Endocarditis

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Endocarditis

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A 36-year-old man presents to the emergency department with fever, chills, and cough of three days duration. The patient uses intravenous heroin regularly and reports he last used heroin earlier today. He is currently living in a homeless shelter. Temperature of 38.7 °C (101.6 °F), pulse is 105/min, respirations are 22/min, blood pressure is 100/63 mmHg, and oxygen saturation is 91% on room air. On physical examination, the patient appears disheveled. Erythematous lesions are noted on the chest and arms bilaterally. Rales are appreciated in the lungs bilaterally, and a holosystolic murmur is appreciated at the left lower sternal border. Laboratory values are demonstrated below:  
 
 Laboratory value  Result 
Complete Blood Count, Serum 
 Hemoglobin  12.5 g/dL 
 Hematocrit  40.5% 
 Leukocyte count  18,100 /mm3 
 Platelet count  250,000/mm3 
Inflammatory Markers, Serum 
ESR                 44 mm/hr 
 CRP  18 mg/L 
Electrolytes, Serum 
                  Sodium                131 mEq/L 
               Potassium                 3.6 mEq/L 
                 Chloride                 94 mEq/L  
              Bicarbonate                 20 mEq/L 
                 Calcium                8.4 mg/dL 
Blood is drawn and sent for culture, and the patient is started on empiric antibiotics. Three days later, 3 of 4 blood cultures obtained on admission grow Gram-positive, coagulase-positive bacteria. Which of the following is the most common initial site of infection in this patient?   

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Endocarditis means “inflammation of the inner layer of the heart.” The heart’s wall is made up of three layers: the epicardium, the outermost layer; the myocardium; and then the endocardium, which is the layer that gets inflamed.

It turns out that most cases of endocarditis are due to a microbial infection of the endocardium, usually involving the endocardium lining the cardiac valves. Why the valves? Well, it turns out that the valves have tiny blood vessels that nourish them, even though they’re flopping around in blood all day long. This means that an infection can potentially result from a damaged valve, because it would allow microbes to escape the tiny blood vessels and invade the valve tissue, or on the flip side, microbes in the blood might enter the tiny vessels within the valve.

Either way, a microbe has to first get into the bloodstream, and that might happen if a person: has an open wound or an abscess; a dental or surgical procedure; or, an injection with an infected needle or infected substance, from using illegal drugs.

Most often, the valves on the left side — the mitral valve and the aortic valve — are affected, sometimes due to predisposing conditions, such as mitral valve prolapse and bicuspid aortic valves, but it really depends on the circumstances. Risk factors for either valve include having prosthetic valves, congenital cardiac defect involving the valves, damage to the valves from rheumatic heart disease, and intravenous drug use, which typically affects the tricuspid valve.

Now, the first step that happens in endocarditis is that the endothelial lining of the valve gets damaged. There are a number of ways this can happen, such as previous inflammation or injury. This damage exposes the underlying collagen and tissue factor, causing platelets and fibrin to adhere, which forms this tiny thrombosis or blood clot. This is called Nonbacterial Thrombotic Endocarditis, or NBTE. It’s nonbacterial because it happens even before the bacteria shows up. Now, if you add in bacteriemia, or bacteria in the blood, you’ve got yourself a recipe for infective endocarditis.

Every day, there are opportunities for microbes to get into the bloodstream, whether it’s through brushing your teeth and having them slip into the gums, or having them slip in through your gut or lungs. Whatever the case, they regularly make their way into the body. It’s not usually not a problem though, because it’s a small amount and can easily be killed by your immune system. However, occasionally they float around in the blood for long enough to find an NBTE, which serves as a perfect location for them to attach and set up an infection, called a vegetation. To attach to an NBTE, a lot of bacterial species use proteins on their surface, called adhesins, that let them stick to the valve and stick to one another. They also create an extracellular matrix around themselves, called biofilm, which allows them to literally stick together and form a large clump of bacteria that can behave like a colony.

Sources

  1. "Infective endocarditis" Medscape (2017)
  2. "HACEK endocarditis" Wikipedia
  3. "Hepcidin" Wikipedia
  4. "First Aid for the USMLE Step 1 2017 (27 edition)" McGraw-Hill Education / Medical (2017)
  5. "Robbins & Cotran Pathologic Basis of Disease (9 edition)" Elsevier (2015)
  6. "Fundamentals of Pathology: Medical Course and Step 1 Review (2017)." Pathoma LLC (2017)
  7. "Endocarditis" Wikipedia
  8. "Hepcidin - the iron regulatory hormone" Clin Biochem Rev 26(3) (2005)
  9. "Epidemiology, risk factors, and microbiology of infective endocarditis" UpToDate (2017)
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