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Method of balloon pumping and a balloon pump driving apparatus

a technology of balloon pump and driving apparatus, which is applied in the direction of prosthesis, catheter, therapy, etc., can solve the problems of balloon membrane damage, excessive application of balloon pump with load, etc., and achieve the effect of simple structur

Inactive Publication Date: 2005-01-27
SENKO MED INSTR MFG CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0022] In this case, the pressure accumulator can be configured with a simple structure.

Problems solved by technology

When the balloon internal pressure is too high relative to the aortic pressure, the membrane of the balloon may be excessively applied with the load, wherein the balloon membrane may be damaged, for example may be torn out.

Method used

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  • Method of balloon pumping and a balloon pump driving apparatus
  • Method of balloon pumping and a balloon pump driving apparatus
  • Method of balloon pumping and a balloon pump driving apparatus

Examples

Experimental program
Comparison scheme
Effect test

first embodiment

[0036] As illustrated in FIG. 1, a balloon pumping system 100 according to the present invention includes a balloon catheter 90 and a balloon pump driving apparatus 10. The balloon catheter 90 includes a catheter 91 and a balloon 92. The catheter 91 is a long tube with a lumen and is made of a material possessing certain degree of flexibility. The balloon 92 is equipped at a distal end 91a of the catheter 91, i.e. is equipped at an end of the catheter 91 that is away from the balloon pump driving apparatus 10, while the balloon pump driving apparatus 10 is equipped at a proximal end 91b of the catheter 91, i.e. is equipped at an end of the catheter 91 opposite to the distal end 91a.

[0037] The balloon pump driving apparatus 10 is provided with an outer shell of an apparatus housing 11 which houses an oil reservoir 20, an oil pump 30, and an isolator 40. The oil pump 30 includes a pump housing 31 having a first input-output port 31a (a first I / O port) and a second input-output port 3...

second embodiment

[0109] As described above, the output chamber 44 has been charged with the first inflation pressure P1 higher than the pressure required for inflating the balloon 92 until the timing immediately before the pressure control valve 52 is opened. Therefore, once the pressure control valve 52 is opened, the helium gas in the output chamber 44 at a blast flows into the balloon 92. Therefore, according to the present invention, the balloon 92 can be inflated much faster than conventional methods.

[0110] The program then proceeds to step S204 after opening the pressure control valve 52, at which the controller 70 judges whether the pressure control valve 52 has opened for the set period T1set, i.e., judges whether the opening period T1 of the pressure control valve 52 is substantially equal to or greater than the set period T1set (the T1 judging control). When the controller 70 judges that the opening period T1 has not reached the set period T1set, the program returns to step S203. In the me...

third embodiment

[0145] The controller 70 then judges whether the opening period T1 of the pressure control valve 52 reached the set period T1set (step S304). The controller 70 closes the pressure control valve 52 (step S305). The oil pump 30 is driven for rotation in the reverse direction (step S306), wherein the pressure in the output chamber 44 is decreased. Although the balloon 92 has not completely inflated yet when the pressure control valve 52 is closed, the balloon 92 is inflated as time goes and is completely inflated eventually. When the balloon 92 approaches the completely inflated condition, the amount of helium gas to flow to the balloon 92 is gradually decreased, and the pressure Pb in the balloon 92 becomes a constant pressure value. The controller 70 judges whether the balloon 92 has completely inflated based upon the pressure change rate ÄPb with time (step S307). As explained in FIG. 7, the pressure Pb becomes approximately constant at the pressure P1′. The pressure P1′ is higher t...

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PUM

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Abstract

A balloon pumping method of inflating and deflating a balloon includes the steps of setting a pressure in the balloon at a first pressure value, which is higher than a minimum pressure value and is substantially equal to or lower than a maximum pressure value, when the balloon is shifted from a deflated condition to an inflated condition, and setting the pressure in the balloon at a second pressure value, which is substantially equal to or higher than the minimum pressure value and lower than the first pressure value, when the balloon is estimated to have completely inflated at the first pressure value.

Description

CROSS REFERENCE TO RELATED APPLICATIONS [0001] This application is based on and claims priority under 35 U.S.C. § 119 with respect to Japanese Patent Application 2003-166734, filed Jun. 11, 2003, the entire content of which is incorporated herein by reference. FIELD OF THE INVENTION [0002] This invention generally relates to a balloon pump driving apparatus applied for an intra-aortic balloon pump therapy, which is one of methods of aiding heart function. BACKGROUND [0003] An intra-aortic balloon pumping therapy is prescribed for patients who have suffered from deterioration of heart function such as heart failure. Hereinafter, the intra-aortic balloon pumping is referred to as the IABP. More particularly, a balloon catheter is inserted into the patient's aorta such as a descending aorta. A pressurized fluid is introduced or derived from a balloon pump driving system into the balloon catheter in time of the patient's heartbeat. A blood pressure in the patient's aorta can be increase...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): A61M1/12A61F2/958A61M1/10A61N1/362
CPCA61M1/1037A61M1/106A61M1/1072A61M1/125A61M25/1018A61M2230/04A61M1/1086A61M2025/102A61M25/10188A61M25/10185A61M60/274A61M60/497A61M60/892A61M60/139A61M60/295A61M25/10181A61M25/10184
Inventor SUZUKI, AKIRAYAMAGUCHI, HIDEAKI
Owner SENKO MED INSTR MFG CO LTD
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