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Pleural fluid
•The pleural cavity is a potential space lined by mesothelium of
the visceral and parietal pleurae.
•The pleural cavity normally contains a small amount of fluid.
•This fluid is a plasma filtrate derived from capillaries of the
parietal pleura.
•It is produced continuously at a rate dependent on capillary
hydrostatic
•pressure, plasma oncotic pressure, and capillary permeability
•Pleural fluid is reabsorbed through the lymphatics and venules
of the visceral pleura.
•An accumulation of fluid, called an effusion, results
from an imbalance of fluid production and reabsorption.
•Excessive amounts of such fluid can impair breathing
by limiting the expansion of the lungs during
ventilation .
Types of fluids
• Four types of fluids can accumulate in the pleural space:
• Serous fluid (hydrothorax)
• Blood (haemothorax(
• Chyle (chylothorax)
• Pus (pyothorax or empyema(
Diagnosis
• Pleural effusion is usually diagnosed on the basis of medical
history and physical exam ,and confirmed by chest x-ray .
• Once accumulated fluid is more than 300 ml, there are usually
detectable clinical signs in the patient, such as
• Decreased movement of the chest on the affected side,
• Stony dullness to percussion over the fluid,
• Diminished breath soundson the affected side,
• In large effusion there may be tracheal deviation away from the
effusion .
Imaging
A pleural effusion will show up as an area of whiteness
on a standard posteroanterior X-ray .
Chest radiographs acquired in the lateral decubitus
position (with the patient lying on his side) are more
sensitive and can pick up as little as 50 ml of fluid.
At least 300 ml of fluid must be present before upright
chest films can pick up signs of pleural effusion (e.g.,
blunted costophrenic angles)
Massive left sided pleural effusion in a patient presenting with lung
cancer .
CT scan of chest showing loculated pleural effusion in left side. Some
thickening of pleura is also noted .
SPECIMEN COLLECTION
•
Thoracentesis is indicated for any undiagnosed pleural effusion or for
therapeutic purposes in patients with massive symptomatic effusions;
•
A needle is inserted through the back of the chest wall in the sixth, seventh, or
eighth intercostal space on the midaxillary line, into the pleural space.
The fluid may then be evaluated for the following:
Chemical composition including protein ,lactat dehydrogenaseLDH ,
albumin ,amylase ,pH ,and glucose.
Gram stain and culture to identify possible bacterial infections
Cell count and differential
Cytopathology to identify cancer cells, but may also identify some infective
organisms
Other tests as suggested by the clinical situation – lipids ,fungal culture ,viral
culture ,specific immunoglobulins
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Contraindications
• An uncooperative patient or a coagulation disorder that can not be
corrected are absolute contraindications
• Relative contraindications include cases in which the site of
insertion has known bullous disease (e.g .emphysema( and use of
mechanical ventilation.
TRANSUDATES AND EXUDATES
Transudates are usually bilateral owing to systemic conditions
leading to increased capillary hydrostatic pressure or decreased
plasma oncotic pressure
Exudates are more often unilateral, associated with localized
disorders that increase vascular permeability or interfere with
lymphatic resorption
Classical teaching stressed that exudates and transudates can be distinguished
on the basis of total protein concentrations above (exudates) or below
(transudates) 3.0 g/dL
Accordingly, an exudate meets one or more of the following criteria:
(1) Pleural fluid/serumv protein ratio greater than 0.5;
(2) pleural fluid/serum LD ratio greater than 0.6; and
(3) pleural fluid LD level greater than two thirds of the serum upper limit of
normal.
GROSS EXAMINATION
Transudates are typically clear, pale yellow to straw-colored, and
odorless, and do not clot. Approximately 15% of transudates are
blood tinged.
A bloody pleural effusion (hematocrit >1%) suggests trauma,
malignancy, or pulmonary infarction.
A pleural fluid hematocrit greater than 50% of the blood hematocrit
is good evidence for a hemothorax
Exudates may grossly resemble transudates, but most show
variable degrees of cloudiness or turbidity, and they often clot if
not heparinized.
A feculent odor may be detected in anaerobic infections.
Turbid, milky, and/or bloody specimens should be centrifuged and
the supernatant examined. If the supernatant is clear, the turbidity
is most likely due to cellular elements or debris. If the turbidity
persists after centrifugation, a chylous effusion is likely.
MICROSCOPIC EXAMINATION
Cell Counts
Leukocyte counts have limited utility in separating transudates
(<1000/μL) from exudates (>1000/μL).
Although red cell counts above 100,000/μL are highly suggestive of
malignancy, trauma, or pulmonary infarction, they are not specific
for these conditions.
Differential Leukocyte Count and Cytology
Cytologic analysis will establish the
diagnosis of metastatic carcinoma
in 70% or more of cases
CHEMICAL ANALYSIS
Protein
The measurement of pleural fluid total protein or albumin has little
clinical value except when combined with other parameters to
differentiate exudates from transudates.
Glucose
The glucose level of normal pleural fluid, transudates, and most
exudates is similar to serum levels.
Decreased pleural fluid glucose, accepted as a level below 60 mg/dL
(3.33 mmol/L) or a pleural fluid/serum glucose ratio less than 0.5, is
most consistent and dramatic in rheumatoid pleuritis and grossly
purulent parapneumonic exudates
Lactate
Pleural fluid lactate levels can be a useful adjunct in the rapid
diagnosis of infectious pleuritis. Levels are significantly higher in
bacterial and tuberculous pleural infections than in other pleural
effusions.
Values greater than 90 mg/dL (10 mmol/L) have a positive predictive
value for infectious pleuritis of 94% and a negative predictive value
of 100%.
Amylase: elevations above the serum level (usually 1.5–2.0 or
more times greater) indicate the presence of pancreatitis, esophageal
rupture, or malignant effusion. Elevated amylase derived from
esophageal rupture or malignancy is the salivary isoform, which
differentiates it from pancreatic amylase
Lactate dehydrogenase
Pleural fluid LD levels rise in proportion to the degree of
inflammation.
In addition to their use in separating exudates from transudates,
declining LD levels during the course of an effusion indicate that
the
inflammatory process is resolving.
Conversely, increasing levels indicate a worsening condition
requiring aggressive workup or treatment.
Interferon-γ: Pleural fluid interferon (IFN)-γ levels are significantly
increased in the pleural fluid of patients with tuberculous pleuritis.
The sensitivity of levels of 3.7 IU/L or greater is 99%, and the
pecificity is 98%
pH
Pleural fluid pH measurement has the highest diagnostic accuracy in
assessing the prognosis of parapneumonic (pneumonia-related)
effusions
A parapneumonic exudate with a pH greater than 7.30 generally
resolves with medical therapy alone. A pH less than 7.20 indicates a
complicated parapneumonic effusion (loculated or associated with
empyema), requiring surgical drainage.
A pH below 6.0 is characteristic of esophageal rupture, although the
pH in severe empyema may be 6.0 or less
Lipids
Lipid measurements are also helpful in identifying chylous effusions
Thus, pleural fluid triglyceride levels above 110 mg/dL indicate a chylous
effusion; values from 60–110 mg/dL (0.68–1.24 mmol/L) are less certain and
require lipoprotein electrophoresis to confirm a chylothorax.
Nonchylous effusions generally have triglyceride levels below 50 mg/dL
(0.56 mmol/L) and no chylomicrons on electrophoresis
Cholesterol measurements may be useful in separating transudates
from exudates, especially when there is a question regarding Light’s criteria
A total cholesterol value of 54 mg/dL or more and a pleural fluid/
serum cholesterol ratio of 0.32 or higher have sensitivity and specificity
values similar to Light’s criteria
IMMUNOLOGIC STUDIES
Approximately 5% of patients with RA and 50% with SLE develop
pleural effusions sometime during the course of their disease.
RF is commonly present in pleural effusions associated with
seropositive RA.
ANA titers may be useful in the diagnosis of effusion due to lupus
pleuritis
MICROBIOLOGICAL EXAMINATION
Bacteria most commonly associated with parapneumonic effusions are
Staphylococcus aureus, Streptococcus pneumoniae, β-hemolytic group A
streptococci, enterococci, and some gram-negative bacilli. Anaerobic bacteria
are isolated in a significant proportion of cases, so both anaerobic and aerobic
cultures should be performed.
The sensitivity of the Gram stain is approximately 50%
For patients with suspected M. tuberculosis, direct staining of tuberculous
effusions for acid-fast bacteria has a sensitivity of 20%–30%, and positive
cultures are found in 50%–70% of cases