Infective endocarditis

Streptococcus viridans bacteria. PHIL

Author : Elyse Foster, M.D. Professor of Clinical Medicine and Anesthesia San Francisco, CA 2008-07-28

Definitions and Overview

Infective Endocarditis (IE) refers to infection that forms on the heart valves or inner lining (endocardium) of the heart, usually as a result of bacteria entering and circulating in the bloodstream. As the consequences can be severe if left untreated, prompt and accurate diagnosis of IE is critical. The complications may include heart failure, kidney failure, stroke, or death. Even with appropriate and timely treatment, a small percentage of patients will experience complications and require surgery to replace or repair the infected heart valve.

A variety of bacteria and other infections can cause endocarditis including most commonly staphylococcus aureus (“staph”) and streptococcus viridans. The streptococcus (“strep”) that causes endocarditis is related to, but different from the strep that causes sore throats. This distinction is important because rheumatic heart disease can occur after strep throat (due to Group A streptococcus), and rheumatic heart disease can then increase the likelihood of other infections (see below). Less commonly other organisms, like some forms of fungus, can cause endocarditis whereas viruses do not. When these bacteria get into the bloodstream, they may settle on the heart valves and start to grow, attracting white blood cells that fight off infection. This process also stimulates very small blood clots, called thrombi, to form on the valve. The combination of bacteria, white blood cells, and thrombi form masses that are called vegetations which vary in size but can grow as large as several centimeters. If these vegetations dislodge from the valve, they may travel via the bloodstream to other areas of body (embolization), including the brain in some cases, which can cause a stroke. Understanding causes and conditions that predispose to endocarditis is important as IE can be associated with significant debilitation and mortality, particularly if the diagnosis is unrecognized or delayed.

Often, endocarditis is classified as left-sided or right-sided, referring to the side of the heart in which it occurs. Endocarditis is most common on the aortic and mitral valves, which are on the left side of the heart. Right-sided endocarditis almost always affects the tricuspid valve, situated between the right atrium and right ventricle, and only rarely the pulmonary valve. This distinction is important because left sided endocarditis is associated with more serious complications and generally requires a longer course of treatment.

Vegetation on tricuspid valve by echocardiography. Arrow denotes the vegetation.

How common is endocarditis and who gets it?

The incidence of IE was relatively stable between the 1950s to early 1980s affecting around 4 per 100,000 patient-years. This means that if you followed 10,000 patients for 10 years, there would be 4 cases of endocarditis. In the mid-1980s, the incidence increased to approximately 6-12 per 100,000 patient-years, and this rise was thought to be related to increase in intravenous use of illegal drugs like heroin (See below Predisposing Conditions). Endocarditis is 3 to 9 times more common among men. Additionally, the average age of patients with endocarditis has increased over the past 30 years. A number of predisposing conditions increase an individual’s risk for developing endocarditis; however, in some studies predisposing conditions were not identified in at least a quarter of patients.

What predisposes a patient to get endocarditis?

Certain conditions increase a person’s risk for contracting endocarditis. These will be discussed individually.

Intravenous Use of Illegal Drugs: The risk of IE is much higher among patients who use injection drugs compared with the general population. This risk is related to the introduction of high amounts of bacteria into the bloodstream with drug injection because of contaminated drug solution or dirty needles or syringes. One study evaluated 1150 intravenous drug users who were hospitalized over 12 months, and IE was diagnosed in 75% of these patients (Matthew, 1995). Endocarditis must be seriously considered in any patient with a history of intravenous drug use who presents to a hospital with a fever.

Rheumatic Heart Disease: Rheumatic fever is a delayed result of a throat infection with an organism called Group A streptococcus. Rheumatic heart disease refers to disease of the heart valves that occurs over time after affliction with rheumatic fever. Rheumatic Heart Disease (RHD) is more common in underdeveloped countries, and less commonly seen in people born in the United States. Having said this, RHD is one of the most common causes of valvular abnormalities worldwide.

Degenerative Disease of Heart Valves: Abnormalities that occur over many years as a result of the breakdown of valve tissue are more common among elderly people and are included in this category. These areas of abnormal valve tissue can serve as the nidus, a central point, for bacteria to settle, because the bacteria can stick and set up housekeeping on roughened tissue with irregular surfaces more easily than on the normal smooth-surfaced heart valve. Degenerative mitral valve disease and aortic stenosis (narrowing of the aortic valve) are examples of common degenerative valve diseases associated with higher risk for endocarditis.

Mitral Valve Prolapse: Mitral valve prolapse refers to degenerative abnormality of the mitral valve (the valve located between the left atrium and left ventricle), where the valve tissue demonstrates abnormal motion, or prolapse, during contraction of the ventricle. Patients with mitral valve prolapse who also have thickened valve leaflets and leakiness (or regurgitation) associated with the mitral valve are at higher risk for endocarditis. The risk of IE in this population is about 5 to 8 times higher than in the general population (Clemens, 1982).

Congenital Heart Disease: People who are born with structural abnormalities of the heart, also known as congenital heart disease, are at higher risk of endocarditis. Congenital heart disease accounts for about 10-20% of cases of IE. The most common congenital abnormalities predisposing to IE include bicuspid aortic valves (aortic valves with two rather than three leaflets, affecting approximately 1-2% of the general population), patent ductus arteriosus (congenital communication between the pulmonary artery and aorta), ventricular septal defects (defect in the heart muscle tissue between the right and left ventricle), coarctation of the aorta (congenital narrowing of the aorta), and Tetralogy of Fallot (congenital heart abnormality consisting of ventricular septal defect, abnormal aortic root location, narrowing of the outlet of the right ventricle, and thickening of the right ventricular muscle tissue). Additionally, patients who have undergone complex surgical correction of their congenital heart abnormality are among the highest risk category for complications associated with endocarditis and should be considered for protective treatment with antibiotics, called prophylaxis, when having surgical or dental procedures (see Prevention and Antibiotic Prophylaxis section below).

Prosthetic Valve Endocarditis: Any form of prosthetic material within the heart can serve as a nidus for infection and IE. Patients who have had their heart valves either surgically repaired or replaced with a prosthetic valve are at high risk of IE. The risk of developing IE of a prosthetic heart valve is highest in the first year after surgical replacement, and the risk remains approximately 1% per year thereafter. Because complications associated with IE of prosthetic valves can be very serious, patients with prosthetics valves should take preventive antibiotics around the time of surgical procedures and dental work to minimize the risk of endocarditis (see Prevention and Antibiotic Prophylaxis section below).

Human Immunodeficiency Virus: Some studies have suggested that infection with the human immunodeficiency virus may be an independent risk factor for the development of endocarditis.

Health-Care associated endocarditis: Health-care associated IE, otherwise known as nosocomial endocarditis, occurs mostly in the presence of long-term intravenous devices placed for medical purposes. For example, patients who have intravenous lines placed within major central veins (internal jugular veins, subclavian veins, and femoral veins) and patients with dialysis catheters are at risk for bacterial spread through the bloodstream to the heart valves if these lines must stay in place for several days. These lines may serve as a stopping ground for bacteria to settle then circulate in the bloodstream. Valvular vegetations that then form target abnormal cardiac valve tissue, transvenous pacing wires, defibrillators, and prosthetic valves. Patients who have indwelling intravenous lines for nutrition (total parenteral [by means other than the gastrointestinal tract] nutrition) are at higher risk for more dangerous types of endocarditis, particularly fungal endocarditis.

Prior History of Endocarditis: Patients with a prior history of IE are at increased risk for recurrent IE. After a patient recovers from IE, the heart valves typically are somewhat damaged, and these damaged areas of valve tissue are at much higher risk for recurrent vegetation formation when bacteria is traveling in the bloodstream. These patients are also recommended to take prophylactic antiobiotics around the time of surgical or dental procedures.

Where do the bacteria come from and how do bacteria get into the bloodstream?

Bacteria are everywhere in our environment and unfortunately cannot be avoided. However, bacteria do not normally circulate in the bloodstream, and when significant amounts of bacteria are introduced into the bloodstream, the body’s immune system must work to fight and destroy them. Tooth brushing normally causes small quantities of bacteria from the mouth to be introduced into the bloodstream each day. In people with normally functioning immune systems these bacteria are quickly destroyed by our body’s bacteria fighting cells, and are killed before they have time to settle on the heart valves to develop infection. With prolonged dental procedures, more bacteria can be released into the bloodstream increasing the risk of infection of the heart valves. This risk of infection is highest if there is prosthetic material or abnormal valve tissue for the bacteria to settle on.

Bacteria can also be introduced from the ambient air into the bloodstream anytime the skin is broken and a needle is introduced into the veins, such as with illegal injection drug use. Large quantities of bacteria from the skin can then travel with the needle into the bloodstream and cause bloodstream infection and endocarditis. Rarely, bacteria could be introduced into the blood with surgical procedures where the bacteria travel from the skin into the bloodstream through an incision. Regardless of how the bacteria enter the bloodstream, if the body’s immune system cannot kill the bacteria, either because there are too many bacteria or because the immune system is weakened, infection may occur.

What are the symptoms of endocarditis?

The onset of this infection can be either acute, referring to development and progression of severe symptoms over days to several weeks, or subacute, referring to the development and progression of less severe symptoms over weeks to months. In most cases of IE associated with native heart valves, the interval between initial bacteria circulating in the bloodstream to onset of symptoms is less than 2 weeks in about 80% of patients. Fever is the most common symptom. Fever may be absent or minimal in elderly patients, patients with severe disability, or patients with chronic kidney disease. Shaking chills are also noted in the vast majority of patients. Poor appetite is seen in approximately 25-50% of patients, and weight loss and malaise in 25-35% of patients with IE. Other symptoms that may be observed include shortness of breath, cough, stroke symptoms, headaches, nausea or vomiting, muscle or joint aches, abdominal pain, back pain, and confusion.

What will my doctor find on physical examination?

A physical examination by a physician is very important if IE is suspected. Heart murmurs are noted by physicians in 80-85% of patients. Neurologic abnormalities can be seen in 30-40%. Other findings include an enlarged spleen and abnormal eye exams. Two types of abnormal discrete spots on the fingers or toes may also be seen as a result of embolic phenomena. Small painful lumps called “Osler’s nodes” may occur on the pulp of the finger tips. “Janeway” lesions are flat, non-painful areas of discolorations on the palms and soles. Splinter-like discoloration in the nail beds, called splinter hemorrhages, may be seen.

How is the diagnosis confirmed?

The diagnosis of endocarditis is suspected in patients with fever who present with one or more of the following features: predisposing condition as discussed above, evidence of bacteria within the bloodstream as confirmed by blood cultures, evidence on heart ultrasound (echocardiogram) consistent with the diagnosis of endocarditis, such as presence of vegetations, or evidence on physical exam or on radiologic imaging suggesting a vegetation may have traveled to other parts of the body (embolic phenomena).

Key to the diagnosis of endocarditis, blood cultures are samples of blood, usually drawn from the arm after carefully cleaning the skin, which are sent for culture of bacteria. Usually, at least two samples are drawn 15 minutes apart. The laboratory keeps samples for at least a week because some bacteria take a long time to grow.

Other diagnostic tests may be helpful, such as chest X-rays to look for evidence of heart failure due to the endocarditis or to see if the infection has spread to the lungs due to endocarditis (called septic pulmonary emboli). Electrocardiograms (EKGs) can be helpful if the patient has developed any electrical abnormalities due to the infection. Occasionally, if the infection is severe and has spread to the surrounding heart muscle tissue, it could damage the normal electrical system of the heart and cause heart block (see below Complications section). These abnormalities can be picked up and monitored on an EKG.

A heart ultrasound or echocardiogram is very important in making the diagnosis of endocarditis, because it allows the physician to directly visualize the valve tissue and observe its motion. A transthoracic echocardiogram (TTE), or ultrasound of the heart done by placing an ultrasound probe on the chest, can often detect vegetations as small as 3mm. It can help determine how much movement is associated with the vegetation and its risk for embolization, and can help determine how much leakiness of the valve has developed due to the IE. A TTE also can assess if the heart muscle has been weakened due to the infection. However, many times the vegetations that cause trouble are smaller than 3mm and are not seen on a TTE. In this case, if the diagnosis is suspected by the physician, a transesophageal echocardiogram (TEE) is performed. A TEE is a type of ultrasound performed by placing a thin probe down the throat (or esophagus) and visualizing the heart from the inside. The images generated from a TEE are superior to that of a TTE most times, and a TEE can detect even the smallest of vegetations. A TEE can also help to better characterize the size and location of vegetations, and help determine if the infection is spreading to the heart muscle or abscess.

Guidelines for diagnosis called the Modified Duke Criteria have been established to help physicians determine how likely endocarditis may be in a particular patient. Major criteria include positive blood cultures for typical bacteria that cause endocarditis, vegetations seen on TTE or TEE, or new valve regurgitation (leak). The minor criteria include having a heart condition predisposing to endocarditis, fever (temperature >100.4F or >38C), abnormalities of the fingers or toes as described above, or positive blood cultures not quite meeting major criteria. If a patient has one major and one minor criteria or three minor criteria, the diagnosis of endocarditis is possible.

Finally, because patients with prosthetic heart valves are at high risk of endocarditis, the presence of new fever or evidence of abnormal function of that prosthetic valve should always raise concern for IE.

How do we treat endocarditis?

Once the diagnosis of endocarditis is suspected, multiple blood samples should be obtained prior to beginning antibiotic therapy, and these blood samples should be sent to the laboratory for evaluation and culture. People known to be at risk of endocarditis who have fevers for more than 2-3 days should generally have blood cultures sent to the laboratory, before starting even oral antibiotics. Even low doses of commonly used antibiotics such as amoxicillin and azithromycin, can prevent the bacteria from growing in culture but cannot cure endocarditis. Then the choice of antibiotic to effectively cure the endocarditis is hampered. While the blood cultures are being evaluated, antibiotics should be chosen that cover a broad range of possible organisms that can cause IE. Once the specific organism is identified by the laboratory, the antibiotic choice can be simplified to best target and get rid of the organism.

Antibiotic therapy for endocarditis should not only eliminate the infection, but also should do so while causing little or no side effects to the patient. This is particularly important since the treatment is very long—usually 4-6 weeks. Identifying the correct organism is crucial in choosing the right antibiotic. Common antibiotics used to treat endocarditis include nafcillin or ampicillin, vancomycin, ceftriaxone, gentamycin, or rifampin. Each of these medicines kill different bacteria. Because the infection is so severe with potentially devastating complications, often more than one antibiotic is used to cure the infection. Unfortunately, some forms of endocarditis may not result in blood cultures that grow a specific organism (culture-negative endocarditis), and antibiotic therapy must be chosen empirically. Typically, antibiotics are initially given intravenously to suppress the circulating infection within the bloodstream. Depending on the type of organism and severity of infection, antibiotic therapy may be changed to oral therapy when the infection is under control without evidence of severe complications. Antibiotics are continued for anywhere from 4-6 weeks if blood cultures show no further organism growth, or longer if blood cultures continue to show bacterial growth. In many cases, after a brief stay in the hospital to monitor for complications, the patient is sent home with a long-term intravenous line to continue to receive antibiotics at home. Infection in these catheters is uncommon since antibiotics are being given, unlike the catheters used for dialysis.

What are the complications associated with endocarditis?

1.) Abnormal valve function: The bacteria can literally eat away at the valve, destroying valve tissue and causing the valve to leak (regurgitation). Less commonly, large vegetations can interfere with the opening and closing of the valve. Patients with evidence of abnormal valve function, as a result of destruction or large vegetations, may develop heart failure and are at very high risk for death due to IE. This heart failure occurs because the leaking valve puts great stress on the heart muscle as it tries to compensate for the infection. Regurgitation of the aortic valve (valve between the left ventricle and aorta) is associated with more severe heart muscle dysfunction, than regurgitation of the mitral valve  and patients with aortic valve IE more commonly need to be referred for surgery. However, severe mitral valve regurgitation can also result in severe heart failure that ultimately will require surgery.

2.) Unstable Prosthetic Valves: Infection on prosthetic tissue is very difficult to cure with intravenous antibiotics, and removal of the infected valve with placement of a new valve often must be considered. Additionally, infection associated with prosthetic valves can spread to heart muscle tissue surrounding the valve and form an abscess (a contained infection) in the heart tissue surrounding the valve. This can result in weakening of this tissue that holds the valve in place. Sutures may give way leading to an unstable prosthesis, called dehiscence. Intravenous antibiotic therapy is ineffective in this situation, and surgical intervention is necessary to prevent serious complications or death.

3) Abscess: While more common with prosthetic valves, abscess forming around the valves can also be seen with endocarditis of the heart’s own valves. These are very hard to cure with antibiotics since they are typically walled off and the antibiotics can’t penetrate to kill the bacteria. Often, patients with abscesses must be considered for surgery to replace or repair the valve.

4) Heart block: Bacteria, usually in association with an abscess, also may destroy part of the heart’s electrical system, called the conduction system, causing blocks or “shorting” of the signals that activate each heart beat. Ultimately this can lead to slow heart rhythms called heart block. For this reason it is very important that all patients have an electrocardiogram (EKG), which can detect early signs of heart block.

5) Emboli: As previously mentioned, small parts of the vegetation can break off the heart valves and travel into the circulation. If the vegetation is on the left side of the heart (aortic or mitral valve), the most common site for them to lodge causing a stroke; they can also travel to the kidney and spleen, but these are often not suspected on physical examination. Rarely, an embolus to the coronary artery can cause a heart attack. When the infection is on the right side of the heart, the emboli can travel to the lungs where they can cause small areas of pneumonia. These are called “septic pulmonary emboli” and have a distinct appearance on the chest X-ray. When antibiotics are effective, they usually prevent further emboli. When emboli continue to occur after patients have received antibiotics for more than a week, it raises concern that the antibiotics are ineffective in curing the endocarditis.

6.) Uncontrolled Infection Despite Medical Therapy: Patients who have persistent infection despite several weeks of appropriate antibiotic therapy in the form of ongoing fevers, further emboli, the development of an abscess or blood cultures that continue to grow the bacteria. This is termed a failure of antibiotic therapy. For patients who fail antibiotic therapy, surgery may be needed to eradicate the infection and preserve functioning of the heart valve.

Indications for Surgery

When antibiotics do not eradicate the infection, surgery may be needed. Complications associated with IE that place patients at high risk for severe health consequences or death typically require surgical repair or replacement of the heart valves. Surgical intervention typically refers to open heart surgery requiring an incision through the sternum (midline bone in the chest supporting the ribs) to access the disease valve for either repair of the damaged valve or replacement with a prosthetic valve. While there was initially concern that the new valve would become infected, it turns out that as long as antibiotics are being given at the time of the surgery and continued well after surgery, infection of the new valve is uncommon.

Can endocarditis be prevented and how?: Endocarditis Prophylaxis

In the 1950s physicians first theorized that antibiotics could be given before medical or dental procedures to prevent endocarditis as these procedures are commonly associated with bacteremia, defined as bacteria within the bloodstream. The American Heart Association first published guidelines in 1955 specifying that when patients predisposed to endocarditis should take antibiotics such as before dental work. While the guidelines have been modified over the years, these guidelines were radically changed for the first time in 2007 based on several of the following principles: 1) endocarditis usually occurs when bacteria enter the bloodstream in the course of everyday life rather than during procedures; 2) antibiotics given at the time of the procedure likely prevent only a small number of cases; 3) risk of reactions to antibiotics may be greater than the benefit derived; and 4) good oral health and dental hygiene are probably much more important than giving antibiotics at the time of dental cleaning. Additionally, the risk of overuse of antibiotics leads to development of antibiotic resistance and future difficulty in treating infections—so overuse of antibiotics should be avoided. Endocarditis prophylaxis with antibiotics is now recommended only for patients who are at the highest risk of significant debilitation or death if IE is acquired. Moreover, antibiotic prophylaxis was not recommended based solely on an increased lifetime risk of acquisition of IE. These guidelines recommend that “infective endocarditis prophylaxis for dental procedures is reasonable only for patients with underlying cardiac conditions associated with the highest risk of adverse outcome from infective endocarditis.”

Cardiac conditions associated with the highest risk of adverse outcomes from endocarditis for which antibiotic prevention with dental procedures is reasonable include the following:

1.)  prosthetic heart valves or prosthetic material used for heart valve repair

2.)  previous history of IE

3.)   complex congenital heart disease (unrepaired congenital heart abnormalities that result in low oxygen level, and patients with prosthetic material placed surgically to correct the congenital abnormality)

4.)   heart transplant recipients who develop dysfunction of their valves due to IE

For patients who have valve abnormalities not classified as the highest risk, but more moderate risk for developing endocarditis, such as patient with mitral valve prolapse, the decision regarding use of antibiotic prophylaxis should be individualized by physicians according to the risk of severe disability or death associated with IE for that particular patient.

Conclusions

Endocarditis refers to infection associated with heart valves and is typically treated with either antibiotic treatment or surgical valve repair or replacement. It is important to understand the predisposing conditions, signs, and symptoms of endocarditis because early identification and treatment can help to prevent serious complications such as valve dysfunction, heart failure, kidney failure, stroke, and death.

Links

Search under patient information for endocarditis on the following internet sites:

www.americanheart.org

www.nhlbi.nih.gov

www. jama.ama-assn.org

www.uptodate.com

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