Extravascular lung water volume measurement by a novel lithium-thermal indicator dilution method: comparison of three techniques to post-mortem gravimetry

Objective To compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single thermal indicator dilution (single-thermal) and gravimetric techniques of extravascular lung water volume (EVLW) measurement in porcine models of...

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Published in	Intensive care medicine Vol. 34; no. 11; pp. 2106 - 2111
Main Authors	Maddison, Benjamin, Giudici, Riccardo, Calzia, Enrico, Wolff, Christopher, Hinds, Charles, Radermacher, Peter, Pearse, Rupert M.
Format	Journal Article
Language	English
Published	Berlin/Heidelberg Springer-Verlag 01.11.2008 Springer Springer Nature B.V
Subjects	Analysis of Variance Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Anesthesiology Animals Biological and medical sciences Brief Report Cardiovascular system Critical Care Medicine Disease Models, Animal Emergency Medicine Extravascular Lung Water - metabolism Intensive Intensive care medicine Investigative techniques of hemodynamics Investigative techniques, diagnostic techniques (general aspects) Ischemia - diagnosis Ischemia - physiopathology Linear Models Medical sciences Medicine Medicine & Public Health Pain Medicine Pediatrics Pneumology/Respiratory System Sepsis - diagnosis Sepsis - physiopathology Statistics, Nonparametric Swine Thermodilution - methods Viscera - blood supply Extravascular lung water Acute lung injury Cardiovascular monitoring Lithium indicator dilution Intrathoracic blood volume Gravimetry Lung disease Intensive care Gravimetry; Acute lung injury Respiratory disease Indicator dilution Lithium Lung volume Extravascular water Cardiovascular monitoring; Intrathoracic blood volume; Extravascular lung water Volume measurement Blood volume Comparative study Monitoring Resuscitation
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ISSN	0342-4642 1432-1238
DOI	10.1007/s00134-008-1207-4

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Abstract	Objective To compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single thermal indicator dilution (single-thermal) and gravimetric techniques of extravascular lung water volume (EVLW) measurement in porcine models of acute lung injury. Design Two animal models designed to invoke a systemic inflammatory response. Setting Laboratory study. Subjects A total of 12 immature Deutsches Landschwein pigs. Interventions Extravascular lung water volume was measured at four time points using Li-thermal, ICG-thermal and single-thermal techniques. Measurements were performed using existing technology according to manufacturer’s instructions. Post-mortem gravimetric EVLW measurements were performed by measuring wet and dry mass of lung tissue. Measurements were compared using the Bland–Altman method. Data are presented as mean (SD). Measurements and main results Data were collected in 12 animals and comparison between all 4 techniques was possible in 10 animals. EVLW measured by gravimetry was 9.2 (±3.0)ml kg −1 . When compared to gravimetry, both Li-thermal and ICG-thermal techniques showed minimal bias but wide limits of agreement (LOA) [Li-thermal: bias −1.8 ml kg −1 (LOA ± 13.1); ICG-thermal bias −1.0 ml kg −1 (LOA ± 6.6)]. Comparison between the single-thermal and gravimetric methods identified both considerable bias and wide LOA [+8.5 ml kg −1 (LOA ± 14.5)]. Conclusion Clinically significant differences between EVLW measurements obtained with the gravimetric method and three in vivo indicator dilution techniques were identified. While none of the techniques could be considered ideal, the ICG-thermal method appeared more reliable than either the Li-thermal or single thermal techniques. Further research is required to determine whether the accuracy of the prototype Li-thermal technique can be improved.
AbstractList	To compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single thermal indicator dilution (single-thermal) and gravimetric techniques of extravascular lung water volume (EVLW) measurement in porcine models of acute lung injury. Two animal models designed to invoke a systemic inflammatory response. Laboratory study. A total of 12 immature Deutsches Landschwein pigs. Extravascular lung water volume was measured at four time points using Li-thermal, ICG-thermal and single-thermal techniques. Measurements were performed using existing technology according to manufacturer's instructions. Post-mortem gravimetric EVLW measurements were performed by measuring wet and dry mass of lung tissue. Measurements were compared using the Bland-Altman method. Data are presented as mean (SD). Data were collected in 12 animals and comparison between all 4 techniques was possible in 10 animals. EVLW measured by gravimetry was 9.2 (+/-3.0)ml kg(-1). When compared to gravimetry, both Li-thermal and ICG-thermal techniques showed minimal bias but wide limits of agreement (LOA) [Li-thermal: bias -1.8 ml kg(-1) (LOA +/- 13.1); ICG-thermal bias -1.0 ml kg(-1) (LOA +/- 6.6)]. Comparison between the single-thermal and gravimetric methods identified both considerable bias and wide LOA [+8.5 ml kg(-1) (LOA +/- 14.5)]. Clinically significant differences between EVLW measurements obtained with the gravimetric method and three in vivo indicator dilution techniques were identified. While none of the techniques could be considered ideal, the ICG-thermal method appeared more reliable than either the Li-thermal or single thermal techniques. Further research is required to determine whether the accuracy of the prototype Li-thermal technique can be improved. To compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single thermal indicator dilution (single-thermal) and gravimetric techniques of extravascular lung water volume (EVLW) measurement in porcine models of acute lung injury. Two animal models designed to invoke a systemic inflammatory response. Laboratory study. A total of 12 immature Deutsches Landschwein pigs. Extravascular lung water volume was measured at four time points using Li-thermal, ICG-thermal and single-thermal techniques. Measurements were performed using existing technology according to manufacturer's instructions. Post-mortem gravimetric EVLW measurements were performed by measuring wet and dry mass of lung tissue. Measurements were compared using the Bland-Altman method. Data are presented as mean (SD). Data were collected in 12 animals and comparison between all 4 techniques was possible in 10 animals. EVLW measured by gravimetry was 9.2 (±3.0)ml kg-1. When compared to gravimetry, both Li-thermal and ICG-thermal techniques showed minimal bias but wide limits of agreement (LOA) [Li-thermal: bias -1.8 ml kg-1 (LOA ± 13.1); ICG-thermal bias -1.0 ml kg-1 (LOA ± 6.6)]. Comparison between the single-thermal and gravimetric methods identified both considerable bias and wide LOA [+8.5 ml kg-1 (LOA ± 14.5)]. Clinically significant differences between EVLW measurements obtained with the gravimetric method and three in vivo indicator dilution techniques were identified. While none of the techniques could be considered ideal, the ICG-thermal method appeared more reliable than either the Li-thermal or single thermal techniques. Further research is required to determine whether the accuracy of the prototype Li-thermal technique can be improved. [PUBLICATION ABSTRACT] Objective To compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single thermal indicator dilution (single-thermal) and gravimetric techniques of extravascular lung water volume (EVLW) measurement in porcine models of acute lung injury. Design Two animal models designed to invoke a systemic inflammatory response. Setting Laboratory study. Subjects A total of 12 immature Deutsches Landschwein pigs. Interventions Extravascular lung water volume was measured at four time points using Li-thermal, ICG-thermal and single-thermal techniques. Measurements were performed using existing technology according to manufacturer’s instructions. Post-mortem gravimetric EVLW measurements were performed by measuring wet and dry mass of lung tissue. Measurements were compared using the Bland–Altman method. Data are presented as mean (SD). Measurements and main results Data were collected in 12 animals and comparison between all 4 techniques was possible in 10 animals. EVLW measured by gravimetry was 9.2 (±3.0)ml kg −1 . When compared to gravimetry, both Li-thermal and ICG-thermal techniques showed minimal bias but wide limits of agreement (LOA) [Li-thermal: bias −1.8 ml kg −1 (LOA ± 13.1); ICG-thermal bias −1.0 ml kg −1 (LOA ± 6.6)]. Comparison between the single-thermal and gravimetric methods identified both considerable bias and wide LOA [+8.5 ml kg −1 (LOA ± 14.5)]. Conclusion Clinically significant differences between EVLW measurements obtained with the gravimetric method and three in vivo indicator dilution techniques were identified. While none of the techniques could be considered ideal, the ICG-thermal method appeared more reliable than either the Li-thermal or single thermal techniques. Further research is required to determine whether the accuracy of the prototype Li-thermal technique can be improved. To compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single thermal indicator dilution (single-thermal) and gravimetric techniques of extravascular lung water volume (EVLW) measurement in porcine models of acute lung injury.OBJECTIVETo compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single thermal indicator dilution (single-thermal) and gravimetric techniques of extravascular lung water volume (EVLW) measurement in porcine models of acute lung injury.Two animal models designed to invoke a systemic inflammatory response.DESIGNTwo animal models designed to invoke a systemic inflammatory response.Laboratory study.SETTINGLaboratory study.A total of 12 immature Deutsches Landschwein pigs.SUBJECTSA total of 12 immature Deutsches Landschwein pigs.Extravascular lung water volume was measured at four time points using Li-thermal, ICG-thermal and single-thermal techniques. Measurements were performed using existing technology according to manufacturer's instructions. Post-mortem gravimetric EVLW measurements were performed by measuring wet and dry mass of lung tissue. Measurements were compared using the Bland-Altman method. Data are presented as mean (SD).INTERVENTIONSExtravascular lung water volume was measured at four time points using Li-thermal, ICG-thermal and single-thermal techniques. Measurements were performed using existing technology according to manufacturer's instructions. Post-mortem gravimetric EVLW measurements were performed by measuring wet and dry mass of lung tissue. Measurements were compared using the Bland-Altman method. Data are presented as mean (SD).Data were collected in 12 animals and comparison between all 4 techniques was possible in 10 animals. EVLW measured by gravimetry was 9.2 (+/-3.0)ml kg(-1). When compared to gravimetry, both Li-thermal and ICG-thermal techniques showed minimal bias but wide limits of agreement (LOA) [Li-thermal: bias -1.8 ml kg(-1) (LOA +/- 13.1); ICG-thermal bias -1.0 ml kg(-1) (LOA +/- 6.6)]. Comparison between the single-thermal and gravimetric methods identified both considerable bias and wide LOA [+8.5 ml kg(-1) (LOA +/- 14.5)].MEASUREMENTS AND MAIN RESULTSData were collected in 12 animals and comparison between all 4 techniques was possible in 10 animals. EVLW measured by gravimetry was 9.2 (+/-3.0)ml kg(-1). When compared to gravimetry, both Li-thermal and ICG-thermal techniques showed minimal bias but wide limits of agreement (LOA) [Li-thermal: bias -1.8 ml kg(-1) (LOA +/- 13.1); ICG-thermal bias -1.0 ml kg(-1) (LOA +/- 6.6)]. Comparison between the single-thermal and gravimetric methods identified both considerable bias and wide LOA [+8.5 ml kg(-1) (LOA +/- 14.5)].Clinically significant differences between EVLW measurements obtained with the gravimetric method and three in vivo indicator dilution techniques were identified. While none of the techniques could be considered ideal, the ICG-thermal method appeared more reliable than either the Li-thermal or single thermal techniques. Further research is required to determine whether the accuracy of the prototype Li-thermal technique can be improved.CONCLUSIONClinically significant differences between EVLW measurements obtained with the gravimetric method and three in vivo indicator dilution techniques were identified. While none of the techniques could be considered ideal, the ICG-thermal method appeared more reliable than either the Li-thermal or single thermal techniques. Further research is required to determine whether the accuracy of the prototype Li-thermal technique can be improved.
Author	Giudici, Riccardo Wolff, Christopher Hinds, Charles Radermacher, Peter Maddison, Benjamin Pearse, Rupert M. Calzia, Enrico
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Keywords	Extravascular lung water Acute lung injury Cardiovascular monitoring Lithium indicator dilution Intrathoracic blood volume Gravimetry Lung disease Intensive care Gravimetry; Acute lung injury Respiratory disease Indicator dilution Lithium Lung volume Extravascular water Cardiovascular monitoring; Intrathoracic blood volume; Extravascular lung water Volume measurement Blood volume Comparative study Monitoring Resuscitation
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Snippet	Objective To compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single... To compare the lithium-thermal double indicator dilution (Li-thermal), indocyanine green-thermal double indicator dilution (ICG-thermal), single thermal...
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SubjectTerms	Analysis of Variance Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy Anesthesiology Animals Biological and medical sciences Brief Report Cardiovascular system Critical Care Medicine Disease Models, Animal Emergency Medicine Extravascular Lung Water - metabolism Intensive Intensive care medicine Investigative techniques of hemodynamics Investigative techniques, diagnostic techniques (general aspects) Ischemia - diagnosis Ischemia - physiopathology Linear Models Medical sciences Medicine Medicine & Public Health Pain Medicine Pediatrics Pneumology/Respiratory System Sepsis - diagnosis Sepsis - physiopathology Statistics, Nonparametric Swine Thermodilution - methods Viscera - blood supply
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Title	Extravascular lung water volume measurement by a novel lithium-thermal indicator dilution method: comparison of three techniques to post-mortem gravimetry
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