Blood Clot Diagnosis
Dr Einthoven observed three waves during each cardiac contraction. He called these waves, the P, the QRS and the T. He received the Nobel Prize in medicine/physiology in 1924.
Dr Einthoven observed that tall, narrow QRS electrical vectors corresponded to ventricular contractions. Small P waves preceding the tall waves, corresponded to atrial contractions. Wide prominent T waves followed tall spikes.
Cardiologists teach that atrial muscle cell depolarizations create small P waves, that ventricular muscle cell depolarizations create tall QRS wave; and that repolarization of the muscular ventricles create T waves.
Bodensteiner's new hemodynamic electrical theory contends that cardiac muscle contractions generate motion of electrolytes, which cause the waves of the ECG.
First, two atrial contractions generate blood flow electric potentials that are P waves.
Next, biventricular contractions generate blood flow electric potentials that are QRS waves.
Finally, peristaltic aortic and pulmonary artery muscle contractions generate blood flow electric potentials that are T waves.
The interpretation of the ECG needs to be updated.
The EKG and Pulse
The EKG is Out of Time with the pulse oximeter during ventricular bigeminy and atrial flutter.
Venous thromboembolism into the pulmonary valve causes right ventricular outflow tract (RVOT) obstruction. This reduces the ejection of blood from the right ventricle (RV) during systole. This decreases the ejection fraction by both ventricles and leads to RV dysplasia. The RV dilates as it weakens from dysplasia.
The dilated RV causes benign premature ventricular beats that leads to 'arrhythmogenic' cardiomyopathy and congestive heart failure (CHF). Blood clots that accumulate inside the tricuspid and pulmonary valves cause fatigue and depression.
Total body vibration platforms were developed by a Russian scientist named Vladimir Nazarov. These machines produce vibrations that separate clumps of red blood cells that occur during weightless outer space exploration.
Vertical vibrations of one G force at 20 to 50 Hertz between 0.5 to 1.5 millimeters amplitude shake loose small sticky adherent bloody clots that are stuck deep inside the cusps of the pulmonary valve.
Vibrating blood clots out of the pulmonary valve improves blood flow from the right ventricle into the pulmonary artery which stops right ventricular outflow tract (RVOT) obstruction. The RV decompresses.
Pulmonary valve function improves after blood clots are expelled out of the cusps of the valve, and the right ventricle end diastolic volume decreases which improves cardiac ejection fraction. The RV remodels and the patient becomes stronger and happier after the ECG rhythm reverts to normal sinus rhythm.
Vibration exercise is good medicine.