Pericarditis, Endocarditis, Myocarditis
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Transcript Pericarditis, Endocarditis, Myocarditis
Pericarditis, Endocarditis,
Myocarditis
Victor Politi, M.D., FACP
Medical Director, SVCMC, School
of Allied Health Professions,
Physician Assistant Program
The Pericardium
• Two layers - composed of fibrous tissue
– inner visceral layer, attached to epicardium
– outer parietal layer
• stabilizes heart in anatomic position
• protects heart - (contact with
surrounding structures)
The Pericardium
• Can be
– a primary site of disease
– involved in other disease processes that
affect the heart
– affected by other diseases of adjacent
tissue
The pericardium can permit moderate
changes in cardiac size, however, it cannot
stretch rapidly enough to accommodate
rapid dilation of the heart or accumulation
of fluid w/o increasing
intrapericardial/intracardiac pressure
Acute Pericarditis
• Acute inflammation of the pericardium
• Origin
– infectious,systemic diseases,malignancy,
radiation,drug toxicity,hemopericardium,other
inflammatory processes in the myocardium or lung
• Pathologic process often involves both the
pericardium and the myocardium
Acute Pericarditis
• Presentation & course may vary
depending on the cause
• syndromes often associated with
– chest pain (pleuritic/postural)
– dyspnea
– pericardial friction rub (with or w/o
evidence of fluid accumulation or
constriction)
– Fever & leukocytosis
Acute Pericarditis
• Chest x-ray
– may show cardiac enlargement or pleural dx
• ECG
– generalized ST and T wave changes
– characteristic progression (ST elevation, return to
baseline, T wave inversion)
• Echocardiogram
– often normal in inflammatory pericarditis
– may show pericardial effusions
Acute Pericarditis- Causes
• viral infection
– most common coxsackievirus, & echovirus
• also- HIV,influenza,Epstein-Bar, varicella,
hepatitis, mumps
• bacterial infection
– staphylococcus, Strep pneumoniae, Bhemolytic streptococci, Mycobacterium
tuberculosis, lyme dz
• Fungal infection
• Malignancy
Acute Pericarditis - Causes
• Drugs
– procainamide,hydralazine,minoxidil
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radiation
connective tissue disease(lupus,rheum)
uremia
myxedema
post-MI (Dressler’s syndrome)
Idiopathic
Acute Pericarditis Clinical Features
• Sudden or gradual onset of sharp or
stabbing chest pain that radiates to the
back, neck, left shoulder, arm, or
trapezial ridge
• Pain aggravated by movement or
inspiration and by lying supine
• sitting up and leaning forward reduces
the pain
Acute Pericarditis Clinical Features
• Associated symptoms include;
– low grade intermittent fever, dyspnea,
dysphagia
• transient, intermittent friction rub heard
best at the lower left sternal border or
apex is the most common physical
finding
Acute Pericarditis Clinical Features
• Pericardial effusion
– As the pericardium stretches,
• effusions that develop slowly, even large ones,
may not produce hemodynamic changes
• However ….
• those that appear rapidly (even small effusions)
can cause tamponade
Acute Pericarditis Clinical Features
• Tamponade
– elevated intrapericardial pressure (>15 mm
Hg), that restricts venous return and
ventricular filling - resulting in decreased
stroke volume /pulse pressure and
increased heart rate/venous pressure
– most common complaints;dyspnea and
decreased exercise tolerance
– common symptoms; weight loss, pedal
edema, ascites
Acute Pericarditis Clinical Features
• Tamponade
– Physical Findings; tachycardia, low systolic
BP, narrow pulse pressure, pulsus
paradoxus, neck vein distention, distant
heart sounds, RUQ pain
Acute Pericarditis - Diagnosis
• ST-segment elevation
• Pericarditis w/o other underlying cardiac
disease does not typically produce
dysrhythmias
• Chest x-ray usually normal - but should
be done to rule out other disease
• Echocardiography
Acute Pericarditis - Diagnosis
• Other Tests
– CBC w/diff
– BUN
– Creatinine
– streptococcal serology
– appropriate vial serology
– other serology (antinuclear and anti-DNA
antibodies)
– thyroid function studies
– Sed rate, creatinine kinase levels
w/isoenzymes
Viral Pericarditis
– Most commonly caused by coxsackievirus,
& echovirus
– Can also be caused by HIV, influenza,
Epstein-Bar, varicella, hepatitis, mumps
– Most commonly affects males < age 50
– Diagnosis usually clinical
– rising viral titers in paired sera may be
obtained for confirmation of diagnosis
– cardiac enzymes may be slightly elevated indicating myocarditic component
Viral Pericarditis- Treatment
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Generally symptomatic Tx
aspirin or NSAIDs
Corticosteroids -(unresponsive cases)
Symptoms generally subside over several days to
weeks
• May be recurrences - during first few weeks - months
• Rarely, patients suffer from chronic recurrences
resulting in constrictive pericarditis
• Major early complication - tamponade (< 5% of
cases)
Bacterial Pericarditis
– staphylococcus, Strep, pneumoniae, Bhemolytic streptococci, Mycobacterium
tuberculosis
– Usually direct result from pulmonary
infection
– patients often present in a critically ill state
– Borrelia burgdorferi (Lyme Disease
organism) can also cause myopericarditis
Tuberculous Pericarditis
• Rare in developed countries - common elsewhere
• Results from direct lymphatic or hematogenous
spread
• commonly have associated pleural effusions & small
to moderate pericardial effusions
• subacute presentation/non-specific symptoms (fever,
night sweats, fatigue)
• Diagnosis inferred if acid-fast bacilli found elsewhere
• Usual therapy - standard antituberculous drug
• Complication- if therapy unsuccessful- constrictive
pericarditis
Uremic Pericarditis
• Complication of renal failure
• Occurs in untreated uremia and in stable dialysis
patients
• Presents with or w/o symptoms, typically afebrile
• tamponade is common
• usually resolves with institution or more aggressive
dialysis
• pericardiectomy may become necessary
• indomethacin & systemic glucocorticoids ineffective
for uremic pericarditis
Neoplastic pericarditis
• Commonly caused by
– breast and renal cell carcinoma, Hodgkin's Disease
and lymphomas
• neoplastic processes involving the pericardium
are the most common cause of pericardial
tamponade in many countries
• presenting symptoms relate to the
hemodynamic compromise of the primary
disease process
• MRI/CT
Neoplastic pericarditis
• Prognosis poor - only small minority
survive >year
• Effusion can be drained,
chemotherapeutic agents or tetracycline
may prevent recurrence
• pericardial windows rarely effective,
partial pericardiectomy from a
subxiphoid incision may be successful
Radiation Pericarditis
• Usually occurs within the first year after
exposure but can be delayed for many
years
• Symptomatic therapy - initial approach
but recurrent effusions and constriction
require surgery
Post MI or Postcardiotomy
Pericarditis
• An inflammatory reaction to transmural
myocardial necrosis that usually occurs
2-5 days after infarction
• typically presents as pain recurrence
• audible rub, repolarization changes
• spontaneous resolution usually occurs
after a few days
• Aspirin, NSAID’s -symptomatic relief
Dressler’s Syndrome
• Occurs weeks to several months after
MI or open heart surgery
• Presentation
– typical pain, fever, malaise, leukocytosis,
elevated sed rate
– large pericardial/pleural effusions common
– Tamponade is rare if Dressler’s after MI,
but more commonly seen in Dressler’s
post-operatively
Dressler’s Syndrome
• NSAID’s
• Corticosteroids
• Recurrences common
Constrictive Pericarditis
Constriction occurs when fibrous
thickening and loss of elasticity of
the pericardium results in
interference of diastolic filling
usually following inflammation
Cardiac trauma, open heart surgery,
intrapericardial hemorrhage, fungal
or bacterial pericarditis, and uremic
pericarditis are the most common
causes of constrictive pericarditis (in
the past, tuberculosis was also
included)
Constrictive Pericarditis - symptoms
• Symptoms develop gradually and mimic
those of restrictive cardiomyopathy
(CHF, exercise dyspnea, decreased
exercise tolerance)
• chest pain, orthopnea, and paroxysmal
nocturnal dyspnea are uncommon
Physical Exam
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Pedal edema
hepatomegaly
ascites
JVD
Kussmaul’s sign(^jvp w/insp)
pericardial knock (early diastolic sound)
heard at the apex
• usually - no friction rub
Diagnosis
• ECG - may show low voltage QRS complexes
and inverted T waves
• Chest x-ray - 50% of cases show pericardial
calcification
• Doppler echocardiography
• Cardiac CT, MRI
• Consider other diseases - acute pericarditis,
myocarditis, exacerbation of chronic ventricular
dysfunction, or systemic process (eg sepsis)
Treatment
• General supportive care - initial
treatment
• Symptomatic patients - pericardiectomy
• Gentle diuresis
• Treatment with appropriate antibiotics if
agent is Id’d
Endocarditis
• Infective endocarditis is defined as an
infection of the endocardial surface of
the heart, which may include one or
more heart valves, the mural
endocardium, or a septal defect
• Endocarditis can be broken down into
the following categories:
Native valve (acute and subacute) endocarditis
Prosthetic valve (early and late) endocarditis
Endocarditis related to intravenous drug use
Native valve endocarditis (acute
and subacute)
• Native valve acute endocarditis usually
has an aggressive course. Virulent
organisms, such as Staphylococcus
aureus and group B streptococci, are
typically the causative agents of this
type of endocarditis.
• Subacute endocarditis usually has a
more indolent course than the acute
form. Alpha-hemolytic streptococci or
enterococci, usually in the setting of
underlying structural valve disease,
typically are the causative agents of this
type of endocarditis.
Prosthetic valve endocarditis
(early and late)
• Early prosthetic valve endocarditis
occurs within 60 days of valve
implantation. Staphylococci, gramnegative bacilli, and Candida species
are the common infecting organisms.
Prosthetic valve endocarditis
(early and late)
• Late prosthetic valve endocarditis
occurs 60 days or more after valve
implantation. Staphylococcus
epidermidis, alpha-hemolytic
streptococci, and enterococci are the
common causative organisms.
Endocarditis related to
intravenous drug use
• Endocarditis in intravenous drug abusers
commonly involves the tricuspid valve. S
aureus is the most common causative
organism
• Infective endocarditis generally occurs as a
consequence of nonbacterial thrombotic
endocarditis, which results from turbulence or
trauma to the endothelial surface of the
heart.
Endocarditis
• Increased mortality rates are associated with
increased age, infection involving the aortic
valve, development of congestive heart
failure, central nervous system (CNS)
complications, and underlying disease
• Affects men more than women (2:1 ratio)
• Affects all age groups - however, 50% of
cases in adults over age 50
Endocarditis
• Most common symptoms - fever (90% of
cases) and chills
• Anorexia, weight loss, malaise, headache,
myalgias, night sweats, shortness of breath,
cough, or joint pains are common complaints
• Dyspnea, cough, and chest pain are common
complaints of intravenous drug users who
have infective endocarditis
Endocarditis
• Primary cardiac disease may present
with signs of congestive heart failure
due to valvular insufficiency
• Heart murmurs are heard in
approximately 85% of patients
Endocarditis
One or more classic signs of infective endocarditis are found
in as many as 50% of patients. They include the following:
Petechiae - Common but nonspecific finding
Splinter hemorrhages - Dark red linear lesions in the
nailbeds
Osler nodes - Tender subcutaneous nodules usually found
on the distal pads of the digits
Janeway lesions - Nontender maculae on the palms and
soles
Roth spots - Retinal hemorrhages with small, clear
centers; rare and observed in only 5% of patients.
splinter hemorrhages and purpuric
papules on the foot of a 10 year old
boy with acute bacterial endocarditis
Splinter hemorrhages(Panel A) are normally seen under the fingernails.
They are usually linear and red for the first two to three days and brownish
thereafter.
Panel B shows conjunctival petechiae.
Osler's nodes (Panel C)are tender, subcutaneous nodules, often in the pulp
of the digits or the thenar eminence.
Janeway's lesions (Panel D) are nontender, erythematous, hemorrhagic, or
pustular lesions, often on the palms or soles
Endocarditis
• baseline studies, such as a complete blood count
(CBC), electrolytes, creatinine, BUN, glucose, and
coagulation panel
• Blood cultures: Two sets of cultures have >90%
sensitivity when bacteremia is present. Three sets
of cultures improve sensitivity and may be useful
when antibiotics have been administered previously
Endocarditis
Echocardiogram
Transthoracic echocardiography has a sensitivity
of approximately 60%. Transesophageal
echocardiography has a sensitivity of more than
90% for valvular lesions
Endocarditis
• Empiric antibiotic therapy is chosen
based on the most likely infecting
organisms. Native valve disease usually
is treated with penicillin G and
gentamicin for synergistic treatment of
streptococci
Endocarditis
• Patients with a history of IV drug use
may be treated with nafcillin and
gentamicin to cover for methicillinsensitive staphylococci.
Endocarditis
• Infection of a prosthetic valve may
include methicillin-resistant
Staphylococcus aureus; thus,
vancomycin and gentamicin may be
used, despite the risk of renal
insufficiency
Endocarditis
• Rifampin also may be helpful in patients
with prosthetic valves or other foreign
bodies; however, it should be used in
addition to vancomycin or gentamicin.
Endocarditis
prophylaxis against infective endocarditis in patients
at higher risk. Patients at higher risk include those
with the following conditions:
Presence of prosthetic heart valve
History of endocarditis
History of rheumatic heart disease
Congenital heart disease with a high-pressure
gradient lesion
Mitral valve prolapse with a heart murmur
Endocarditis
prophylaxis in patients before they undergo
procedures that may cause transient bacteremia,
such as the following:
Ear, nose, and throat (ENT) procedures
associated with bleeding, including dental
manipulations and nasal packing
Incision and drainage of an abscess
Anoscopy and Foley catheter placement when a
urinary tract infection is present or suspected
Myocarditis
Myocarditis
• Inflammation of the myocardium
• May be the result of systemic disorder
or infectious agent ...usually follows an
upper resp infection
• Pericarditis frequently accompanies
myocarditis
• Drug induced, cytotoxic agents,also,
cocaine
Myocarditis
• Bacterial cases include;
– Corynebacterium diphtheriae, Neisseria
meningitides, Mycoplasma pneumoniae,
and B-hemolytic streptococci
• Viral etiologies include;
– coxsackie B, echovirus, influenza,
parainfluenza, Epstein-Barr, and HIV
Myocarditis -clinical features
• Systemic signs/symptoms (fever,
tachycardia, myalgias, headache, and
rigors)
• chest pain due to coexisting pericarditis
• pericardial friction rub in cases of
concomitant pericarditis
• In severe cases - symptoms of
progressive heart failure (CHF,
pulmonary rales, pedal edema, etc.)
Diagnosis
• Nonspecific ECG changes,
atrioventricular block, prolonged QRS
duration, or ST segment elevation (in
cases of accompanying pericarditis)
• normal chest x-ray
• cardiac enzymes may be elevated
• Differential diagnosis includes cardiac
ischemia or infarction, valvular disease
and sepsis
Treatment
• Supportive care
• If bacterial cause suspected, antibiotics
are appropriate
• Myocardial biopsy may reveal
inflammatory pattern
• Many cases spontaneously resolve
others progress to dilated
cardiomyopathy
Questions ?