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Items: 1 to 20 of 99

1.

An educational training simulator for advanced perfusion techniques using a high-fidelity virtual patient model.

Tokaji M, Ninomiya S, Kurosaki T, Orihashi K, Sueda T.

Artif Organs. 2012 Dec;36(12):1026-35. doi: 10.1111/j.1525-1594.2012.01512.x.

PMID:
22963152
2.

Numerical simulation of the hemodynamic response to hemodialysis-induced hypovolemia.

Cavalcanti S, Di Marco LY.

Artif Organs. 1999 Dec;23(12):1063-73.

PMID:
10619924
3.

Model based sensitivity analysis of arterial pressure response to hemodialysis induced hypovolemia.

Cavani S, Cavalcanti S, Avanzolini G.

ASAIO J. 2001 Jul-Aug;47(4):377-88.

PMID:
11482490
4.
5.

Virtual patient simulator for the perfusion resource management drill.

Ninomiya S, Tokaji M, Tokumine A, Kurosaki T.

J Extra Corpor Technol. 2009 Dec;41(4):206-12.

6.

Neonatal aortic arch hemodynamics and perfusion during cardiopulmonary bypass.

Pekkan K, Dur O, Sundareswaran K, Kanter K, Fogel M, Yoganathan A, Undar A.

J Biomech Eng. 2008 Dec;130(6):061012. doi: 10.1115/1.2978988.

PMID:
19045541
7.

A simulator for perfusion training.

Turkmen A, Rosinski D, Noyes N.

Perfusion. 2007 Nov;22(6):397-400.

PMID:
18666742
8.

Effect of head-down-tilt bed rest and hypovolemia on dynamic regulation of heart rate and blood pressure.

Iwasaki KI, Zhang R, Zuckerman JH, Pawelczyk JA, Levine BD.

Am J Physiol Regul Integr Comp Physiol. 2000 Dec;279(6):R2189-99.

9.

Development of a cardiopulmonary mathematical model incorporating a baro-chemoreceptor reflex control system.

Lin J, Ngwompo RF, Tilley DG.

Proc Inst Mech Eng H. 2012 Oct;226(10):787-803.

PMID:
23157080
10.

[The changes of cardiovascular response to orthostatic stress caused by hypovolemia induced by weightlessness: a simulation study].

Hao W, Bai J, Zhang L, Wu X.

Sheng Wu Yi Xue Gong Cheng Xue Za Zhi. 2002 Jan;19(1):48-52. Chinese.

PMID:
11951522
11.

Incorporating high fidelity simulation into perfusion education.

Sistino JJ, Michaud NM, Sievert AN, Shackelford AG.

Perfusion. 2011 Sep;26(5):390-4. doi: 10.1177/0267659111410901.

PMID:
21613331
12.

Mathematical modeling of cardiovascular system dynamics using a lumped parameter method.

Shim EB, Sah JY, Youn CH.

Jpn J Physiol. 2004 Dec;54(6):545-53. Review.

PMID:
15760487
13.

Simulation of human circulation at cardiopulmonary bypass.

Schwarzhaupt A, Schulz S, Bauernschmitt R, Kiencke U.

Biomed Sci Instrum. 1997;34:275-80.

PMID:
9603052
14.

Estimation of the total peripheral resistance baroreflex impulse response from spontaneous hemodynamic variability.

Chen X, Kim JK, Sala-Mercado JA, Hammond RL, Elahi RI, Scislo TJ, Swamy G, O'Leary DS, Mukkamala R.

Am J Physiol Heart Circ Physiol. 2008 Jan;294(1):H293-301.

15.

Two-port analysis of systemic venous and arterial impedances.

Rose WC, Shoukas AA.

Am J Physiol. 1993 Nov;265(5 Pt 2):H1577-87.

PMID:
8238570
16.

A comprehensive model for right-left heart interaction under the influence of pericardium and baroreflex.

Sun Y, Beshara M, Lucariello RJ, Chiaramida SA.

Am J Physiol. 1997 Mar;272(3 Pt 2):H1499-515.

PMID:
9087629
17.

[A simulated study of effects of simulated hypovolemia on cardiovascular response to orthostatic stress].

Hao WY, Zhang LF, Wu XY, Zhang WY.

Space Med Med Eng (Beijing). 2000 Aug;13(4):259-62. Chinese.

PMID:
11892747
18.

A new integrated method for analyzing heart mechanics using a cell-hemodynamics-autonomic nerve control coupled model of the cardiovascular system.

Shim EB, Jun HM, Leem CH, Matusuoka S, Noma A.

Prog Biophys Mol Biol. 2008 Jan-Apr;96(1-3):44-59. Review.

PMID:
17904205
19.

"Orpheus" cardiopulmonary bypass simulation system.

Morris RW, Pybus DA.

J Extra Corpor Technol. 2007 Dec;39(4):228-33.

20.

Integrated model of endothelial NO regulation and systemic circulation for the comparison between pulsatile and continuous perfusion.

Lanzarone E, Casagrande G, Fumero R, Costantino ML.

IEEE Trans Biomed Eng. 2009 May;56(5):1331-40. doi: 10.1109/TBME.2009.2014738.

PMID:
19237340
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