Patent 7,553,284, issued June 30, 2009.
7 S. F. Takagi, S. Higashino, T. Shibuya, and N. Osawa, “The
actions of ultrasound on the myelinated nerve, the spinal cord
and the brain,” Jpn. J. Physiol. 10, 183–193 (1960).
8 R. R. Young and E. Henneman, “Reversible block of nerve con-
duction by ultrasound,” Arch. Neurology 4, 83–89 (1961).
9 V. Colucci, G. Strichartz, F. Jolesz, N. Vykhodtseva, and K. Hynynen, “Focused ultrasound effects on nerve action potential
in vitro,” Ultrasound Med. Biol. 35, 1737–1747 (2009).
10 J. L. Foley, J. W. Little, F. L. Starr III, C. Frantz, and S. Vaezy, “Image-guided HIFU neurolysis of peripheral nerves to treat spasticity and pain,” Ultrasound Med. Biol. 30, 1199–1207
(2004).
11 C. Stolinski, “Structure and composition of the outer connective
tissue sheaths of peripheral nerve,” J. Anat. 186, 123–130 (1995).
12 G. M. Manzano, L. M. P. Giuliano, and J. A. M. Nóbrega, “A brief historical note on the classification of nerve fibers,” Arq
Neuropsiquiatr 66, 117–119 (2008).
13 J. L. Foley, S. Vaezy, and L. A. Crum, “Applications of high-inten-
sity focused ultrasound in medicine: Spotlight on neurological
applications,” Appl. Acoust. 68, 245–259 (2006).
14 S. J. Monteith, R. Medel, N. F. Kassell, M. Wintermark, M. Eames, J. Snell, E. Zadicario, J. Grinfeld, J. P. Sheehan, and W. J. Elias, “Transcranial magnetic resonance–guided focused ultra- sound surgery for trigeminal neuralgia: A cadaveric and labora- tory feasibility study,” J. Neurosurgery, published online
November 16, 2012; doi: 10.3171/2012.10.JNS12186.
15 H. H. Pennes, “Analysis of tissue and arterial blood temperatures in the resting human forearm,” J. Appl. Physiol. 1, 93–122
(1948). Reprinted 85, 5–34 (1998).
16 W.-S. Chen, A. A. Brayman, T. J. Matula, L. A. Crum, and M.
W. Miller, “The pulse length-dependence of inertial cavitation dose and hemolysis,” Ultrasound Med. Biol. 29, 739–748 (2003).
 Ultrasonic Bioeffects on Peripheral Nerves 41