William Harvey's

On the Motion of the Heart and Blood in Animals

Harvey begins his On the Motion of the Heart and Blood in Animals with a flourishing letter of praise to Prince Charles and a dedication to Doctor Argent. He then outlines a number of points he intends to expound upon which sharply contradict Galenistic teachings: that the heart and lungs have different ends; that arteries contain blood rather than air; that arteries and veins contain the same blood, not different types; that arteries dilate because they are filled rather expanding themselves; that the right and left ventricles share the common function of propelling blood from the heart; and that there is no blood flow between the ventricles (through the septum).

He notes from his observations on dissected animals that the heart has two phases: one of motion and one of rest; these phases are termed systole and diastole, respectively. The heart also becomes contracted and more firm during systole, just as the muscles of the forearm do when the fist is clenched. He notes that the heart becomes pale during systole and a richer red during diastole, which he attributes to the fact that the heart is emptied during systole and filled with blood during diastole.
Harvey observes during systole that when the left ventricle contracts, the systemic arteries (those that supply the body systems with blood) dilate and a pulse can be felt, and that at the same time, the right ventricle contracts and the pulmonary artery (that which travels to the lungs to oxygenate blood) dilates; he also notes that if these arteries are severed, blood will be forcibly propelled from them upon systole. He states that the diastole of the arteries coincides with the systole of the heart, and that the arteries are passively filled by its pumping rather that drawing in the blood. The pulse is felt simultaneously throughout the body, but if blood flow is impeded or restricted in any way, it will be felt less strongly in parts of the body distal to the impediment.

Harvey observes that the auricles, now called atria (atrium, sing.), contract slightly earlier than the ventricles, and that they appear paler after contraction. This is because the atria, being filled with blood from the veins, contract to fill the ventricles with blood before ventricular diastole, when the left ventricle sends blood out through the aorta to the body systems, and the right ventricle sends it through the pulmonary artery to the lungs. He relates this seemingly simultaneous process of the heart contracting to that of a gun firing; although it seems like all the events are taking place at once, it is really a sequential process.
Finding the solution to a particularly difficult question that had baffled physiologists for centuries, Harvey discovers that blood passes from the veins to the arteries via the heart, which is easily observably in animals without lungs, such as fish. In fish, all of the blood is pumped out from the heart’s single ventricle through the arteries, and it returns via the veins to the heart’s single atrium, where the cycle repeats after the atrium fills the ventricle. Humans and other mammals, however, have a four-chambered heart. We know today that the right atrium and ventricle send blood to the lungs to be oxygenated and then return to the left atrium and then to the left ventricle to be sent out to the body, but the function of the pulmonary circuit, or the right side of the heart and its vessels, was misunderstood up to Harvey’s time.

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