© 2003 Robert A. Freitas Jr. All Rights Reserved.

Robert A. Freitas Jr., Nanomedicine, Volume IIA: Biocompatibility, Landes Bioscience, Georgetown, TX, 2003

References 3900-3999

3900. J. Fingerle, Y.P.T. Au, A.W. Clowes, M.A. Reidy, “Intimal lesion formation in rat carotid arteries after endothelial denudation in absence of medial injury,” Arteriosclerosis 10(November-December 1990):1082-1087.

3901. A.W. Clowes, M.A. Reidy, M.M. Clowes, “Kinetics of cellular proliferation after arterial injury. I. Smooth muscle growth in the absence of endothelium,” Lab. Invest. 49(September 1983):327-333.

3902. R.E. Shaddy, “Apoptosis in heart transplantation,” Coron. Artery Dis. 8(October 1997):617-621.

3903. S.T. Shaw Jr., L.K. Macaulay, W.R. Hohman, “Morphologic studies on IUD-induced metrorrhagia. I. Endometrial changes and clinical correlations,” Contraception 19(January 1979):47-61.

3904. P.K. Ng, M.J. Ault, M.C. Fishbein, “The stuck catheter: a case report,” Mt. Sinai J. Med. 64(September-October 1997):350-352.

3905. J.G. White, N.J. Mulligan, D.R. Gorin, R. D’Agostino, E.K. Yucel, J.O. Menzoian, “Response of normal aorta to endovascular grafting: a serial histopathological study,” Arch. Surg. 133(March 1998):246-249.

3906. Alexander M. Seifalian, Alberto Giudiceandrea, Thomas Schmitz-Rixen, George Hamilton, “Chapter 2. Noncompliance: The Silent Acceptance of a Villain,” in Peter Zilla, Howard P. Greisler, eds., Tissue Engineering of Prosthetic Vascular Grafts, R.G. Landes Company, Austin TX, 1999, pp. 45-58.

3907. S. Cavalcanti, A. Tura, “Hemodynamic and mechanical performance of arterial grafts assessed by numerical simulation: a design oriented study,” Artif. Organs 23(February 1999):175-185.

3908. S. Hsu, H. Kambic, “On matching compliance between canine carotid arteries and polyurethane grafts,” Artif. Organs 21(December 1997):1247-1254.

3909. M. O’Rourke, “Arterial compliance and wave reflection,” Arch. Mal. Coeur Vaiss. 84(September 1991):45-48 (Spec. No. 3); E.D. Lehmann, “Elastic properties of the aorta,” Lancet 342(4 December 1993):1417.

3910. F. Giron, W.S. Birtwell, H.S. Soroff, R.A. Deterling, “Hemodynamic effects of pulsatile and nonpulsatile flow,” Arch. Surg. 93(November 1966):802-810; D.E. Strandness, D.S. Summer, Hemodynamics for Surgeon, Grune & Stratton, New York, 1975.

3911. J.E. Hasson, J. Megerman, W.M. Abbott, “Increased compliance near vascular anastromoses,” J. Vasc. Surg. 2(May 1985):419-423.

3912. W.M. Abbott, J.M. Megerman, “Adaptive responses of arteries to grafting,” J. Vasc. Surg. 9(February 1989):377-379; T. Schmitz-Rixen, G. Hamilton, “Compliance: A critical parameter for maintenance of arterial reconstruction?” in R.M. Greenhalgh, L.H. Hollier, eds., The Maintenance of Arterial Reconstruction, W.B. Saunders, London, 1991, pp. 23-43.

3913. W.M. Abbott, J.M. Megerman, J.E. Hasson, G. L’Italien, D.F. Warnock, “Effect of compliance mismatch on vascular graft patency,” J. Vasc. Surg. 5(February 1987):376-382.

3914. A.W. Clowes, M.M. Clowes, J. Fingerle, M.A. Reidy, “Kinetics of cellular proliferation after arterial injury. V. Role of acute distension in the induction of smooth muscle proliferation,” Lab. Invest. 60(March 1989):360-364.

3915. H.S. Bassiouny, S. White, S. Glagov, E. Choi, D.P. Giddens, C.K. Zarins, “Anastomotic intimal hyperplasia: mechanical injury or flow induced,” J. Vasc. Surg. 15(April 1992):708-716, 716-717 (discussion).

3916. W.M. Abbott, R.P. Cambria, “Control of physical characteristics (elasticity and compliance) of vascular grafts,” in J.C. Stanley, ed., Biological and Synthetic Vascular Prostheses, Grune and Stratton, New York, 1982, pp. 189 et seq.

3917. V.S. Sottiurai, S.L. Sue, E.L. Feinberg 2nd, W.L. Bringaze, A.T. Tran, R.C. Batson, “Distal anastomotic intimal hyperplasia: biogenesis and etiology,” Eur. J. Vasc. Surg. 2(August 1988):245-256; H.G. Predel, Z. Yang, L. von Segesser, M. Turina, F.R. Buhler, T.F. Luscher, “Implication of pulsatile stretch on growth of saphenous vein and mammary artery smooth muscle,” Lancet 340(10 October 1992):878-879.

3918. C.M. Agrawal, H.G. Clark, “Deformation characteristics of a bioabsorbable intravascular stent,” Invest. Radiol. 27(December 1992):1020-1024.

3919. Joseph I. Zarge, Peter Huang, Howard P. Greisler, “Chapter 24. Blood Vessels,” in Robert P. Lanza, Robert Langer, William L. Chick, eds., Principles of Tissue Engineering, R.G. Landes Company, Georgetown TX, 1997, pp. 349-364.

3920. Y. Qiu, J.M. Tarbell, “Numerical simulation of pulsatile flow in a compliant curved tube model of a coronary artery,” J. Biomech. Eng. 122(February 2000):77-85.

3921. M.S. Clarke, C.R. Vanderburg, E.D. Hay, P.L. McNeil, “Cytoplasmic loading of dyes, protein and plasmid DNA using an impact-mediated procedure,” Biotechniques 17(December 1994):1118-1125.

3922. M. Horowitz, P. Purdy, T. Kopitnik, “Subarachnoid hemorrhage during arteriovenous malformation embolization as a result of vessel wall ‘sandblasting’,” Surg. Neurol. 50(November 1998):403-406, 406-407 (discussion).

3923. Q.C. Yu, P.L. McNeil, “Transient disruptions of aortic endothelial cell plasma membranes,” Am. J. Pathol. 141(December 1992):1349-1360.

3924. A.A. Brayman, L.M. Lizotte, M.W. Miller, “Erosion of artificial endothelia in vitro by pulsed ultrasound: acoustic pressure, frequency, membrane orientation and microbubble contrast agent dependence,” Ultrasound Med. Biol. 25(October 1999):1305-1320.

3925. J.E. Molina, C.A. Galliani, S. Einzig, R. Bianco, T. Rasmussen, R. Clack, “Physical and mechanical effects of cardioplegic injection on flow distribution and myocardial damage in hearts with normal coronary arteries,” J. Thorac. Cardiovasc. Surg. 97(June 1989):870-877.

3926. M. Roger, T.O. Rognum, J. Ingum, G. Welle-Strand, “Intravenous abuse of crushed tablets. A case with fatal outcome,” Tidsskr. Nor. Laegeforen. 110(20 June 1990):2080-2081. In Norwegian.

3927. I. Harich, M. Bohnke, J. Draeger, “Endothelium protective effect of the high viscosity substances hyaluronic acid and methylcellulose in mechanical damage,” Fortschr. Ophthalmol. 87(1990):475-478. In German.

3928. P.L. McNeil, L. Muthukrishnan, E. Warder, P.A. D’Amore, “Growth factors are released by mechanically wounded endothelial cells,” J. Cell Biol. 109(August 1989):811-822.

3929. G. Pintucci et al, “Mechanical endothelial damage results in basic fibroblast growth factor-mediated activation of extracellular signal-regulated kinases,” Surgery 126(August 1999):422-427.

3930. L.B. Langille, “Integrity of arterial endothelium following acute exposure to high shear stress,” Biorheology 21(1984):333-346.

3931. E. Sirois, J. Charara, J. Ruel, J.C. Dussault, P. Gagnon, C.J. Doillon, “Endothelial cells exposed to erythrocytes under shear stress: an in vitro study,” Biomaterials 19(November 1998):1925-1934.

3932. J.R. Wendt, S.M. Ackley, “Vascular complications of a foreign body in the hand of an asymptomatic patient,” Ann. Plast. Surg. 34(January 1995):92-94.

3933. I.N. Nuno, K.A. Ashton, K.M. Uppal, P.W. Lee, V.A. Starnes, “Indwelling catheter-induced right ventricular rupture,” Ann. Thorac. Surg. 68(September 1999):1085-1086.

3934. L. San Vicente, M.E. Martinez, J. Codina, A. Maza, G. Lafuente, E. Rotellar, “Cardiac perforation from a subclavian catheter,” Nephron 35(1983):276.

3935. D. Karakaya, S. Baris, A. Tur, “Pulmonary artery cather-induced right ventricular perforation during coronary artery bypass surgery,” Br. J. Anaesth. 82(June 1999):953.

3936. F. Siclari, H. Klein, J. Troster, “Intraventricular migration of an ICD patch,” Pacing Clin. Electrophysiol. 13(November 1990):1356-1359.

3937. G. Dorros, M.R. Jaff, A. Parikh, R. Sehgal, V. Thota, K. Ramireddy, R.E. Carballo, “In vivo crushing of an aortic stent enables endovascular repair of a large infrarenal aortic pseudoaneurysm,” J. Endovasc. Surg. 59(November 1998):359-364.

3938. J.D. Urschel, P.D. Myerowitz, “Catheter-induced pulmonary artery rupture in the setting of cardiopulmonary bypass,” Ann. Thorac. Surg. 56(September 1993):585-589.

3939. M.H. Mullerworth, P. Angelopoulos, M.A. Couyant, A.M. Horton, S.M. Robinson, O.U. Petring, P.J. Mitchell, J.J. Presneill, “Recognition and management of catheter-induced pulmonary artery rupture,” Ann. Thorac. Surg. 66(October 1998):1242-1245.

3940. E.D. Stancofski, A. Sardi, G.L. Conaway, “Successful outcome in Swan-Ganz catheter-induced rupture of pulmonary artery,” Am. Surg. 64(November 1998):1062-1065.

3941. S.P. Rivers, E.S. Lee, R.T. Lyon, S. Monrad, T. Hoffman, F.J. Veith, “Successful conservative management of iatrogenic femoral arterial trauma,” Ann. Vasc. Surg. 6(January 1992):45-49.

3942. S.C. Stoica, M. Fleet, A. Howd, “Subclavian artery injury following percutaneous insertion of dialysis catheter,” Rev. Med. Chir. Soc. Med. Nat. Iasi. 102(July-December 1998):194-197.

3943. V. Fourestie, B. Godeau, J.L. Lejonc, A. Schaeffer, “Left innominate vein stenosis as a late complication of central vein catheterization,” Chest 88(October 1985):636-638.

3944. M.J. Schoo, F.A. Scott, J.A. Boswick Jr., “High-pressure injection injuries of the hand,” J. Trauma 20(March 1980):229-238.

3945. Y. Sato, T. Kondo, T. Ohshima, “Traumatic tear of the basilar artery associated with vertebral column injuries,” Am. J. Forensic Med. Pathol. 18(June 1997):129-134.

3946. R.J. Siegel, M. Koponen, “Spontaneous coronary artery dissection causing sudden death. Mechanical arterial failure or primary vasculitis?” Arch. Pathol. Lab. Med. 118(February 1994):196-198; Arch. Pathol. Lab. Med. 118(September 1994):863-864 (comment).

3947. F. Hammer, D. Becker, P. Goffette, P. Mathurin, “Crushed stents in benign left brachiocephalic vein stenoses,” J. Vasc. Surg. 32(August 2000):392-396.

3948. B.F. Rigney, “Case report: mechanical failure of a spinal transabdominal teflon stent in tuboplasty,” Fertil. Steril. 26(February 1975):186-189.

3949. C.T. Johnson, L.A. Osborn, “Indwelling pericardial drainage catheter break secondary to heart movement and catheter angulation,” Cathet. Cardiovasc. Diagn. 42(September 1997):58-60.

3950. B. Peskin, M. Soudack, A. Ben-Nun, “Hickman catheter rupture and embolization – a life-threatening complication,” Isr. Med. Assoc. 1(December 1999):289.

3951. S. Dakshinamurti, J. Ducas, J.N. Odim, “Retrieval of Silastic catheter fragment from heart in septic thromboembolism complicating aplastic anemia,” Can. J. Cardiol. 12(September 1996):794-796.

3952. G. Roggla, M. Linkesch, M. Roggla, A. Wagner, P. Haber, W. Linkesch, “A rare complication of a central venous catheter system (Port-a-Cath). A case report of a catheter embolization after catheter fracture during power training,” Int. J. Sports Med. 14(August 1993):345-346.

3953. W.Y. Hou, W.Z. Sun, Y.A. Chen, S.M. Wu, S.Y. Lin, “‘Pinch-off sign’ and spontaneous fracture of an implanted central venous catheter: report of a case,” J. Formos. Med. Assoc. 93(March 1994):S65-S69. In Chinese.

3954. J.M. Debets, J.A. Wils, J.T. Schlangen, “A rare complication of implanted central-venous access devices: catheter fracture and embolization,” Support Care Cancer 3(November 1995):432-434.

3955. P. Vadlamani, B. Dawn, M.C. Perry, “Catheter fracture and embolization from totally implanted venous access ports – case reports,” Angiology 49(December 1998):1013-1016.

3956. E. Desruennes, “Mechanical complications at implantation sites,” Pathol. Biol. (paris) 47(March 1999):269-272. In French.

3957. J.W. Mazel, F.J. Idenburg, O.M. van Delden, “Catheter fracture and embolization: a rare complication of a permanent implanted intravenous catheter system,” Ned. Tijdschr. Geneeskd. 144(8 July 2000):1360-1363. In Dutch.

3958. J.M. Suarez-Penaranda, Guitian-Barreiro, L. Concheiro-Carro, “Longstanding intracardiac catheter embolism. An unusual autopsy finding,” Am. J. Forensic Med. Pathol. 16(June 1995):124-126.

3959. S.E. Pratt, R.M. Corwin, L.A. Selby, J.D. Rhoades, “Prevalence of Dirofilaria immitis and Dipetalonema reconditum infections in Missouri dogs,” J. Am. Vet. Med. Assoc. 179(15 September 1981):592-593.

3960. H. Kumar, R. Sahai, C.K. Rao, “In vitro cultivation of infective larvae of Dirofilaria immitis,” J. Commun. Dis. 16(March 1984):77-81.

3961. M.L. Eberhard, “Dirofilaria macrodemos and D. panamensis spp. n. (Nematoda: Filarioidea) from Central and South Americal sloths,” J. Parasitol. 64(April 1978):198-203.

3962. Enzyme Research Laboratories, “ Monoclonal Antibodies to Coagulation Proteins,” 2002; http://www.enzymeresearch.com/monoclonals.html

3963. A.S. Verkman, “Water permeability measurement in living cells and complex tissues,” J. Membr. Biol. 173(15 January 2000):73-87.

3964. Manuela Martins-Green, “Chapter 3. The Dynamics of Cell-ECM Interactions with Implications for Tissue Engineering,” in Robert P. Lanza, Robert Langer, William L. Chick, eds., Principles of Tissue Engineering, R.G. Landes Company, Georgetown TX, 1997, pp. 23-46.

3965. Christopher S. Chen, Milan Mrksich, Sui Huang, George M. Whitesides, Donald E. Ingber, “Geometric control of cell life and death,” Science 276(30 May 1997):1425-1428; 1345-1346 (comment).

3966. U.S. Potard, J.P. Butler, N. Wang, “Cytoskeletal mechanics in confluent epithelial cells probed through integrins and E-cadherins,” Am. J. Physiol. 272(May 1997):C1654-C1663.

3967. Y.C. Fung, Biomechanics: Mechanical Properties of Living Tissues, Second Edition, Springer-Verlag, New York, 1993.

3968. Jingdong Liu, Bertold Schrank, Robert H. Waterston, “Interaction between a putative mechanosensory membrane channel and a collagen,” Science 273(19 July 1996):361-364.

3969. N.M. Bachrach, W.B. Valhmu, E. Stazzone, A. Ratcliffe, W.M. Lai, V.C. Mow, “Changes in proteoglycans synthesis of chondrocytes in articular cartilage are associated with the time-dependent changes in their mechanical environment,” J. Biomech. 28(December 1995):1561-1569.

3970. C.M. Hai, “Mechanosensitive modulation of receptor-mediated crossbridge activation and cytoskeletal organization in airway smooth muscle,” Arch. Pharm. Res. 23(December 2000):535-547.

3971. J. Niggel, W. Sigurdson, F. Sachs, “Mechanically induced calcium movements in astrocytes, bovine aortic endothelial cells and C6 glioma cells,” J. Membr. Biol. 174(15 March 2000):121-134.

3972. A.G. Petrov, P.N. Usherwood, “Mechanosensitivity of cell membranes. Ion channels, lipid matrix and cytoskeleton,” Eur. Biophys. J. 23(1994):1-19.

3973. H. Sauer, J. Hescheler, M. Wartenberg, “Mechanical strain-induced Ca(2+) waves are propagated via ATP release and purinergic receptor activation,” Am. J. Physiol. Cell Physiol. 279(August 2000):C295-C307; http://ajpcell.physiology.org/cgi/content/full/279/2/C295

3974. H. Gotoh, A. Takahashi, “Mechanical stimuli induce intracellular calcium response in a subpopulation of cultured rat sensory neurons,” Neuroscience 92(1999):1323-1329.

3975. D. Riveline, E. Zamir, N.Q. Balaban, U.S. Schwarz, T. Ishizaki, S. Narumiya, Z. Kam, B. Geiger, A.D. Bershadsky, “Focal contacts as mechanosensors: externally applied local mechanical force induces growth of focal contacts by an mDia1-dependent and ROCK-independent mechanism,” J. Cell Biol. 153(11 June 2001):1175-1186.

3976. N.A. Castelo Branco, E. Rodriguez, M. Alves-Pereira, D.R. Jones, “Vibroacoustic disease: some forensic aspects,” Aviat. Space Environ. Med. 70(March 1999):A145-A151.

3977. N.Q. Balaban et al, “Force and focal adhesion assembly: a close relationship studied using elastic micropatterned substrates,” Nat. Cell Biol. 3(May 2001):466-472, E110-E112 (comment).

3978. L.E. Lanyon, A.E. Goodship, C.J. Pye, J.H. MacFie, “Mechanically adaptive bone remodeling,” J. Biomechanics 15(1982):141-154.

3979. L.E. Lanyon, “Functional strain as a determinant for bone remodeling,” Calcif. Tiss. Res. 36(1984):556-561.

3980. C.T. Rubin, L.E. Lanyon, “Regulation of bone mass by mechanical strain magnitude,” Calcif. Tiss. Res. 37(1985):411-417.

3981. D.B. Jones, H. Nolte, J.G. Scholubbers, E. Turner, D. Veltel, “Biochemical signal transduction of mechanical strain in osteoblastlike cells,” Biomaterials 12(1991):101-110.

3982. C.D. Toma, S. Ashkar, M.L. Gray, J.L. Schaffer, L.C. Gersten feld, ‘Signal transduction of mechanical stimuli is dependent on microfilament integrity: identification of osteopontin as a mechanically induced gene in osteoblasts,” J. Bone Miner. Res. 12(October 1997):1626-1636.

3983. F. Guilak, “Compression-induced changes in the shape and volume of the chondrocytes nucleus,” J. Biomech. 28(December 1995):1529-1541.

3984. K.-L. Paul Sung, Mony M. Frojmovic, Timothy E. O’Toole, Cheng Zhu, Mark H. Ginsberg, Shu Chien, “Determination of adhesion force between single cell pairs generated by activated GpIIb-IIIa receptors,” Blood 81(15 January 1993):419-423.

3985. Jan H. Hoh, Ratneshwar Lal, Scott A. John, Jean-Paul Revel, Morton F. Arnsdorf, “Atomic force microscopy and dissection of gap junctions,” Science 253(20 September 1991):1405-1408.

3986. S. Evans, D. Berk, A. Leung, “Detachment of agglutinin-bonded red blood cells. I. Forces to rupture molecular-point attachments,” Biophys. J. 59(April 1991):838-848.

3987. J.Y. Shao, R.M. Hochmuth, ‘Mechanical anchoring strength of L-selectin, Beta2-integrins, and CD45 to neutrophil cytoskeleton and membrane,” Biophys. J. 77(July 1999):587-596.

3988. D.W. Schmidtke, S.L. Diamond, “Dirct observation of membrane tethers formed during neutrophil attachment to platelets or P-selectin under physiological flow,” J. Cell Biol. 149(1 May 2000):719-730.

3989. M. Grandbois, W. Dettmann, M. Benoit, H.E. Gaub, “Affinity imaging of red blood cells using an atomic force microscope,” J. Histochem. Cytochem. 48(May 2000):719-724.

3990. G.I. Bell, “Models for the specific adhesion of cells to cells,” Science 200(12 May 1978):618-627.

3991. J. Fritz, A.G. Katopodis, F. Kolbinger, D. Anselmetti, “Force-mediated kinetics of single P-selectin/ligand complexes observed by atomic force microscopy,” Proc. Natl. Acad. Sci. (USA) 95(13 October 1998):12283-12288.

3992. Ulrich Dammer, Octavian Popescu, Peter Wagner, Dario Anselmetti, Hans-Joachim Guntherodt, Gradimir N. Misevic, “Binding strength between cell adhesion proteoglycans measured by atomic force microscopy,” Science 267(24 February 1995):1173-1175.

3993. L.M. Walker, A. Holm, L. Cooling, L. Maxwell, A. Oberg, T. Sundqvist, A.J. El Haj, “Mechanical manipulation of bone and cartilage cells with optical tweezers,” FEBS Lett. 459(1 October 1999):39-42.

3994. N.X. Chen, K.D. Ryder, F.M. Pavalko, C.H. Turner, D.B. Burr, J. Qiu, R.L. Duncan, “Ca(2+) regulates fluid shear-indiced cytoskeletal reorganization and gene expression in osteoblasts,” Am. J. Physiol. Cell Physiol. 278(May 2000):C989-C997.

3995. N.E. Ajubi, J. Klein-Nulend, M.J. Alblas, E.H. Burger, P.J. Nijweide, “Signal transduction pathways involved in fluid flow-induced PGE2 production by cultured osteocytes,” Am. J. Physiol. 276(January 1999):E171-E178.

3996. M. Opas, L. Kalinina, “Comparison of locomotion and adhesion in four strains of Amoeba proteus,” Acta Protozool. 19(1980):339-344.

3997. Michal Opas, “V.3 The Transmission of Forces Between Cells and Their Environment,” in J. Bereiter-Hahn, O.R. Anderson, W.-E. Reif, eds., Cytomechanics: The Mechanical Basis of Cell Form and Structure, Springer-Verlag, Berlin, 1987, pp. 273-285.

3998. D.W. James, J.F. Taylor, “The stress developed by sheets of chick fibroblasts in vitro,” Exp. Cell Res. 54(1969):107-110.

3999. K.-L.P. Sung, L.A. Sung, M. Crimmins, S.J. Burakoff, S. Chien, “Determination of junction avidity of cytolytic T cell and target cell,” Science 234(1986):1405-1408.

Last updated on 16 April 2004