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 2800-2899

2800. C.S.F. Lee, L. Talbot, “A fluid mechanical study on the closure of heart valves,” J. Fluid Mechanics 91(1979):41-63.

2801. W.Y. Kim, T. Bisgaard, S.L. Nielsen, J.K. Poulsen, E.M. Pedersen, J.M. Hasenkam, A.P. Yoganathan, “Two-dimensional mitral flow velocity profiles in pig models using epicardial Doppler echocardiography,” J. Am. Coll. Cardiol. 24(August 1994):532-545.

2802. R.H. Mohiaddin, “Flow patterns in the dilated ischemic left ventricle studied by MR imaging with velocity vector mapping,” J. Magn. Reson. Imaging 5(September-October 1995):493-498.

2803. B.J. Bellhouse, F.H. Bellhouse, “Fluid mechanics of model normal and stenosed aortic valves,” Circ. Res. 25(1969):693-704.

2804. B.J. Bellhouse, F.H. Bellhouse, J.A. Abbott, L. Talbot, “Mechanism of valvular incompetence in aortic sinus dilatation,” Cardiovasc. Res. 7(July 1973):490-494.

2805. K. Affeld, L. Goubergrits, O. Holberndt, “Novel cardiac assist valve with a purge flow in the valve sinus,” ASAIO J. 44(September-October 1998):M642-M647.

2806. L.S. Wann, A.E. Weyman, J.C. Dillon, H. Feigenbaum, “Premature pulmonary valve opening,” Circulation 55(January 1977):128-133.

2807. R.A. O’Rourke, M.H. Crawford, “Mitral valve regurgitation,” Curr. Probl. Cardiol. 9(May 1984):1-52.

2808. D.D. Miller, “Radionuclide evaluation of aortic regurgitation,” Curr. Probl. Cardiol. 15(February 1990):59-85.

2809. K.H. Nguyen, “Congenital Heart Surgery Nomenclature and Database Project: aortic valve disease,” Ann. Thorac. Surg. 69(April 2000):S118-S131; S.N. Mitruka, J.J. Lamberti, “Congenital Heart Surgery Nomenclature and Database Project: mitral valve disease,” Ann. Thorac. Surg. 69(April 2000):S132-S146.

2810. M.J. Thubrikar, F. Robicsek, B.L. Fowler, “Pressure trap created by vein valve closure and its role in graft stenosis,” J. Thorac. Cardiovasc. Surg. 107(March 1994):707-716; F. Robicsek, M.J. Thubrikar, A. Fokin, H.F. Tripp, B.L. Fowler, “Pressure traps in femoro-popliteal reversed vein grafts. Are valves culprits?” J. Cardiovasc. Surg. (Torino) 40(October 1999):683-689.

2811. G.C. Okoye, J.H. Evans, J. Beattie, G.D. Lowe, A.R. Lorimer, C.D. Forbes, “Response of femoral venous oxygen tension to graduated pressure stockings – possible relationship to deep vein thrombosis,” Thromb. Haemost. 51(28 February 1984):103-104.

2812. L.A. Cala, B.K. Armstrong, “A `triple-steal syndrome’ resulting from innominate and left subclavian arterial occlusion,” Aust. N.Z. J. Med. 2(August 1972):275-277.

2813. J.F. Toole, C.P. McGraw, “The steal syndrome,” Annu. Rev. Med. 26(1975):321-329.

2814. P.M. Paulman, D. Farris, “Subclavian steal syndrome,” Am. Fam. Physician 28(October 1983):199-203.

2815. C.M. Rodkiewicz, J. Centkowski, S. Zajac, “On the subclavian steal syndrome in vitro studies,” J. Biomech. Eng. 114(November 1992):527-532.

2816. M. Paivansalo, O. Heikkila, T. Tikkakoski, S. Leinonen, J. Merikanto, I. Suramo, “Duplex ultrasound in the subclavian steal syndrome,” Acta Radiol. 39(March 1998):183-188.

2817. J.C. Farkas, J.M. Fichelle, C. Laurian, A. Jean-Baptiste, F. Gigou, J. Marzelle, F.W. Goldstein, J.M. Cormier, “Long-term follow-up of positive cultures in 500 abdominal aortic aneurysms,” Arch. Surg. 128(March 1993):284-288.

2818. N. Goldberg, N. Krasnow, “Sinus of Valsalva aneurysms,” Clin. Cardiol. 13(December 1990):831-836.

2819. D. Kalimanovska-Ostric, M. Ostojic, P. Petrovic, M. Krotin, V. Ostric, D. Avramovic, “Unruptured congenital aneurysm of the right sinus of Valsalva. Dissecting into the interventricular septum,” Tex. Heart Inst. J. 23(1996):217-221.

2820. H. Akoudad, M. Cherti, S. Chaouki, S. Ztot, L. Haddour, I. el Mrabet, A. el Khadiri, E.G. Benmimoun, A. Arharbi, “Giant aneurysm of the inter-atrial septum,” Ann. Med. Interne (Paris) 150(January 1999):61-66. In French.

2821. H.G. Bogren, R.H. Mohiaddin, G.Z. Yang, P.J. Kilner, D.N. Firmin, “Magnetic resonance velocity vector mapping of blood flow in thoracic aortic aneurysms and grafts,” J. Thorac. Cardiovasc. Surg. 110(September 1995):704-714.

2822. L. Egloff, M. Rothlin, J. Kugelmeier, A. Senning, M. Turina, “The ascending aortic aneurysm: replacement or repair?” Ann. Thorac. Surg. 34(August 1982):117-124.

2823. J.P. Rehm, J.J. Grange, B.T. Baxter, “The formation of aneurysms,” Semin. Vasc. Surg. 11(September 1998):193-202.

2824. R. Ludemann, L.L. Swanstrom, “Totally laparoscopic abdominal aortic aneurysm repair,” Semin. Laparosc. Surg. 6(September 1999):153-163.

2825. S. Takeda, K. Wakabayashi, K. Yamazaki, T. Miyakawa, H. Arai, “Intracranial fungal aneurysm caused by Candida endocarditis,” Clin. Neuropathol. 17(July-August 1998):199-203.

2826. M. Paccalin et al, “Infectious aneurysm due to Listeria monocytogenes: a new case and review of the literature,” Rev. Med. Interne 19(September 1998):661-665.

2827. G.W. Sullivan, I.J. Sarembock, J. Linden, “The role of inflammation in vascular disease,” J. Leukoc. Biol. 67(May 2000):591-602.

2828. N.L. Benowitz, “How toxic is cocaine?” Ciba Found. Symp. 166(1992):125-143, 143-148 (discussion).

2829. I. Fourneau, V. Reynders-Frederix, H. Lacroix, A. Nevelsteen, R. Suy, “Aneurysm of the iliofemoral vein,” Ann. Vasc. Surg. 12(November 1998):605-608.

2830. J.M. Castle, E.J. Arous, “Femoral vein aneurysm: a case report and review of the literature,” Cardiovasc. Surg. 3(June 1995):317-319.

2831. A. Miyauchi, S. Okada, T. Hashimoto, H. Wakabayashi, T. Maeba, S. Tanaka, H. Hayashi, “Surgical treatment of an enormous aneurysmcal portahepatic venous fistula: report of a case,” Surg. Today 25(1995):855-858.

2832. E. Metchnikoff, Immunity in Infective Diseases, Cambridge University Press, Cambridge, U.K., 1905.

2833. M.W. Kanan, T.J. Ryan, A.G. Weddell, “The behavior of the nasal mucosa towards blood borne colloidal carbon in experimental animals,” Pathol. Eur. 10(1975):263-276.

2834. Y. Oghiso, O. Matsuoka, “Time-dependent changes of microscopic localization of intravenously administered colloidal carbon particles in mouse lymph nodes,” J. Toxicol. Sci. 8(November 1983):291-300.

2835. P. Gorog, J.D. Pearson, V.V. Kakkar, “Generation of reactive oxygen metabolites by phagocytosing endothelial cells,” Atherosclerosis 72(July 1988):19-27.

2836. Y. Shiratori, M. Tananka, T. Kawase, S. Shiina, Y. Komatsu, M. Omata, “Quantification of sinusoidal cell function in vivo,” Semin. Liver Dis. 13(February 1993):39-49.

2837. J.I. Alvarez, F.P. Ross, N.A. Athanason, H.C. Blair, E.M. Greenfield, S.L. Teitelbaum, “Osteoclast precursors circulate in avian blood,” Calcif. Tissue Int. 51(July 1992):48-53.

2838. M. Rabinovitch, “Professional and non-professional phagocytes: an introduction,” Trends Cell Biol. 5(1995):85-87.

2839. Douglas Cooper, “Peripheral Blood Cells,” Cell and Tissue Biology, 1998; http://www.sacs.ucsf.edu/home/cooper/blood97/bloodsyl.htm

2840. M.L. Karnovsky, J.A. Badwey, “Determinants of the production of active oxygen species by granulocytes and macrophages,” J. Clin. Chem. Clin. Biochem. 21(September 1983):545-553.

2841. Robert I. Lehrer, Tomas Ganz, “Chapter 87. Biochemistry and function of monocytes and macrophages,” in William’s Hematology, Fifth Edition, McGraw-Hill, New York, 1995, pp. 869-875.

2842. Y.K. Oh, J.A. Swanson, “Different fates of phagocytosed particles after delivery into macrophage lysosomes,” J. Cell Biol. 132(February 1996):585-593.

2843. “Human Disease”; http://www.britannica.com/bcom/eb/article/printable/8/0,5722,119798,00.html

2844. Steven D. Douglas, Wen-Zhe Ho, “Chapter 86. Morphology of monocytes and macrophages,” in William’s Hematology, Fifth Edition, McGraw-Hill, New York, 1995, pp. 861-868.

2845. E. Anthony Jones, John A. Summerfield, “Chapter 37. Kupffer Cells,” in Irwin M. Arias, William B. Jakoby, Hans Popper, David Schachter, David A. Shafritz, eds., The Liver: Biology and Pathobiology, Second Edition, Raven Press, New York, 1988, pp. 683-704.

2846. H. Harshima, N. Hirai, H. Kiwada, “Kinetic modelling of liposome degradation in peritoneal macrophages,” Biopharm. Drug Dispos. 16(March 1995):113-123.

2847. D.J. Loegering, L.M. Commins, F.L. Minnear, L.A. Gary, L.A. Hill, “Effect of Kupffer cell phagocytosis of erythrocytes and erythrocyte ghosts on susceptibility to endotoxemia and bacteremia,” Infect. Immun. 55(September 1987):2074-2080.

2848. F. Henell, J.L. Ericsson, H. Glaumann, “Degradation of phagocytosed lysosomes by Kupffer cell lysosomes,” Lab. Invest. 48(May 1983):556-564.

2849. R.G. Leslie, “Macrophage handling of soluble immune complexes. Ingestion and digestion of surface-bound complexes at 4, 20, and 37 degrees C,” Eur. J. Immunol. 10(May 1980):323-333.

2850. J. Mora-Galindo, F. Anaya-Velazquez, “Intracellular digestion of human erythrocytes by Entamoeba histolytica: a kinetic study in vitro,” Arch. Med. Res. 24(Winter 1993):347-351.

2851. H. Glaumann, I.K. Berezesky, J.L. Ericsson, B.F. Trump, “Lysosomal degradation of cell organelles. II. Ultrastructural analysis of uptake and digestion of intravenously injected microsomes and ribosomes by Kupffer cells,” Lab. Invest. 33(September 1975):252-261.

2852. S.I. Simon, G.W. Schmid-Schonbein, “Biophysical aspects of microsphere engulfment by human neutrophils,” Biophys. J. 53(February 1988):163-173.

2853. H. Hayatsu, T. Miyamae, M. Yamamura, “Heat production as a quantitative parameter of phagocytosis,” J. Immunol. Methods 109(9 May 1988):157-160.

2854. Tomas Ganz, Robert I. Lehrer, “Chapter 88. Production, distribution, and fate of monocytes and macrophages,” in William’s Hematology, Fifth Edition, McGraw-Hill, New York, 1995, pp. 875-878.

2855. MICR3453: Immunology,” 1998, http://www.utep.edu/eerael/immunology.htm

2856. A. Ryter, “Relationship between ultrastructure and specific functions of macrophages,” Comp. Immunol. Microbiol. Infect. Dis. 8(1985):119-133.

2857. M. Mariano, W.G. Spector, “The formation and properties of macrophage polykaryons (inflammatory giant cells),” J. Pathol. 113(May 1974):1-19.

2858. T.J. Chambers, “Fusion of macrophages following simultaneous attempted phagocytosis of glutaraldehyde-fixed red cells,” J. Pathol. 122(June 1977):71-80.

2859. R. van Furth, Z.A. Cohn, J.G. Hirsch, J.H. Humphrey, W.G. Spector, H.L. Langevoort, “The mononuclear phagocyte system: a new classification of macrophages, monocytes, and their precursor cells,” Bull. World Health Organ. 46(1972):845-852.

2860. Ludwig Aschoff, “Das Reticuloendothelialen System,” Ergebn. Innere Med. Kinderheilkde. 26(1924):1-118.

2861. C. Halma, M.R. Daha, L.A. van Es, “In vivo clearance by the mononuclear phagocyte system in humans: an overview of methods and their interpretation,” Clin. Exp. Immunol. 89(July 1992):1-7.

2862. J. Willis Hurst, ed., Medicine for the Practicing Physician, Third Edition, Butterworth-Heinemann, Boston MA, 1992.

2863. John W. Athens, “Chapter 12. The Reticuloendothelial (Mononuclear Phagocyte) System and the Spleen,” in G.R. Lee, T.C. Bithell, J. Foerster, J.W. Athens, J.N. Lukens, eds., Wintrobe’s Clinical Hematology, Ninth Edition, Lea & Febiger, Philadelphia PA, 1993, pp. 311-325.

2864. O. Gonzalez, R.L. Smith, S.B. Goodman, “Effect of size, concentration, surface area, and volume of polymethylmethacrylate particles on human macrophages in vitro,” J. Biomed. Mater. Res. 30(April 1996):463-473.

2865. Y. Tabata, Y. Ikada, “Effect of the size and surface charge of polymer microspheres on their phagocytosis by macrophage,” Biomaterials 9(July 1988):356-362.

2866. M. Koval, K. Preiter, C. Adles, P.D. Stahl, T.H. Steinberg, “Size of IgG-opsonized particles determines macrophage response during internalization,” Exp. Cell Res. 242(10 July 1998):265-273.

2867. Alan Aderem, David M. Underhill, “Mechanisms of phagocytosis in macrophages,” Annu. Rev. Immunol. 17(1999):593-623.

2868. L.Z. Solomon, B.R. Birch, A.J. Cooper, C.L. Davies, S.A. Holmes, “Nonhomologous bioinjectable materials in urology: `size matters’,” B.J.U. Int. 85(April 2000):641-645.

2869. E.E. Schmidt, I.C. MacDonald, A.C. Groom, “Interactions of leukocytes with vessel walls and with other blood cells, studied by high-resolution intravital videomicroscopy of spleen,” Microvasc. Res. 40(July 1990):99-117.

2870. James E. Smolen, Lawrence A. Boxer, “Chapter 77. Functions of neutrophils,” in William’s Hematology, Fifth Edition, McGraw-Hill, New York, 1995, pp. 779-.

2871. J.A. Styles, J. Wilson, “Comparison between in vitro toxicity of two novel fibrous mineral dusts and their tissue reactions in vivo,” Ann. Occup. Hyg. 19(July 1976):63-68.

2872. J. Roberts, J.H. Quastel, Biochem. J. 89(1963):150.

2873. R.A. Weisman, E.D. Korn, “Phagocytosis of latex beads by Acanthamoeba. I. Biochemical properties,” Biochemistry 6(February 1967):485-497; E.D. Korn, R.A. Weisman, “Phagocytosis of latex beads by Acanthamoeba. I. Electron microscopic study of the initial events,” J. Cell Biol. 34(July 1967):219-227.

2874. D.F. Bainton, R. Takemura, P.E. Stenberg, Z. Werb, “Rapid fragmentation and reorganization of Golgi membranes during frustrated phagocytosis of immobile immune complexes by macrophages,” Am. J. Pathol. 134(January 1989):15-26.

2875. H. Bergstrand, “The generation of reactive oxygen-derived species by phagocytes,” Agents Actions Suppl. 30(1990):199-211.

2876. G.J. Cannon, J.A. Swanson, “The macrophage capacity for phagocytosis,” J. Cell Sci. 101(April 1992):907-913.

2877. L. Liu, H. Elwing, A. Karlsson, G. Nimeri, C. Dahlgren, “Surface-related triggering of the neutrophil respiratory burst. Characterization of the response induced by IgG adsorbed to hydrophilic and hydrophobic glass surfaces,” Clin. Exp. Immunol. 109(July 1997):204-210.

2878. 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.

2879. J. Wettero, T. Bengtsson, P. Tengvall, “Complement activation on immunoglobulin G-coated hydrophobic surfaces enhances the release of oxygen radicals from neutrophils through an actin-dependent mechanism,” J. Biomed. Mater. Res. 51(15 September 2000):742-751.

2880. H. Ayhan, A. Tuncel, N. Bor, E. Piskin, “Phagocytosis of monosize polystyrene-based microspheres having different size and surface properties,” J. Biomater. Sci. Polym. Ed. 7(1995):329-342.

2881. S. Santavirta, D. Nordstrom, P. Ylinen, Y.T. Konttinen, T. Silvennoinen, P. Rokkanen, “Biocompatibility of hydroxyapatite-coated hip prostheses,” Arch. Orthp. Trauma Surg. 110(1991):288-292.

2882. W.H. Alwan, P.A. Dieppe, C.J. Elson, J.W. Bradfield, “Hydroxyapatite and urate crystal induced cytokine release by macrophages,” Ann. Rheum. Dis. 48(1989):476-482.

2883. R. Pacifici, A. Carano, S.A. Santoro et al, “Bone matrix constituents stimulate interleukin-1 release from human blood mononuclear cells,” J. Clin. Invest. 87(1991):221-228.

2884. L. Nordsletten, A.K.M. Hogasen, H. Carlsen et al, “Hydroxyapatite particles stimulate interleukin IL-1beta production in mononuclear cells from postmenopausal women,” Trans. Orthop. Res. Soc. 20(1995):779.

2885. L. Illum, S.S. Davis, “Targeting of colloidal particles to the bone marrow,” Life Sci. 40(20 April 1987):1553-1560.

2886. C.J. van Oss, “Phagocytosis as a surface phenomenon,” Annu. Rev. Microbiol. 32(1978):19-39.

2887. H.S. Kruth, J. Chang, I. Ifrim, W.Y. Zhang, “Characterization of patocytosis: endocytosis into macrophage surface-connected compartments,” Eur. J. Cell Biol. 78(February 1999):91-99.

2888. Stewart Sell, Immunology, Immunopathology and Immunity, Fourth Edition, Elsevier, New York, 1987.

2889. D.A. DuBose, C. Matthew, E. Schroder, C. Repique, J. Balcius, D. Morehouse, I. Sils, “Flow cytometric method using fluorescent microspheres to measure reticuloendothelial function or particulate translocation,” Biotech. Histochem. 74(September 1999):261-265.

2890. B.H. Simon, H.Y. Ando, P.K. Gupta, “Circulation time and body distribution of 14C-labeled amino-modified polystyrene nanoparticles in mice,” J. Pharm. Sci. 84(October 1995):1249-1253.

2891. J.G. McAfee, G. Subramanian, T. Aburano, F.D. Thomas, P. Fernandes, G. Gagne, B. Lyons, C. Zapf-Longo, “A new formulation of Tc-99m minimicroaggregated albumin for marrow imaging: comparison with other colloids, In-111 and Fe-59,” J. Nucl. Med. 23(January 1982):21-28.

2892. “Liver-Spleen Imaging,” Madigan Army Medical Center; http://www.mamc.amedd.army.mil/williams/NucMed/Gi01.htm

2893. P. Edman, I. Sjoholm, U. Brunk, “Acrylic microspheres in vivo VII: morphological studies on mice and cultured macrophages,” J. Pharm. Sci. 72(June 1983):658-665.

2894. L. Penchansky, J.R. Krause, “Phagocytic macrophages in the bone marrow biopsies of children with Hodgkin’s disease,” Pediatr. Pathol. 6(1986):369-375.

2895. S.H. Gregory, “Substratum-dependent proliferation and survival of bone marrow-derived mononuclear phagocytes,” J. Leukoc. Biol. 43(January 1988):67-79.

2896. J.M. Papadimitriou, R.B. Ashman, “Macrophages: current views on their differentiation, structure, and function,” Ultrastruct. Pathol. 13(July-August 1989):343-372.

2897. R. Keller, R. Keist, P. Joller, P. Groscurth, “Mononuclear phagocytes from human bone marrow progenitor cells: morphology, surface phenotype, and functional properties of resting and activated cells,” Clin. Exp. Immunol. 91(January 1993):176-182.

2898. S.A. Bentley, T.S. Tralka, O. Alabaster, “Phagocytic properties of bone marrow fibroblasts,” Exp. Hematol. 9(April 1981):313-318.

2899. T. Fujita, M. Sugimura, Y. Suzuki, “The migration of macrophages after phagocytosis in chick bone marrow,” Arch. Histol. Jpn. 45(December 1982):473-481.

 


Last updated on 16 April 2004