Pleural effusion: Difference between revisions

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{{DiseaseDisorder infobox |
  Name        = Pleural effusion |
  ICD10      = {{ICD10|J|90||j|90}}-{{ICD10|J|91||j|90}} |
  ICD9        = {{ICD9|511.9}} |
}}
{{SI}}
'''For the WikiPatient page for this topic, click [[Pleural effusion (patient information)|here]]'''
{{CMG}}
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{| class="infobox" style="float:right;"
 
|-
'''''Related Key Words and Synonyms:''''' Pleural fluid
| [[File:Siren.gif|30px|link=Pleural effusion resident survival guide]]|| <br> || <br>
 
| [[Pleural effusion resident survival guide|'''Resident'''<br>'''Survival'''<br>'''Guide''']]
'''Pleural effusion''' is excess fluid that accumulates in the [[pleural cavity]], the fluid-filled space that surrounds the [[lung]]s.
|}
 
'''For patient information, click [[Pleural effusion (patient information)|here]]'''
Four types of fluids can accumulate in the pleural space:
{{Pleural effusion}}
* [[Serous fluid]] ([[hydrothorax]])
{{CMG}} {{AE}} {{PTD}}, [[User:Dushka|Dushka Riaz, MD]]
* [[Blood]] ([[hemothorax]])
* [[Chyle]] ([[chylothorax]])
* [[Pus]] ([[pyothorax]] or [[empyema]])
 
==Pathophysiology & Etiology==
Healthy individuals have less than 15 ml of fluid in each pleural space. Normally, fluid enters the pleural space from the [[capillaries]] in the [[Pleural cavity|parietal pleura]], from interstitial spaces of the lung via the [[Pleural cavity|visceral pleura]], or from the [[peritoneal cavity]] through small holes in the [[diaphragm (anatomy)|diaphragm]].  This fluid is normally removed by [[lymphatics]] in the visceral pleura, which have the capacity to absorb 20 times more fluid than is normally formed. When this capacity is overwhelmed, either through excess formation or decreased lymphatic absorption, a pleural effusion develops.


* '''Increase entry of fluid versus decreased exit of fluid.'''
* '''Lymphatics have a large reserve capacity to deal with excess fluid.'''
===Increased Fluid Entry===
:# Increased permeability
:#:* Increase in fluid conductance or protein permeability. 
:# Increased microvascular pressure
:#:* Usually increased venous outflow pressure.  Arterial pressures usually not transmitted due to capillary resistance.  Thought to be lung interstitial fluid when hydrostatic pressure. 
:# Decreased pleural pressure
:#:* i.e. Significant atalectasis, reduces pressures around nearby vessels. 
:# Decreased plasma oncotic pressure
:#:* Hypoalbuminemia alone not usually enough but can lower threshold for other factors.
===Decreased Fluid Exit===
:* Reflects a reduction in lymphatic function. 
:* Much of how is speculative. 
:* There are intrinsic and extrinsic factors.
:# Intrinsic
:#* Prevent ability of lymphatic vessels to transport fluid- products of inflammation, endocrine problems (hypothyroidism), direct injury (chemotherapy, radiotherapy), infiltration with cancer.
:# Extrinsic
:#* Limitation of respiratory motion (diaphragm paralysis, lung collapse), compression of lymphatics (pleural fibrosis, pleural granulomas), blockage (pleural malignancy), increased systemic venous pressure (only acutely because chronically lymphatics can adapt), decreased liquid availability (ie after pneumothorax liquid contacts fewer lymphatic openings)
:* Common postoperative in patients undergoing cardiac surgical procedures
:* Predominantly left-sided: suggests underlying pericarditis is a causative factor.
:* Majority are small and not serious.
:* Pathogenesis may relate to immunologic cause
::* Respond to steroids and prolonged latent period from injury to onset


== History and Symptoms ==
{{SK}} Hydrothorax
* Only symptomatic pleural effusions or effusions larger than 50% of hemithorax require thoracentesis or chest tube drainage. 
* Most resolve spontaneously.
* Postcardiac injury syndrome (PCIS)
*:* A general term for fever and pleuropericardial disease days or months after cardiac injury (myocardial infarction or surgery). 
*:* Typically present two to three weeks post op. 
*:*:* Chest pain
*:*:* Pericardial rub
*:*:* Fever
*:*:* Leukocytosis
*:*:* Elevated erythrocyte sedimentation rate (ESR)
*:*:* Variable combinations of pulmonary effusions and infiltrates.


==[[Pleural effusion overview|Overview]]==
==[[Pleural effusion historical perspective|Historical Perspective]]==
==[[Pleural effusion classification|Classification]]==
==[[Pleural effusion pathophysiology |Pathophysiology]]==
==[[Pleural effusion causes|Causes]]==
==[[Pleural effusion differential diagnosis|Differentiating Pleural Effusion from other Diseases]]==
==[[Pleural effusion epidemiology and demographics|Epidemiology and Demographics]]==
==[[Pleural effusion risk factors|Risk Factors]]==
==[[Pleural effusion natural history|Natural History, Complications and Prognosis]]==
==Diagnosis==
==Diagnosis==
Pleural effusion is usually diagnosed on the basis of the history of your family and physical exam, and confirmed by chest [[x-ray]]. Chest films acquired in the lateral decubitus position (with the patient lying on their 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 angle]]s). Once accumulated fluid is more than 500 ml, there are usually detectable clinical signs in the patient, such as decreased movement of the chest on the affected side, dullness to percussion over the fluid, diminished breath sounds on the affected side, decreased vocal [[fremitus]] and resonance, pleural friction rub, and [[egophony]].
[[Pleural effusion history and symptoms|History and Symptoms]] | [[Pleural effusion physical examination|Physical Examination]] | [[Pleural effusion laboratory findings|Laboratory Findings]] | [[Pleural effusion chest x ray|Chest X Ray]] | [[Pleural effusion CT|CT]] |   [[Pleural effusion echocardiography or ultrasound|Echocardiography or Ultrasound]] | [[Pleural effusion other diagnostic studies|Other Diagnostic Studies]]
Once a pleural effusion is diagnosed, the cause must be determined. Pleural fluid is drawn out of the pleural space in a process called [[thoracentesis]].  A needle is inserted through the back of the chest wall into the pleural space.  The fluid may then be evaluated for the following:
 
# Chemical composition including [[protein]], [[lactate dehydrogenase]] (LDH), [[serum albumin|albumin]], [[amylase]], [[pH]] and [[glucose]]
# [[Gram stain]] and culture  to identify possible bacterial infections
# [[cell (biology)|Cell]] count and differential
# [[Cytology]] to identify cancer cells, but may also identify some infective organisms
# Other tests as suggested by the clinical situation - [[lipid]]s, [[fungus|fungal culture]], [[virus|viral culture]], specific [[immunoglobulin]]s
 
=== Electrolyte and Biomarker Studies ===
* Definite diagnoses can be made by specific analyses of fluid. 
*:* Culture
*:* Cytology
*:* Lupus erythematosus (LE) cells
*:* Antinuclear antibody (ANA) >1 (systemic lupus erythematosus)
*:* Amylase and severe acidosis (esophageal rupture)
*:* KOH prep
*:* Triglycerides (>110mg/dL = chylothorax)
*:* Hematocrit (pleural fluid to blood >0.5)
*:* Creatinine (urinothorax)
*:* Protein <1g/dL
*:* Glucose 300 to 400 (peritoneal dialysis).
* Look at the fluid- milky, bloody, clear.
* Transudate
*:* Imbalance between hydrostatic and oncotic pressure in chest. 
*:* May also be movement of fluid from abdominal cavity or retroperitoneal space. 
* Exudates:
*:* Result from pleural and lung inflammation (resulting in a capillary protein leak) or impaired lymphatic drainage of pleural space (so slow removal of protein from pleural space). 
*:* Can also result from movement of fluid form peritoneal space. 
* If at least one of the following 3 is present, the fluid is virtually always and exudate; in none is present, the fluid is virtually always a transudate:
*:* Pleural fluid protein/serum protein ratio >0.5
*:* Fluid/serum lactic dehydrogenase (LDH) ratio >0.6
*:* Fluid LDH greater than 2/3 the upper limits of normal of the serum LDH
* Some tidbits
*:* Tuberculosis (TB) effusions virtually always have a protein above 4.0 g/dL.
*:* Pleural fluid protein in the 7 to 8 g/dL range, consider Waldenstrom’s macroglobulinemia and mult myeloma.
*:* LDH avove 1000 usually found in empyema, rheumatoid pleurisy and sometime malignancy.
*:* Pleural fluid in Pneumocystis carinii pneumonia (PCP) has fluid/serum LDH greater than 1 and fluid/serum protein ratio less than 0.5.
* Glucose
*:* Lower then 60mg/dL or fluid/serum ratio < 0.5 not seen in transudates and limits exudates to the following
*:*:* Rheumatoid pleurisy
*:*:* Parapneumonic effusion or empyema
*:*:* Malignant effusion
*:*:* TB
*:*:* Lupus pleuritis
*:*:* Esophageal rupture.
* pH
*:* Less than 7.30 with nrl blood pH found with same diagnosis as low glucose. 
*:* Nrl pleural fluid is around 7.6 due to a bicarbonate gradient between pleural fluid and blood. 
* Amylase
*:* Greater than the upper limit of normal for serum or a pleural fluid to serum ration >1 narrows an exudate to acute pancreatitis, chronic pancreatic effusion, esophageal rupture or malignancy. 
 
===Transudate vs. exudate===
The third step in the evaluation of pleural fluid is to determine whether the effusion is a transudate or an exudate. Transudative pleural effusions are caused by ''systemic'' factors that alter the balance of the formation and absorption of pleural fluid (e.g., [[heart failure|left ventricular failure]], [[pulmonary embolism]], and [[cirrhosis]]), while exudative pleural effusions are caused by alterations in ''local'' factors that influence the formation and absorption of pleural fluid (e.g., [[bacterial pneumonia]], cancer, and viral infection).
 
Transudative and exudative pleural effusions are differentiated by comparing chemistries in the pleural fluid to those in the blood. According to a [[meta-analysis]], exudative pleural effusions meet at least one of the following criteria <ref name="pmid9106577">{{cite journal |author=Heffner J, Brown L, Barbieri C |title=Diagnostic value of tests that discriminate between exudative and transudative pleural effusions. Primary Study Investigators |journal=Chest |volume=111 |issue=4 |pages=970-80 |year=1997 |pmid=9106577}}</ref>:
# Pleural fluid protein >2.9 g/dL (29 g/L)
# Pleural fluid cholesterol >45 mg/dL (1.16 mmol/L)
# Pleural fluid LDH >60 percent of upper limit for serum
 
Previously criteria proposed by Light for an exudative effusion are met if at least one of the following exists (Light's criteria) <ref name="pmid4642731">{{cite journal |author=Light R, Macgregor M, Luchsinger P, Ball W |title=Pleural effusions: the diagnostic separation of transudates and exudates |journal=Ann Intern Med |volume=77 |issue=4 |pages=507-13 |year=1972 |pmid=4642731}}</ref>:
# The ratio of pleural fluid protein to serum protein is greater than 0.5
# The ratio of pleural fluid LDH and serum LDH is greater than 0.6
# Pleural fluid LDH is more than two-thirds normal upper limit for serum
 
Twenty-five percent of patients with transudative pleural effusions are mistakenly identified as having exudative pleural effusions by Light's criteria. Therefore, additional testing is needed if a patient identified as having an exudative pleural effusion appears clinically to have a condition that produces a transudative effusion. In such cases [[serum albumin|albumin]] levels in blood and pleural fluid are measured. If the difference between the albumin levels in the blood and the pleural fluid is greater than 1.2 g/dL (12 g/L), it can be assumed that the patient has a transudative pleural effusion.
 
If the fluid is definitively identified as exudative, additional testing is necessary to determine the local factors causing the exudate.
 
===Exudative pleural effusions===
Once identified as exudative, additional evaluation is needed to determine the cause of the excess fluid, and pleural fluid amylase, glucose, and cell counts are obtained. The fluid is also sent for Gram staining and culture, and, if suspicious for tuberculosis, examination for TB markers ([[adenosine deaminase]] > 45 IU/L, [[interferon gamma]] > 140 pg/mL, or positive [[polymerase chain reaction]] (PCR) for tuberculous DNA).
 
Pleural fluid amylase is elevated in cases of esophageal rupture, [[Pancreatic fistula|pancreatic pleural effusion]], or cancer. Glucose is decreased with cancer, bacterial infections, or [[rheumatoid pleuritis]]. If cancer is suspected, the pleural fluid is sent for cytology. If cytology is negative, and cancer is still suspected, either a [[thoracoscopy]], or needle biopsy of the pleura may be performed.
 
===Chest X-Ray===
 
<div align="center">
<gallery heights="125" widths="225">
Image:Pleural effusion.jpg|'''Pleural effusion''' Chest x-ray of a pleural effusion. The arrow A shows fluid layering in the right pleural cavity. The B arrow shows the normal width of the lung in the cavity
</gallery>
</div>
{{clr}}
 
===Multi Sliced CT===
 
<div align="center">
<gallery heights="125" widths="225">
Image:Pleura effusion.jpg|[[Computed tomography|CT]] scan of chest showing left sided pleural effusion. Effusion fluid often settles at the lowest space due to [[gravity]]; here at the back as the patient is lying under scanner.
</gallery>
</div>
{{clr}}
 
==Causes==
The most common causes of '''transudative''' pleural effusions in the United States are [[heart failure|left ventricular failure]], [[pulmonary embolism]], and [[cirrhosis]] (causing hepatic hydrothorax), while the  most common causes of '''exudative''' pleural effusions are bacterial [[pneumonia]], cancer (with [[lung cancer]], [[breast cancer]], and [[lymphoma]] causing approximately 75% of all malignant pleural effusions), viral infection, and [[pulmonary embolism]]. Although pulmonary embolism can produce either transudative or exudative pleural effusions, the latter is more common.
 
Other causes of pleural effusion include, [[tuberculosis]] (though pleural fluid smears are rarely positive for AFB, this is the most common cause of pleural effusion in some developing countries), autoimmune disease such as [[systemic lupus erythematosus]], bleeding (often due to chest trauma), chylothorax (most commonly caused by trauma), and accidental infusion of fluids. Less common causes include, esophageal rupture or pancreatic disease,  intraabdominal abscess, [[rheumatoid arthritis]], asbestos pleural effusion, [[Meig's syndrome]] (ascites and pleural effusion due to a benign ovarian tumor), and [[ovarian hyperstimulation syndrome]].
 
Pleural effusions may also occur through medical/surgical interventions, including the use of medications (pleural fluid is usually [[eosinophilic]]), [[coronary artery bypass surgery]], abdominal surgery, endoscopic variceal sclerotherapy, [[radiation therapy]], liver or lung transplantation, and intra- or extravascular insertion of central lines.


==Treatment==
==Treatment==
[[Pleural effusion medical therapy|Medical Therapy]] | [[Pleural effusion surgery|Surgery]] | [[Pleural effusion future or investigational therapies|Future or Investigational Therapies]]
==Case Studies==
:[[Pleural effusion case study one|Case #1]]


Treatment depends on the underlying cause of the pleural effusion. Therapeutic aspiration may be sufficient; larger effusions may require insertion of an intercostal drain (either pigtail or surgical). Repeated effusions may require chemical (talc, bleomycin, tetracycline/doxycycline) or surgical [[pleurodesis]], in which the two pleural surfaces are attached to each other so that no fluid can accumulate between them.
==Related Chapters==
 
==References==
<references/>
 
==See also==
* [[Empyema]]
* [[Empyema]]
* [[Heart failure]]
* [[Heart failure]]
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* [[Thoracentesis]]
* [[Thoracentesis]]


==External links==
{{WH}}
* [http://www.nlm.nih.gov/medlineplus/ency/article/000086.htm Medline Plus Article on Pleural Effusion]
{{WS}}
* [http://www.virtualcancercentre.com/symptoms.asp?sid=59 Pleural Effusion] Virtual Cancer Centre
 
==Additional Readings==
* {{cite book
| author = Light RW
| year = 2001
| title = Pleural Diseases
| edition = 4th ed.
| publisher = Lippincott Williams & Wilkins
| location = New York
}} ISBN 0-7817-2777-4
* {{cite book
| author = Light RW
| year = 2008
| title = Disorders of the pleura, mediastinum, diaphragm, and chest wall in Harrison's Principles of Internal Medicine
| editor = Fauci A, Braunwald E, Kasper DL, Hauser S, Longo D, Jameson JL, Loscalzo J.
| edition = 17th ed.
| publisher = McGraw-Hill Professional
| location = New York, NY
}} ISBN 978-0071466332
* {{cite book
| author =Dowdeswell IRG
| year = 1998
| title = Internal Medicine
| chapter = Chapter 64: Pleural Diseases
| editor = Stein JH
| edition = 5th ed.
| publisher = C.V.Mosby
| location = New York
}} ISBN 0-8151-8698-3
 
{{Respiratory pathology}}
{{SIB}}


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Latest revision as of 16:45, 30 March 2021



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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: Prince Tano Djan, BSc, MBChB [2], Dushka Riaz, MD


Synonyms and keywords: Hydrothorax

Overview

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