Nanomedicine, Volume I: Basic Capabilities

© 1999 Robert A. Freitas Jr. All Rights Reserved.

Robert A. Freitas Jr., Nanomedicine, Volume I: Basic Capabilities, Landes Bioscience, Georgetown, TX, 1999


References 1300-1399

1301. Yoseph Bar-Cohen, "Artificial Muscles from Electrostrictive Polymers," in NASA-JPL Telerobotics Program Plan, 1996; see at:

1302. J.R. Bulgrin, B.J. Rubal, C.R. Thompson, J.M. Moody, "Comparison of short-time Fourier, wavelet and time domain analyses of intracardiac sounds," Biomedical Sciences Instrumentation 29(1993):465-472; J.R. Bulgrin, B.J. Rubal, "Time-Frequency Analysis of Heart Sounds," Scientific Computing and Automation (August 1994):15 et seq.

1303. Ralph Merkle, "Re Bacterial Motors and Nanotech,"

1304. National Library of Medicine, Visible Human Project, See also the "Digital Anatomist Project," University of Washington, Seattle, WA, at:

1306. H. Hisakuni, K. Tanaka, "Optical Microfabrication of Chalcogenide Glasses," Science 270(10 November 1995):974-975.

1307. Michael Curry, Jeffrey Hobbs, Ronald Toub, "Will Using a Head Mounted Display Affect Pointing on Wearable Computers?" 2nd ACM International Conference on Mobile Computing and Networking (MobiCom 96), White Plains, NY, 11-12 November 1996. See also:

1308. Boris I. Yakobson, Richard E. Smalley, "Fullerene Nanotubes: C1,000,000 and Beyond," American Scientist 85(July-August 1997):324-337.

1309. Slava Grebenev, J. Peter Toennies, Andrei F. Vilesov, "Superfluidity Within a Small Helium-4 Cluster: The Microscopic Andronikashvili Experiment," Science 279(27 March 1998):2083-2086.

1310. Thomas A. Herring, "The Global Positioning System," Scientific American 274(February 1996):44-50.

1311. Declan A. Doyle et al., "The Structure of the Potassium Channel: Molecular Basis of K+ Conduction and Selectivity," Science 280(3 April 1998):69-76.

1312. H.L. Goldsmith, S.G. Mason, "Chapter 4. The Microrheology of Dispersions," in F.R. Eirich, ed., Rheology: Theory and Applications, Volume IV, Academic Press, NY, 1967, pp. 87-205.

1313. R. Fahraeus, "The suspension stability of blood," Physiol. Rev. 9(1929):241-274.

1314. S. Chien, "Shear dependence of effective cell volume as a determinant of blood viscosity," Science 168(1970):977-979.

1315. R.L. Whitmore, "A theory of blood flow in small vessels," J. Appl. Physiol. 22(1967):767-771.

1316. P.C. Hiemenz, Principles of Colloid and Surface Chemistry, Second Edition, Marcel Dekker, NY, 1986.

1317. H.L. Goldsmith, S.G. Mason, "The Flow of Suspensions Through Tubes. I. Single Spheres, Rods, and Discs," J. Colloid Sci. 17(1962):448-476.

1318. G.R. Cokelet, E.W. Merrill, E.R. Gilliland, H. Shin, A. Britten, R.E. Wells, "The rheology of human blood measurement near and at zero shear rate," Trans. Soc. Rheol. 7(1963):303-317.

1319. S.G. Mason, H.L. Goldsmith, "The Flow Behavior of Particulate Suspensions," in G.E.W. Wolstenholme, Julie Knight, eds., Circulatory and Respiratory Mass Transport, Little, Brown & Co., Boston, 1969, pp. 105-129.

1320. A. Karnis, H.L. Goldsmith, S.G. Mason, "The Flow of Suspensions Through Tubes. V. Inertial Effects," Can. J. Chem. Eng. 44(August 1966):181-193.

1321. G. Segre, A. Silberberg, "Behavior of macroscopic rigid spheres in Poiseuille flow. Part 2. Experimental results and interpretation," J. Fluid Mech. 14(1962):136-157.

1322. A. Karnis, H.L. Goldsmith, S.G. Mason, "The Kinetics of Flowing Dispersions. I. Concentrated Suspensions of Rigid Particles," J. Colloid Interface Sci. 22(1966):531-553.

1323. R. Fahraeus, T. Lindqvist, "The viscosity of the blood in narrow capillary tubes," Am. J. Physiol. 96(1931):562-568.

1324. J.H. Barbee, G.R. Cokelet, "The Fahraeus effect," Microvasc. Res. 3(1971):6-16; "Prediction of blood flow in tubes with diameters as small as 29 microns," Microvasc. Res. 3(1971):17-21.

1325. Shu Chien, "Chapter 26. Biophysical Behavior of Red Cells in Suspensions," in Douglas MacN. Surgenor, ed., The Red Blood Cell, Second Edition, Volume II, Academic Press, NY, 1975, pp. 1031-1133.

1326. A. Krogh, The Anatomy and Physiology of Capillaries, Yale University Press, New Haven, CT, 1922.

1327. G.R. Cokelet, "Blood rheology interpreted through the flow properties of the red cell," in J. Grayson, W. Zingg, eds., Microcirculation, Volume I, Plenum Press, New York, 1976, pp. 9-32.

1328. Shu Chien, Shunichi Usami, Richard Skalak, "Chapter 6. Blood flow in small tubes," Handbook of Physiology, Section 2: The Cardiovascular System, Volume IV, Microcirculation, Part I, American Physiological Society, Bethesda MD, 1984, pp. 217-249.

1329. P. Gaehtgens, "In vitro studies of blood rheology in microscopic tubes," in D.R. Gross, N.H.C. Hwang, eds., The Rheology of Blood, Blood Vessels, and Associated Tissues, Sijthoff & Noordhoff, Amsterdam, 1981, pp. 257-275.

1330. P. Gaehtgens, "Flow of blood through narrow capillaries: Rheological mechanisms determining capillary hematocrit and apparent viscosity," Biorheology 17(1980):183-189.

1331. S.M. Targ, Basic Problems of the Theory of Laminar Flow, Moskva, 1951. (in Russian)

1332. Giles R. Cokelet, "Chapter 14: The Rheology and Tube Flow of Blood," in Richard Skalak, Shu Chien, eds., Handbook of Bioengineering, McGraw-Hill, New York, 1987.

1333. G. Vejlens, "The distribution of leukocytes in the vascular system," Acta Pathol. Microbiol. Scand. Suppl. 33(1938):11-239.

1334. U. Nobis, A.R. Pries, P. Gaehtgens, "Rheological mechanisms contributing to WBC-margination," in U. Bagge, G.V.R. Born, P. Gaehtgens, eds., White Blood Cells: Morphology and Rheology as Related to Function, Martinus Nijhoff, The Hague, 1982, pp. 57-65.

1335. H.L. Goldsmith, S. Spain, "Margination of leukocytes in blood flow through small tubes," Microvasc. Res. 27(1984):204-222.

1336. U. Nobis, A.R. Pries, G.R. Cokelet, P. Gaehtgens, "Radial distribution of white cells during blood flow in small tubes," Microvasc. Res. 29(1985):295-304.

1337. A.A. Palmer, "Platelet and leukocyte skimming," Bibl. Anat. 9(1967):300-393.

1338. M.R. Beck, E.C. Eckstein, "Preliminary reports on platelet concentration in capillary tube flows of whole blood," Biorheology 17(1980):455-464.

1339. J.R. Casley-Smith, A.H. Vincent, "Variations in the numbers and dimensions of tissue channels after injury," Tissue Cell 12(1980):761-771.

1340. G.J. Tangelder, D.W. Slaaf, T. Arts, R.S. Reneman, "Wall shear rate in arterioles in vivo: Least estimates from platelet velocity profiles," Am. J. Physiol. 254(1988):H1059-H1064.

1341. H.C. Teirlinck, G.J. Tangelder, D.W. Slaaf, A.M.M. Muijtjens, T. Arts, R.S. Reneman, "Orientation and diameter distributions of rabbit blood platelets flowing in small arterioles," Biorheology 21(1984):317-331.

1342. G.J. Tangelder, D.W. Slaaf, H.C. Teirlinck, R.S. Reneman, "Distribution of blood platelets flowing in arterioles," Am. J. Physiol. 248(1985):H318-H323.

1343. E. Anczurowski, S.G. Mason, "Kinetics of Flowing Dispersions. III. Equilibrium Orientation of Rods and Disks (Experimental)," J. Colloid Interface Sci. 23(1967):533-546.

1344. Harry L. Goldsmith, "The Microrheology of Red Blood Cell Suspensions," J. Gen. Physiol. 52(1968):5S-27S.

1345. H.L. Goldsmith, S.G. Mason, "The flow of suspensions through tubes. III. Collisions of small uniform spheres," Proc. R. Soc. A 282(1964):569-591.

1346. Z.M. Ruggeri, "Mechanisms of shear-induced platelet adhesion and aggregation," Thromb. Haemostasis 70(1993):119-123.

1347. J.L. Moake, N.A. Turner, N.A. Stathopoulos, L. Nolasco, J.D. Hellums, "Shear-induced platelet aggregation can be mediated by vWF released from platelets, as well as by exogenous large or unusually large vWF multimers, requires adenosine diphosphate, and is resistant to aspirin," Blood 71(1988):1366-1374.

1348. J.L. Moake, N.A. Turner, N.A. Stathopoulos, L. Nolasco, J.D. Hellums, "Involvement of large plasma von Willebrand factor (vWF) multimers and unusually large vWF forms derived from endothelial cells in shear stress-induced platelet aggregation," J. Clin. Invest. 78(1986):1456-1461.

1349. Y. Ikeda, M. Murata, Y. Araki, K. Watanabe, Y. Ando, I. Itagaki, Y. Mori, M. Ichitani, K. Sakai, "Importance of fibrinogen and platelet membrane glycoprotein IIb/IIIa in shear-induced platelet aggregation," Thromb. Res. 51(1988):157-163.

1350. M.H. Kroll, J.D. Hellums, Z. Guo, W. Durante, K. Razdan, J.K. Hrbolich, A.I. Schafer, "Protein kinase C is activated in platelets subjected to pathological shear stress," J. Biol. Chem. 268(1993):3520-3524.

1351. Y. Ikeda, M. Handa, K. Kawano, T. Kamata, M. Murata, Y. Araki, H. Anbo, Y. Kawai, K. Watanabe, K. Sakai, Z.M. Ruggeri, "The role of von Willebrand factor and fibrinogen in platelet aggregation under varying shear stress," J. Clin. Invest. 87(1991):1234-1240.

1352. D.P. Giddens, C.K. Zarins, S. Glagov, "Response of arteries to near-wall fluid dynamic behavior," Appl. Mech. Rev. 43(1990):S98-S102.

1353. H.N. Mayrovitz, "The relationship between leukocytes and erythrocytes velocity in arterioles," in U. Bagge, G.V.R. Born, P. Gaehtgens, eds., White Blood Cells: Morphology and Rheology as Related to Function, Martinus Nijhoff, The Hague, 1982.

1354. P-I. Branemark, Intravascular Anatomy of Blood Cells in Man, Karger, Basel, 1971.

1355. U. Bagge, P-I. Branemark, "White blood cell rheology: An intravital study in man," Adv. Microcirc. 7(1977):1-17.

1356. G.W. Schmid-Schonbein, S. Usami, R. Skalak, S. Chien, "The interaction of leukocytes and erythrocytes in capillary and postcapillary vessels," Microvasc. Res. 19(1980):45-70.

1357. U. Bagge, A. Blixt, K-G. Strid, "The initiation of post-capillary margination of leukocytes: Studies in vitro on the influence of erythrocyte concentration and flow velocity," Int. J. Microcirc. Clin. Exp. 2(1983):215-222.

1358. Harry L. Goldsmith, Takeshi Karino, "Chapter 21. Flow-Induced Interactions of Blood Cells with the Vessel Wall," in Una S. Ryan, Endothelial Cells, Volume I, CRC Press, Boca Raton FL, 1988, pp. 139-171.

1359. Takeshi Karino, Harry L. Goldsmith, Mineo Motomiya, Shoji Mabuchi, Yasunori Sohara, "Flow Patterns in Vessels of Simple and Complex Geometries," in Edward F. Leonard, Vincent T. Turitto, Leo Vroman, eds., Blood in Contact with Natural and Artificial Surfaces, Annals N.Y. Acad. Sci. 516(1987):422-441.

1360. T. Karino, H.M. Kwong, H.L. Goldsmith, "Particle flow behavior in models of branching vessels. I. Vortices in 90o T-junctions," Biorheology 16(1979):231-248.

1361. T. Karino, H.L. Goldsmith, "Flow behavior of blood cells and rigid spheres in an annular vortex," Phil. Trans. Roy. Soc. London Ser. B 279(10 June 1977):413-445.

1362. T. Karino, H.L. Goldsmith, "Aggregation of human platelets in an annular vortex distal to a tubular expansion," Microvasc. Res. 17(1979):217-237.

1363. Takeshi Karino, Mineo Motomiya, "Flow visualization in isolated transparent natural blood vessels," Biorheology 20(1983):119-127.

1364. Mineo Motomiya, Takeshi Karino, "Flow patterns in the human carotid artery bifurcation," Stroke 15(1984):50-56.

1365. Takeshi Karino, Mineo Motomiya, "Flow through a venous valve and its implication in thrombogenesis," Thromb. Res. 36(1984):245-257.

1366. Takeshi Karino, Harry L. Goldsmith, "Particle flow behavior in models of branching vessels. II. Effects of branching angle and diameter ratio on flow patterns," Biorheology 22(1985):87-104.

1367. J. Lighthill, "Flagellar hydrodynamics," SIAM Review 18(1976):161-230.

1368. J.J.L. Higdon, "The hydrodynamics of flagellar propulsion: Helical waves," J. Fluid Mech. 94(1979):331-351.

1369. D.C. Guell, H. Brenner, R.B. Frankel, H. Hartman, "Hydrodynamic forces and band formation in swimming magnetotactic bacteria," J. Theoret. Biol. 135(1988):525-542.

1370. M. Ramia, D.L. Tullock, N. Phan-Thien, "The role of hydrodynamic interaction in the locomotion of microorganisms," Biophys. J. 65(1993):755-778.

1371. Z. Liu, K.D. Papadopoulos, "Unidirectional motility of Escherischia coli in restrictive capillaries," Appl. Environ. Microbiol. 61(1995):3567-3572.

1372. Martin L. Lenhardt, Ruth Skellett, Peter Wang, Alex M. Clarke, "Human Ultrasonic Speech Perception," Science 253(5 July 1991):82-85. See also:

1373. G.G. Stokes, "On the effect of the internal friction of fluids on the motion of pendulums," Trans. Cambridge Philosophical Soc. 9(1851):8; Mathematical and Physical Papers, Vol. 3, pp. 1-141.

1374. C.S. Yih, Fluid Mechanics: A Concise Introduction to the Theory, corrected edition, West River Press, Ann Arbor MI, 1977.

1375. E. Cunningham, "On the Velocity of Steady Fall of Spherical Particles through Fluid Medium," Proc. Royal Soc. London A 83(1910):357-365.

1376. J. Lighthill, Mathematical Biofluiddynamics, Soc. Indus. Appl. Math., Philadelphia PA, 1975.

1377. A.T. Chwang, T.Y. Wu, "A note on the helical movement of micro-organisms," Proc. Roy. Soc. Ser. B 178(1971):327-346.

1378. C.M. White, "The drag of cylinders in fluids at slow speeds," Proc. Roy. Soc. Ser. B 186(1946):472-479.

1379. J.R. Blake, "A spherical envelope approach to ciliary propulsion," J. Fluid Mech. 46(1971):199-208; "Infinite models for ciliary propulsion," J. Fluid Mech. 49(1971):209-222; "Self-propulsion due to oscillations on the surface of a cylinder at low Reynolds number," Bull. Aust. Math. Soc. 5(1971):255-264.

1380. D.V. Holberton, "Chapter 11. Locomotion of Protozoa and Single Cells," in R. McN. Alexander, G. Goldspink, eds., Mechanics and Energetics of Animal Locomotion, Chapman and Hall, London, 1977, pp. 279-332.

1381. Howard C. Berg, Robert A. Anderson, "Bacteria Swim by Rotating their Flagellar Filaments," Nature 245(1973):380-382.

1382. R.S. Fearing, "Micro Structures and Micro Actuators for Implementing Sub-millimeter Robots," in H.S. Tzou, T. Fukuda, eds., Precision Sensors, Actuators and Systems, Kluwer Academic Publishers, Boston MA, 1992, pp. 39-72.

1383. P. Greiff, B. Boxenhorn, T. King, L. Niles, "Silicon Monolithic Micromechanical Gyroscope," 1991 Intl. Conf. on Solid-State Sensors and Actuators (Transducers '91), San Francisco, CA, June 1991, pp. 966-968.

1385. Toshio Fukuda, Atsushi Kawamoto, Fumihito Arai, Hideo Matsuura, "Mechanism and Swimming Experiment of Micro Mobile Robot in Water," MEMS-7, 1994, pp. 273-278.

1386. S. Childress, Mechanics of Swimming and Flying, Cambridge University Press, Cambridge, UK, 1981.

1387. J. Happel, H. Brenner, Low Reynolds Number Hydrodynamics, Prentice-Hall, Englewood Cliffs, NJ, 1965.

1388. Howard A. Stone, Aravinthan D.T. Samuel, "Propulsion of Microorganisms by Surface Distortions," Phys. Rev. Lett. 77(4 November 1996):4102-4104.

1389. A. Shapere, F. Wilczek, Phys. Rev. Lett. 58(1987):2051-2054; J. Fluid Mech. 198(1989):557-585.

1390. R.P. Benedict, Fundamentals of Pipe Flow, John Wiley and Sons, New York, 1980.

1391. S.H. Lee, L.G. Leal, "Motion of a sphere in the presence of a plane interface. Part 2: An exact solution in bipolar coordinates," J. Fluid Mech. 98(1980):193-24.

1392. D.F. Katz, T.D. Bloom, R.H. BonDurant, "Movement of bull spermatozoa in cervical mucus," Bio. Reproduction 25(1981):931-937.

1393. H. Winet, "Wall drag on free-moving ciliated micro-organisms," J. Exp. Biol. 59(1973):753-766.

1394. Michael A. Sleigh, "Chapter 16. Cell Motility," in Bittar, ed., Cell Biology in Medicine, 1973, pp. 525-567.

1395. Howard C. Berg, "Dynamic properties of bacterial flagellar motors," Nature 249(3 May 1974):77-79.

1396. L.D. Landau, E.M. Lifshitz, Fluid Mechanics, Pergamon Press, London, 1959.

1397. David F. Blair, "How Bacteria Sense and Swim," Annual Rev. Microbiol. 49(1995):489-522.

1398. V.T. Turitto, H.J. Weiss, "Red Cells: Their Dual Role in Thrombus Formation," Science 207(1 February 1980):541-543.

1399. R.M. Hochmuth, R.N. Marple, S.P. Sutera, "Capillary blood flow. 1. Erythrocyte deformation in glass capillaries," Microvasc. Res. 2(1970):409-419.


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