Dilatable cannula to reduce inflow resistance of left ventricular bypass: Dilation mechanism using shape memory alloy

N. Kabei; R. Tashiro; K. Tsuchiya

Dilatable cannula to reduce inflow resistance of left ventricular bypass: Dilation mechanism using shape memory alloy

N. Kabei, R. Tashiro, K. Tsuchiya

Research output: Contribution to journal › Article › peer-review

Abstract

We have developed a dilatable cannula to reduce the inflow resistance of a bloodcircuit and increase the efficiency of assistance during left ventricular bypass. The inner diameter of the cannula is controlled by using shape memory alloy (SMA). A single wire of SMA, the diameter of which is 0.28 mm, is knit a tubular shape. The dilated shape of the tube is "memorized" when it is heated. Afterword, the diameter of the tube of SMA is decreased by hand. Finally, the SMA tube is covered with silastic rubber. Heating the cannula allowed dilation of its diameter to 175% that obtained at the room temperature. The effect the cannula's dilation on decreasing its flow resistance was examined. The pressure difference between the inlet and outlet of the cannula decreased to one-half that of a nondilated cannula at the same flow rate.

Original language	English
Pages (from-to)	63-67
Number of pages	5
Journal	Japanese Journal of Artificial Organs
Volume	29
Issue number	1
Publication status	Published - 2000
Externally published	Yes

Keywords

Dilatable cannula
Flow resistance
Left ventricular bypass
Less invasive cardiac assistance
Shape memory alloy

ASJC Scopus subject areas

Biophysics

Cite this

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title = "Dilatable cannula to reduce inflow resistance of left ventricular bypass: Dilation mechanism using shape memory alloy",

abstract = "We have developed a dilatable cannula to reduce the inflow resistance of a bloodcircuit and increase the efficiency of assistance during left ventricular bypass. The inner diameter of the cannula is controlled by using shape memory alloy (SMA). A single wire of SMA, the diameter of which is 0.28 mm, is knit a tubular shape. The dilated shape of the tube is {"}memorized{"} when it is heated. Afterword, the diameter of the tube of SMA is decreased by hand. Finally, the SMA tube is covered with silastic rubber. Heating the cannula allowed dilation of its diameter to 175% that obtained at the room temperature. The effect the cannula's dilation on decreasing its flow resistance was examined. The pressure difference between the inlet and outlet of the cannula decreased to one-half that of a nondilated cannula at the same flow rate.",

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T1 - Dilatable cannula to reduce inflow resistance of left ventricular bypass

T2 - Dilation mechanism using shape memory alloy

AU - Kabei, N.

AU - Tashiro, R.

AU - Tsuchiya, K.

PY - 2000

Y1 - 2000

N2 - We have developed a dilatable cannula to reduce the inflow resistance of a bloodcircuit and increase the efficiency of assistance during left ventricular bypass. The inner diameter of the cannula is controlled by using shape memory alloy (SMA). A single wire of SMA, the diameter of which is 0.28 mm, is knit a tubular shape. The dilated shape of the tube is "memorized" when it is heated. Afterword, the diameter of the tube of SMA is decreased by hand. Finally, the SMA tube is covered with silastic rubber. Heating the cannula allowed dilation of its diameter to 175% that obtained at the room temperature. The effect the cannula's dilation on decreasing its flow resistance was examined. The pressure difference between the inlet and outlet of the cannula decreased to one-half that of a nondilated cannula at the same flow rate.

AB - We have developed a dilatable cannula to reduce the inflow resistance of a bloodcircuit and increase the efficiency of assistance during left ventricular bypass. The inner diameter of the cannula is controlled by using shape memory alloy (SMA). A single wire of SMA, the diameter of which is 0.28 mm, is knit a tubular shape. The dilated shape of the tube is "memorized" when it is heated. Afterword, the diameter of the tube of SMA is decreased by hand. Finally, the SMA tube is covered with silastic rubber. Heating the cannula allowed dilation of its diameter to 175% that obtained at the room temperature. The effect the cannula's dilation on decreasing its flow resistance was examined. The pressure difference between the inlet and outlet of the cannula decreased to one-half that of a nondilated cannula at the same flow rate.

KW - Dilatable cannula

KW - Flow resistance

KW - Left ventricular bypass

KW - Less invasive cardiac assistance

KW - Shape memory alloy

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SN - 0300-0818

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ER -

Dilatable cannula to reduce inflow resistance of left ventricular bypass: Dilation mechanism using shape memory alloy

Abstract

Keywords

ASJC Scopus subject areas

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