Most cardiovascular emergencies are directly caused by coronary artery disease. As noted earlier, coronary arteries can become clogged or occluded, leading to damage to the heart muscle supplied by the artery. There are three methods for treating coronary artery disease. They may be used individually or in combination with the each other. Medication can be given to control the blood flow to the heart. This is not always effective. Another method, coronary bypass surgery, involves replacing a blocked coronary artery with either a vein from the leg or with a thoracic artery from the chest wall. This method requires that the patient's chest be opened. The heart must be stopped, then restarted after the new vessels are connected. Another technique, although not new (it was first performed in 1977 by a Swiss physician), is a highly successful treatment called percutaneous transluminal coronary angioplasty, or balloon angioplasty by most laypersons. In this procedure, the patient remains awake. Under local anesthesia, tubes called catheters are inserted into an artery and vein in the groin. Next, a tiny, flexible guide wire is maneuvered through the arteries, eventually passing through the narrowed opening in the occluded coronary artery. Next, another catheter with a balloon near the end is run along the guide wire. When the balloon is in place, it is inflated and deflated several times, enlarging the opening of the artery and increasing the blood flow. When the surgeon is satisfied with the size of the opening, the catheters are removed. The patient remains in the hospital for a few days, but can resume normal activities in a matter of weeks. Other current cardiovascular research involves drugs that control the blood pressure or heart rate, artificial blood substitutes, and devices implanted in the wall of the heart that can detect changes in the rate or patterns of contraction of the ventricles and correct them before a heart attack occurs.

Modern cardiovascular medicine and our understanding of the heart and circulation have certainly come a long way since the days of Pliny, Galen, and Harvey. While we jest about broken hearts in romances, or having the heart needed to work hard to win an event, we all know that the heart and the circulatory system are not related to emotions, the soul, or intellect. Without the four-chambered heart and double circuit circulatory system, mammals would not have been able to successfully evolve, for this type of circulation gave rise to the warm-bloodedness needed to out compete the slower responding reptiles. Our own circulatory system has evolved to feed large amounts of blood to our brains, letting the brain develop and evolve into the organ it is today. Modern medical research on the heart has changed the face of the future. Advances in cardiovascular surgery and cardiac care have given thousands of people the opportunity to live on after the attack of disease, often for decades. What once would have killed can now be not only survived, but even prevented. All because an English physician in the 1600's decided that maybe everything was not as he had been taught, and had the "heart" to try something different.

Next page > The Heart and the Circulatory System > William Harvey > Types of Circulatory Systems > Anatomy of the Heart > The Pulmonary and Systemic Circuits > The Blood Vessels > Circulatory Problems > Modern Cardiovascular Medicine