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Internal and Emergency Medicine
Published in: Internal and Emergency Medicine 6/2018

01-09-2018 | EM - ORIGINAL

Lactate determination in pleural and abdominal effusions: a quick diagnostic marker of exudate—a pilot study

Authors: Giovanni Porta, Fabio G. Numis, Valerio Rosato, Antonio Pagano, Mario Masarone, Giorgio Bosso, Claudia Serra, Luca Rinaldi, Maria C. Fascione, Annalisa Amelia, Fiorella Paladino, Fernando Schiraldi

Published in: Internal and Emergency Medicine | Issue 6/2018

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Abstract

Pleural or abdominal effusions are frequent findings in ICU and Internal Medicine patients. Diagnostic gold standard to distinguish between transudate and exudate is represented by “Light’s Criteria,” but, unfortunately, the chemical–physical examination for their calculation is not a rapid test. Pursuing an acid–base assessment of the fluid by a blood-gas analyzer, an increase of lactate beyond the normal serum range is reported in the exudative effusions. The advantages of this test are that it is a very fast bed-side test, executable directly by the physician. The aim of this study is to evaluate whether the increase in lactate in pleural and abdominal effusions might be used as a criterion for the differential diagnosis of the nature of the fluid. Sixty-nine patients with pleural or abdominal effusions and clinical indication for thoracentesis or paracentesis were enrolled. Acid–base assessment with lactate, total protein, and LDH dosage on the serum, and acid–base assessment with lactate, total protein, and LDH dosage, cytology, and bacterial culture on the fluid were performed to each patient. Fluid–blood lactate difference (ΔLacFB) and fluid–blood lactate ratio (LacFB ratio) were calculated. A statistical analysis was carried out for fluid lactate (LacF), ΔLacFB, and LacFB ratio, performing ROC curves to find the cut-off values with best sensitivity (Sn) and specificity (Sp) predicting an exudate diagnosis: LacF: cut-off value: 2.4 mmol/L; AU-ROC 0.854 95% CI 0.756–0.952; Sn 0.77; Sp 0.84. ΔLacFB: cut-off value: 0.95 mmol/L; Au-ROC 0.876 95% CI 0.785–0.966; Sn 0.80; Sp 0.92. LacFB ratio: cut-off value: 2 mmol/L; Au-ROC 0.730 95% CI 0.609–0.851; Sn 0.74; Sp 0.65. Lactate dosage by blood-gas analyzer on pleural and abdominal effusions seems to be a promising tool to predict a diagnosis of exudate.
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Literature
1.
2.
Light RW, Mac Gregor MI, Luchsinger PC et al (1972) Pleural effusions; the diagnostic separation of transudates and exudates. Ann Intern Med 77:507–513CrossRefPubMed
3.
4.
Wysenbeek AJ, Lahay M, Aelion JA et al (1985) Eosinophilic pleural effusions: a review of 36 cases. Respiration 48:73–76CrossRefPubMed
5.
Adelman M, Albelda SM, Gottlieb J et al (1984) Diagnostic utility of pleural fluid eosinophilia. Am J Med 77:915–920CrossRefPubMed
6.
Martinez-Garcia MA, Cases-Viedma E, Cordero-Rodriguez PJ et al (2000) Diagnostic utility of eosinophils in the pleural fluid. Eur Respir J 15:166–169CrossRefPubMed
7.
Levine H, Metzger W, Lacera D et al (1970) Diagnosis of tuberculous pleurisy by culture of pleural biopsy specimen. Arch Intern Med 126:269–271CrossRefPubMed
8.
9.
Chavalittamrong B, Angsusingha K, Tuchinda M et al (1979) Diagnostic significance of pH, lactic acid dehydrogenase, lactate and glucose in pleural fluid. Respiration 38(2):112–120CrossRefPubMed
10.
Brumbaugh GW, Benson PA (1990) Partial pressures of oxygen and carbon dioxide, pH and concentrations of bicarbonate, lactate and glucose in pleural fluid from horses. Am J Vet Res 51(7):1032–1037PubMed
11.
Rodriguez P, Lopez M (1989) Low glucose and pH levels in malignant pleural effusions. Diagnostic significance and prognostic value in respect to pleurodesis. Am Rev Respir Dis 139:663–667CrossRef
12.
Sahn SA (1985) Pathogenesis and clinical features of diseases associated with a low pleural fluid glucose. In: Chretien J, Bignon J, Hirsch A (eds) The pleura in health and disease. Marcel Dekker, New York, pp 267–285
13.
14.
Potts DE, Willcox MA, Good JT Jr et al (1978) The acidosis of low-glucose pleural effusions. Am Rev Respir Dis 117:665–671PubMed
15.
16.
Sherr HP, Light RW, Merson MH et al (1972) Origin of pleural fluid amylase in esophageal rupture. Ann Intern Med 76:985–986CrossRefPubMed
17.
Kramer M (1989) High amylase levels in neoplasm-related pleural effusion. Ann Intern Med 110:567–569CrossRefPubMed
18.
Gil S, Martinez M, Cases V et al (1995) Pleural cholesterol in differentiating transudates and exudates. A prospective study of 232 cases. Respiration 62:57–63CrossRef
19.
Hamm H, Brohan U, Bohmer R et al (1987) Cholesterol in pleural effusions. A diagnostic aid. Chest 92:296–302CrossRefPubMed
20.
Ortega L, Heredia JL, Armengol R et al (1991) The differential diagnosis between pleural exudates and transudates: the value of cholesterol. Med Clin (Barc) 96:367–370
21.
Nanji AA, Whitelow KJ (1984) Clinical utility of lactic acid measurement in body fluids other than plasma. J Emerg Med 1(6):521–526CrossRefPubMed
22.
Pettersson T, Ojala K, Weber TH (1985) Diagnostic significance of pleural fluid lactate concentrations. Infection 13(6):257–259CrossRefPubMed
23.
Gastrin B, Lovestad A (1988) Diagnostic significance of pleural fluid lactate concentration in pleural and pulmonary diseases. Scand J Infect Dis 20:85–90CrossRefPubMed
24.
Jokipii AM, Kiviranta K, Jokipii L (1987) Gas chromatographically quantitated lactate in empyema and other pleural effusions. Eur J Clin Microbiol 6(6):731–733CrossRefPubMed
25.
26.
Weynants P, Reynaert M, Lievens M et al (1987) Pleural fluid lactate in pleural effusion. Eur J Respir Dis 71(1):19–22PubMed
27.
Brook I (1981) The importance of lactic acid levels in body fluids in the detection of bacterial infections. Rev Infect Dis 3(3):470–478CrossRefPubMed
28.
Bruun B, Stilbo I, Bartels P (1984) Value of pleural lactate in the differential diagnosis between empyema and non-bacterial pleural effusions. Acta Pathol Microbiol Immunol Scand B 92(2):85–88PubMed
29.
Light RW, Erozan YS, Ball WCI (1973) Cells in pleural fluid. Their value in differential diagnosis. Arch Intern Med 132:854–860CrossRefPubMed
30.
Dellinger RP, Levy MM, Rhodes A, Annane D, Gerlach H, Opal SM, Sevransky JE, Sprung CL, Douglas IS, Jaeschke R, Osborn TM, Nunnally ME, Townsend SR, Reinhart K, Kleinpell RM, Angus DC, Deutschman CS, Machado FR, Rubenfeld GD, Webb SA, Beale RJ, Vincent J-L, Moreno R (2013) Surviving sepsis campaign guidelines committee including the pediatric subgroup: surviving sepsis campaign: international guidelines for management of severe sepsis and septic shock: 2012. Crit Care Med 41:N2CrossRef
31.
32.
Bar-Even A, Flamholz A, Noor E et al (2012) Rethinking glycolysis: on the biochemical logic of metabolic pathways. Nat Chem Biol 8(6):509–517CrossRefPubMed
33.
Meert KL, McCaulley L, Sarnaik AP (2012) Mechanism of lactic acidosis in children with acute severe asthma. Pediatr Crit Care Med 13(1):28–31CrossRefPubMed
34.
35.
Taylor DJ, Faragher EB, Evanson JM (1992) Inflammatory cytokines stimulate glucose uptake and glycolysis but reduce glucose oxidation in human dermal fibroblasts in vitro. Circ Shock 37:105–110PubMed
36.
Suetrong B, Walley KR (2016) Lactic acidosis in sepsis: it’s not all anaerobic: implications for diagnosis and management. Chest 149(1):252–261CrossRefPubMed
37.
Suistomaa M, Ruokonen E, Kari A et al (2000) Time-pattern of lactate and lactate to pyruvate ratio in the first 24 hours of intensive care emergency admissions. Shock 14(1):8–12CrossRefPubMed
38.
Levy B, Desebbe O, Montemont C et al (2008) Increased aerobic glycolysis through beta2 stimulation is a common mechanism involved in lactate formation during shock states. Shock 30:417–421CrossRefPubMed
39.
Borregaard N, Herlin T (1982) Energy metabolism of human neutrophils during phagocytosis. J Clin Investig 70(3):550–557CrossRefPubMed
40.
41.
42.
43.
Smith SM, Eng RH, Campos JM et al (1989) d-lactic acid measurements in the diagnosis of bacterial infections. J Clin Microbiol 27(3):385–388PubMedPubMedCentral
44.
Wellmer A, Prange J, Gerber J (2001) Et al: d- and l-lactate in rabbit and human bacterial meningitis. Scand J Infect Dis 33(12):909–913CrossRefPubMed
45.
Xiong X, Yang Z, Liwei Z, Peng K, Nan J (2016) The diagnostic value of cerebrospinal fluid lactate for post-neurosurgical bacterial meningitis: a meta-analysis. BMC Infect Dis 16:483CrossRef
46.
Burgess LJ, Reuter H, Cartstens ME et al (2002) Cytokine production in patients with tuberculous pericarditis. Int J Tuberc Lung Dis 6:439PubMed
47.
Hoefs JC (1983) Serum protein concentration and portal pressure determine the ascitic fluid protein concentration in patients with chronic liver disease. J Lab Clin Med 102:260PubMed
48.
Hoefs JC (1984) Ascitic fluid analysis in the differentiation of spontaneous bacterial peritonitis from gastrointestinal tract perforation into ascitic fluid. Hepatology 4:447CrossRefPubMed
49.
Hoefs JC (1981) Increase in ascites white blood cell and protein concentrations during diuresis in patients with chronic liver disease. Hepatology 1:249CrossRefPubMed
50.
Akriviadis EA, Runyon BA (1990) Utility of an algorithm in differentiating spontaneous from secondary bacterial peritonitis. Gastroenterology 98:127CrossRefPubMed
Metadata
Title
Lactate determination in pleural and abdominal effusions: a quick diagnostic marker of exudate—a pilot study
Authors
Giovanni Porta
Fabio G. Numis
Valerio Rosato
Antonio Pagano
Mario Masarone
Giorgio Bosso
Claudia Serra
Luca Rinaldi
Maria C. Fascione
Annalisa Amelia
Fiorella Paladino
Fernando Schiraldi
Publication date
01-09-2018
Publisher
Springer International Publishing
Published in
Internal and Emergency Medicine / Issue 6/2018
Print ISSN: 1828-0447
Electronic ISSN: 1970-9366
DOI
https://doi.org/10.1007/s11739-017-1757-y

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