Can patients with infectious endocarditis be safely anticoagulated?

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Can patients with infectious endocarditis be safely anticoagulated?

Managing anticoagulation in patients with infectious endocarditis requires an individualized approach, using a careful risk-benefit assessment on a case-by-case basis. There is a dearth of high-quality evidence; consequently, the recommendations also vary according to the clinical situation.

Newly diagnosed native valve infectious endocarditis in itself is not an indication for anticoagulation.1–3 The question of whether to anticoagulate arises in patients who have a preexisting or coexisting indication for anticoagulation such as atrial fibrillation, deep vein thrombosis, pulmonary embolism, or a mechanical prosthetic heart valve. The question becomes yet more complex in patients with cerebrovascular complications and a coexistent strong indication for anticoagulation, creating what is often a very thorny dilemma.

Based on a review of available evidence, recommendations for anticoagulation in patients with infectious endocarditis are summarized below.

AVAILABLE EVIDENCE IS SCARCE AND MIXED

Earlier observational studies suggested a significant risk of cerebral hemorrhage with anticoagulation in patients with native valve endocarditis, although none of these studies were recent (some of them took place in the 1940s), and none are methodologically compelling.4–8 Consequently, some experts have expressed skepticism regarding their findings, particularly in recent years.

In part, this skepticism arises from studies that showed a lower incidence of cerebrovascular complications and smaller vegetation size in patients with prosthetic valve infectious endocarditis, studies in which many of the patients received anticoagulation therapy.9,10 The mechanism responsible for this effect is theorized to be that the vegetation is an amalgam of destroyed cells, platelets, and fibrin, with anticoagulation preventing this aggregation from further growth and propagation.

How great is the benefit or the potential harm?

Some experts argue that the incidence of ischemic stroke with hemorrhagic transformation in patients with infectious endocarditis receiving anticoagulation is overestimated. According to this view, the beneficial effects of anticoagulation at least counterbalance the potential harmful effects.

In addition to the studies cited above, recent studies have shown that patients on anticoagulation tend to have smaller vegetations and fewer cerebrovascular complications.11–13 Snygg-Martin et al11 and Rasmussen et al12 found not only that cerebrovascular complications were less common in patients already on anticoagulation at the time infectious endocarditis was diagnosed, but also that no increase in the rate of hemorrhagic lesions was reported.

These were all nonrandomized studies, and most of the patients in them had native valve infectious endocarditis diagnosed at an early stage. Importantly, these studies found that the beneficial effects of anticoagulation were only present if the patient was receiving warfarin before infectious endocarditis was diagnosed and antibiotic therapy was initiated. No benefits from anticoagulation were demonstrated once antimicrobial therapy was begun.

Similarly, Anavekar et al14 showed that embolic events occurred significantly less often in those who were currently on continuous daily antiplatelet therapy, suggesting that receiving antiplatelet agents at baseline protects against cardioembolic events in patients who develop infective endocarditis. However, the only randomized trial examining the initiation of antiplatelet therapy in patients diagnosed with infectious endocarditis receiving antibiotic treatment showed that adding aspirin did not reduce the risk of embolic events and was associated with a trend toward increased risk of bleeding.15

A recent large cohort study suggested that infectious endocarditis patients who receive anticoagulation therapy may have a higher incidence of cerebrovascular complications (hazard ratio 1.31, 95% confidence interval 1.00–1.72, P = .048), with a particular association of anticoagulation therapy with intracranial bleeding (hazard ratio 2.71, 95% confidence interval 1.54–4.76, P = .001).16

Another provocative link supported by the same study was a higher incidence of hemorrhagic complications with anticoagulation in patients with infectious endocarditis caused by Staphylococcus aureus, an association also suggested by older data from Tornos et al,8 but not seen in a study by Rasmussen et al.12

Continuing anticoagulation is an individualized decision

The benefit or harm of anticoagulation in patients with infectious endocarditis may be determined at least in part by a complex mix of factors including the valve involved (embolic events are more common with mitral valve vegetations than with aortic valve vegetations), vegetation size (higher risk if > 1 cm), mobility of vegetations, and perhaps the virulence of the causative organism.16,17 The fact that antimicrobial therapy obviates any beneficial effect of anticoagulation speaks strongly against starting anticoagulation therapy in infectious endocarditis patients with the sole purpose of reducing stroke risk.

Without large randomized trials to better delineate the risks and benefits of continuing preexisting anticoagulation in all patients with infectious endocarditis, patients already receiving anticoagulants need a careful, individualized risk-benefit assessment. Current guidelines agree that newly diagnosed infectious endocarditis per se is not an indication for anticoagulation or aspirin therapy (Table 1).1–3

TAKE-HOME POINTS

  • Starting antiplatelet and anticoagulation therapy for the sole purpose of stroke prevention is not recommended in patients with newly diagnosed infectious endocarditis.
  • In most cases, anticoagulation and antiplatelet therapy should be temporarily discontinued in patients with infectious endocarditis and stroke or suspected stroke.
  • Patients need careful assessment on a case-by-case basis, and the presence of risk factors predisposing patients to cerebrovascular complications (eg, large or very mobile vegetations, causative pathogens such as S aureus or Candida spp) may prompt temporary suspension of anticoagulation and antiplatelet therapy.
  • If there is a clear preexisting or coexisting indication for these agents and surgery is not anticipated, consider continuing antiplatelet and anticoagulant therapy in patients with infectious endocarditis, provided they lack the risk factors described above and stroke has been excluded.
  • If there is a clear preexisting or coexisting indication for these agents and surgery is being considered, consider using a short-acting anticoagulant such as intravenous or low-molecular weight heparin as a bridge to surgery.
References
  1. Baddour LM, Wilson WR, Bayer AS, et al. Infective endocarditis in adults: diagnosis, antimicrobial therapy, and management of complications: a scientific statement for healthcare professionals from the American Heart Association. Circulation 2015; 132:1435–1486.
  2. Habib G, Lancellotti P, Antunes MJ, et al. 2015 ESC guidelines for the management of infective endocarditis. Rev Esp Cardiol (Engl Ed) 2016; 69:69.
  3. Whitlock RP, Sun JC, Fremes SE, Rubens FD, Teoh KH. Antithrombotic and thrombolytic therapy for valvular disease: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest 2012; 141:e576S–e600S.
  4. Delahaye JP, Poncet P, Malquarti V, Beaune J, Garé JP, Mann JM. Cerebrovascular accidents in infective endocarditis: role of anticoagulation. Eur Heart J 1990; 11:1074–1078.
  5. Loewe L. The combined use of anti-infectives and anticoagulants in the treatment of subacute bacterial endocarditis. Bull N Y Acad Med 1945; 21:59–86.
  6. Priest WS, Smith JM, McGee GC. The effect of anticoagulants on the penicillin therapy and the pathologic lesions of subacute bacterial endocarditis. N Engl J Med 1946; 235:699–706.
  7. Pruitt AA, Rubin RH, Karchmer AW, Duncan GW. Neurologic complications of bacterial endocarditis. Medicine 1978; 57:329–343.
  8. Tornos P, Almirante B, Mirabet S, Permanyer G, Pahissa A, Soler-Soler J. Infective endocarditis due to Staphylococcus aureus: deleterious effect of anticoagulant therapy. Arch Intern Med 1999; 159:473–475.
  9. Wilson WR, Geraci JE, Danielson GK, et al. Anticoagulant therapy and central nervous system complications in patients with prosthetic valve endocarditis. Circulation 1978; 57:1004–1007.
  10. Schulz R, Werner GS, Fuchs JB, et al. Clinical outcome and echocardiographic findings of native and prosthetic valve endocarditis in the 1990’s. Eur Heart J 1996; 17:281–288.
  11. Snygg-Martin U, Rasmussen RV, Hassager C, Bruun NE, Andersson R, Olaison L. Warfarin therapy and incidence of cerebrovascular complications in left-sided native valve endocarditis. Eur J Clin Microbiol Infect Dis 2011; 30:151–157.
  12. Rasmussen RV, Snygg-Martin U, Olaison L, et al. Major cerebral events in Staphylococcus aureus infective endocarditis: is anticoagulant therapy safe? Cardiology 2009; 114:284–291.
  13. Yau JW, Lee P, Wilson A, Jenkins AJ. Prosthetic valve endocarditis: what is the evidence for anticoagulant therapy? Intern Med J 2011; 41:795–797.
  14. Anavekar NS, Tleyjeh IM, Mirzoyev Z, et al. Impact of prior antiplatelet therapy on risk of embolism in infective endocarditis. Clin Infect Dis 2007; 44:1180–1186.
  15. Chan KL, Dumesnil JG, Cujec B, et al. A randomized trial of aspirin on the risk of embolic events in patients with infective endocarditis. J Am Coll Cardiol 2003; 42:775–780.
  16. Garcia-Cabrera E, Fernández-Hidalgo N, Almirante B, et al. Neurological complications of infective endocarditis: risk factors, outcome, and impact of cardiac surgery: a multicenter observational study. Circulation 2013; 127:2272–2284.
  17. Thuny F, Di Salvo G, Belliard O, et al. Risk of embolism and death in infective endocarditis: prognostic value of echocardiography: a prospective multicenter study. Circulation 2005; 112:69–75.
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Mandeep Singh Randhawa, MD
Department of Hospital Medicine, Medicine Institute, Cleveland Clinic

James Pile, MD
Vice Chairman, Faculty Development, Department of Hospital Medicine, Medicine Institute, Cleveland Clinic; Associate Professor, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University, Cleveland, OH; Deputy Editor, Cleveland Clinic Journal of Medicine

Marcelo Gomes, MD
Department of Vascular Medicine, Heart and Vascular Institute, Cleveland Clinic

Address: Mandeep S. Randhawa, MD, Department of Hospital Medicine, M2 Annex, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH 44195; e-mail: [email protected]

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Cleveland Clinic Journal of Medicine - 83(3)
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infective endocarditis, IE, anticoagulation, warfarin, heparin, vegetations, Staphylococcus aureus, Mandeep Randhawa, James Pile, Marcelo Gomes
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Mandeep Singh Randhawa, MD
Department of Hospital Medicine, Medicine Institute, Cleveland Clinic

James Pile, MD
Vice Chairman, Faculty Development, Department of Hospital Medicine, Medicine Institute, Cleveland Clinic; Associate Professor, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University, Cleveland, OH; Deputy Editor, Cleveland Clinic Journal of Medicine

Marcelo Gomes, MD
Department of Vascular Medicine, Heart and Vascular Institute, Cleveland Clinic

Address: Mandeep S. Randhawa, MD, Department of Hospital Medicine, M2 Annex, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH 44195; e-mail: [email protected]

Author and Disclosure Information

Mandeep Singh Randhawa, MD
Department of Hospital Medicine, Medicine Institute, Cleveland Clinic

James Pile, MD
Vice Chairman, Faculty Development, Department of Hospital Medicine, Medicine Institute, Cleveland Clinic; Associate Professor, Cleveland Clinic Lerner College of Medicine of Case Western Reserve University, Cleveland, OH; Deputy Editor, Cleveland Clinic Journal of Medicine

Marcelo Gomes, MD
Department of Vascular Medicine, Heart and Vascular Institute, Cleveland Clinic

Address: Mandeep S. Randhawa, MD, Department of Hospital Medicine, M2 Annex, Cleveland Clinic, 9500 Euclid Avenue, Cleveland, OH 44195; e-mail: [email protected]

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Managing anticoagulation in patients with infectious endocarditis requires an individualized approach, using a careful risk-benefit assessment on a case-by-case basis. There is a dearth of high-quality evidence; consequently, the recommendations also vary according to the clinical situation.

Newly diagnosed native valve infectious endocarditis in itself is not an indication for anticoagulation.1–3 The question of whether to anticoagulate arises in patients who have a preexisting or coexisting indication for anticoagulation such as atrial fibrillation, deep vein thrombosis, pulmonary embolism, or a mechanical prosthetic heart valve. The question becomes yet more complex in patients with cerebrovascular complications and a coexistent strong indication for anticoagulation, creating what is often a very thorny dilemma.

Based on a review of available evidence, recommendations for anticoagulation in patients with infectious endocarditis are summarized below.

AVAILABLE EVIDENCE IS SCARCE AND MIXED

Earlier observational studies suggested a significant risk of cerebral hemorrhage with anticoagulation in patients with native valve endocarditis, although none of these studies were recent (some of them took place in the 1940s), and none are methodologically compelling.4–8 Consequently, some experts have expressed skepticism regarding their findings, particularly in recent years.

In part, this skepticism arises from studies that showed a lower incidence of cerebrovascular complications and smaller vegetation size in patients with prosthetic valve infectious endocarditis, studies in which many of the patients received anticoagulation therapy.9,10 The mechanism responsible for this effect is theorized to be that the vegetation is an amalgam of destroyed cells, platelets, and fibrin, with anticoagulation preventing this aggregation from further growth and propagation.

How great is the benefit or the potential harm?

Some experts argue that the incidence of ischemic stroke with hemorrhagic transformation in patients with infectious endocarditis receiving anticoagulation is overestimated. According to this view, the beneficial effects of anticoagulation at least counterbalance the potential harmful effects.

In addition to the studies cited above, recent studies have shown that patients on anticoagulation tend to have smaller vegetations and fewer cerebrovascular complications.11–13 Snygg-Martin et al11 and Rasmussen et al12 found not only that cerebrovascular complications were less common in patients already on anticoagulation at the time infectious endocarditis was diagnosed, but also that no increase in the rate of hemorrhagic lesions was reported.

These were all nonrandomized studies, and most of the patients in them had native valve infectious endocarditis diagnosed at an early stage. Importantly, these studies found that the beneficial effects of anticoagulation were only present if the patient was receiving warfarin before infectious endocarditis was diagnosed and antibiotic therapy was initiated. No benefits from anticoagulation were demonstrated once antimicrobial therapy was begun.

Similarly, Anavekar et al14 showed that embolic events occurred significantly less often in those who were currently on continuous daily antiplatelet therapy, suggesting that receiving antiplatelet agents at baseline protects against cardioembolic events in patients who develop infective endocarditis. However, the only randomized trial examining the initiation of antiplatelet therapy in patients diagnosed with infectious endocarditis receiving antibiotic treatment showed that adding aspirin did not reduce the risk of embolic events and was associated with a trend toward increased risk of bleeding.15

A recent large cohort study suggested that infectious endocarditis patients who receive anticoagulation therapy may have a higher incidence of cerebrovascular complications (hazard ratio 1.31, 95% confidence interval 1.00–1.72, P = .048), with a particular association of anticoagulation therapy with intracranial bleeding (hazard ratio 2.71, 95% confidence interval 1.54–4.76, P = .001).16

Another provocative link supported by the same study was a higher incidence of hemorrhagic complications with anticoagulation in patients with infectious endocarditis caused by Staphylococcus aureus, an association also suggested by older data from Tornos et al,8 but not seen in a study by Rasmussen et al.12

Continuing anticoagulation is an individualized decision

The benefit or harm of anticoagulation in patients with infectious endocarditis may be determined at least in part by a complex mix of factors including the valve involved (embolic events are more common with mitral valve vegetations than with aortic valve vegetations), vegetation size (higher risk if > 1 cm), mobility of vegetations, and perhaps the virulence of the causative organism.16,17 The fact that antimicrobial therapy obviates any beneficial effect of anticoagulation speaks strongly against starting anticoagulation therapy in infectious endocarditis patients with the sole purpose of reducing stroke risk.

Without large randomized trials to better delineate the risks and benefits of continuing preexisting anticoagulation in all patients with infectious endocarditis, patients already receiving anticoagulants need a careful, individualized risk-benefit assessment. Current guidelines agree that newly diagnosed infectious endocarditis per se is not an indication for anticoagulation or aspirin therapy (Table 1).1–3

TAKE-HOME POINTS

  • Starting antiplatelet and anticoagulation therapy for the sole purpose of stroke prevention is not recommended in patients with newly diagnosed infectious endocarditis.
  • In most cases, anticoagulation and antiplatelet therapy should be temporarily discontinued in patients with infectious endocarditis and stroke or suspected stroke.
  • Patients need careful assessment on a case-by-case basis, and the presence of risk factors predisposing patients to cerebrovascular complications (eg, large or very mobile vegetations, causative pathogens such as S aureus or Candida spp) may prompt temporary suspension of anticoagulation and antiplatelet therapy.
  • If there is a clear preexisting or coexisting indication for these agents and surgery is not anticipated, consider continuing antiplatelet and anticoagulant therapy in patients with infectious endocarditis, provided they lack the risk factors described above and stroke has been excluded.
  • If there is a clear preexisting or coexisting indication for these agents and surgery is being considered, consider using a short-acting anticoagulant such as intravenous or low-molecular weight heparin as a bridge to surgery.

Managing anticoagulation in patients with infectious endocarditis requires an individualized approach, using a careful risk-benefit assessment on a case-by-case basis. There is a dearth of high-quality evidence; consequently, the recommendations also vary according to the clinical situation.

Newly diagnosed native valve infectious endocarditis in itself is not an indication for anticoagulation.1–3 The question of whether to anticoagulate arises in patients who have a preexisting or coexisting indication for anticoagulation such as atrial fibrillation, deep vein thrombosis, pulmonary embolism, or a mechanical prosthetic heart valve. The question becomes yet more complex in patients with cerebrovascular complications and a coexistent strong indication for anticoagulation, creating what is often a very thorny dilemma.

Based on a review of available evidence, recommendations for anticoagulation in patients with infectious endocarditis are summarized below.

AVAILABLE EVIDENCE IS SCARCE AND MIXED

Earlier observational studies suggested a significant risk of cerebral hemorrhage with anticoagulation in patients with native valve endocarditis, although none of these studies were recent (some of them took place in the 1940s), and none are methodologically compelling.4–8 Consequently, some experts have expressed skepticism regarding their findings, particularly in recent years.

In part, this skepticism arises from studies that showed a lower incidence of cerebrovascular complications and smaller vegetation size in patients with prosthetic valve infectious endocarditis, studies in which many of the patients received anticoagulation therapy.9,10 The mechanism responsible for this effect is theorized to be that the vegetation is an amalgam of destroyed cells, platelets, and fibrin, with anticoagulation preventing this aggregation from further growth and propagation.

How great is the benefit or the potential harm?

Some experts argue that the incidence of ischemic stroke with hemorrhagic transformation in patients with infectious endocarditis receiving anticoagulation is overestimated. According to this view, the beneficial effects of anticoagulation at least counterbalance the potential harmful effects.

In addition to the studies cited above, recent studies have shown that patients on anticoagulation tend to have smaller vegetations and fewer cerebrovascular complications.11–13 Snygg-Martin et al11 and Rasmussen et al12 found not only that cerebrovascular complications were less common in patients already on anticoagulation at the time infectious endocarditis was diagnosed, but also that no increase in the rate of hemorrhagic lesions was reported.

These were all nonrandomized studies, and most of the patients in them had native valve infectious endocarditis diagnosed at an early stage. Importantly, these studies found that the beneficial effects of anticoagulation were only present if the patient was receiving warfarin before infectious endocarditis was diagnosed and antibiotic therapy was initiated. No benefits from anticoagulation were demonstrated once antimicrobial therapy was begun.

Similarly, Anavekar et al14 showed that embolic events occurred significantly less often in those who were currently on continuous daily antiplatelet therapy, suggesting that receiving antiplatelet agents at baseline protects against cardioembolic events in patients who develop infective endocarditis. However, the only randomized trial examining the initiation of antiplatelet therapy in patients diagnosed with infectious endocarditis receiving antibiotic treatment showed that adding aspirin did not reduce the risk of embolic events and was associated with a trend toward increased risk of bleeding.15

A recent large cohort study suggested that infectious endocarditis patients who receive anticoagulation therapy may have a higher incidence of cerebrovascular complications (hazard ratio 1.31, 95% confidence interval 1.00–1.72, P = .048), with a particular association of anticoagulation therapy with intracranial bleeding (hazard ratio 2.71, 95% confidence interval 1.54–4.76, P = .001).16

Another provocative link supported by the same study was a higher incidence of hemorrhagic complications with anticoagulation in patients with infectious endocarditis caused by Staphylococcus aureus, an association also suggested by older data from Tornos et al,8 but not seen in a study by Rasmussen et al.12

Continuing anticoagulation is an individualized decision

The benefit or harm of anticoagulation in patients with infectious endocarditis may be determined at least in part by a complex mix of factors including the valve involved (embolic events are more common with mitral valve vegetations than with aortic valve vegetations), vegetation size (higher risk if > 1 cm), mobility of vegetations, and perhaps the virulence of the causative organism.16,17 The fact that antimicrobial therapy obviates any beneficial effect of anticoagulation speaks strongly against starting anticoagulation therapy in infectious endocarditis patients with the sole purpose of reducing stroke risk.

Without large randomized trials to better delineate the risks and benefits of continuing preexisting anticoagulation in all patients with infectious endocarditis, patients already receiving anticoagulants need a careful, individualized risk-benefit assessment. Current guidelines agree that newly diagnosed infectious endocarditis per se is not an indication for anticoagulation or aspirin therapy (Table 1).1–3

TAKE-HOME POINTS

  • Starting antiplatelet and anticoagulation therapy for the sole purpose of stroke prevention is not recommended in patients with newly diagnosed infectious endocarditis.
  • In most cases, anticoagulation and antiplatelet therapy should be temporarily discontinued in patients with infectious endocarditis and stroke or suspected stroke.
  • Patients need careful assessment on a case-by-case basis, and the presence of risk factors predisposing patients to cerebrovascular complications (eg, large or very mobile vegetations, causative pathogens such as S aureus or Candida spp) may prompt temporary suspension of anticoagulation and antiplatelet therapy.
  • If there is a clear preexisting or coexisting indication for these agents and surgery is not anticipated, consider continuing antiplatelet and anticoagulant therapy in patients with infectious endocarditis, provided they lack the risk factors described above and stroke has been excluded.
  • If there is a clear preexisting or coexisting indication for these agents and surgery is being considered, consider using a short-acting anticoagulant such as intravenous or low-molecular weight heparin as a bridge to surgery.
References
  1. Baddour LM, Wilson WR, Bayer AS, et al. Infective endocarditis in adults: diagnosis, antimicrobial therapy, and management of complications: a scientific statement for healthcare professionals from the American Heart Association. Circulation 2015; 132:1435–1486.
  2. Habib G, Lancellotti P, Antunes MJ, et al. 2015 ESC guidelines for the management of infective endocarditis. Rev Esp Cardiol (Engl Ed) 2016; 69:69.
  3. Whitlock RP, Sun JC, Fremes SE, Rubens FD, Teoh KH. Antithrombotic and thrombolytic therapy for valvular disease: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest 2012; 141:e576S–e600S.
  4. Delahaye JP, Poncet P, Malquarti V, Beaune J, Garé JP, Mann JM. Cerebrovascular accidents in infective endocarditis: role of anticoagulation. Eur Heart J 1990; 11:1074–1078.
  5. Loewe L. The combined use of anti-infectives and anticoagulants in the treatment of subacute bacterial endocarditis. Bull N Y Acad Med 1945; 21:59–86.
  6. Priest WS, Smith JM, McGee GC. The effect of anticoagulants on the penicillin therapy and the pathologic lesions of subacute bacterial endocarditis. N Engl J Med 1946; 235:699–706.
  7. Pruitt AA, Rubin RH, Karchmer AW, Duncan GW. Neurologic complications of bacterial endocarditis. Medicine 1978; 57:329–343.
  8. Tornos P, Almirante B, Mirabet S, Permanyer G, Pahissa A, Soler-Soler J. Infective endocarditis due to Staphylococcus aureus: deleterious effect of anticoagulant therapy. Arch Intern Med 1999; 159:473–475.
  9. Wilson WR, Geraci JE, Danielson GK, et al. Anticoagulant therapy and central nervous system complications in patients with prosthetic valve endocarditis. Circulation 1978; 57:1004–1007.
  10. Schulz R, Werner GS, Fuchs JB, et al. Clinical outcome and echocardiographic findings of native and prosthetic valve endocarditis in the 1990’s. Eur Heart J 1996; 17:281–288.
  11. Snygg-Martin U, Rasmussen RV, Hassager C, Bruun NE, Andersson R, Olaison L. Warfarin therapy and incidence of cerebrovascular complications in left-sided native valve endocarditis. Eur J Clin Microbiol Infect Dis 2011; 30:151–157.
  12. Rasmussen RV, Snygg-Martin U, Olaison L, et al. Major cerebral events in Staphylococcus aureus infective endocarditis: is anticoagulant therapy safe? Cardiology 2009; 114:284–291.
  13. Yau JW, Lee P, Wilson A, Jenkins AJ. Prosthetic valve endocarditis: what is the evidence for anticoagulant therapy? Intern Med J 2011; 41:795–797.
  14. Anavekar NS, Tleyjeh IM, Mirzoyev Z, et al. Impact of prior antiplatelet therapy on risk of embolism in infective endocarditis. Clin Infect Dis 2007; 44:1180–1186.
  15. Chan KL, Dumesnil JG, Cujec B, et al. A randomized trial of aspirin on the risk of embolic events in patients with infective endocarditis. J Am Coll Cardiol 2003; 42:775–780.
  16. Garcia-Cabrera E, Fernández-Hidalgo N, Almirante B, et al. Neurological complications of infective endocarditis: risk factors, outcome, and impact of cardiac surgery: a multicenter observational study. Circulation 2013; 127:2272–2284.
  17. Thuny F, Di Salvo G, Belliard O, et al. Risk of embolism and death in infective endocarditis: prognostic value of echocardiography: a prospective multicenter study. Circulation 2005; 112:69–75.
References
  1. Baddour LM, Wilson WR, Bayer AS, et al. Infective endocarditis in adults: diagnosis, antimicrobial therapy, and management of complications: a scientific statement for healthcare professionals from the American Heart Association. Circulation 2015; 132:1435–1486.
  2. Habib G, Lancellotti P, Antunes MJ, et al. 2015 ESC guidelines for the management of infective endocarditis. Rev Esp Cardiol (Engl Ed) 2016; 69:69.
  3. Whitlock RP, Sun JC, Fremes SE, Rubens FD, Teoh KH. Antithrombotic and thrombolytic therapy for valvular disease: Antithrombotic Therapy and Prevention of Thrombosis, 9th ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest 2012; 141:e576S–e600S.
  4. Delahaye JP, Poncet P, Malquarti V, Beaune J, Garé JP, Mann JM. Cerebrovascular accidents in infective endocarditis: role of anticoagulation. Eur Heart J 1990; 11:1074–1078.
  5. Loewe L. The combined use of anti-infectives and anticoagulants in the treatment of subacute bacterial endocarditis. Bull N Y Acad Med 1945; 21:59–86.
  6. Priest WS, Smith JM, McGee GC. The effect of anticoagulants on the penicillin therapy and the pathologic lesions of subacute bacterial endocarditis. N Engl J Med 1946; 235:699–706.
  7. Pruitt AA, Rubin RH, Karchmer AW, Duncan GW. Neurologic complications of bacterial endocarditis. Medicine 1978; 57:329–343.
  8. Tornos P, Almirante B, Mirabet S, Permanyer G, Pahissa A, Soler-Soler J. Infective endocarditis due to Staphylococcus aureus: deleterious effect of anticoagulant therapy. Arch Intern Med 1999; 159:473–475.
  9. Wilson WR, Geraci JE, Danielson GK, et al. Anticoagulant therapy and central nervous system complications in patients with prosthetic valve endocarditis. Circulation 1978; 57:1004–1007.
  10. Schulz R, Werner GS, Fuchs JB, et al. Clinical outcome and echocardiographic findings of native and prosthetic valve endocarditis in the 1990’s. Eur Heart J 1996; 17:281–288.
  11. Snygg-Martin U, Rasmussen RV, Hassager C, Bruun NE, Andersson R, Olaison L. Warfarin therapy and incidence of cerebrovascular complications in left-sided native valve endocarditis. Eur J Clin Microbiol Infect Dis 2011; 30:151–157.
  12. Rasmussen RV, Snygg-Martin U, Olaison L, et al. Major cerebral events in Staphylococcus aureus infective endocarditis: is anticoagulant therapy safe? Cardiology 2009; 114:284–291.
  13. Yau JW, Lee P, Wilson A, Jenkins AJ. Prosthetic valve endocarditis: what is the evidence for anticoagulant therapy? Intern Med J 2011; 41:795–797.
  14. Anavekar NS, Tleyjeh IM, Mirzoyev Z, et al. Impact of prior antiplatelet therapy on risk of embolism in infective endocarditis. Clin Infect Dis 2007; 44:1180–1186.
  15. Chan KL, Dumesnil JG, Cujec B, et al. A randomized trial of aspirin on the risk of embolic events in patients with infective endocarditis. J Am Coll Cardiol 2003; 42:775–780.
  16. Garcia-Cabrera E, Fernández-Hidalgo N, Almirante B, et al. Neurological complications of infective endocarditis: risk factors, outcome, and impact of cardiac surgery: a multicenter observational study. Circulation 2013; 127:2272–2284.
  17. Thuny F, Di Salvo G, Belliard O, et al. Risk of embolism and death in infective endocarditis: prognostic value of echocardiography: a prospective multicenter study. Circulation 2005; 112:69–75.
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Cleveland Clinic Journal of Medicine - 83(3)
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Cleveland Clinic Journal of Medicine - 83(3)
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Can patients with infectious endocarditis be safely anticoagulated?
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