The present invention relates to a cardiac function variation evaluation apparatus, more particularly, it relates to a cardiac function variation evaluation apparatus capable of continuously evaluating contractile variation of a ventricle, to which an auxiliary artificial heart is connected, not by use of an ultrasonic echo apparatus or a conductance catheter to be inserted into the ventricle through a peripheral blood vessel but by use of a non-invasive method.
The applicant has proposed a continuous flow type auxiliary artificial heart constituted by a centrifugal pump, the auxiliary artificial heart being disclosed in Japanese Published Unexamined Patent Application No. 2007-44302 (Patent Document 1). In the case where such an auxiliary artificial heart is connected, a cardiac function of a person having the connected auxiliary artificial heart sometimes recovers, and cardiac function variation, more particularly, contractile variation of a left ventricle, is sometimes desired to be evaluated.
On the other hand, as one of the methods for evaluating the cardiac function variation, more particularly, the contractile variation of the left ventricle, there is a method for inserting a conductance catheter into the left ventricle, calculating an internal area of a closed-loop from a relationship between left ventricle internal pressure and left ventricle internal volume, the relationship being indicated in
However, in the conventional method, it is necessary to use an expensive ultrasonic echo apparatus or to insert the conductance catheter into the left ventricle of the person having the connected auxiliary artificial heart. Therefore, the method is invasive, and not only imposes a burden on the person, but also has a possibility of causing infection or a thrombus in the case of long-time use.
The present invention was made in order to solve the above conventional problem, and aims at continuously evaluating contractile variation of a ventricle, to which an auxiliary artificial heart is connected, not by use of an ultrasonic echo apparatus or a conductance catheter but by use of a non-invasive method.
According to experiments by the inventors, it is possible to prepare a graph indicating a relationship between left ventricle internal pressure and a motor consumption power as indicated in
The present invention was made based on such knowledge, and solves the above problem by providing a cardiac function evaluation apparatus including: a continuous flow type auxiliary artificial heart connected to a ventricle; a pressure sensor for detecting the ventricle internal pressure; and means for evaluating contractile variation of the ventricle, to which the auxiliary artificial heart is connected, based on a relationship between the ventricle internal pressure detected by the pressure sensor and a consumption power of the auxiliary artificial heart.
Here, the contractile variation of the ventricle, to which the auxiliary artificial heart is connected, can be evaluated based on a closed-loop internal area of the relationship between the ventricle internal pressure and the consumption power of the auxiliary artificial heart.
Additionally, the pressure sensor can be built in a blood removal cannula for connecting the ventricle and the auxiliary artificial heart.
Additionally, as the auxiliary artificial heart, a diagonal flow pump, a centrifugal pump or an axial flow pump is applicable.
According to the present invention, it is possible to evaluate the contractile variation of the ventricle, to which the auxiliary artificial heart is connected, not by use of an ultrasonic echo apparatus or a conductance catheter but by use of a non-invasive method.
Hereinafter, an embodiment of the present invention will be described in detail with reference to the drawings.
As shown in
In
As the auxiliary artificial heart 20, a diagonal flow pump is usable, for example. Alternatively, a centrifugal pump or an axial flow pump, etc., may be used.
It is desirable that the pressure sensor 30 is provided on an wall at the top end of a blood removal cannula 22 for connecting the left ventricle 10A and the auxiliary artificial heart 20, the wall being in the vicinity of the ventricle.
A graph indicating a relationship as shown in
As shown in
Solid line A: EW=20 APMp−230 (1)
On the other hand, in the case of a partial bypass state where the heart recovers and an aorta valve is opened as shown in
Broken line B: EW=27 APMp−390 (2)
Accordingly, if variation of the closed-loop internal area APMp is continuously monitored, it suggests that the contractile variation of the left ventricle can be presumed.
Moreover, although the diagonal flow pump is employed as the auxiliary artificial heart in the embodiment, the present invention is not limited to it. The present invention is also applicable to the centrifugal pump proposed by the Applicant in Patent Document 1, or the axial pump.
The present invention is usable for the case of continuously evaluating contractile variation of a ventricle, to which an auxiliary artificial heart is connected, not by use of an ultrasonic echo apparatus or a conductance catheter to be inserted into the ventricle through a peripheral blood vessel but by use of a non-invasive method.
Number | Date | Country | Kind |
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2007-125477 | May 2007 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2008/058610 | 5/9/2008 | WO | 00 | 12/29/2009 |