40. Steinberg, M.E., Lyet, J.P., and Pollack, S.R. 1980. Stress-generated potentials in fracture callus.
Trans. 26th Ann. ORS
5:115.
41. McElhaney, J.H., Stalnaker, R., and Bullard, R. 1968. Electric fields and bone loss of disuse.
J.
Biomechanics
1:47.
42. Martin, R.B., and Gutman, W. 1978. The effect of electric fields on osteoporosis of disuse.
Calcif.
Tiss. Res.
25:23.
43. Lang, S. 1966. Pyroelectric effect in bone and tendon.
Nature
212:704.
44. Athenstaedt, H. 1974. Pyroelectric and piezoelectric properties of vertebrates.
Ann. N.Y. Acad. Sci.
238:68.
45. Athenstaedt, H. Permanent electric polarization and pyroelectric behavior of the vertebrate skeleton
(parts 1-4).
Z. Zellforsch.
91:135, 92:428 (1968); 93:484, 97:537 (1969).
46. Mascarenhas, S. 1973. The electret state: a new property of bone. In
Electrets
, ed. M.M. Perlman,
p. 650. Princeton: The Electrochemical Society.
47. Mascarenhas, S. 1974. The electret effect in bone and polymers and the bound-water problem.
Ann.
N.Y. Acad. Sci.
238:36.
48. Fukada, E., Takamaster, T., and Yasuda, I. 1975. Callus formation by electret.
Japan J. Appl. Phys.
14:2079.
49. Fukada, E. Piezoelectricity of bone and osteogenesis by piezoelectric films. In Press.
50. Parks, R.D. 1969.
Superconductivity
. New York: Marcel Dekker.
51. Little: W.A. 1964. Possibility of synthesizing an organic superconductor.
Phys. Rev.
134A:1416.
52. Little, S.A. 1965. Superconductivity at room temperature.
Sci. American
212:21.
53. Ginzburg, V.L. 1964. On surface superconductivity.
Phys. Lett.
13:101.
54. Ginzburg, V.L. 1968. The problem of high temperature superconductivity.
Contemp. Physics
9:355.
55. Halpern, E.H., and Wolf, A.A. 1972. Speculations of superconductivity in biological and organic
systems.
Adv. Cryogenic Eng.
17:109.
56. Wolf, A.A., and Halpern, E.H. 1976. Experimental high temperature organic superconductivity in
the cholates: a summation of results.
Physiol. Chem. Phys.
8:31.
57. Wolf, A.A. 1976. Experimental evidence for high-temperature organic fractional superconduction
of cholates.
Physiol. Chem. Phys.
8:495.
58. Ahmed, N.A.G., Claderwood, J.H., Frohlich, H., and Smith, C.W. 1975. Evidence for collective
magnetic effects in an enzyme. Likelihood of room temperature superconductive regions.
Phys.
Lett.
53A:129.
59. Cope, F.W. 1971. Evidence from activation energies for superconductive tunneling in biological
systems at physiological temperatures.
Physiol. Chem. Phys.
3:403.
60. Cope, F.W. 1978. Discontinuous magnetic field effects (Barkhausen noise) in nucleic acids as
evidence for room temperature organic superconduction.
Physiol. Chem. Phys.
10:233.
61. Misakian, M., Kotter, F.R., and Kahler, R.L. 1978. Miniature ELF electric field probe.
Rev. Sci.
ELECTROMAGNETISM & LIFE - 69