CALIBRATION OF TWO SYNCHRONIZED MOTION PICTURES FROM MAGNETOCARDIOGRAPHY AND ECHOCARDIOGRAPHY

Abstract

A method of calibration for combining two synchronized motion pictures from Magnetocardiography (MCG) and Echocardiography (ECOCG) is accomplished here.

To combine the two motion pictures of MCG and ECOCG is to locate the current dipole sources from a MCG onto a simultaneously beating heart images from an ECOCG. For this purpose, it needs to calibrate the space locations and orientations for the two motion pictures.

In embodiments, the calibration of the spaces and orientation is accomplished by choosing two specific events during a cardiac cycle when the space locations and the orientations of the events for both the MCG and the ECOCG are relatively easy to be determined. Then the two pairs of corresponding space points can be lined up by a coordinate transformation.

Claims

1. A computer program product to execute a method of calibration of two synchronized motion pictures from the Echocardiography and Magnetocardiography.

2. A method of choosing two specific events in a cardiac cycle for calibration of claim 1.

3. A method of choosing P-wave and R-wave as the two specific events of claim 2.

4. A coordinate transformation of Calibration of claim 1.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0013] FIG. 1 shows a cardiac cycle of conventional PQRST waves from Electrocardiography.

[0014] FIG. 2 shows the t.sub.1 frame of a cardiac cycle from a motion picture of ECOCG.

[0015] FIG. 3 shows the t.sub.2 frame of a cardiac cycle from a motion picture of ECOCG.

[0016] FIG. 4 shows the t.sub.1 frame of a cardiac cycle from a motion picture of MCG.

[0017] FIG. 5 shows the t.sub.2 frame of a cardiac cycle from a motion picture of MCG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0018] A method of calibration of two synchronized motion pictures of MCG and ECOCG is accomplished here.

[0019] To combine the two motion pictures of MCG and ECOCG it needs to locate the current dipole sources from a MCG onto a simultaneously beating heart images from an ECOCG. For this purpose, it needs to calibrate the space locations and orientations for the two motion pictures.

[0020] In embodiments, the calibration of the spaces and orientation is accomplished by choosing two specific events during a cardiac cycle when the space locations and the orientations of the events for both the MCG and the ECOCG are relatively easy to be determined. Then the two pairs of corresponding space points can be lined up by a coordinate transformation.

[0021] The MCG motion picture is derived by measuring the magnetic fields at 66 locations on a same plane above the heart by very sensitive sensors of the MCG.

[0022] The magnetic field data are used to reconstruct the current dipole sources of interest. The space positions and orientations of the current dipoles vectors can be determined in certain precision related to the fixed sensors plane of the MCG above the heart.

[0023] An ECOCG motion picture is derived by an ECOCG by ultrasonic scanning. The beating heart images can be seen frame by frame clearly during a cardiac circle. But the space position and orientation of the heart images from the echocardiography are uncertain due to the operation. In order to locate the current dipole vectors it needs to calibrate the two motion pictures.

[0024] From a normal Electrocardiography picture as in FIG. 1, the P-wave 1 and R-wave 2 have larger magnitudes during a cardiac cycle. The space information of the bioelectric activities have been extensively studied and well understood for these two waves. Hence we choose the two events as the on-setting of P-wave and R-wave with the corresponding timing is t.sub.1 and t.sub.2.

[0025] Now we take a look of the t.sub.1 frame and t.sub.2 frame from the ECOCG motion pictures as shown in FIG. 2 and FIG. 3 of the beating heart images 3. It can be located of space positions, R.sub.1 4 as near the Sinoatrial Node, and R.sub.2 5 as in the center of left Ventricle closed to the segment.

[0026] Correspondingly we take a look of the t.sub.1 frame and t.sub.2 frame from the MCG motion pictures as shown in FIG. 4 and FIG. 5 of the current dipole sources 6 from the magnetic measurement. It can be located of space positions, R.sub.17 as near the Sinoatrial Node, and R.sub.28 as in the center of left Ventricle closed to the segment.

[0027] Here it needs to calibration the coordinate system of ECOCG with that of MCG by letting the pair points (R.sub.1, R.sub.1) be the same physical point, same as the pair (R.sub.2, R.sub.2).

[0028] The coordinate transformation from MCG to ECOCG is as following;

(RR.sub.2).sub.x=k(cos (RR.sub.2).sub.x+sin (RR.sub.2).sub.y)

(RR.sub.2).sub.y=k(sin (RR.sub.2).sub.x+cos (RR.sub.2).sub.y)

[0029] Here, =tg.sup.1((R.sub.1R.sub.2).sub.y/(R.sub.1R.sub.2).sub.x)tg.sup.1((R.sub.1R.sub.2).sub.y/(R.sub.1R.sub.2).sub.x) is the angle of rotation, and k=(|R.sub.1R.sub.2|)/(|R.sub.1R.sub.2|) is the scaling factor.