreson, W.J. Passinault, “Endoscopic tattooing of the colon. An experimental study,” Am. Surg. 55(July 1989):457-461.

853. S.I. Park, R.S. Genta, D.P. Romeo, R.E. Weesner,” Colonic abscess and focal peritonitis secondary to India ink tattooing of the colon,” Gastrointest. Endosc. 37(January-February 1991):68-71. Comment in: Gastrointest. Endosc. 37(November-December 1991):649-650.

854. K.L. Lane, R. Vallera, K. Washington, M.R. Gottfried, “Endoscopic tattoo agents in the colon. Tissue responses and clinical implications,” Am. J. Surg. Pathol. 20(October 1996):1266-1270.

855. R. Gallo, A. Parodi, E. Cozzani, M. Guarrera, “Allergic reaction to India ink in a black tattoo,” Contact Dermatitis 38(June 1998):346-347.

856. P. Dell’Abate, A. Iosca, A. Galimberti, P. Piccolo, P. Soliani, E. Foggi, “Endoscopic preoperative colonic tattooing: a clinical and surgical complication,” Endoscopy 31(March 1999):271-273.

857. S.A. Murphy, K.A. Berube, F.D. Pooley, R.J. Richards, “The response of lung epithelium to well characterised fine particles,” Life Sci. 62(1998):1789-1799.

858. F. Albert Cotton, Geoffrey Wilkinson, Advanced Inorganic Chemistry: A Comprehensive Text, Second Edition, John Wiley & Sons, New York, 1966.

859. T.H. Risby, S.S. Sehnert, L. Jiang, B.S. Dhingra, “A model for the release of adsorbed molecules from the surfaces of airborne particulate matter based on liquid-phase desorption from amorphous carbon blacks,” Environ. Health Perspect. 77(April 1988):141-149.

860. T.H. Risby, S.S. Sehnert, “A model for the formation of airborne particulate matter based on the gas-phase adsorption on amorphous carbon blacks,” Environ. Health Perspect. 77(April 1988):131-140.

861. F.R. Westwood, E. Longstaff, “Stimulation of cellular ingestion by basic proteins in vitro,” Br. J. Cancer33(April 1976):392-399.

862. W.G. Palmer, D.A. Creasia, “Metabolism of 7,12-dimethylbenz(a)anthracene by alveolar macrophages containing ingested ferric oxide, aluminum oxide or carbon particles,” J. Environ. Pathol. Toxicol. Oncol. 5(July 1984):261-270.

863. N.R. Bergquist, T. Waller, “A novel simple immunoassay for rapid detection of human IgG antibodies to Toxoplasma gondii,” J. Immunol. Methods 61(29 July 1983):339-344.

864. P. Geck, “India-ink immuno-reaction for the rapid detection of enteric pathogens,” Acta Microbiol. Acad. Sci. Hung. 18(1971):191-196.

865. G. Ternak, M. Wolff, D.P. Britt, “Use of the India ink immuno-reaction for the rapid detection of enteric pathogens in two area of Nigeria,” J. Hyg. (Lond) 87(December 1981):493-499.

866. G. Jojart, “India ink immune method for the study of antibody-coated urinary bacteria,” Int. Urol. Nephrol. 14(1982):327-331.

867. M. Lovik, A.K. Hogseth, P.I. Gaarder, R. Hagemann, I. Eide, “Diesel exhaust particles and carbon black have adjuvant activity on the local lymph node response and systemic IgE production to ovalbumin,” Toxicology 121(15 August 1997):165-178.

868. B.S. Dhodapkar, J.L. Vegad, G.N. Kolte, “Demonstration of the phagocytic activity of chicken basophils in the reversed Arthus reaction using colloidal carbon,” Res. Vet. Sci. 33(November 1982):377-379.

869. J.A. Hess, J.A. Molinari, P.J. Mentag, “Two cases of incompatibility to carbon-coated subperiosteal implants,” Oral Surg. Oral Med. Oral Pathol. 54(November 1982):499-505.

870. G. Sainte-Marie, F.S. Peng, “Depopulation of lymphocyte migration sites in the lymph node by irradiation and colloidal carbon,” Rev. Can. Biol. Exp. 42(November 1983):285-293.

871. O. Creutzenberg, B. Bellmann, R. Klingebiel, U. Heinrich, H. Muhle, “Phagocytosis and chemotaxis of rat alveolar macrophages after a combined or separate exposure to ozone and carbon black,” Exp. Toxicol. Pathol. 47(May 1995):202-206.

872. B.M. Altura, A. Gebrewold, “Chemical blockade of the reticuloendothelial system results in arteriolar spasms: possible role of endothelial cells,” Microcirc. Endothelium Lymphatics 2(April 1985):151-159.

873. S. Boonpucknavig, R. Bandaso, V. Boonpucknavig, N. Bhamarapravati, “Immunopathological studies of Plasmodium berghei infected mice: (effect of carbon particles),” J. Trop. Med. Hyg. 82(April 1979):79-83.

874. E.A. Ling, “Electron microscopic study of macrophages appearing in a stab wound of the brain of rats following intravenous injection of carbon particles,” Arch. Histol. Jpn. 42(January 1979):41-50.

875. Y.C. Chia, V. Cattell, “The role of platelets in mesangial localization: carbon uptake in thrombocytopenic rats,” Br. J. Exp. Pathol. 66(August 1985):465-474.

876. H. Zhu, M. Naito, H. Umezu, H. Moriyama, H. Takatsuka, K. Takahashi, L.D. Shultz, “Macrophage differentiation and expression of macrophage colony-stimulating factor in murine milky spots and omentum after macrophage elimination,” J. Leukoc. Biol. 61(April 1997):436-444.

877. B.E. Lehnert, Y.E. Valdez, S.H. Bomalaski, “Lung and pleural `free-cell responses’ to the intrapulmonary deposition of particles in the rat,” J. Toxicol. Environ. Health 16(1985):823-839.

878. M. Tsurusawa, H. Izumi, J. Fujita, K.J. Mori, “Enhancement of macrophage colony-stimulating factor in mice by carbon particles,” Experientia 38(15 October 1982):1231-1232.

879. E.M. Attwood, D.J. Weich, J.M. Oosthuizen, “Influence of carbon particles on superoxide and hydrogen peroxide radical release during the killing of Mycobacterium bovis by alveolar macrophages,” Tuber. Lung Dis. 77(October 1996):462-467.

880. E.M. Attwood, D.J. Weich, J.M. Oosthuizen, “The influence of carbon particles on the concentration of acid phosphatase and lysozyme enzymes within alveolar macrophages during the killing and degradation of Mycobacterium bovis,” Tuber. Lung Dis. 77(August 1996):341-347.

881. E.L. Dobson, L.S. Kelly, C.R. Finney, J.J. Lynch, “The association of blood platelets and colloidal carbon removal,” J. Reticuloendothel. Soc. 9(April 1971):376-382.

882. K.J. Donal, “The role of platelets in the clearance of colloidal carbon from blood in rabbits: a light and electron microscope study,” Pathology 4(October 1972):295-301.

883. R.P. Awadhiya, J.L. Vegad, G.N. Kolte, “Demonstration of the phagocytic activity of chicken thrombocytes using colloidal carbon,” Res. Vet. Sci. 29(July 1980):120-122.

884. Y. Kitamura, T. Taguchi, M. Yokoyama, M. Inoue, A. Yamatodani, H. Asano, T. Koyama, A. Kanamaru, K. Hatanaka, B.K. Wershil, et al, “Higher susceptibility of mast-cell-deficient W/WV mutant mice to brain thromboembolism and mortality caused by intravenous injection of India ink,” Am. J. Pathol. 122(March 1986):469-480.

885. E. Endo, H. Fujimoto, A. Ishimori, N. Matsuura, J. Khato, T. Takahashi, “In vitro test of phagocytic ability of human platelets using colloidal carbon,” Tohoku J. Exp. Med. 142(February 1984):131-139.

886. P. Algvere, E. Kock, “Experimental epiretinal membranes induced by intravitreal carbon particles,” Am. J. Ophthalmol. 96(September 1983):345-353.

887. P. Algvere, I.H. Wallow, B. Martini, “The development of vitreous membranes and retinal detachment induced by intravitreal carbon microparticles,” Graefes Arch. Clin. Exp. Ophthalmol. 226(1988):471-478; P. Algvere, B. Martini, “Sequelae of intravitreal phagocytic activity in response to microparticles,” Acta Ophthalmol. Suppl. 173(1985):107-110.

888. D.S. Swafford, K.J. Nikula, C.E. Mitchell, S.A. Belinsky, “Low frequency of alterations in p53, K-ras, and mdm2 in rat lung neoplasms induced by diesel exhaust or carbon black,” Carcinogenesis 16(May 1995):1215-1221.

889. K.E. Driscoll, L.C. Deyo, J.M. Carter, B.W. Howard, D.G. Hassenbein, T.A. Bertram, “Effects of particle exposure and particle-elicited inflammatory cells on mutation in rat alveolar epithelial cells,” Carcinogenesis 18(February 1997):423-430.

890. P.J. Borm, K. Driscoll, “Particles, inflammation and respiratory tract carcinogenesis,” Toxicol. Lett. 88(November 1996):109-113.

891. H. Prieditis, I.Y. Adamson, “Alveolar macrophage kinetics and multinucleated giant cell formation after lung injury,” J. Leukoc. Biol. 59(April 1996):534-538.

892. T. Terashima, B. Wiggs, D. English, J.C. Hogg, S.F. van Eeden, “Phagocytosis of small carbon particles (PM10) by alveolar macrophages stimulates the release of polymorphonuclear leukocytes from bone marrow,” Am. J. Respir. Crit. Care Med. 155(April 1997):1441-1447.

893. G.J. Jakab, D.R. Hemenway, “Concomitant exposure to carbon black particulates enhances ozone-induced lung inflammation and suppression of alveolar macrophage phagocytosis,” J. Toxicol. Environ. Health 41(February 1994):221-231.

894. G.J. Jakab, R.W. Clarke, D.R. Hemenway, M.V. Longphre, S.R. Kleeberger, R. Frank, “Inhalation of acid coated carbon black particles impairs alveolar macrophage phagocytosis,” Toxicol. Lett. 88(November 1996):243-248.

895. E.S. Wilkins, “Tissue reaction to intraperitoneally implanted catheter materials,” J. Biomed. Eng. 13(March 1991):173-175.

896. Jake Page, “Making the Chips that Run the World,” Smithsonian 30(January 2000):36-46.

897. Richard France, “Biomaterials Join in the Regeneration Game,” Materials World 8(2000):19-21. See also:

898. P.E.K. Donaldson, “Electric charge on 96 per cent alumina in water,” Med. Biol. Eng. Comput. 31(January 1993):75-78.

899. K. Yoshida, M. Yoshimoto, K. Sasaki, T. Ohnishi, T. Ushiki, J. Hitomi, S. Yamamoto, M. Sigeno, “Fabrication of a New Substrate for Atomic Force Microscopic Observation of DNA Molecules from an Ultrasmooth Sapphire Plate,” Biophys. J. 74(April 1998):1654-1657.


Last updated on 16 April 2004