Infective Endocarditis

Question 1

Definition of Infective endocarditis?

Classified into four groups. What are they?

Answer 1

an infection of the heart’s endocardial surface

Classified into four groups:

1. Native Valve IE
2. Prosthetic Valve IE
3. Intravenous drug abuse (IVDA) IE
4. Nosocomial IE

Question 2

What part of the heart does endocarditis involve?

but may involve 3

Answer 2

Typically involves the valves
May involve all structures of the heart
1. Chordae tendinae
2. Sites of shunting
3. Mural lesions

Question 3

What bacteria cause endocarditis?

4

Answer 3

Majority of cases caused by

1. streptococcus*****
2. staphylococcus,
3. enterococcus, or
4. fastidious gram negative cocco-bacillary forms

Question 4

Why are Staph, Strep, Enterococcus such a problem?

3 reasons

Answer 4

1. They contain adhesins that attach to the fibrin platelet matrix of non-bacterial thrombotic endocarditis (NBTE)
2. Adhesins also attach to the matrix proteins that coat implanted medical devices
3. Bacterial extracellular structures form biofilm on surface of implanted devices

Question 5

What is the most common gram negative organism that causes endocarditis?

Leading cause of culture negative endocarditis? 5

Answer 5

Pseudomonas aeruginosa most common

Normal oral flora…leading cause of culture negative endocarditis

1. Haemophilus sp.
2. Actinobacillus
3. Cardiobacterium
4. Eikenella
5. Kingella

Question 6

Clinical presentation of endocarditis?

4

Answer 6

1. Febrile illness
2. Persistent bacteremia
3. A microbial infection of the endocardium
4. Characteristic lesion of microbial infection of the endothelial surface of the heart (THE VEGETATION)

Question 7

What is the vegetation made of?

Answer 7

Variable in size
Amorphous mass of fibrin & platelets
Abundant organisms
Few inflammatory cells

Question 8

Acute IE:

1. What does it affect?
2. Onset of destruction?
3. What kind of foci?
4. What bacteria?
5. Progressive of disease?

Answer 8

1. May affect normal heart valves
2. Rapidly destructive
3. Metastatic foci
4. Commonly Staph.
5. If not treated, usually fatal within 6 weeks

Question 9

Subacute IE:

1. Affects what kind of valves?
2. onset?
3. Progession of disease?

Answer 9

1. Usually affects damaged heart valves
2. Indolent nature
3. If not treated, usually fatal by one year

Question 10

Endocarditis Pathology

1. NVE infection is largely confined to ______?
2. PVE infection commonly extends beyond valve ring into ________________ tissue?
3. What will this cause? 4
4. Invasive infection more common in ______ position and if onset is early

Answer 10

1. leaflets
2. annulus/periannular
3. • Ring abscesses
   • Septal abscesses
   • Fistulae
   • Prosthetic dehiscence
4. aortic

Question 11

1. WHAT disrupts the endocardium making it “sticky”?
2. WHAT delivers the organisms to the endocardial surface?
3. WHAT of the organisms to the endocardial surface?
4. WHAT of the valvular leaflets?

Answer 11

1. Turbulent blood flow
2. Bacteremia
3. Adherence
4. Eventual invasion

Question 12

Describe the three steps in the pathogenesis of infective endocarditis.

Answer 12

Endotheilial damage
Platelet-fibrin thrombi
Microorganism adherence

Question 13

IE Pathogenesis

1. Turbulent blood flow (from congenital or acquired heart dz) leads to?
2. Platelets and fibrin deposit on damaged endothelium leads to?
3. Bacteremia leads to? Which leads to?

Answer 13

1. →Endothelial trauma
2. → Nonbacterial Thrombotic Endocarditis (NBTE)
3. → Colonization of NBTE → Bacterial Vegetation

Question 14

Describe how nonbacterial thrombotic endocarditis occurs?
(what two things result in the problem and what is that problem)

3

Answer 14

1. Endothelial injury
2. Hypercoagulable state

lead to

3. Platelet-fibrin thrombi

Question 15

In nonbacterial thrombotic endocarditis what are seen at coaptation points of valves?
and where specifically? 2

Answer 15

LESIONS

1. Atrial surface mitral/tricuspid
2. Ventricular surface aortic/pulmonic

Question 16

Modes of endothelial injury
in IE?
3

Answer 16

1. High velocity jet
2. Flow from high pressure to low pressure chamber
3. Flow across narrow orifice of high velocity

Question 17

Direct clinical manifestations of IE?

Answer 17

1. Constitutional symptoms of infection (cytokines)

Question 18

Indirect clinical manifestations of IE?

4

Answer 18

1. Local destructive effects of infection
2. Embolization – septic or bland
3. Hematogenous seeding of infection
4. Immune response

Question 19

Describe the Hematogenous seeding of infection?

3

Answer 19

may present as

1. local infection or
2. persistent fever,
3. metastatic abscesses may be small, miliary

Question 20

Local destructive effects
of IE?
7

Answer 20

1. Valvular distortion/destruction
2. Chordal rupture
3. Perforation/fistula formation
4. Paravalvular abscess
5. Conduction abnormalities
6. Purulent pericarditis
7. Functional valve obstruction

Question 21

High risk for embolization
in IE. How do they present?
4

Answer 21

1. Large > 10 mm vegetation
2. Hypermobile vegetation
3. Mitral vegetations (esp. anterior leaflet)
4. Pulmonary (septic) – 65 – 75% of i.v. drug abusers with tricuspid IE

Question 22

COnversion of NBTE to IE is determined by?

2

Answer 22

1. Frequency & magnitude of bacteremia

2. Resistance of organism to host defenses

Question 23

Frequency & magnitude of bacteremia is characterized by what?
3

Answer 23

1. Density of colonizing bacteria
   - -Oral > GU > GI
2. Disease state of surface
   - -Infected surface > colonized surface
3. Extent of trauma

Question 24

Resistance of organism to host defenses is characterized by what?

(Describe the bacteria 2 and name some types -2 kinds)
4

Answer 24

1. Most aerobic gram negatives susceptible to complement-mediated bactericidal effect of serum
2. Tendency to adhere to endothelium
3. Dextran producing strep
4. Fibronectin receptors on staph, enterococcus, strep, Candida

Question 25

55-75% of patients with native valve endocarditis (NVE) have underlying valve abnormalities
such as?
5

What is the most prominent predisposing factor?

Answer 25

1. MVP***
2. History of rheumatic fever
3. Congenital
4. Asymmetric atrial hypertrophy
5. i.v. drug abuse

Question 26

In IE caused by Rheumatic heart disease what is the most common site for men?
women?

What valves are often affected in congential heart disease? 3

Answer 26

Mitral site more common in women
Aortic site more common in men

1. PDA,
2. VSD,
3. bicuspid aortic valve

Question 27

The vast majority (75-90%) of cases after the neonatal period are associated with an underlying congenital abnormality
such as? 3

What are the most common bacterias?
Neonates? 3
Older children? 2

Answer 27

1. Aortic valve
2. VSD
3. Tetralogy of Fallot

Neonates:

1. S. aureus,
2. coagulase negative staph,
3. group B strep

Older children:

1. 40% strep &
2. S. aureus

Question 28

IE for drug users tends to affect which valves?

Predominant organism?

Answer 28

right sided

S. aureus

Question 29

Prosthetic Valve Endocarditis (PVE)
1. Early PVE – within 60 days. Which organism?
2. Late PVE – after 60 days
Which organism?

Answer 29

1. Nosocomial (S. epidermidis predominates)

2. Community (same organisms as NVE)

Question 30

Top three Risk Factors
for IE?
3

Answer 30

1. IVDA,
   2 prosthetic heart valves and pacemakers
2. structural heart disease.

Question 31

Symtpoms of acute IE?

6

Answer 31

1. High grade fever and chills
2. SOB
3. Arthralgias/ myalgias
4. Abdominal pain
5. Pleuritic chest pain
6. Back pain

Question 32

Symptoms of subacute IE?

7

The onset of symptoms is usually how long from infection?

Answer 32

1. Low grade fever
2. Anorexia
3. Weight loss
4. Fatigue
5. Arthralgias/ myalgias
6. Abdominal pain
7. N/V

~2 weeks or less
from the initiating bacteremia

Question 33

IE clinical presentation:

Acute

1. _____ presentation
2. What is developing in days to weeks? 2
3. Most commonly caused by _ ______?

Subacute

1. Mild _____?
2. Presentation over how long?
3. Rarely leads to _______ infection
4. Most commonly what two bacteria?

Answer 33

1. Toxic
2. Progressive valve destruction & metastatic infection
3. S. aureus
4. toxicity
5. weeks to months
6. metastatic
7. S. viridans or enterococcus

Question 34

1. What is the most common sign?
2. What is present in 80-85% of cases but often absent in tricuspid IE?
3. Nonspecific signs of IE? 5
4. More specific signs? 3

Answer 34

1. Fever
2. Heart Murmur
3. • petechiae**
   • subungal or “splinter” hemorrhages (on finger)
   • clubbing
   • splenomegaly
   • neurologic changes
4. • Osler’s Nodes,
   • Janeway lesions
   • Roth Spots

Question 35

Clinical Features
of IE?
4

Answer 35

1. Systemic emboli
2. Neurological sequelae (Mycotic aneurysm, Cerebritis)
3. CHF (high mortality)
4. Renal insufficiency (immune mediated)

Question 36

What are Janeway lesions?

3

Answer 36

1. Erythematous, blanching macules
2. Nonpainful
3. Located on palms and soles

Question 37

What are Roth spots?

Answer 37

Pale retinal lesions surrounded by hemorrhage, usually near optic disk

Question 38

The workup for IE?

2

Answer 38

1. Blood cultures
2. Echocardiography
   TTE – 60% sensitivity
   TEE – 80 – 95% sensitive

Question 39

Whats the minimum number of cultures?

What is considered a positive result? 2

Answer 39

Minimum of three blood cultures
Three separate venipuncture sites
Obtain 10-20mL in adults and 0.5-5mL in children2

1. Typical organisms present in at least 2 separate samples
2. Persistently positive blood culture (atypical organisms)

Question 40

Additional Labs
for IE?
6

Answer 40

1. CBC
2. ESR and CRP
3. Complement levels (C3, C4, CH50)
4. RF
5. Urinalysis
6. Baseline chemistries and coags

Question 41

What are we looking for with the following in IE:

1. CBC 2
2. ESR and CRP
3. RF
4. Urinalysis

Answer 41

1. normochromic normocytic anemia and/or a leukocytosis.
2. Look for an elevated erythrocyte sedimentation rate and/or an elevated C-reactive protein which are present 90-100% of the time.
3. elevated particularly in patients who have been infected for six weeks or more
4. microscopic or gross hematuria, proteinuria, and pyuria. These findings along with a low serum complement level indicate a glomerulonephritis or “immunologic phenomena”. (Minor Duke’s Criteria)

Question 42

Imaging for IE:

CXR?
EKG?
ECHO

Answer 42

1. Chest x-ray
   Look for multiple focal infiltrates

2. EKG
Rarely diagnostic
Look for evidence of 
-ischemia, 
-conduction delay, and 
-arrhythmias

Question 43

Indications for Echocardiography
TTE? 2
TEE? 4

Answer 43

TTE

1. First line if suspected IE
2. Native valves

TEE

• Prosthetic valves
• Intracardiac complications
• Inadequate TTE
• Fungal or S. aureus or bacteremia

Question 44

Major Duke’s Criteria for IE

3

Answer 44

1. (+) blood cultures with appropriate organism
2. Echo findings
3. (New valvular regurgitation)

Question 45

DUKE’s CRITERIA:
1. Definite IE

2. Possible IE
3. Rejected IE

Answer 45

1. Microorganism (via culture or histology) in a valvular vegetation, embolized vegetation, or intracardiac abscess
   Histologic evidence of vegetation or intracardiac abscess
2. 2 major
   1 major and 3 minor
   5 minor
3. Resolution of illness with four days or less of antibiotics

Question 46

Four major complications
for IE?
4

Answer 46

1. Embolic
2. Local spread of infection
3. Metastatic spread of infection
4. Formation of immune complexes – glomerulonephritis and arthritis

Question 47

1. Embolic complications occur in what % of pts?
2. Predictors of embolization? 3
3. Incidence decreases significantly after initiation of?

Answer 47

1. Occur in up to 40% of patients with IE
2. Predictors of embolization
   - Size of vegetation
   - Left-sided vegetations
   - Fungal pathogens, S. aureus, and Strep. bovis
3. effective antibiotics

Question 48

What kind of embolic complications are we taking about?

5

Answer 48

1. Stroke
2. Myocardial Infarction
   - -Fragments of valvular vegetation or vegetation-induced stenosis of coronary ostia
3. Ischemic limbs
4. Hypoxia from pulmonary emboli
5. Abdominal pain (splenic or renal infarction)

Question 49

Additional Metastatic Spread of Infection

5

Answer 49

1. Metastatic abscess
   - -Kidneys, spleen, brain, soft tissues
2. Meningitis and/or encephalitis
3. Vertebral osteomyelitis
4. Septic arthritis
5. Pulmonary abscess (R. sided endocarditis)

Question 50

Local Spread of Infection

4

Answer 50

1. Heart failure
   - -from extensive valvular damage
2. Paravalvular abscess (30-40%)
3. Pericarditis
4. Fistulous intracardiac connections

Question 51

1. Paravalvular abscess (30-40%)
   is most common in? 3
2. May extend to where?
3. Higher rates of what?

Answer 51

1. Most common in
   - aortic valve,
   - IVDA, and
   - S. aureus
2. May extend into adjacent conduction tissue causing arrythmias
3. Higher rates of embolization and mortality

Question 52

Poor Prognostic Factors

12

Answer 52

1. Female
2. S. aureus
3. Vegetation size
4. Aortic valve
5. Prosthetic valve
6. Older age
7. Diabetes mellitus
8. Low serum albumin
9. Apache II (Acute Physiology and Chronic Health Evaluation) score
10. Heart failure
11. Paravalvular abscess
12. Embolic events

Question 53

Treatment

3

Answer 53

1. Parenteral antibiotics
2. Surgery
3. Surveillance

Question 54

What kind of parenteral antibiotics?

2

Answer 54

1. High serum concentrations to penetrate vegetations

2. Prolonged treatment to kill dormant bacteria clustered in vegetations

Question 55

Goals of Therapy

2

Answer 55

1. Eradicate infection

2. Definitively treat sequelae of destructive intra-cardiac and extra-cardiac lesions

Question 56

Treatment tailored to etiologic agent (how is it tailored)?

2

Answer 56

• Important to note MIC/MBC relationship for each causative organism and the antibiotic used
• High serum concentration necessary to penetrate avascular vegetation

Question 57

Antibiotic Therapy
needs to be when?
2

Answer 57

Treatment before blood cultures turn positive

1. Suspected Acute Bacterial Endocarditis
2. Hemodynamic instability

Question 58

Antibiotic Therapy
Effective antimicrobial treatment should lead to defervescence within what time period?

Persistent fever? Then its due to what? 4

Answer 58

7 – 10 days

1. IE due to staph, pseudomonas, culture negative
2. IE with microvascular complications/major emboli
3. Intracardiac/extracardiac septic complications
4. Drug reaction

Question 59

1. How long will antobiotics be administered for?

2. Drug of choice?

Answer 59

1. Antibiotics are usually administered intravenously for 4-6 weeks. Duration depends on the virulence of the pathogen.
2. The drug of choice for most cases of viridians streptococcal endocarditis is penicillin.

Question 60

Antifungals alone are not enough to cure fungal IE, although ___________ ___ is often administered in conjunction with surgery.

Answer 60

Amphotericin B

Question 61

What about resistant Strep Viridans?

3

Answer 61

PCN-Resistance: 13%
Macrolide-Resistance: 26%
Clindamycin-Resistance: 4%

Question 62

Surgical Treatment of Intra-Cardiac Complications:
Relative Indications?
7

Answer 62

1. Perivalvular extension of infection
2. Poorly responsive S. aureus
   3 NVE
3. Relapse of NVE
4. Culture negative NVE/PVE with persistent fever (> 10 days)
5. Large (> 10mm) or hypermobile vegetation
6. Endocarditis due to highly resistant enterococcus

Question 63

IE: Indications for surgery?

7

Answer 63

1. Refractory CHF, Severe valvular dysfunction
2. Uncontrolled infection
3. Valve perforation, dehiscence, fistula, abscess
4. 1 embolic event with persistent large vegetation, or >1 episode of embolization
5. Prosthetic valve infection
6. Fungal IE
7. New heart block…

Question 64

Prevention – the procedure
When should we give prophylactic antibiotics?
10

Answer 64

1. Dental procedures known to produce bleeding
2. Tonsillectomy
3. Surgery involving GI, respiratory mucosa
4. Esophageal dilation
5. ERCP for obstruction
6. Gallbladder surgery
7. Cystoscopy, urethral dilation
8. Urethral catheter if infection present
9. Urinary tract surgery, including prostate
10. I&D of infected tissue

Question 65

Prevention – the underlying lesion
HIGH RISK LESIONS? (what are the 4 highest)

Intermediate risk lesions? 6

Answer 65

1. Prosthetic valves
2. Prior IE
3. Cyanotic congenital heart disease
4. Surgical systemic-pulmonary shunts
5. PDA
6. AR, AS, MR,MS with MR
7. VSD
8. Coarctation
9. MVP with murmur
10. Pure MS
11. Tricuspid disease
12. Pulmonary stenosis
13. ASH
14. Bicuspid aortic valve with no hemodynamic significance

Question 66

Prophylactic regimen targeted against likely organism
What organism is likely in the following areas:
1. Oral, respiratory, eosphogeal?
2. Genitourinary, gastrointestinal?
3. Infected skin, mucosal surfaces?

Answer 66

1. Strep. viridans
2. Strep. viridans
3. Strep. viridans

Question 67

Antimicrobial Prophylaxis
Recommended in patients considered high-risk such as?
5

Answer 67

1. prosthetic valves
2. previous bacterial endocarditis
3. RHD and other acquired valve dysfunction
4. hypertrophic cardiomyopathy
5. MVP

Question 68

Endocarditis Prophylaxis (no need to memorize….NOW)
For Dental, Oral, Respiratory and Esophageal Procedures:
1. Standard Regimen? 1
2. Unable to take oral meds? 1

3. Allergic to Penicillin? 3
4. Allergic to penicillin and unable to take oral medications? 2

Answer 68

1. Amoxicillin; Adult 2.0 g: Child 50 mg/kg orally1 hr before procedure
2. Ampicillin; Adult 2.0 g; child 50 mg/kg IM or IV 30 min before procedure
3. • Clindamycin; Adult 600 mg; child 20 mg/kg orally 1 hour before procedure
   • Cefalexin; Adult 2.0 g; child 50mg/kg orally 1 hour before procedure
   • Azithromycin or Clarithromycin; Adult 500 mg; child 15 mg/kg orally 1 hour before procedure
4. • Clindamycin; Adult 600 mg; child 20 mg/kg IV within 30 min before procedure
   • Cefazolin; Adult 1.0 g; child 25 mg/kg IM or IV within 30 min before procedure

Question 69

For GI/GU (excluding esophageal) Procedures:
Dont memorize!
4

Answer 69

High Risk Patient:

HIgh risk pts:
-Amp & Gent; Adult 2 g IM/IV plus gent 1.5 mg/kg (not to exceed 120 mg) within 30 min of starting procedure; 6 hr later amp 1 g IM/IV or amox 1 g orally.

High Risk pt allergic to PCN
-Vanc plus Gent; Adult 1 g vanc IV over 1-2 hrs plus gent (IM/IV)1.5 mg/kg (not to exceed 120 mg)) complete injection/infusion within 30 min of starting the procedure

Moderate Risk Patient:
-Amox or amp; Adult amox 2.0 g orally 1 hr before procedure or amp 2.0 gm IM/IV within 30 of starting the procedure

Moderate Risk Patient allergic to PCN
-Vancomycin; Adult 1.0 g IV over 1 to 2 hrs; complete infusion within 30 min of starting procedure.

Question 70

1. Who are at greatest risk for developing IE?

Answer 70

1. IVDA and the elderly