BIBLIOGRAPHY
Altman P.L. and D.S. Dittmer.
Biology Data
Book.
FASEB, Besthesda, 196
1.
Anliker M., Histand, M.B., and Ogden, E. Dispersion and attenuation
of
small artificial
pressure waves in the canine aorta.
Circ. Res.
23: 539-551, 1968.
Anliker
M.,
M.K. Wells, and E. Ogden. The transmission characteristics
of
large and
small pressure waves in the abdominal vena cava.
IEEE Trans. Biomed. Eng.
Amtzenius
A.C.
The Importance of Pulsations.
Proc. Cardiovasc. System Dynam. Soc
Attinger E.O.
Pulsatile Blood Flow.
McGraw-Hill, New
York,
1964.
Bailie J.A. On the dispersion
of
waves in fluid-filled cylinders
of
slightly elliptical cross-
section.
J.
Biomech.
5:165, 1972.
Benchimol
A.
Noninvasive Diagnostic Techniques
in
Cardiology.
Williams
&
Wilkins,
Baltimore, 1981
Berger D.,
J.
K-J. Li, W.
K.
Laskey and
A.
Noordergraaf. Repeated reflection of waves
in the systemic arterial system.
Am.
J.
Physiol. (Heart
&
Circ. Physiol.
33)
Berger DS, Li
J
K-J: Temporal relationship between left ventricular and arterial system
elastances.
IEEE Trans Biomed Eng
BME-39: 404-410, 1992.
Bevir M. Sensitivity
of
electromagnetic velocity probes.
Phys. Med. Biol.
16:
229-232,
1971.
Boccalon
H.,
Candelon, B., Puel, P., Enjalbert, A., and Doll,
H.
Assessment of pulsatile
blood
flow
by
a
noninvasive
electromagnetic device.
In
Noninvasive
Cardiovascular Diagnosis,
ed. E.B. Dietlifich, pp. 23 1-240. Univ. Park Press,
Baltimore, 1978.
Brower R. W. and A. Noordergraaf. Pressure-flow characteristics of collapsible tubes; a
reconciliation
of
seemingly contracditory results.
Ann. Biomed. Eng.
I
:333, 1973.
Brower R.W. and
C.
Scholten Experimental evidence on the mechanism for the
instability of flow in collapsible vessels.
Med. Biol. Eng.
13:839, 1975.
Brutsaert
D.L.
The force-velocity-time interrelation of cardiac muscle.
In:
The Physical
Basis
of
Starling’s Law of the Heart,
pp.
155-175.
Eds.
R.
Porter and
D.W.
Fitzsimons, Elsevier, Amsterdam, 1974.
BME-161262-273, 1969.
Con$,
Philadelphia, 1976.
264:H269-281, 1993.
