Bypass surgery
Bypass surgery is a significant medical procedure used to restore blood flow when arteries are narrowed or blocked, particularly in the heart. It is often indicated when traditional treatments, like medication or angioplasty, fail to alleviate symptoms such as angina. The traditional approach involves open-heart surgery, where the chest is opened, and heart-lung machines are used to manage blood circulation while surgeons create grafts from veins or arteries to bypass blockages. This type of surgery, although effective, is highly invasive and comes with risks, such as complications from the heart-lung machine and potential long-term cognitive effects.
In response to these challenges, advancements in surgical techniques have led to the development of minimally invasive bypass methods. These newer approaches utilize smaller incisions and do not require heart-lung machines, thereby reducing recovery time and postoperative pain. Surgeons may employ robotic technology and laparoscopic techniques to perform procedures more delicately, minimizing trauma to the body. Despite being less invasive, bypass surgery still carries risks, including psychological effects, which have highlighted the importance of mental health support for patients post-surgery. Overall, bypass surgery continues to evolve, balancing the need for effective intervention with the desire for improved patient outcomes and reduced recovery times.
Bypass surgery
Anatomy or system affected: Abdomen, blood vessels, chest, circulatory system, gastrointestinal system, heart, intestines, legs
Definition: Surgical provision of an additional or alternative channel to divert blood or the contents of the digestive system around an obstruction or narrowing.
Indications and Procedures
Coronary artery bypass surgery is needed when angiography reveals a narrowing or blockage in heartarteries causing angina that cannot be controlled by medication or relieved by angioplasty. The traditional method of open chestbypass surgery, which first became popular in the 1970s, requires that the patient be fully anesthetized. The surgeon cuts open the patient’s chest, saws through the breastbone, and spreads the halves of the ribcage to expose the heart. The heart is stopped and cooled, and the major heart vessels are attached to a heart-lung machine, which oxygenates and circulates the blood. At the same time, another surgeon removes a leg vein and prepares grafts to be sewn around blockages in the heart arteries. Mammary arteries are also employed to redirect blood flow around obstructed arteries. After the bypasses are satisfactorily implanted, the heart-lung machine is disconnected, and the heart resumes pumping on its own. The two halves of the breastbone are reattached with stainless steel wire, and the incision is sewn closed. Patients are taken to a cardiac intensive care unit overnight and are normally discharged from the hospital within a week. They recover fully in one to three months.
Bypass surgery of the peripheral arteries, usually those of the legs, is indicated when ischemia causes severe pain. Sections of leg veins and grafts made of synthetic material, such as Dacron, are used to bypass obstructions and to open blood flow to the legs.
An obstruction in the intestines can be treated surgically by removing the blocked region and sewing together the healthy portions of the gut. Severe problems may require creating an opening for the digestive tract through the abdominal wall, called a stoma, through which its contents can empty into a removable plastic bag. The procedure may be permanent or temporary to allow the affected gut to heal. After successful healing, the bypass and bag are removed, and the intestine segments are reattached.
Removal of part of the stomach or small intestine is sometimes used to treat cases of extreme obesity. The operation improves the patient’s quality of life and may also extend its duration.
Uses and Complications
Traditional coronary artery bypass surgery is profoundly invasive. The heart-lung machine can create problems, even though newer machines are less stressful than the original models. The action of the pump is more powerful than that of a normal heart and can generate turbulence that damages blood cells and other organs. The machines have been blamed for blood clot formation, causing strokes and heart attacks during an operation. Patients, especially the elderly, often experience memory loss and confusion following surgery; though usually temporary, the problem can last for years. Surgeons, therefore, have been seeking less stressful and invasive methods of treating coronary artery disease.
Neither peripheral artery surgery nor intestinal bypass surgery involves using heart-lung machines, but the large incisions commonly used in such operations can also lead to complications by exposing extensive body areas to possible infection. Although traditional surgery is highly successful, innovators sought the development of less invasive procedures and in the twenty-first century, minimally-invasive bypass surgery became a reality. In this surgical technique, no heart-lung machine is necessary. The patient is still given general anesthesia and medicine to slow their heart; however, only a small incision is necessary and muscle and rib are removed to allow access to the patient’s heart.
Perspective and Prospects
The goal of research was to create the most minimally invasive surgery. Intestinal surgeons led the way with the development of laparoscopic gallbladder and kidney stone surgery in the 1980s. Only small circular incisions are needed to insert a fiber-optic instrument that transmits enlarged images of the surgical site to a screen. Laparoscopic tools are introduced through several additional small incisions. Segments of the bowel can then be removed through tubes, and their ends joined without opening the abdomen. The use of laparoscopic techniques reduces the tissue damage caused by traditional surgery. The patient feels less pain after the operation, experiences a shorter hospitalization, returns to normal activity sooner, and develops a smaller scar.
To avoid use of the heart-lung machine, and its medical complications, cardiac surgeons have experimented with open chest surgery on a beating heart to come up with the minimally-invasive procedure. This very delicate operation involves temporarily immobilizing the area of the heart where the surgeon intends to attach a graft, slowing the heartbeat with drugs, and stitching the bypass into place between heartbeats.
In the 1990s, cardiac surgeons, following intestinal surgeons, adopted the use of fiber-optic tubes that permit so-called keyhole surgery. Incisions of three inches in the chest and holes a half inch in diameter under the armpit are sufficient to gain entry to the heart, thereby eliminating any need to open the chest cavity. Immobilizing segments of the heart and sewing grafts to the rhythm of the heartbeat, however, is considerably more difficult when done through a tube while viewing a television screen. In the twenty-first century, as the minimally invasive procedure became increasingly popular, surgeons also began using computer-controlled robots to carry out the intricate maneuvers needed to repair ailing hearts.
Bypass surgery remained a serious medical procedure with physical and psychological side effects. In May 2013, a study published in the Annals of Thoracic Surgery suggested that short-term use of antidepressant medications aid in mental and emotional recovery following bypass surgery. A 2023 article in the Journal of Mind and Medical Sciences confirmed that treatment for post-bypass anxiety was an important part of a patient’s medical plan.
Bibliography
"Coronary Artery Bypass Grafting." Health Library, September 26, 2012.
Doherty, Gerard M., and Lawrence W. Way, eds. Current Surgical Diagnosis and Treatment. 12th ed. New York: Lange Medical Books/McGraw-Hill, 2006.
Emery, Robert W., ed. Techniques for Minimally Invasive Direct Coronary Artery Bypass (MIDCAB) Surgery. Philadelphia: Hanley & Belfus, 1997.
“Heart Bypass Surgery - Minimally Invasive.” MedlinePlus, 18 Apr. 2022, medlineplus.gov/ency/article/007012.htm. Accessed 30 July 2023.
Jarinati, Mansour, and Amir Aslani. “Management of Anxiety and Depression in Post Coronary Artery Bypass Graft Surgery.” Journal of Mind and Medical Sciences, vol. 10, no. 1, 2023. doi.org/10.22543/2392-7674.1360.
Klaidman, Stephen. Saving the Heart: The Battle to Conquer Coronary Disease. New York: Oxford University Press, 2000.
Pittman, Genevra. "Heart bypass surgery or stents? Depends on patient." MedlinePlus, April 22, 2013.
Preidt, Robert. "Antidepressants May Hasten Bypass Recovery, Study Finds." MedlinePlus, May 1, 2013.
Youngson, Robert. The Surgery Book: An Illustrated Guide to Seventy-three of the Most Common Operations. New York: St. Martin’s Griffin, 1997.