Biomedical Engineering Reference
In-Depth Information
a)
b)
c)
d)
Figure 6.21
Minimum and maximum pressure settling for the
preprogrammed waveform reconstruction at 50 bpm and 90-
140 mmHg range. (a)
t
= 0 s, (b)
t
= 14 s, (c)
t
= 20 s, and (d)
t
=
30 s.
References
1. Panza J. High-normal blood pressure more high than normal.
N Engl J
Med
, 2001, 345( 18): 1337-1340.
2. De Bruyne B, Bartunek J, Sys SK,
et al
. Simultaneous coronary pressure
and low velocity measurements in humans.
Circulation
, 1996, 94:
1842-1849.
3. Ebenal J, Vasana S, Clinton C, Cox D, Shine T. Arterial blood pressure
system modeling and signal analysis in
Proc IEEE-CIRA
, 2007, 386-
391.
4. Ikeda S, Arai F, Fukuda T, Negoro M, Irie K. An
in vitro
patient speciic
biological model of the cerebral artery reproduced with a membranous
coniguration for simulating endovascular intervention.
J Robot
Mechatron
, 2005, 17(3): 327-333.
5. Tong S, Yang D. Rotor proiles synthesis for lobe pumps with given low
rate functions.
J Mech Des
, 2005, 127: 287-294.
6. Ikeda S, Fukuda T, Arai F,
et al
. Patient-speciic neurovascular simulator
for evaluating the performance of medical robots and instruments in
Proceedings of the IEEE-ICRA
, 2006, 625-630.
7. Tercero C, Okada Y, Ikeda S,
et al
. Numerical evaluation method for
catheter prototypes using photo-elastic stress analysis on patient-
speciic vascular model.
Int J Med Robot Comput Assist Surg,
2007, 3(4):
349-354.
8. Tanimoto M, Arai F, Fukuda T,
et al
. Study on micro force sensor for
minimum invasive surgery.
Trans. Jpn Soc Mech Eng, C 64-620, JSME
,
1998, 150-155.
9. Tercero C, Ikeda S, Fukuda T,
et al
. Robot manipulation and guidance
using magnetic motion capture sensor and a rule-based controller.
J
Robot Mechatron,
2008, 20(1): 151-158.
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