Sarcoidosis is a multisystem inflammatory disease characterized by noncaseating granulomas in affected tissues. It most commonly affects the lungs and lymph nodes. While the cause is unknown, genetic and environmental factors are thought to play a role. Diagnosis requires clinical signs, radiologic findings, and histologic evidence of granulomas. Treatment involves corticosteroids, with methotrexate and hydroxychloroquine as alternatives for refractory or extrapulmonary disease. Prognosis depends on organ involvement, with cardiac and neurological disease carrying the worst outcomes.
2. Sarcoidosis is a multisystem
inflammatory disease of unknown
etiology that predominantly affects
the lungs and intrathoracic lymph
nodes.
3. Sarcoidosis is manifested by
the presence of noncaseating
granulomas (NCGs) in
affected organ tissues.
4. The modern history of
sarcoidosis
In 1899, the pioneering Norwegian
dermatologist Caesar Boeck describe skin
nodules characterized by compact, sharply
defined foci of "epithelioid cells with large pale
nuclei and also a few giant cells .
Thinking this resembled sarcoma, he called the
condition "multiple benign sarcoid of the skin.
5. Epidemiology
All racial .
All ethnic groups.
All ages (with the incidence peaking at 20 to 39 years).
M-F ratio 2:1.
6. The incidence
The highest annual incidence in northern
European countries 5 - 40 / 100,000.
In Japan, the annual incidence 1 - 2 / 100,000.
Among black Americans is roughly 3 times
that among white Americans (35.5 / 100,000,
as compared with 10.9 / 100,000.
7. Pathophysiology
T cells play a central role in the
development of sarcoidosis, as
they likely propagate an excessive
cellular immune reaction.
8. The cause of sarcoidosis is
unknown.
Efforts to identify a possible
infectious etiology have
been unsuccessful.
9. Genetic and environmental factors seem to play
a role.
As yet, no bacterial, fungal, or viral antigen has
been consistently isolated from the sarcoidosis
lesions.
Sarcoidosis is neither a malignant nor an
autoimmune disease.
10. The following have been suggested as possible
candidates that might play a role in causing
sarcoidosis:
Mycobacteria, such as Mycobacterium tuberculosis, and
atypical pathogens have been suggested.
Fungi and viruses, particularly Mycoplasma, Chlamydia, and
Epstein-Barr virus, have been unconvincingly implicated.
11. Environmental Causes
Some of the earliest studies of sarcoidosis reported
associations with exposures to irritants found in rural settings,
such as emissions from wood-burning stoves and tree pollen.
More recently, associations with sarcoidosis and exposure to
inorganic particles ,insecticides ,and moldy environments
have been reported.
Occupational studies have shown positive associations with
service in the U.S. Navy ,metalworking ,firefighting ,and the
handling of building supplies.
12. Genetic Features
Familial sarcoidosis was first reported in 1923 in two
affected sisters .
No formal twin study has been reported, but the
concordance appears to be higher in monozygotic
twins than in dizygotic twins .
In A Case-Control Study, patients with sarcoidosis
stated 5 times as often as control subjects that they
had siblings or parents with sarcoidosis.
14. Presentation depends on the extent and severity of
the organ involved.
Approximately 5% of cases are asymptomatic and
incidentally detected by CXR.
Systemic symptoms occur in 45% of cases such as
:
Fever.
anorexia
Fatigue.
Night sweats .
Weight loss .
Pulmonary, dyspnea on exertion, cough, chest
pain, and hemoptysis (rare) occur in 50% of cases.
18. Sarcoidal granulomas can involve any organ, but
in more than 90% of patients, clinical
sarcoidosis is manifested as intrathoracic LN
enlargement, pulmonary involvement, skin or
ocular signs and symptoms, or some
combination of these findings.
Organ Involvement
19. Pulmonary Involvement
dyspnea, cough, vague chest discomfort, and wheezing.
Chest radiographs in patients with sarcoidosis have been
classified into four stages:
– stage 1, bilateral hilar lymphadenopathy without infiltration.
– stage 2, bilateral hilar lymphadenopathy with infiltration.
– stage 3, infiltration alone.
– stage 4, fibrotic bands, bullae, hilar retraction, bronchiectasis,
and diaphragmatic tenting.
These so-called stages represent radiographic patterns and do
not indicate disease chronicity or correlate with changes in
pulmonary function.
23. Cutaneous Involvement
Although not life-threatening, but can be
emotionally devastating.
Erythema nodosum may occur.
Lupus pernio is the most specific associated cutaneous lesion.
Violaceous rash is often seen on the cheeks or nose.
Osseous involvement may be present.
Maculopapular plaques are possible.
Lupus pernio is more common in women than in men and is associated
with chronic disease and extrapulmonary involvement.
Erythema nodosum occurs in about 10% of patients with sarcoidosis and
usually lasts for about 3 weeks.
Biopsy specimens of erythema nodosum lesions show nonspecific septal
panniculitis, which neither confirms nor negates the diagnosis of
sarcoidosis.
24.
25.
26. Liver and Spleen Involvement
10% of all patients with sarcoidosis have elevated serum
aminotransferase and alkaline phosphatase levels.
A cholestatic syndrome characterized by pruritus and jaundice,
hepatic failure, or portal hypertension can develop (liver
involvement is usually clinically silent).
Detection of hepatic and splenic lesions on CT is described in
5% and 15% of patients.
60% of patients with hepatic manifestations of sarcoidosis
have constitutional symptoms such as fever, night sweats,
anorexia, and weight loss.
Portal hypertension with variceal bleeding, a hepatopulmonary
syndrome with refractory hypoxemia, and cirrhosis leading to
liver failure occur in only 1% of patients with sarcoidosis.
27. Neurologic Involvement
CNS is involved in up to 25% of patients with sarcoidosis who undergo
autopsy, but only 10% of all patients with sarcoidosis present with
neurologic symptoms.
The most common problems:
– cranial-nerve palsies.
– Headache.
– Ataxia.
– cognitive dysfunction.
– Weakness.
– seizures.
CSF Analysis :
– nonspecific lymphocytic inflammation.
– measuring ACE levels .
– oligoclonal immunoglobulin bands in the CSF are elevated, making it difficult
to differentiate sarcoidosis from multiple sclerosis.
Magnetic resonance imaging (MRI)
28. Ophthalmologic Complications
The eye and adnexa are involved in 25 -80% of
patients with sarcoidosis,this necessitating routine
slit-lamp and funduscopic examination.
Anterior or posterior granulomatous uveitis .
Conjunctival lesions and scleral plaques may also be
noted.
Ocular involvement may lead to blindness if
untreated.
Anterior uveitis
(is the most common manifestation)
chronic anterior uveitis, with insidious symptoms
leading to glaucoma and vision loss, is more
common than acute anterior uveitis.
29. Cardiac manifestations
Heart failure from cardiomyopathy rarely
occurs.
Heart block and sudden death may occur.
Approximately 25% of patients may have
NCGs at autopsy, but fewer than 5% have
clinical cardiac disease.
Okada et al reported on cardiac infiltration
associated with a novel heterogenous mutation
(G481D in CARD15) in early-onset
sarcoidosis.
33. Diagnosis
The diagnosis is established on the basis
of :
Clinical finding.
Radiologic findings.
Supported by histologic evidence in one or
more organs of noncaseating epithelioid-cell
granulomas in the absence of organisms or
particles.
34. A diagnosis of sarcoidosis is reasonably certain
without biopsy in patients who present with
Löfgren's syndrome.
35. Laboratory Studies
Routine lab evaluation often is unrevealing.
Hypercalcemia or hypercalciuria may occur (NCGs
secrete 1,25 vitamin D).
Hypercalcemia is seen in about 10-13% of patients,
whereas hypercalciuria is 3 times more common.
An elevated alkaline phosphatase level suggests hepatic
involvement.
Angiotensin converting enzyme (ACE) levels may be
elevated.
36. NCGs secrete ACE, which may function as a cytokine.
Serum ACE levels are elevated in 60% of patients at the
time of diagnosis.
Levels may be increased in fluid from bronchoalveolar
lavage or in CSF.
Sensitivity and specificity as a diagnostic test is limited (60
and 70%, respectively).
There is no clear prognostic value.
Serum ACE levels may decline in response to therapy.
Decisions on treatment should not be based on the ACE
level alone.
37. Imaging Studies
A chest radiograph is central to evaluation.
Routine chest CT scan adds little.
HRCT of the chest may be helpful.
38. Biopsy specimen
A biopsy specimen should be obtained from
the involved organ that is most easily
accessed, such as the skin, peripheral LN,
lacrimal glands, or conjunctiva.
If diagnosis requires pulmonary tissue,
transbronchial biopsy by means of
bronchoscopy has a diagnostic yield of at
least 85% when multiple lung segments are
sampled .
39. The central histologic finding is the presence of
NCGs with special stains negative for fungus and
mycobacteria.
40. Sarcoidal granulomas have no unique histologic
features to differentiate them from other
granulomas.
Special stains for acid-fast bacilli and fungi, as
well as cultures of such organisms, are essential.
If the results of lung biopsy with bronchoscopy are
negative and other organs are not obviously
involved, biopsy of intrathoracic lymph nodes,
which are often enlarged in patients with
43. Most patients (>75%) require only
symptomatic therapy NSAID.
Approximately 10% of patients need
treatment for extrapulmonary disease.
15% of patients require treatment for
persistent pulmonary disease.
44. Corticosteroids are the mainstay
of therapy
prednisone given daily and then tapered over a 6-month
course is adequate for pulmonary disease.
Earlier recommendations suggested an initial dose of 1
mg/kg/d of prednisone; however, more recent expert
opinions endorse a lower dose (eg, 40 mg/d), which is
tapered to every other day long-term therapy over several
weeks.
Most patients who require long-term steroids can be
treated using 10-15 mg of prednisone every other day.
High-dose inhaled corticosteroids may be an option, but
conclusive data are lacking.
45. Data suggest that corticosteroid use may
be associated with increased relapse rates.
Occasionally, certain patients cannot
tolerate or do not respond to
corticosteroids.
46. Noncorticosteroid agents
Used more frequently.
Common indications :
Steroid-resistant disease.
Intolerable adverse effects.
patient desire not to take corticosteroids.
47. Methotrexate (MTX) has been a successful
alternative to prednisone and is a steroid-sparing
agent.
Chloroquine and hydroxychloroquine are
antimalarial drugs with immunomodulating
properties, which have been used for cutaneous
lesions, hypercalcemia, neurological sarcoidosis, and
bone lesions.
Chloroquine has also been shown to be efficacious
for the treatment and maintenance of chronic
48. Cyclophosphamide has been rarely used with modest
success as a steroid-sparing treatment in patients with
refractory sarcoidosis.
Azathioprine is another second-line therapy, which is best
used as a steroid-sparing agent rather than as a single-drug
treatment for sarcoidosis.
Chlorambucil is an alkylating agent that may be beneficial
in patients with progressive disease unresponsive to
corticosteroids or when corticosteroids are contraindicated.
Cyclosporine is a fungal cyclic polypeptide with
lymphocyte-suppressive properties that may be of limited
benefit in skin sarcoidosis or in progressive sarcoid resistant to
conventional therapy.
49. Infliximab and thalidomide have been used for
refractory sarcoidosis, particularly for cutaneous
disease.
Infliximab appears to be an effective treatment for
patients with systemic manifestations such as lupus
pernio, uveitis, hepatic sarcoidosis, and
neurosarcoidosis.
Tetracyclines have shown promise for the
treatment of cutaneous sarcoidosis.
50. For pulmonary disease
Asymptomatic PFT and/or CXR abnormalities are not an
indication for treatment.
In patients with minimal symptoms, serial reevaluation is
prudent.
Significant respiratory symptoms associated with PFT and
CXR abnormalities likely require therapy.
For such patients, treatment is indicated if objective evidence
of recent deterioration in lung function exists.
Corticosteroids can result in small improvements in the
functional vital capacity and in the radiographic appearance in
patients with more severe stage II and III disease.
51. One recent study demonstrated an approach
that may minimize the use of corticosteroids
without harming the patient.
This is accomplished by
Withholding therapy unless the patient shows at least a 15%
decline in one spirometric measure associated with increasing
symptoms or,
if asymptomatic, withholding therapy unless the patient shows
worsening PFTs and a change in CXR.
52. For extrapulmonary sarcoidosis involving such
critical organs as the heart, liver, eyes, kidneys, or
central nervous system, corticosteroid therapy is
indicated.
Topical corticosteroids are effective for ocular
disease.
Inhaled corticosteroids are occasionally used, in
particular in patients with endobronchial disease.
53. NSAIDs are indicated for the treatment of
arthralgias and other rheumatic
complaints.
Patients with stage I sarcoidosis often
require only occasional treatment with
NSAIDs.
54. Further Inpatient Care
– Monitor pulmonary function and CXR every 6-12 months.
– Assess for progression or resolution.
– Determine if previously uninvolved organs have become
affected.
Further Outpatient Care
– Annual slit lamp eye examination and ECG are
recommended.
Follow-up
55. Many patients do not require therapy, and their
conditions will spontaneously improve.
Markers for a poor prognosis include :
Advanced CXR stage.
Extrapulmonary disease (predominantly cardiac and neurologic)
Evidence of pulmonary hypertension.
Multiple studies have demonstrated that the most
important marker for prognosis is the initial CXR
stage.
Prognosis
56.
57. Remission
2/3 of patients with sarcoidosis generally have a
remission within a decade after diagnosis, with few
or no consequences ;remission occurs for more than
half of patients within 3 years .
Unfortunately, up to 1/3 of patients have progressive
disease, leading to clinically significant organ
impairment.
A recurrence after 1 or more years of remission is
uncommon (affecting <5% of patients), but recurrent
disease may develop at any age and in any organ.
58. Death
Less than 5% of patients die from
sarcoidosis.
death is usually the result of pulmonary
fibrosis with respiratory failure or of
cardiac or neurologic involvement .