The coordinate parallel method was adopted in this study on the double pole lead vector by inference. The standard lead was used as an example, and the theoretical adjustment lead axis was compared with the Burger experiment adjustment lead axis, and with the Einthoven ideal symmetrical lead axis, too. The theoretical adjustment lead axis was noted to be very close to the Burger experiment adjustment lead axis.
Electrocardiography ; methods ; Humans ; Mathematical Computing ; Vectorcardiography ; instrumentation ; methods

OBJECTIVETo evaluate the possibility of resultant cardiac vector of ex vivo guinea pig heart.

METHODSECGs were recorded in 4 directions on every plane, and in each direction 4 points at different distances from the anterior, posterior, right and left of isolated guinea pig ventricles immersed in normal saline and distilled water.

RESULTSMain upward waves of ECGs were recorded at all points in 4 directions at 3 levels in the two media. The voltage distribution of normal electrocardial field of the QRS wave was of all-round outward shape, which did not match the resultant cardiac vectors between the left and right and between the anterior and posterior ventricular walls.

CONCLUSIONThere are some confusion and contradiction in the resultant cardiac vector based on the voltage distribution of electrocardial field around ex vivo guinea pig heart.

Animals ; Electromagnetic Fields ; Female ; Guinea Pigs ; Heart ; physiology ; In Vitro Techniques ; Male ; Vectorcardiography ; methods

We studied the wall motion characteristics of the ascending aorta by velocity vector imaging (VVI) in primary hypertension patients. The ascending aortas both in 30 patients with primary hypertension and 30 normal controls were examined by Acuson sequoia 512 equiped with VVI. The maximum velocity (Vs, Ve) of every point on the anterior wall of ascending aorta both in systole and diastole was measured. The aortic diameter was wider in the hypertension patients than that in the healthy subjects (P<0.05). The movement amplitude of the anterior wall of the ascending aorta in long axis view in the hypertension patients was lower than that in the healthy subjects (P<0.05). The motion and time to peak in systole of each point of the ascending aorta in the healthy subjects had no significant difference (P>0.05). The velocity curves of the anterior wall of ascending aorta both in the hypertension and healthy subjects were regular, and the curve in systole was named S wave and that in diastole named E wave. The velocity of S wave and E wave was slower in the hypertension patients than that in the healthy subjects (P<0.05). The time to peak of S wave on the anterior wall of ascending aorta in systole was shorter in the hypertension patients than in the healthy subjects (P<0.05). VVI could be used to accurately and directly observe the movement character of the ascending aorta walls, which would help us understand the elasticity of great arteries in patients with hypertension.
Aorta/pathology ; Aorta/*physiopathology ; Aorta/ultrasonography ; Blood Flow Velocity ; Case-Control Studies ; Echocardiography/*methods ; Elasticity ; Hypertension/pathology ; Hypertension/*physiopathology ; Vectorcardiography/*methods ; Ventricular Dysfunction, Left/physiopathology ; Young Adult