Your search keyword '"Extravascular Lung Water"' showing total 2,039 results

1. Quantification of pulmonary edema using automated lung segmentation on computed tomography in mechanically ventilated patients with acute respiratory distress syndrome.

Author

Conrad, Alice Marguerite, Zimmermann, Julia, Mohr, David, Froelich, Matthias F., Hertel, Alexander, Rathmann, Nils, Boesing, Christoph, Thiel, Manfred, Schoenberg, Stefan O., Krebs, Joerg, Luecke, Thomas, Rocco, Patricia R. M., and Otto, Matthias

Subjects

*ADULT respiratory distress syndrome, *PULMONARY edema, *INTENSIVE care units, *COMPUTED tomography, *CONTRAST media

Abstract

Background: Quantification of pulmonary edema in patients with acute respiratory distress syndrome (ARDS) by chest computed tomography (CT) scan has not been validated in routine diagnostics due to its complexity and time-consuming nature. Therefore, the single-indicator transpulmonary thermodilution (TPTD) technique to measure extravascular lung water (EVLW) has been used in the clinical setting. Advances in artificial intelligence (AI) have now enabled CT images of inhomogeneous lungs to be segmented automatically by an intensive care physician with no prior radiology training within a relatively short time. Nevertheless, there is a paucity of data validating the quantification of pulmonary edema using automated lung segmentation on CT compared with TPTD. Methods: A retrospective study (January 2016 to December 2021) analyzed patients with ARDS, admitted to the intensive care unit of the Department of Anesthesiology and Critical Care Medicine, University Hospital Mannheim, who underwent a chest CT scan and hemodynamic monitoring using TPTD at the same time. Pulmonary edema was estimated using manually and automated lung segmentation on CT and then compared to the pulmonary edema calculated from EVLW determined using TPTD. Results: 145 comparative measurements of pulmonary edema with TPTD and CT were included in the study. Estimating pulmonary edema using either automated lung segmentation on CT or TPTD showed a low bias overall (− 104 ml) but wide levels of agreement (upper: 936 ml, lower: − 1144 ml). In 13% of the analyzed CT scans, the agreement between the segmentation of the AI algorithm and a dedicated investigator was poor. Manual segmentation and automated segmentation adjusted for contrast agent did not improve the agreement levels. Conclusions: Automated lung segmentation on CT can be considered an unbiased but imprecise measurement of pulmonary edema in mechanically ventilated patients with ARDS. [ABSTRACT FROM AUTHOR]

Published

2024

2. Lung ultrasound diagnosis of pulmonary edema resulting from excessive fluid absorption during hysteroscopic myomectomy: a case report.

Author

Dai, Heng, Gan, Lin, Li, Jing, Yu, Jin, and Lei, Xiaofeng

Subjects

*UTERINE tumors, *HYPERVOLEMIA, *EARLY medical intervention, *PULMONARY edema, *LUNGS, *EARLY diagnosis, PREVENTION of surgical complications

Abstract

Background: Hysteroscopic surgery is a safe procedure used for diagnosing and treating intrauterine lesions, with a low rate of intraoperative complications. However, it is important to be cautious as fluid overload can still occur when performing any hysteroscopic surgical technique. Case Presentation: In this case report, we present a unique instance where lung ultrasound was utilized to diagnose pulmonary edema in a patient following a hysteroscopic myomectomy procedure. The development of pulmonary edema was attributed to the excessive absorption of fluid during the surgical intervention. By employing lung ultrasound as a diagnostic tool, we were able to promptly identify and address the pulmonary edema. As a result, the patient received timely treatment with no complications. This case highlights the importance of utilizing advanced imaging techniques, such as lung ultrasound, in the perioperative management of patients undergoing hysteroscopic procedures. Conclusions: This case report underscores the significance of early detection and intervention in preventing complications associated with fluid overload during hysteroscopic myomectomy procedures. [ABSTRACT FROM AUTHOR]

Published

2024

3. Quantification of pulmonary edema using automated lung segmentation on computed tomography in mechanically ventilated patients with acute respiratory distress syndrome

Author

Alice Marguerite Conrad, Julia Zimmermann, David Mohr, Matthias F. Froelich, Alexander Hertel, Nils Rathmann, Christoph Boesing, Manfred Thiel, Stefan O. Schoenberg, Joerg Krebs, Thomas Luecke, Patricia R. M. Rocco, and Matthias Otto

Subjects

ARDS, Pulmonary edema, Transpulmonary thermodilution, Extravascular lung water, Automated lung segmentation, Computed tomography, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background Quantification of pulmonary edema in patients with acute respiratory distress syndrome (ARDS) by chest computed tomography (CT) scan has not been validated in routine diagnostics due to its complexity and time-consuming nature. Therefore, the single-indicator transpulmonary thermodilution (TPTD) technique to measure extravascular lung water (EVLW) has been used in the clinical setting. Advances in artificial intelligence (AI) have now enabled CT images of inhomogeneous lungs to be segmented automatically by an intensive care physician with no prior radiology training within a relatively short time. Nevertheless, there is a paucity of data validating the quantification of pulmonary edema using automated lung segmentation on CT compared with TPTD. Methods A retrospective study (January 2016 to December 2021) analyzed patients with ARDS, admitted to the intensive care unit of the Department of Anesthesiology and Critical Care Medicine, University Hospital Mannheim, who underwent a chest CT scan and hemodynamic monitoring using TPTD at the same time. Pulmonary edema was estimated using manually and automated lung segmentation on CT and then compared to the pulmonary edema calculated from EVLW determined using TPTD. Results 145 comparative measurements of pulmonary edema with TPTD and CT were included in the study. Estimating pulmonary edema using either automated lung segmentation on CT or TPTD showed a low bias overall (− 104 ml) but wide levels of agreement (upper: 936 ml, lower: − 1144 ml). In 13% of the analyzed CT scans, the agreement between the segmentation of the AI algorithm and a dedicated investigator was poor. Manual segmentation and automated segmentation adjusted for contrast agent did not improve the agreement levels. Conclusions Automated lung segmentation on CT can be considered an unbiased but imprecise measurement of pulmonary edema in mechanically ventilated patients with ARDS.

Published

2024

4. Lung ultrasound diagnosis of pulmonary edema resulting from excessive fluid absorption during hysteroscopic myomectomy: a case report

Author

Heng Dai, Lin Gan, Jing Li, Jin Yu, and Xiaofeng Lei

Subjects

Hysteroscopy, Intraoperative complications, Pulmonary edema, Ultrasonography, Extravascular lung water, Early diagnosis, Anesthesiology, RD78.3-87.3

Abstract

Abstract Background Hysteroscopic surgery is a safe procedure used for diagnosing and treating intrauterine lesions, with a low rate of intraoperative complications. However, it is important to be cautious as fluid overload can still occur when performing any hysteroscopic surgical technique. Case Presentation In this case report, we present a unique instance where lung ultrasound was utilized to diagnose pulmonary edema in a patient following a hysteroscopic myomectomy procedure. The development of pulmonary edema was attributed to the excessive absorption of fluid during the surgical intervention. By employing lung ultrasound as a diagnostic tool, we were able to promptly identify and address the pulmonary edema. As a result, the patient received timely treatment with no complications. This case highlights the importance of utilizing advanced imaging techniques, such as lung ultrasound, in the perioperative management of patients undergoing hysteroscopic procedures. Conclusions This case report underscores the significance of early detection and intervention in preventing complications associated with fluid overload during hysteroscopic myomectomy procedures.

Published

2024

5. The influence of sex, age, and body height on the pulmonary vascular permeability index – a prospective observational study

Author

Lorenz L. Mihatsch and Patrick Friederich

Subjects

Pulmonary vascular permeability index, PVPI, Transpulmonary thermodilution, TPTD, ARDS, Extravascular lung water, Medicine, Science

Abstract

Abstract The pulmonary vascular permeability index (PVPI) is a quotient of the extravascular lung water (EVLW) and the pulmonary blood volume (PBV). In acute respiratory distress syndrome (ARDS), the alveolar-capillary membrane integrity is disrupted. The result is a disproportionate increase of EVLW compared to the PBV and, hence, an increase in PVPI. Thus, PVPI has repetitively been discussed to extend the definition of ARDS. Besides sex, the influence of other anthropometric variables on PVPI has not been studied so far. However, since it is known that EVLW depends on body height and sex, we hypothesize that PVPI depends on anthropometric variables as well. This prospective single-center observational study included 1533 TPTD measurements of 251 non-critically ill patients (50.6% men) undergoing elective neuro-, thoracic, or abdominal surgery at the Munich Clinic Bogenhausen of the Technical University of Munich. Multivariate regressions were used to measure the influence of sex, age, and body height on PVPI. In all patients, PVPI was significantly higher in women (P 2 compared to 15.9% of men. Mean PVPI significantly decreased with height (P 3 for small and young women and well above 2 for all but tall and elderly men. In patients who underwent (lung reduction) thoracic surgery, the PVPI before and after surgery did not differ significantly (P = 0.531), and post-surgical PVPI did not correlate with the amount of lung resected (P = 0.536). Hence, we conclude that PVPI may be independent of the extent of lung volume reduction. However, PVPI is heavily dependent on sex, age, and body height. Anthropometric variables thus have a significant impact on the likelihood of misclassified abnormal PVPI. This warrants further studies since an increased PVPI, e.g. in the context of an ARDS, may be overlooked if anthropometric variables are not considered. We suggest reference surfaces based on the 95th-percentile corrected for sex, age, and height as a novel approach to normalize PVPI.

Published

2024

6. The potential of the ultrasound method in diagnosing pulmonary edema in critically ill patients with liver failure

Author

D. N. Martsinkevich, P. S. Prilutskiy, A. M. Dzyadzko, T. A. Sevruk, and S. A. Tochilo

Subjects

pulmonary edema, diagnostic ultrasound, extravascular lung water, Medicine

Abstract

Background. Pulmonary edema is a common complication in critically ill patients. The liberal tactics of fluid therapy and pathological accumulation of extravascular lung water increase the risks of mortality in Intensive Care Unit patients. Timely and non-invasive diagnosis of pulmonary edema is a primary goal in the intensive care of patients in the Critical Care Unit. We prefer to use lung ultrasound with the registration of B-lines to diagnose lung edema. However, in our country, this method is not validated due to the lack of a sufficient number of clinical studies and necessary regulatory framework.Objective. To assess the potential of diagnostic ultrasonography for pulmonary edema in critically ill patients.Material and methods. A retrospective study was conducted on 27 patients, including 15 males and 12 females aged from 43 to 67 years old (mean age 45.05±17.2 years). All patients were in critical condition due either to acute liver failure, or acute-on-chronic liver failure, or early post-transplant liver graft failure, or posthepatectomy liver failure. Some patients had a systemic inflammatory response syndrome with the development of multiple organ failure and clinical signs of redistribution shock. All patients underwent ultrasound examination of the lungs, and had hemodynamic parameters measured using the transpulmonary thermodilution technique. The data obtained by the two diagnostic modalities were compared.Results. A significant correlation (p

Published

2024

7. Use of lung ultrasound to assess volume status and its association with physical examination in patients with chronic kidney disease.

Author

Raz, Michal Ariela, Grupper, Ayelet, Soetendorp, Hila, Feder, Omri, Amsterdam, Dana, Schwartz, Doron, and Bassat, Orit Kliuk-Ben

Subjects

*CHRONIC kidney failure, *CHRONICALLY ill, *LUNG volume, *HEMODIALYSIS patients, *PLEURAL effusions

Abstract

Introduction Defining the optimal hydration status in patients with chronic kidney disease (CKD) is challenging, and the quest for an objective accurate method continues. Lung ultrasound (LUS) is a well-validated technique to estimate volume status. Previous studies examining the relationship between LUS and physical examination demonstrated conflicting results. We aimed to evaluate the correlation between LUS results and physical examination for assessing volume status in patients with CKD, and to compare different LUS protocols. Methods A prospective, single-center trial correlating physical examination findings to LUS results in different CKD groups, including non-dialysis and dialysis patients. Hemodialysis patients were tested twice, before and after dialysis, to compare results with ultrafiltration volume. Different LUS protocols were performed and compared, including 16-, 12-, and 8-zone measurements. Results We recruited 175 participants. A strong positive correlation was demonstrated between 16- and 12-zone protocols [ r  = .91 (P < .001)] and between 12- and 8-zone protocols (r  = .951, P < .001). Correlation was significant in various CKD groups. While blood pressure did not correlate with LUS score, there was a significant correlation between LUS and other components of the physical examination including lung crackles (OR = 1.15 (95%CI 1.096–1.22), P < .01), pleural effusion (OR = 1.15 (95%CI 1.09–2.13), P < .01) and peripheral edema (r  = .24, P < .001). Ultrafiltration volume did not correlate significantly with change in LUS scores pre- and post-dialysis (r  = .169, P = .065). Conclusion Most components of physical examination findings correlated with extravascular lung water assessment on LUS in CKD patients. The use of a simplified pragmatic LUS protocol may facilitate LUS use in clinical practice. [ABSTRACT FROM AUTHOR]

Published

2024

8. Lung Ultrasound Reproducibly Outperforms Computed Tomography in the Detection of Extravascular Lung Water in Patients Undergoing Haemodialysis.

Author

Corcoran, John P., Hew, Mark, Attwood, Ben, Shyamsundar, Murali, Sutherland, Sheera, Ventura, Kristine, Benamore, Rachel, St. Noble, Victoria, Piotrowska, Hania E., Pugh, Christopher W., Laursen, Christian B., Gleeson, Fergus V., and Rahman, Najib M.

Subjects

*COMPUTED tomography, *HEMODIALYSIS patients, *HEMODIALYSIS, *ULTRASONIC imaging, *LUNGS, *VIDEO excerpts

Abstract

Background: Lung ultrasound (LUS) is increasingly used as an extension of physical examination, informing clinical diagnosis, and decision making. There is particular interest in the assessment of patients with pulmonary congestion and extravascular lung water, although gaps remain in the evidence base underpinning this practice as a result of the limited evaluation of its inter-rater reliability and comparison with more established radiologic tests. Methods: 30 patients undergoing haemodialysis were prospectively recruited to an observational cohort study (NCT01949402). Patients underwent standardised LUS assessment before, during and after haemodialysis; their total LUS B-line score was generated, alongside a binary label of whether appearances were consistent with an interstitial syndrome. LUS video clips were recorded and independently scored by two blinded expert clinician sonographers. Low-dose non-contrast thoracic CT, pre- and post dialysis, was used as a "gold standard" radiologic comparison. Results: LUS detected a progressive reduction in B-line scores in almost all patients undergoing haemodialysis, correlating with the volume of fluid removed once individuals with no or minimal B-lines upon pre-dialysis examination were discounted. When comparing CT scans pre- and post dialysis, radiologic evidence of the change in fluid status was only identified in a single patient. Conclusions: This is the first study to demonstrate that LUS detects changes in extravascular lung water caused by changing fluid status during haemodialysis using a blinded outcome assessment and that LUS appears to be more sensitive than CT for this purpose. Further research is needed to better understand the role of LUS in this and similar patient populations, with the aim of improving clinical care and outcomes. [ABSTRACT FROM AUTHOR]

Published

2024

9. An observational prospective cross-sectional study on extravascular lung water by lung ultrasound as a guide to fluid resuscitation therapy in adult septic shock in tertiary care hospital in central India [version 1; peer review: awaiting peer review]

Author

Abhishek Jain, Amol Singam, Anjalee Chiwhane, and V N K Srinivas Mudiganti

Subjects

Study Protocol, Articles, Septic shock, Extravascular lung water, Lung ultrasound, Fluid resuscitation therapy, Critical care, Outcome assessment

Abstract

Background Septic shock is a life-threatening condition characterized by systemic inflammation and organ dysfunction, with fluid resuscitation being a cornerstone of management. However, indiscriminate fluid administration can lead to fluid overload and worsen outcomes. Extravascular lung water (EVLW) estimation by lung ultrasound has emerged as a promising tool for guiding fluid therapy in septic shock, allowing clinicians to assess pulmonary edema and tailor resuscitation strategies accordingly. Methods This prospective observational study aims to evaluate the utility of EVLW estimation by lung ultrasound in guiding fluid resuscitation therapy in adult patients with septic shock admitted to a rural tertiary care teaching hospital. Eligible patients admitted to the intensive care unit (ICU) will undergo baseline demographic and clinical assessments, including lung ultrasound, to quantify EVLW using B-line analysis. Fluid resuscitation therapy will be initiated based on EVLW findings, with subsequent adjustments guided by repeat lung ultrasound examinations at 6, 12, 24, and 48 hours post-initiation. Outcome measures include changes in mean PaO2/FiO2 ratios, respiratory parameters, renal function, fluid balance, and mortality rates. Expected Outcome We anticipate that EVLW-guided fluid resuscitation therapy will lead to more precise and tailored management of septic shock, potentially reducing the incidence of fluid overload, ARDS, and renal dysfunction. By optimizing fluid management strategies based on individual patient characteristics and responses, we aim to improve clinical outcomes and enhance the delivery of care for patients with septic shock.

Published

2024

10. Assessment of Extravascular Lung Water Using Lung Ultrasound in Critically Ill Patients Admitted to Intensive Care Unit.

Author

Rajpal, Mayank, Talwar, Vandana, Krishna, Bhavya, and Mustafi, Saurav Mitra

Subjects

*INTENSIVE care units, *LENGTH of stay in hospitals, *EVALUATION of medical care, *THERAPEUTICS, *DIURETICS, *VASOCONSTRICTORS, *KRUSKAL-Wallis Test, *FLUID therapy, *LUNGS, *CRITICALLY ill, *POSITIVE end-expiratory pressure, *PATIENTS, *TREATMENT duration, *APACHE (Disease classification system), *HEALTH status indicators, *RENAL replacement therapy, *FISHER exact test, *MANN Whitney U Test, *HOSPITAL mortality, *ARTIFICIAL respiration, *TREATMENT failure, *SERUM albumin, *SEPSIS, *T-test (Statistics), *PULMONARY edema, *HOSPITAL care, *DESCRIPTIVE statistics, *GLASGOW Coma Scale, *CHI-squared test, *VENTILATOR weaning, *PEPTIDE hormones, *DATA analysis software, *LONGITUDINAL method, *COMORBIDITY

Abstract

Background: Lung ultrasound (LUS) is a simple bedside tool to assess overhydration. Our study aimed to assess extravascular lung water (EVLW) using B-lines and correlate it with weaning, duration of mechanical ventilation, and mortality in critically ill patients admitted to the intensive care unit (ICU). Patients and methods: 150 mechanically ventilated ICU patients prospectively observed over 18 months, with their demographic and clinical data noted. Extravascular lung water was monitored using LUS in four intercostal spaces (ICS) from day 1 to day 5, day 7, day 10, and weekly thereafter. Pulmonary fluid burden was graded as low (1-10), moderate (11-20), and high (21-32). Weaning outcome, duration of weaning, mechanical ventilation, ICU stay, and mortality were compared in patients with and without EVLW. Results: Out of 150, 54 patients (36.0%) had EVLW. The mean lung score amongst our patients was 8.57 ± 6.0. The mean time for detection of EVLW was 1.43 ± 2.24 days. Lung score was low in 40 (26.67%) patients, moderate in 9 (6.00%) patients, and high in 5 (3.33%) patients. Incidence of weaning failure (p-value = 0.006), duration of weaning, mechanical ventilation, ICU stay (p-value < 0.0001 each), and overall mortality were significantly higher in patients with EVLW (p-value = 0.006). Conclusion: We conclude that a good proportion of critically ill patients have EVLW. Extravascular lung water significantly increases the duration of weaning, mechanical ventilation days, ICU stay, and overall mortality in critically ill patients. [ABSTRACT FROM AUTHOR]

Published

2024

11. A Study Of The Correlation Between Extravascular Lung Water And Lung Compliance In Mechanically Ventilated Patients - A Multicentric Study.

Author

Thomas, Joshi, Setlur, Rangraj, Ravi, Parli Raghavan, and Kumar, Dilip

Subjects

*PATIENT compliance, *LUNGS, *LUNG volume, *ARTIFICIAL respiration, *TERTIARY care

Abstract

Introduction: Decreased lung compliance in patients requiring ventilator management prolongs the duration of ventilation. This study tested the hypothesis that an increase in extravascular lung water assessed by lung ultrasound was negatively correlated with static lung compliance. Materials and methods:100 patients requiring mechanical ventilation for more than 48 hours for primarily respiratory reasons were studied in 4 tertiary care hospitals. Extravascular lung water was measured by sector wise counting of ultrasound B-lines at admission and after 48 hours using a uniform scoring protocol; static lung compliance was measured off the ventilator. A one-way linear regression between the extravascular lung volume score and static lung compliance was performed. A paired t-test was carried out to compare these variables at 48-hour intervals. Results: At both intervals, a negative correlation was seen between extravascular lung water scores and lung compliance. Conclusion: Increased extravascular lung water has a measurable effect on lung compliance and that measurement by lung ultrasound may be of value in management of the patient, as its detection would lead to measures to decrease extravascular lung water and improve lung compliance. [ABSTRACT FROM AUTHOR]

Published

2023

12. The diagnostic accuracy of lung ultrasound to determine PiCCO-derived extravascular lung water in invasively ventilated patients with COVID-19 ARDS

Author

Leila N. Atmowihardjo, Job R. Schippers, Mark E. Haaksma, Marry R. Smit, Harm J. Bogaard, Leo Heunks, Nicole P. Juffermans, Marcus J. Schultz, Henrik Endeman, Patricia van Velzen, Pieter R. Tuinman, Jurjan Aman, and Lieuwe D. J. Bos

Subjects

Ultrasonography, Thermodilution, Extravascular lung water, Pulmonary edema, COVID-19, Respiratory distress syndrome, Medical physics. Medical radiology. Nuclear medicine, R895-920

Abstract

Abstract Background Lung ultrasound (LUS) can detect pulmonary edema and it is under consideration to be added to updated acute respiratory distress syndrome (ARDS) criteria. However, it remains uncertain whether different LUS scores can be used to quantify pulmonary edema in patient with ARDS. Objectives This study examined the diagnostic accuracy of four LUS scores with the extravascular lung water index (EVLWi) assessed by transpulmonary thermodilution in patients with moderate-to-severe COVID-19 ARDS. Methods In this predefined secondary analysis of a multicenter randomized-controlled trial (InventCOVID), patients were enrolled within 48 hours after intubation and underwent LUS and EVLWi measurement on the first and fourth day after enrolment. EVLWi and ∆EVLWi were used as reference standards. Two 12-region scores (global LUS and LUS–ARDS), an 8-region anterior–lateral score and a 4-region B-line score were used as index tests. Pearson correlation was performed and the area under the receiver operating characteristics curve (AUROCC) for severe pulmonary edema (EVLWi > 15 mL/kg) was calculated. Results 26 out of 30 patients (87%) had complete LUS and EVLWi measurements at time point 1 and 24 out of 29 patients (83%) at time point 2. The global LUS (r = 0.54), LUS–ARDS (r = 0.58) and anterior–lateral score (r = 0.54) correlated significantly with EVLWi, while the B-line score did not (r = 0.32). ∆global LUS (r = 0.49) and ∆anterior–lateral LUS (r = 0.52) correlated significantly with ∆EVLWi. AUROCC for EVLWi > 15 ml/kg was 0.73 for the global LUS, 0.79 for the anterior–lateral and 0.85 for the LUS–ARDS score. Conclusions Overall, LUS demonstrated an acceptable diagnostic accuracy for detection of pulmonary edema in moderate–to–severe COVID-19 ARDS when compared with PICCO. For identifying patients at risk of severe pulmonary edema, an extended score considering pleural morphology may be of added value. Trial registration: ClinicalTrials.gov identifier NCT04794088, registered on 11 March 2021. European Clinical Trials Database number 2020–005447-23.

Published

2023

13. Step B for B-Lines in Stress Echocardiography

Author

Scali, Maria Chiara, Picano, Eugenio, and Picano, Eugenio, editor

Published

2023

14. The influence of sex, age, and body height on the pulmonary vascular permeability index – a prospective observational study

Author

Mihatsch, Lorenz L. and Friederich, Patrick

Published

2024

15. Noninvasive Imaging Methods for Quantification of Pulmonary Edema and Congestion: A Systematic Review.

Author

Lindow, Thomas, Quadrelli, Scott, and Ugander, Martin

Abstract

Quantification of pulmonary edema and congestion is important to guide diagnosis and risk stratification, and to objectively evaluate new therapies in heart failure. Herein, we review the validation, diagnostic performance, and clinical utility of noninvasive imaging modalities in this setting, including chest x-ray, lung ultrasound (LUS), computed tomography (CT), nuclear medicine imaging methods (positron emission tomography [PET], single photon emission CT), and magnetic resonance imaging (MRI). LUS is a clinically useful bedside modality, and fully quantitative methods (CT, MRI, PET) are likely to be important contributors to a more accurate and precise evaluation of new heart failure therapies and for clinical use in conjunction with cardiac imaging. There are only a limited number of studies evaluating pulmonary congestion during stress. Taken together, noninvasive imaging of pulmonary congestion provides utility for both clinical and research assessment, and continued refinement of methodologic accuracy, validation, and workflow has the potential to increase broader clinical adoption. [Display omitted] • Quantification of pulmonary edema provides therapeutic guidance, risk stratification, and objective evaluation of new therapies. • CT, MRI, and PET are fully quantitative techniques useful for research purposes and clinically in conjunction with cardiac imaging. • CT, MRI, and PET need to be validated regarding detecting serial changes, eg treatment effects. • Lung ultrasound is the optimal bedside modality and should be implemented broadly. [ABSTRACT FROM AUTHOR]

Published

2023

16. The diagnostic accuracy of lung ultrasound to determine PiCCO-derived extravascular lung water in invasively ventilated patients with COVID-19 ARDS.

Author

Atmowihardjo, Leila N., Schippers, Job R., Haaksma, Mark E., Smit, Marry R., Bogaard, Harm J., Heunks, Leo, Juffermans, Nicole P., Schultz, Marcus J., Endeman, Henrik, van Velzen, Patricia, Tuinman, Pieter R., Aman, Jurjan, and Bos, Lieuwe D. J.

Subjects

COVID-19, ADULT respiratory distress syndrome, PULMONARY edema, RECEIVER operating characteristic curves, PEARSON correlation (Statistics)

Abstract

Background: Lung ultrasound (LUS) can detect pulmonary edema and it is under consideration to be added to updated acute respiratory distress syndrome (ARDS) criteria. However, it remains uncertain whether different LUS scores can be used to quantify pulmonary edema in patient with ARDS. Objectives: This study examined the diagnostic accuracy of four LUS scores with the extravascular lung water index (EVLWi) assessed by transpulmonary thermodilution in patients with moderate-to-severe COVID-19 ARDS. Methods: In this predefined secondary analysis of a multicenter randomized-controlled trial (InventCOVID), patients were enrolled within 48 hours after intubation and underwent LUS and EVLWi measurement on the first and fourth day after enrolment. EVLWi and ∆EVLWi were used as reference standards. Two 12-region scores (global LUS and LUS–ARDS), an 8-region anterior–lateral score and a 4-region B-line score were used as index tests. Pearson correlation was performed and the area under the receiver operating characteristics curve (AUROCC) for severe pulmonary edema (EVLWi > 15 mL/kg) was calculated. Results: 26 out of 30 patients (87%) had complete LUS and EVLWi measurements at time point 1 and 24 out of 29 patients (83%) at time point 2. The global LUS (r = 0.54), LUS–ARDS (r = 0.58) and anterior–lateral score (r = 0.54) correlated significantly with EVLWi, while the B-line score did not (r = 0.32). ∆global LUS (r = 0.49) and ∆anterior–lateral LUS (r = 0.52) correlated significantly with ∆EVLWi. AUROCC for EVLWi > 15 ml/kg was 0.73 for the global LUS, 0.79 for the anterior–lateral and 0.85 for the LUS–ARDS score. Conclusions: Overall, LUS demonstrated an acceptable diagnostic accuracy for detection of pulmonary edema in moderate–to–severe COVID-19 ARDS when compared with PICCO. For identifying patients at risk of severe pulmonary edema, an extended score considering pleural morphology may be of added value. Trial registration: ClinicalTrials.gov identifier NCT04794088, registered on 11 March 2021. European Clinical Trials Database number 2020–005447-23. [ABSTRACT FROM AUTHOR]

Published

2023

17. Lung "Comet Tails" in Healthy Individuals: Accumulation or Clearance of Extravascular Lung Water?

Author

Parks, Jordan K., Wheatley-Guy, Courtney M., Stewart, Glenn M., Fermoyle, Caitlin C., Taylor, Bryan J., Schwartz, Jesse, Ziegler, Briana, Johnson, Kay, Gavet, Alice, Chabridon, Loïc, Robach, Paul, and Johnson, Bruce D.

Subjects

*LUNGS, *PULMONARY alveoli, *PULMONARY edema, *RACE

Abstract

Parks, Jordan K, Courtney M. Wheatley-Guy, Glenn M. Stewart, Caitlin C. Fermoyle, Bryan J. Taylor, Jesse Schwartz, Briana Ziegler, Kay Johnson, Alice Gavet, Loïc Chabridon, Paul Robach, and Bruce D. Johnson. Lung "Comet Tails" in healthy individuals: accumulation or clearance of extravascular lung water? High Alt Med Biol. 24:230–233, 2023—Ultrasound lung comet tails (or B-lines) tend to be limited in number (<5) or absent under ultrasound examination, and the appearance of diffuse B-lines with lung sliding has been suggested to identify pulmonary edema. Clinical evaluation of B-lines has been utilized as a bedside test to assess pulmonary congestion in patients with heart failure. Exposure to altitude or prolonged exercise can alter fluid regulation and can lead to pulmonary congestion or edema. As such, B-lines have been utilized in the field to monitor for pathological lung fluid accumulation. However, ultrasound lung comet lines might not be as reliable for identifying extravascular lung water (EVLW) as previously thought in healthy individuals exercising at altitude where an increase in the number of ultrasound lung comets would reflect fluid buildup in the interstitial space of the alveoli and pulmonary capillaries. This report will focus on reviewing the literature and our data from a group of ultraendurance runners that completed the Ultra Trail Mont Blanc race that demonstrates that lung comet tails may not always be evidence of pathological fluid accumulation in healthy individuals and as such should be used to assess EVLW in concert with other diagnostic testing. [ABSTRACT FROM AUTHOR]

Published

2023

18. A deep learning model enables accurate prediction and quantification of pulmonary edema from chest X-rays

Author

Dominik Schulz, Sebastian Rasch, Markus Heilmaier, Rami Abbassi, Alexander Poszler, Jörg Ulrich, Manuel Steinhardt, Georgios A. Kaissis, Roland M. Schmid, Rickmer Braren, and Tobias Lahmer

Subjects

Pulmonary edema, Transpulmonary thermodilution, TPTD, Extravascular lung water, EVLWI, Chest X-ray, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Abstract

Abstract Background A quantitative assessment of pulmonary edema is important because the clinical severity can range from mild impairment to life threatening. A quantitative surrogate measure, although invasive, for pulmonary edema is the extravascular lung water index (EVLWI) extracted from the transpulmonary thermodilution (TPTD). Severity of edema from chest X-rays, to date is based on the subjective classification of radiologists. In this work, we use machine learning to quantitatively predict the severity of pulmonary edema from chest radiography. Methods We retrospectively included 471 X-rays from 431 patients who underwent chest radiography and TPTD measurement within 24 h at our intensive care unit. The EVLWI extracted from the TPTD was used as a quantitative measure for pulmonary edema. We used a deep learning approach and binned the data into two, three, four and five classes increasing the resolution of the EVLWI prediction from the X-rays. Results The accuracy, area under the receiver operating characteristic curve (AUROC) and Mathews correlation coefficient (MCC) in the binary classification models (EVLWI

Published

2023

19. Lung Ultrasound Reproducibly Outperforms Computed Tomography in the Detection of Extravascular Lung Water in Patients Undergoing Haemodialysis

Author

John P. Corcoran, Mark Hew, Ben Attwood, Murali Shyamsundar, Sheera Sutherland, Kristine Ventura, Rachel Benamore, Victoria St. Noble, Hania E. Piotrowska, Christopher W. Pugh, Christian B. Laursen, Fergus V. Gleeson, and Najib M. Rahman

Subjects

lung ultrasound, extravascular lung water, interstitial syndrome, Medicine (General), R5-920

Abstract

Background: Lung ultrasound (LUS) is increasingly used as an extension of physical examination, informing clinical diagnosis, and decision making. There is particular interest in the assessment of patients with pulmonary congestion and extravascular lung water, although gaps remain in the evidence base underpinning this practice as a result of the limited evaluation of its inter-rater reliability and comparison with more established radiologic tests. Methods: 30 patients undergoing haemodialysis were prospectively recruited to an observational cohort study (NCT01949402). Patients underwent standardised LUS assessment before, during and after haemodialysis; their total LUS B-line score was generated, alongside a binary label of whether appearances were consistent with an interstitial syndrome. LUS video clips were recorded and independently scored by two blinded expert clinician sonographers. Low-dose non-contrast thoracic CT, pre- and post dialysis, was used as a “gold standard” radiologic comparison. Results: LUS detected a progressive reduction in B-line scores in almost all patients undergoing haemodialysis, correlating with the volume of fluid removed once individuals with no or minimal B-lines upon pre-dialysis examination were discounted. When comparing CT scans pre- and post dialysis, radiologic evidence of the change in fluid status was only identified in a single patient. Conclusions: This is the first study to demonstrate that LUS detects changes in extravascular lung water caused by changing fluid status during haemodialysis using a blinded outcome assessment and that LUS appears to be more sensitive than CT for this purpose. Further research is needed to better understand the role of LUS in this and similar patient populations, with the aim of improving clinical care and outcomes.

Published

2024

20. Sonographic B-lines, Fluid Resuscitation, and Hypoxemia in Malawian Patients with Suspected Sepsis

Author

Wang, Richard J, Katha, Grace, Phiri, Miriam, Delbridge, Philip, Gordon, Stephen B, Calfee, Carolyn S, Huang, Laurence, and Rylance, Jamie

Subjects

Adult, Cohort Studies, Extravascular Lung Water, Female, Fluid Therapy, Humans, Hypoxia, Lung, Malawi, Male, Middle Aged, Resuscitation, Sepsis, Ultrasonography, Medical and Health Sciences, Respiratory System

Published

2020

21. Diagnostic value of transpulmonary thermodilution measurements for acute respiratory distress syndrome in a pig model of septic shock

Author

Yusuke Endo, Taku Miyasho, Kanako Endo, Yoshio Kawamura, Kenjiro Miyoshi, Ryosuke Takegawa, Takashi Tagami, Lance B. Becker, and Kei Hayashida

Subjects

Pulmonary vascular permeability index, ARDS, Extravascular lung water, Diagnostic criteria, Large animal study, Medicine

Abstract

Abstract Background No direct approach assessing pulmonary vascular permeability exists in the current therapeutic strategy for patients with acute respiratory distress syndrome (ARDS). Transpulmonary thermodilution measures hemodynamic parameters such as pulmonary vascular permeability index and extravascular lung water, enabling clinicians to assess ARDS severity. The aim of this study is to explore a precise transpulmonary thermodilution-based criteria for quantifying the severity of lung injury using a clinically relevant septic-ARDS pig model. Methods Thirteen female pigs (weight: 31 ± 2 kg) were intubated, mechanically ventilated under anesthesia, and either assigned to septic shock-induced ARDS or control group. To confirm the development of ARDS, we performed computed tomography (CT) imaging in randomly selected animals. The pulmonary vascular permeability index, extravascular lung water, and other hemodynamic parameters were consecutively measured during the development of septic lung injury. Lung status was categorized as normal (partial pressure of oxygen/fraction of inspired oxygen ≥ 400), or injured at different degrees: pre-ARDS (300–400), mild-to-moderate ARDS (100–300), or severe ARDS (

Published

2022

22. The ultrasound estimation of extravascular lung water in volume controlled versus pressure controlled ventilation after one lung ventilation in Thoracoscopic surgery. A-comparative study

Author

Ahmed Mohamed Ahmed Ibrahim, Hisham Hosny, Ahmed El-Agaty, and Mohamed Khaled Hamza

Subjects

Thoracoscopic surgeries, one lung ventilation, volume controlled ventilation, pressure controlled ventilation, extravascular lung water, lung ultrasound, Anesthesiology, RD78.3-87.3

Abstract

Background Thoracoscopic surgeries are an absolute indication of one lung ventilation OLV, the choice of using volume-controlled ventilation (VCV) or pressure controlled ventilation (PCV) remains controversial. Respiratory complications are major cause of postoperative morbidity which is associated with increased extravascular lung water (EVLW). Assessment of (EVLW) helps in early detection and treatment of respiratory complications. Lung ultrasound (LUS) has been suggested as reliable method of assessment of EVLW. This study was designed to figure out whether there was any difference in OLV by either PCV or VCV on EVLW water in the ventilated lung using LUS score and arterial oxygenation.Methodology 50 patients were randomly assigned into two groups; Group V: received VCV (Vt 7 ml/kg ideal body weight) Group P: received PCV (To achieve Vt 7 ml/kg ideal body weight, Pmax 30 cmh2o)Results We found that both techniques PCV and VCV showed no statistically significant differences as regards the ultrasound score at different timings of measurement; (T0) before induction of anesthesia, (T5) immediately at the end of operation after extubation, and (T6) 2 hours after ICU admission. Where P values were 0.525, 0.309, and 0.597 consecutively, we also found there were no statistically significant differences between the two groups regarding hemodynamics, arterial blood gases, ventilatory parameters.Conclusion We concluded that when utilizing VCV & PCV in OLV in thoracospic surgeries there was no statistically significant difference regarding EVLW score measured by LUS in the ventilated lung.

Published

2022

23. A deep learning model enables accurate prediction and quantification of pulmonary edema from chest X-rays.

Author

Schulz, Dominik, Rasch, Sebastian, Heilmaier, Markus, Abbassi, Rami, Poszler, Alexander, Ulrich, Jörg, Steinhardt, Manuel, Kaissis, Georgios A., Schmid, Roland M., Braren, Rickmer, and Lahmer, Tobias

Abstract

Background: A quantitative assessment of pulmonary edema is important because the clinical severity can range from mild impairment to life threatening. A quantitative surrogate measure, although invasive, for pulmonary edema is the extravascular lung water index (EVLWI) extracted from the transpulmonary thermodilution (TPTD). Severity of edema from chest X-rays, to date is based on the subjective classification of radiologists. In this work, we use machine learning to quantitatively predict the severity of pulmonary edema from chest radiography. Methods: We retrospectively included 471 X-rays from 431 patients who underwent chest radiography and TPTD measurement within 24 h at our intensive care unit. The EVLWI extracted from the TPTD was used as a quantitative measure for pulmonary edema. We used a deep learning approach and binned the data into two, three, four and five classes increasing the resolution of the EVLWI prediction from the X-rays. Results: The accuracy, area under the receiver operating characteristic curve (AUROC) and Mathews correlation coefficient (MCC) in the binary classification models (EVLWI < 15, ≥ 15) were 0.93 (accuracy), 0.98 (AUROC) and 0.86(MCC). In the three multiclass models, the accuracy ranged between 0.90 and 0.95, the AUROC between 0.97 and 0.99 and the MCC between 0.86 and 0.92. Conclusion: Deep learning can quantify pulmonary edema as measured by EVLWI with high accuracy. [ABSTRACT FROM AUTHOR]

Published

2023

24. Optimizing Fluid Management Guided by Volumetric Parameters in Patients with Sepsis and ARDS.

Author

Fot, Evgeniia V., Khromacheva, Natalia O., Ushakov, Aleksei A., Smetkin, Aleksei A., Kuzkov, Vsevolod V., and Kirov, Mikhail Y.

Subjects

*ADULT respiratory distress syndrome, *SEPSIS, *WATER-electrolyte balance (Physiology)

Abstract

We compared two de-escalation strategies guided by either extravascular lung water or global end-diastolic volume-oriented algorithms in patients with sepsis and ARDS. Sixty patients with sepsis and ARDS were randomized to receive de-escalation fluid therapy, guided either by the extravascular lung water index (EVLWI, n = 30) or the global end-diastolic volume index (GEDVI, n = 30). In cases of GEDVI > 650 mL/m2 or EVLWI > 10 mL/kg, diuretics and/or controlled ultrafiltration were administered to achieve the cumulative 48-h fluid balance in the range of 0 to −3000 mL. During 48 h of goal-directed de-escalation therapy, we observed a decrease in the SOFA score (p < 0.05). Extravascular lung water decreased only in the EVLWI-oriented group (p < 0.001). In parallel, PaO2/FiO2 increased by 30% in the EVLWI group and by 15% in the GEDVI group (p < 0.05). The patients with direct ARDS demonstrated better responses to dehydration therapy concerning arterial oxygenation and lung fluid balance. In sepsis-induced ARDS, both fluid management strategies, based either on GEDVI or EVLWI, improved arterial oxygenation and attenuated organ dysfunction. The de-escalation therapy was more efficient for direct ARDS. [ABSTRACT FROM AUTHOR]

Published

2023

25. Incremental diagnostic value of post-exercise lung congestion in heart failure with preserved ejection fraction.

Author

Kagami, Kazuki, Obokata, Masaru, Harada, Tomonari, Sorimachi, Hidemi, Yuasa, Naoki, Saito, Yuki, Kato, Toshimitsu, Wada, Naoki, Adachi, Takeshi, and Ishii, Hideki

Subjects

EXERCISE tests, VENTRICULAR ejection fraction, LUNGS, CARDIOPULMONARY system, CONVALESCENCE, HEART failure

Abstract

Aims Lung ultrasound (LUS) may unmask occult heart failure with preserved ejection fraction (HFpEF) by demonstrating an increase in extravascular lung water (EVLW) during exercise. Here, we sought to examine the dynamic changes in ultrasound B-lines during exercise to identify the optimal timeframe for HFpEF diagnosis. Methods and results Patients with HFpEF (n = 134) and those without HF (controls, n = 121) underwent a combination of exercise stress echocardiography and LUS with simultaneous expired gas analysis to identify exercise EVLW. Exercise EVLW was defined by B-lines that were newly developed or increased during exercise. The E / e ′ ratio peaked during maximal exercise and immediately decreased during the recovery period in patients with HFpEF. Exercise EVLW was most prominent during the recovery period in patients with HFpEF, while its prevalence did not increase from peak exercise to the recovery period in controls. Exercise EVLW was associated with a higher E / e ′ ratio and pulmonary artery pressure, lower right ventricular systolic function, and elevated minute ventilation to carbon dioxide production (VE vs. VCO2) slope during peak exercise. Increases in B-lines from rest to the recovery period provided an incremental diagnostic value to identify HFpEF over the H2FPEF score and resting left atrial reservoir strain. Conclusion Exercise EVLW was most prominent early during the recovery period; this may be the optimal timeframe for imaging ultrasound B-lines. Exercise stress echocardiography with assessments of recovery EVLW may enhance the diagnosis of HFpEF. [ABSTRACT FROM AUTHOR]

Published

2023

26. Assessment of Volume Status in Chronic Hemodialysis: Comparison of Lung Ultrasound to Clinical Practice and Bioimpedance.

Author

Vareesangthip, Kornchanok, Thanapattaraborisuth, Banthita, Chanchairujira, Kullanuch, Wonglaksanapimon, Suwimon, and Chanchairujira, Thawee

Subjects

HEMODIALYSIS, PULMONARY edema, ULTRASONIC imaging, LUNGS, CRACKLES (Respiration), WATER intoxication, HEMODIALYSIS complications

Abstract

Objective: Lung ultrasonography (LUS) has recently been used to evaluate extravascular lung water, and shown to be able to predict all-cause mortality in hemodialysis (HD) patients. This study aim to compare LUS with other volume assessment methods, and to verify the prognostic value of LUS in Thai chronic HD patients. Materials and Methods: We conducted a prospective cohort study in 36 chronic HD patients. Volume status before the HD session was evaluated by physical examinations, bioimpedance analysis (BIA), and ultrasound lung comets (ULCs). Mortality and morbidities were recorded during a 1-year follow-up period. Results: The degree of lung fluid accumulation was assessed by summation of the number of ULCs, and was classified into 3 groups: mild-to-moderate (ULC<15-29), severe (ULC=30-59), and very severe (ULC=60) in 11.1%, 77.8%, and 11.1% of the patients, respectively. Either clinical edema or lung crackle had low sensitivity (20-32%) to detect extravascular lung water excess in patient with mild-to-moderate ULC and severe ULC. Overhydration assessed by BIA was found in 75% and 64.3% of patients with mild-to-moderate and severe ULC, respecively. In patients with very severe ULC, the admission rate due to volume overload was significantly higher, there was also a trend of increased mortality, as well as intradialytic complications. Conclusion: Clinical assessment and BIA have limited value in determining extravascular fluid excess in the lung. Lung ultrasound is a useful tool to detect subclinical pulmonary congestion. The long-term outcome by using LUSguided fluid management needs larger population studies. [ABSTRACT FROM AUTHOR]

Published

2023

27. Quantifying lung ultrasound comets with a convolutional neural network: Initial clinical results

Author

Wang, Xianglong, Burzynski, Joseph S, Hamilton, James, Rao, Panduranga S, Weitzel, William F, and Bull, Joseph L

Subjects

Information and Computing Sciences, Machine Learning, Lung, Biomedical Imaging, Machine Learning and Artificial Intelligence, Bioengineering, Adult, Aged, Artifacts, Blood Pressure, Extravascular Lung Water, Female, Humans, Image Interpretation, Computer-Assisted, Male, Middle Aged, Neural Networks, Computer, Ultrasonography, Lung comets, B-Lines, Ultrasound, Machine learning, Neural network, Engineering, Medical and Health Sciences, Biomedical Engineering, Bioinformatics and computational biology, Health services and systems, Applied computing

Abstract

Lung ultrasound comets are "comet-tail" artifacts appearing in lung ultrasound images. They are particularly useful in detecting several lung pathologies and may indicate the amount of extravascular lung water. However, the comets are not always well defined and large variations in the counting results exist between observers. This study uses a convolutional neural network to quantify these lung ultrasound comets on a 4864-image clinical lung ultrasound dataset labeled by the authors. The neural network counted the number of comets correctly on 43.4% of the images and has an intraclass correlation (ICC) of 0.791 with respect to human counting on the test set. The ICC level indicates a higher correlation level than previously reported ICC between human observers. The neural network was then deployed and applied to a clinical 6272-image dataset. The correlation between the automated comet counts and the clinical parameters was examined. The comet counts correlate positively with the diastolic blood pressure (p = 0.047, r = 0.448), negatively with ejection fraction (p = 0.061, r = -0.513), and negatively with BMI (p = 0.009, r = -0.566). The neural network can be alternatively formulated as a diagnostic test for comet-positive images with 80.8% accuracy. The results could potentially be improved with a larger dataset and a refined approach to the neural networks used.

Published

2019

28. Assessment of Volume Status in Chronic Hemodialysis: Comparison of Lung Ultrasound to Clinical Practice and Bioimpedance

Author

Kornchanok Vareesangthip, Banthita Thanapattaraborisuth, Kullanuch Chanchairujira, Suwimon Wonglaksanapimon, and Thawee Chanchairujira

Subjects

lung ultrasonography, extravascular lung water, hemodialysis, all-cause mortality, morbidities, intradialytic complications, Medicine

Abstract

Objective: To compare LUS with other volume assessment methods, and to verify the prognostic value of LUS in Thai chronic HD patients. Materials and Methods: We conducted a prospective cohort study in 36 chronic HD patients. Volume status before the HD session was evaluated by physical examinations, bioimpedance analysis (BIA), and ultrasound lung comets (ULCs). Mortality and morbidities were recorded during a 1-year follow-up period. Results: The degree of lung fluid accumulation was assessed by summation of the number of ULCs, and was classified into 3 groups: mild-to-moderate (ULC60) in 11.1%, 77.8%, and 11.1% of the patients, respectively. Either clinical edema or lung crackle had low sensitivity (20-32%) to detect extravascular lung water excess in patient with mild-to-moderate ULC and severe ULC. Overhydration assessed by BIA was found in 75% and 64.3% of patients with mild-to-moderate and severe ULC, respecively. In patients with very severe ULC, the admission rate due to volume overload was significantly higher, there was also a trend of increased mortality, as well as intradialytic complications. Conclusion: Clinical assessment and BIA have limited value in determining extravascular fluid excess in the lung. Lung ultrasound is a useful tool to detect subclinical pulmonary congestion. The long-term outcome by using LUS-guided fluid management needs larger population studies.

Published

2023

29. Diagnostic value of transpulmonary thermodilution measurements for acute respiratory distress syndrome in a pig model of septic shock.

Author

Endo, Yusuke, Miyasho, Taku, Endo, Kanako, Kawamura, Yoshio, Miyoshi, Kenjiro, Takegawa, Ryosuke, Tagami, Takashi, Becker, Lance B., and Hayashida, Kei

Subjects

*LUNGS, *ADULT respiratory distress syndrome, *SEPTIC shock, *HEMODILUTION, *RESPIRATORY measurements, *PULMONARY circulation, *RECEIVER operating characteristic curves

Abstract

Background: No direct approach assessing pulmonary vascular permeability exists in the current therapeutic strategy for patients with acute respiratory distress syndrome (ARDS). Transpulmonary thermodilution measures hemodynamic parameters such as pulmonary vascular permeability index and extravascular lung water, enabling clinicians to assess ARDS severity. The aim of this study is to explore a precise transpulmonary thermodilution-based criteria for quantifying the severity of lung injury using a clinically relevant septic-ARDS pig model. Methods: Thirteen female pigs (weight: 31 ± 2 kg) were intubated, mechanically ventilated under anesthesia, and either assigned to septic shock-induced ARDS or control group. To confirm the development of ARDS, we performed computed tomography (CT) imaging in randomly selected animals. The pulmonary vascular permeability index, extravascular lung water, and other hemodynamic parameters were consecutively measured during the development of septic lung injury. Lung status was categorized as normal (partial pressure of oxygen/fraction of inspired oxygen ≥ 400), or injured at different degrees: pre-ARDS (300–400), mild-to-moderate ARDS (100–300), or severe ARDS (< 100). We also measured serum inflammatory cytokines and high mobility group box 1 levels during the experiment to explore the relationship of the pulmonary vascular permeability index with these inflammatory markers. Results: Using CT image, we verified that animals subjected to ARDS presented an extent of consolidation in bilateral gravitationally dependent gradient that expands over time, with diffuse ground-glass opacification. Further, the post-mortem histopathological analysis for lung tissue identified the key features of diffuse alveolar damage in all animals subjected to ARDS. Both pulmonary vascular permeability index and extravascular lung water increased significantly, according to disease severity. Receiver operating characteristic analysis demonstrated that a cut-off value of 3.9 for the permeability index provided optimal sensitivity and specificity for predicting severe ARDS (area under the curve: 0.99, 95% confidence interval, 0.98–1.00; sensitivity = 100%, and specificity = 92.5%). The pulmonary vascular permeability index was superior in its diagnostic value than extravascular lung water. Furthermore, the pulmonary vascular permeability index was significantly associated with multiple parameters reflecting clinicopathological changes in animals with ARDS. Conclusion: The pulmonary vascular permeability index is an effective indicator to measure septic ARDS severity. [ABSTRACT FROM AUTHOR]

Published

2022

30. The ultrasound estimation of extravascular lung water in volume controlled versus pressure controlled ventilation after one lung ventilation in Thoracoscopic surgery. A-comparative study.

Author

Ibrahim, Ahmed Mohamed Ahmed, Hosny, Hisham, El-Agaty, Ahmed, and Hamza, Mohamed Khaled

Abstract

Thoracoscopic surgeries are an absolute indication of one lung ventilation OLV, the choice of using volume-controlled ventilation (VCV) or pressure controlled ventilation (PCV) remains controversial. Respiratory complications are major cause of postoperative morbidity which is associated with increased extravascular lung water (EVLW). Assessment of (EVLW) helps in early detection and treatment of respiratory complications. Lung ultrasound (LUS) has been suggested as reliable method of assessment of EVLW. This study was designed to figure out whether there was any difference in OLV by either PCV or VCV on EVLW water in the ventilated lung using LUS score and arterial oxygenation. 50 patients were randomly assigned into two groups; Group V: received VCV (Vt 7 ml/kg ideal body weight) Group P: received PCV (To achieve Vt 7 ml/kg ideal body weight, Pmax 30 cmh2o) We found that both techniques PCV and VCV showed no statistically significant differences as regards the ultrasound score at different timings of measurement; (T0) before induction of anesthesia, (T5) immediately at the end of operation after extubation, and (T6) 2 hours after ICU admission. Where P values were 0.525, 0.309, and 0.597 consecutively, we also found there were no statistically significant differences between the two groups regarding hemodynamics, arterial blood gases, ventilatory parameters. We concluded that when utilizing VCV & PCV in OLV in thoracospic surgeries there was no statistically significant difference regarding EVLW score measured by LUS in the ventilated lung. [ABSTRACT FROM AUTHOR]

Published

2022

31. Pulmonary Edema

Author

Kirov, Mikhail Y., Kuzkov, Vsevolod V., Kirov, Mikhail Y., editor, Kuzkov, Vsevolod V., editor, and Saugel, Bernd, editor

Published

2021

32. The INVENT COVID trial: a structured protocol for a randomized controlled trial investigating the efficacy and safety of intravenous imatinib mesylate (Impentri®) in subjects with acute respiratory distress syndrome induced by COVID-19

Author

Leila Atmowihardjo, Job R. Schippers, Imke H. Bartelink, Pierre M. Bet, Nienke van Rein, Keith Purdy, David Cavalla, Valérie Comberiati, Andrew McElroy, Sue D. Snape, Harm Jan Bogaard, Leo Heunks, Nicole Juffermans, Marcus Schultz, Pieter R. Tuinman, Lieuwe D. J. Bos, and Jurjan Aman

Subjects

COVID-19, Randomized controlled trial, Protocol, ARDS, Imatinib, Extravascular lung water, Medicine (General), R5-920

Abstract

Abstract Background The coronavirus disease 2019 (COVID-19) pandemic has led to a disruptive increase in the number of intensive care unit (ICU) admissions with acute respiratory distress syndrome (ARDS). ARDS is a severe, life-threatening medical condition characterized by widespread inflammation and vascular leak in the lungs. Although there is no proven therapy to reduce pulmonary vascular leak in ARDS, recent studies demonstrated that the tyrosine kinase inhibitor imatinib reinforces the endothelial barrier and prevents vascular leak in inflammatory conditions, while leaving the immune response intact. Methods This is a randomized, double-blind, parallel-group, placebo-controlled, multicenter clinical trial of intravenous (IV) imatinib mesylate in 90 mechanically ventilated subjects with COVID-19-induced ARDS. Subjects are 18 years or older, admitted to the ICU for mechanical ventilation, meeting the Berlin criteria for moderate-severe ARDS with a positive polymerase chain reaction test for SARS-CoV2. Participants will be randomized in a 1:1 ratio to either imatinib (as mesylate) 200 mg bis in die (b.i.d.) or placebo IV infusion for 7 days, or until ICU discharge or death. The primary study outcome is the change in Extravascular Lung Water Index (EVLWi) between day 1 and day 4. Secondary outcome parameters include changes in oxygenation and ventilation parameters, duration of invasive mechanical ventilation, number of ventilator-free days during the 28-day study period, length of ICU stay, and mortality during 28 days after randomization. Additional secondary parameters include safety, tolerability, and pharmacokinetics. Discussion The current study aims to investigate the efficacy and safety of IV imatinib in mechanically ventilated subjects with COVID-19-related ARDS. We hypothesize that imatinib decreases pulmonary edema, as measured by extravascular lung water using a PiCCO catheter. The reduction in pulmonary edema may reverse hypoxemic respiratory failure and hasten recovery. As pulmonary edema is an important contributor to ARDS, we further hypothesize that imatinib reduces disease severity, reflected by a reduction in 28-day mortality, duration of mechanical ventilation, and ICU length of stay. Trial status Protocol version and date: V3.1, 16 April 2021. Recruitment started on 09 March 2021. Estimated recruitment period of approximately 40 weeks. Trial registration ClinicalTrials.gov NCT04794088 . Registered on 11 March 2021.

Published

2022

33. Lung ultrasound as an evolving tool in the detection of extravascular lung water following goal-directed fluid therapy in septic cancer patients.

Author

Elsabeeny, Walaa Y., Ibrahim, Mostafa A., El Desouky, Eman D., Hamed, Mohamed, and Shaker, Ehab H.

Subjects

*FLUID therapy, *CENTRAL venous pressure, *LUNGS, *SEPTIC shock, *GOAL (Psychology)

Abstract

Background: Severe sepsis can result in septic shock with a high mortality rate. This study aimed to assess the correlation between B-lines detected by lung ultrasound (LUS) and thoracic fluid content (TFC) and to compare their sensitivity and specificity to predict lung congestion on conventional chest radiograph following early goal-directed fluid therapy in septic cancer patients. Methods: This study included 30 patients suffering from sepsis admitted to the intensive care unit. They received resuscitation according to the surviving sepsis campaign 2018 guidelines. Lung ultrasonography, TFC, central venous pressure (CVP), and inferior vena cava (IVC) scanning were done upon admission then after 3, 6, and 12 h. Chest X-ray was done after 6 h then at the study end (12 h) and CT chest at 12 h. Results: B-lines showed a moderate-to-strong positive correlation with TFC, a moderate and positive correlation with CVP, and a negative and weak-to-moderate correlation with IVC collapsibility index. The performance of LUS was good at 6 h (AUC = 0.872, 95% CI = 0.700 to 0.965, P < 0.001), and the optimal cut-off value was 7 with a sensitivity and specificity of 75% and 95.5%, respectively. The sensitivity and specificity increased to reach 100% at 12 h using a cut-off value of 9. Meanwhile TFC had lower AUCs compared to B-lines at the two-time points though the difference was statistically non-significant. Conclusion: Lung ultrasound can be considered a useful non-invasive bedside tool for early detection of extravascular lung water during the early resuscitation phase of goal-directed fluid therapy in sepsis patients. [ABSTRACT FROM AUTHOR]

Published

2022

34. How can assessing hemodynamics help to assess volume status?

Author

De Backer, Daniel, Aissaoui, Nadia, Cecconi, Maurizio, Chew, Michelle S., Denault, André, Hajjar, Ludhmila, Hernandez, Glenn, Messina, Antonio, Myatra, Sheila Nainan, Ostermann, Marlies, Pinsky, Michael R., Teboul, Jean-Louis, Vignon, Philippe, Vincent, Jean-Louis, and Monnet, Xavier

Abstract

In critically ill patients, fluid infusion is aimed at increasing cardiac output and tissue perfusion. However, it may contribute to fluid overload which may be harmful. Thus, volume status, risks and potential efficacy of fluid administration and/or removal should be carefully evaluated, and monitoring techniques help for this purpose. Central venous pressure is a marker of right ventricular preload. Very low values indicate hypovolemia, while extremely high values suggest fluid harmfulness. The pulmonary artery catheter enables a comprehensive assessment of the hemodynamic profile and is particularly useful for indicating the risk of pulmonary oedema through the pulmonary artery occlusion pressure. Besides cardiac output and preload, transpulmonary thermodilution measures extravascular lung water, which reflects the extent of lung flooding and assesses the risk of fluid infusion. Echocardiography estimates the volume status through intravascular volumes and pressures. Finally, lung ultrasound estimates lung edema. Guided by these variables, the decision to infuse fluid should first consider specific triggers, such as signs of tissue hypoperfusion. Second, benefits and risks of fluid infusion should be weighted. Thereafter, fluid responsiveness should be assessed. Monitoring techniques help for this purpose, especially by providing real time and precise measurements of cardiac output. When decided, fluid resuscitation should be performed through fluid challenges, the effects of which should be assessed through critical endpoints including cardiac output. This comprehensive evaluation of the risk, benefits and efficacy of fluid infusion helps to individualize fluid management, which should be preferred over a fixed restrictive or liberal strategy. [ABSTRACT FROM AUTHOR]

Published

2022

35. This title is unavailable for guests, please login to see more information.

Author

Sakanoue, Ichiro and Sakanoue, Ichiro

Published

2024

36. The Impact of the Lung Ultrasound on the Diagnosis of Interstitial Pulmonary Edema Before Extubation After Gynecologic Laparoscopic Surgery in the Trendelenburg Position: A Case Report.

Author

Boviatsis V, Triantopoulos A, Dedopoulou P, and Georgakopoulos C

Abstract

Lung ultrasound contributes to the diagnosis of perioperative pulmonary edema due to fluid overload and impairment of renal function. Laparoscopic surgery and the patient's intraoperative position can facilitate the emergence of these disturbances as well. A 34-year-old female patient underwent laparoscopic salpingectomy and ovarian resection in the Trendelenburg position because of an unruptured ectopic pregnancy. The large fluid volume administration pre- and intraoperatively and the intraoperative low urine output led to the development of interstitial pulmonary edema before extubation. The formation of comet-tail lines at the lung ultrasound indicated the administration of diuretic therapy, followed by the improvement of the patient's cardiopulmonary status, urine excretion, and extubation. A subsequent chest X-ray verified the foregoing findings. Lung ultrasound enables the quick and accurate diagnosis of interstitial edema. The early administration of diuretic therapy eliminates the potential of the patient's prolonged postoperative hospitalization, even in the intensive care unit., Competing Interests: Human subjects: Consent for treatment and open access publication was obtained or waived by all participants in this study. Conflicts of interest: In compliance with the ICMJE uniform disclosure form, all authors declare the following: Payment/services info: All authors have declared that no financial support was received from any organization for the submitted work. Financial relationships: All authors have declared that they have no financial relationships at present or within the previous three years with any organizations that might have an interest in the submitted work. Other relationships: All authors have declared that there are no other relationships or activities that could appear to have influenced the submitted work., (Copyright © 2024, Boviatsis et al.)

Published

2024

37. [Beneficial effects of extravascular lung water index-guided volum management in patients with cardiogenic shock].

Author

You JY, Guo W, Geng L, Huang J, Shen YL, and Zhang Q

Subjects

Humans, Prospective Studies, Prognosis, Male, Female, Hemodynamics, Propensity Score, Middle Aged, Cohort Studies, Shock, Cardiogenic etiology, Shock, Cardiogenic therapy, Extravascular Lung Water

Abstract

Objective: To evaluate the role of volume management guided by extravascular lung water index(EVLWI) in improving the clinical outcomes and cardiac function for patients with cardiogenic shock. Methods: This study was a single-center, prospective cohort study. Patients with cardiogenic shock admitted to the Department of Cardiovascular Medicine, Shanghai East Hospital from July 2022 to December 2023 were enrolled. Patients were matched 1∶1 by propensity score and divided into EVLWI group and control group. In the control group, the volume management strategy was determined by the attending physician based mainly on conventional factors, including clinical features, biochemical assessments, and certain blood pressure measurements. In EVLWI group, the volume management plan was formulated by integrating conventional factors with EVLWI derived from pulse index continuous cardiac output (PiCCO) monitoring. Baseline clinical data, in-hospital treatment, and hemodynamic data were collected. Major adverse cardiovascular events and cardiac function related parameters were compared at 30 d after treatment between the two groups. Baseline EVLWI levels were compared between the non-survivors and the survivors in the EVLWI group. The receiver operating characteristic curve was plotted to assess the accuracy of baseline EVLWI and central venous pressure in predicting all-cause mortality at 30 d after treatment in patients with cardiogenic shock, and subgroup analysis was performed according to ischemic/non-ischemic etiology and with/without use of inotropic drugs. Kaplan-Meier curve was used for survival analysis, with log-rank tests comparing all-cause mortality, cardiac death, and readmission rate for heart failure at 30 d after treatment. Results: A total of 200 patients with cardiogenic shock were enrolled, aged (71.35±12.82) years, 144(72%) males, EVLWI group and control group 100 patients each. Compared with the control group, EVLWI group had lower all-cause mortality (16%(16/100) vs. 42%(42/100), log-rank P <0.01), cardiac death (14%(14/100) vs. 34%(34/100), log-rank P <0.01), and readmission rate for heart failure (4%(4/100) vs. 12%(12/100), log-rank P =0.03) at 30 d after treatment. Subgroup analysis showed that EVLWI-guided volume management was associated with lower all-cause mortality at 30 d after treatment in patients with cardiogenic shock of ischemic or non-ischemic etiology and with or without inotropic drugs (all P <0.05). In EVLWI group, baseline EVLWI levels were higher in non-survivors than those in survivors [(15.99±6.47) ml/kg vs.(9.75±2.55) ml/kg, P <0.01]. The baseline EVLWI could predicting all-cause mortality at 30 d after treatment in patients with cardiogenic shock, with an area under the receiver operating characteristic curve of 0.84 (95% CI : 0.75-0.94, P <0.01), while the baseline central venous pressure had no predicting value ( AUC =0.54, 95% CI : 0.40-0.69, P =0.60). The optimal cutoff value of EVLWI in pridicting all-cause mortality at 30 d after treatment in patients with cardiogenic shock was >10.3 ml/kg. With the optimization of hemodynamic parameters, left ventricular ejection fraction was improved in EVLWI group, and serum levels of N-terminal pro-brain natriuretic peptide, creatinine, alanine aminotransferase and lactic acid were decreased (all P <0.05). Conclusion: EVLWI-guided volume management exerts a beneficial effect on therapeutic decision-making and improves clinical outcomes and cardiac function in patients with cardiogenic shock.

Published

2024

38. Anesthetic management during whole-lung lavage using lung ultrasound in a patient with pulmonary alveolar proteinosis: a case report

Author

Jae Wan Jung, Hyunho Lee, and Jimi Oh

Subjects

anesthesia, extravascular lung water, one-lung ventilation, pulmonary alveolar proteinosis, ultrasonography, Medicine (General), R5-920

Abstract

Pulmonary alveolar proteinosis (PAP) is an uncommon disease characterized by progressive accumulation of lipoprotein material in the lungs due to impaired surfactant clearance. Whole-lung lavage (WLL) is the current standard treatment and consists of sequential lavage of each lung to mechanically remove the residual material from the alveoli. Although WLL is considered safe, unexpected complications can occur. Moreover, due to the rarity of the disease itself, this procedure is unknown to many physicians, and management of intraoperative complications can be challenging for anesthesiologists. Lung ultrasound (LUS) provides reliable and valuable information for detecting perioperative pulmonary complications and, in particular, quantitation of lung water content. There have been reports on monitoring the different stages of controlled deaeration of the non-ventilated lung during WLL using LUS. However, it has been limited to non-ventilated lungs. Therefore, we report the use of LUS in WLL to proactively detect pulmonary edema in the ventilated lung and implement a safe and effective anesthesia strategy. Given the limited diagnostic tools available to anesthesiologists in the operating room, LUS is a reliable, fast, and noninvasive method for identifying perioperative pulmonary complications in patients with PAP undergoing WLL.

Published

2021

39. Safety and preliminary efficacy of sequential multiple ascending doses of solnatide to treat pulmonary permeability edema in patients with moderate-to-severe ARDS—a randomized, placebo-controlled, double-blind trial

Author

Benedikt Schmid, Markus Kredel, Roman Ullrich, Katharina Krenn, Rudolf Lucas, Klaus Markstaller, Bernhard Fischer, Peter Kranke, Patrick Meybohm, Bernhard Zwißler, Sandra Frank, and and the Solnatide Collaborators Group

Subjects

Acute respiratory distress syndrome, Solnatide, Extravascular lung water, Pulmonary edema, Critical care, Medicine (General), R5-920

Abstract

Abstract Background Acute respiratory distress syndrome (ARDS) is a complex clinical diagnosis with various possible etiologies. One common feature, however, is pulmonary permeability edema, which leads to an increased alveolar diffusion pathway and, subsequently, impaired oxygenation and decarboxylation. A novel inhaled peptide agent (AP301, solnatide) was shown to markedly reduce pulmonary edema in animal models of ARDS and to be safe to administer to healthy humans in a Phase I clinical trial. Here, we present the protocol for a Phase IIB clinical trial investigating the safety and possible future efficacy endpoints in ARDS patients. Methods This is a randomized, placebo-controlled, double-blind intervention study. Patients with moderate to severe ARDS in need of mechanical ventilation will be randomized to parallel groups receiving escalating doses of solnatide or placebo, respectively. Before advancing to a higher dose, a data safety monitoring board will investigate the data from previous patients for any indication of patient safety violations. The intervention (application of the investigational drug) takes places twice daily over the course of 7 days, ensued by a follow-up period of another 21 days. Discussion The patients to be included in this trial will be severely sick and in need of mechanical ventilation. The amount of data to be collected upon screening and during the course of the intervention phase is substantial and the potential timeframe for inclusion of any given patient is short. However, when prepared properly, adherence to this protocol will make for the acquisition of reliable data. Particular diligence needs to be exercised with respect to informed consent, because eligible patients will most likely be comatose and/or deeply sedated at the time of inclusion. Trial registration This trial was prospectively registered with the EU Clinical trials register (clinicaltrialsregister.eu). EudraCT Number: 2017-003855-47 .

Published

2021

40. Lung ultrasound to quantitatively evaluate extravascular lung water content and its clinical significance.

Author

Guo Guo, Xue-Feng Zhang, Jing Liu, and Hai-Feng Zong

Abstract

Background: As we all know, pulmonary edema can be diagnosed by lung ultrasound (LUS), but how to accurately and quantitatively evaluate lung water content by ultrasound is a difficult problem that needs to be solved urgently. B-line assessment with LUS has recently been proposed as a reliable, noninvasive semiquantitative tool for evaluating extravascular lung water (EVLW). To date, however, there has been no easy quantitative method to evaluate EVLW by LUS. Objective: (1) To explore the feasibility of establishing a rabbit model with increased EVLW by injecting warm normal saline (NS) into the lungs via the endotracheal tube. (2) To establish a simple, accurate and clinically operable method for quantitative assessment of EVLW using LUS. (3) To develop LUS into a resource for guiding the clinical treatment of patients with increased EVLW. Methods: Forty-five New Zealand rabbits were randomized into nine groups (n=5). After anesthesia, each group of rabbits was injected with different amounts of warm sterile NS (0 ml/kg, 2 ml/kg, 4 ml/kg, 6 ml/kg, 8 ml/kg, 10 ml/kg, 15 ml/kg, 20 ml/kg, 30 ml/kg) via the endotracheal tube. Each rabbit was examined by LUS before and after NS injection. At the same time, the spontaneous respiratory rate (RR, breaths per minute), heart rate (HR, bpm) and arterial blood gas (ABG) of the rabbits were recorded. Then, both lungs were dissected to obtain the wet and dry weight and conduct a complete histological examination. Results: Injecting NS into the lungs through a tracheal tube can successfully establish a rabbit model with increased EVLW. The extent of EVLW increase is related to the volume of NS injected into the lungs. As the EVLW increases, three different types of B-lines can be seen in the LUS. When the NS injection volume is 2-6 ml/kg, comet-tail artifacts and B-lines are the main patterns found on LUS; as additional NS is injected into the lungs, the rabbits' RR gradually increases, while their HR gradually decreases, ABG remains normal or shows mild metabolic acidosis (MA). Confluent B-lines grow gradually but significantly, reaching a dominant position when the NS injection volume reaches 6-8 ml/kg and predominating almost entirely when the NS injection volume is 8-15 ml/kg; at that time, rabbits' RRs and HRs decrease sharply, and the ABG indicated type I respiratory failure (RF). Compact B-lines occur and predominate almost entirely when the NS injection volume reaches 10 ml/kg and 15-20 ml/kg, respectively. At that time, rabbits begin to enter cardiac and respiratory arrest, and ABG shows type II RF and MA. Conclusion: In this study, the establishment of an animal model with increased EVLW confirmed that different lung water content had corresponding manifestations in ultrasound and was associated with different degrees of clinical symptoms, and the study results can be used to guide clinical practice. [ABSTRACT FROM AUTHOR]

Published

2022

41. Utility of Lung Ultrasound in the Estimation of Extravascular Lung Water in a Pediatric Population—A Prospective Observational Study.

Author

Niyogi, Subhrashis Guha, Kumar, Bhupesh, Puri, Goverdhan Dutt, Negi, Sunder, Mishra, Anand Kumar, and Singh Thingnam, Shyam Kumar

Abstract

Lung ultrasound (LUS) is a promising bedside modality for the estimation of extravascular lung water index (EVLWI), but has not been validated against objective measures in children. This study aimed to investigate the correlation of LUS B-line scoring with EVLWI, thresholds indicating elevated EVLWI, and its outcome following pediatric cardiac surgery. Prospective observational study. Cardiothoracic surgical intensive care unit in a tertiary care teaching hospital. Children younger than 12 years undergoing elective complete surgical correction of cyanotic or acyanotic congenital heart disease (Aristotle score ≤9), excluding neonates, those weighing <3.5 kg, and those with thoracic deformities, pulmonary pathology, and hemodynamic instability. Extravascular lung water index measurement by transpulmonary thermodilution, along with concurrent LUS B-line and Chest-X ray (CXR) scoring. LUS B-line score had a moderate correlation with EVLWI (Pearson's correlation coefficient 0.57; 95% CI 0.44-0.69). LUS B-line scores showed acceptable discrimination only for higher thresholds of EVLWI (sensitivity 82% and 79%, respectively, for EVLWI >20 mL/kg v sensitivity and specificity 57% and 80% for EVLWI >10 mL/kg). Age, body surface area, vasoactive-inotropic score (VIS), chest X-ray score, and EVLWI but not LUS B-line score were significant predictors for duration of mechanical ventilation in this cohort. LUS B-line scoring has limited utility in semiquantitative estimation of EVLWI at lower thresholds of EVLWI in pediatric cardiac surgical patients. It may have better discrimination and acceptable sensitivity and specificity at higher thresholds of EVLWI. Contrasting with multiple reports of clinical utility, these results call for wider evaluation of LUS and its clinical modifiers like age, pathology, and pretest probability in estimation of EVLWI. [ABSTRACT FROM AUTHOR]

Published

2022

42. Clinical significance of donor lung weight at procurement and during ex vivo lung perfusion.

Author

Okamoto, Toshihiro, Ayyat, Kamal S., Sakanoue, Ichiro, Niikawa, Hiromichi, Said, Sayf A., Ahmad, Usman, Unai, Shinya, Bribriesco, Alejandro, Elgharably, Haytham, Budev, Marie M., Yun, James J., and McCurry, Kenneth R.

Subjects

*LUNGS, *INTENSIVE care units, *LUNG transplantation, *PERFUSION, *TREATMENT effectiveness

Abstract

Elevated donor lung weight may adversely affect donor lung transplant suitability and post-transplant outcomes. The objective of this study is to investigate the impact of lung weight after procurement and ex vivo lung perfusion (EVLP) on transplant suitability, post-transplant graft dysfunction, and clinical outcomes and define the donor lung weight range most relevant to clinical outcomes. From February 2016 to August 2020, 365 human lung donors to a single transplant center were retrospectively reviewed. 239 were transplanted without EVLP, 74 treated with EVLP (50 went on to transplant), and 52 declined for transplant without EVLP consideration. Donor lung weights were measured immediately after procurement and, when performed, after EVLP. Lung weights were adjusted by donor height and divided into 4 quartiles. Donor lungs in the highest weight quartile at donor hospital had a significantly lower transplant suitability rate after EVLP, higher rates of primary graft dysfunction grade 3 at 72 hours, and longer intensive care unit/hospital stay. For lungs treated with lung perfusion, the highest lung weight quartile at the end of lung perfusion was associated with a significantly lower transplant suitability rate, higher incidence of primary graft dysfunction grade 3 at 72 hours, and longer intensive care unit/hospital stay, compared to the other categories. Donor lung weight stratified by quartile categories can assist decision-making regarding need for EVLP at the donor hospital as well as during EVLP evaluation. Caution should be used when considering donor lungs in the highest weight quartile for transplantation. [ABSTRACT FROM AUTHOR]

Published

2022

43. Left Ventricular Diastolic Dysfunction Is Not Associated With Pulmonary Edema in Septic Patients. A Prospective Observational Cohort Study

Author

Ursula Kahl, Leah Schirren, Yuanyuan Yu, Susanne Lezius, Marlene Fischer, Maja Menke, Christoph Sinning, Axel Nierhaus, Maren Vens, Christian Zöllner, Stefan Kluge, Matthias S. Goepfert, and Katharina Roeher

Subjects

diastolic dysfunction, lung edema, extravascular lung water, pneumonia, ultrasound, echocardiography, Diseases of the circulatory (Cardiovascular) system, RC666-701

Abstract

PurposeWe aimed to investigate whether left ventricular diastolic dysfunction (LVDD) is associated with pulmonary edema in septic patients.MethodsWe conducted a prospective cohort study in adult septic patients between October 2018 and May 2019. We performed repeated echocardiography and lung ultrasound examinations within the first 7 days after diagnosis of sepsis. We defined LVDD according to the 2016 recommendations of the American Society of Echocardiography and—for sensitivity analysis—according to an algorithm which has been validated in septic patients. We quantified pulmonary edema using the lung ultrasound score (LUSS), counting B-lines in four intercostal spaces.ResultsWe included 54 patients. LVDD was present in 51 (42%) of 122 echocardiography examinations. The mean (±SD) LUSS was 11 ± 6. There was no clinically meaningful association of LVDD with LUSS (B = 0.55 [95%CI: −1.38; 2.47]; p = 0.571). Pneumonia was significantly associated with higher LUSS (B = 4.42 [95%CI: 0.38; 8.5]; p = 0.033).ConclusionThe lack of a clinically meaningful association of LVDD with LUSS suggests that LVDD is not a major contributor to pulmonary edema in septic patients.Trial RegistrationNCT03768752, ClinicalTrials.gov, November 30th, 2018 - retrospectively registered.

Published

2022

44. Acute Dyspnea

Author

Cipani, Simone, Marini, Federica, Sarti, Armando, editor, and Lorini, F. Luca, editor

Published

2019

45. Point-of-Care Ultrasound (POCUS) for the assessment of volume status and fluid management in patients with severe pre-eclampsia: A systematic review and meta-analysis

Author

Sukhminder Jit Singh Bajwa, Madhuri S Kurdi, Jagadish G Sutagatti, Sukhwinder K Bajwa, and Kaushic A Theerth

Subjects

echocardiography, extravascular lung water, lung, obstetric, point-of-care systems, pre-eclampsia, pregnancy, pulmonary oedema, toxaemia, ultrasonography, Anesthesiology, RD78.3-87.3

Abstract

Background and Aims: Appropriate volume assessment and fluid management can prevent maternal deaths in the severely pre-eclamptic (SPE) parturients. We planned a systematic review and meta-analysis (MA) to evaluate the role and ability of point-of-care ultrasound (POCUS) in the assessment of volume status and early detection of lung oedema in an SPE parturient. Methods: An e-literature search was done from several databases. Data were extracted under five domains including POCUS-derived parameters like echo comet score (ECS), lung ultrasound (LUS) scores, B-patterns, optic nerve sheath diameter (ONSD), E/e' ratio, presence of pleural effusion, pulmonary interstitial syndrome and pulmonary congestion. The risk of bias was assessed. Extracted data were analysed using MetaXL and Revman 5.3. Heterogeneity in the studies was evaluated using the Cochrane Q test and I2 statistics. Funnel plots were used for the assessment of publication bias. Results: Seven prospective studies including 574 parturients (including 396 pre-eclamptics) were selected. POCUS included lung, optic nerve, cardiac and thoracic US. In two studies, the ECS and LUS scores pre-delivery were higher in pre-eclamptics. Two studies found a mean ONSD of 5–5.84 mm before delivery. MA revealed a significantly lower mean ECS score at post-delivery than pre-delivery, and the summary prevalence of B-pattern and pleural effusion among SPE parturients was found to be 0.28 (0.03–0.84) and 0.1 (0–0.2), respectively. A good correlation was observed between B-line patterns and diastolic dysfunction (increased E/e' ratio), LUS score and thoracic fluid content, ONSD and ECS in individual studies. Conclusion: POCUS parameters can be useful as early markers of fluid status and serve as useful tools in the precise clinical management of pre-eclampsia.

Published

2021

46. The INVENT COVID trial: a structured protocol for a randomized controlled trial investigating the efficacy and safety of intravenous imatinib mesylate (Impentri®) in subjects with acute respiratory distress syndrome induced by COVID-19.

Author

Atmowihardjo, Leila, Schippers, Job R., Bartelink, Imke H., Bet, Pierre M., van Rein, Nienke, Purdy, Keith, Cavalla, David, Comberiati, Valérie, McElroy, Andrew, Snape, Sue D., Bogaard, Harm Jan, Heunks, Leo, Juffermans, Nicole, Schultz, Marcus, Tuinman, Pieter R., Bos, Lieuwe D. J., and Aman, Jurjan

Abstract

Background: The coronavirus disease 2019 (COVID-19) pandemic has led to a disruptive increase in the number of intensive care unit (ICU) admissions with acute respiratory distress syndrome (ARDS). ARDS is a severe, life-threatening medical condition characterized by widespread inflammation and vascular leak in the lungs. Although there is no proven therapy to reduce pulmonary vascular leak in ARDS, recent studies demonstrated that the tyrosine kinase inhibitor imatinib reinforces the endothelial barrier and prevents vascular leak in inflammatory conditions, while leaving the immune response intact.Methods: This is a randomized, double-blind, parallel-group, placebo-controlled, multicenter clinical trial of intravenous (IV) imatinib mesylate in 90 mechanically ventilated subjects with COVID-19-induced ARDS. Subjects are 18 years or older, admitted to the ICU for mechanical ventilation, meeting the Berlin criteria for moderate-severe ARDS with a positive polymerase chain reaction test for SARS-CoV2. Participants will be randomized in a 1:1 ratio to either imatinib (as mesylate) 200 mg bis in die (b.i.d.) or placebo IV infusion for 7 days, or until ICU discharge or death. The primary study outcome is the change in Extravascular Lung Water Index (EVLWi) between day 1 and day 4. Secondary outcome parameters include changes in oxygenation and ventilation parameters, duration of invasive mechanical ventilation, number of ventilator-free days during the 28-day study period, length of ICU stay, and mortality during 28 days after randomization. Additional secondary parameters include safety, tolerability, and pharmacokinetics.Discussion: The current study aims to investigate the efficacy and safety of IV imatinib in mechanically ventilated subjects with COVID-19-related ARDS. We hypothesize that imatinib decreases pulmonary edema, as measured by extravascular lung water using a PiCCO catheter. The reduction in pulmonary edema may reverse hypoxemic respiratory failure and hasten recovery. As pulmonary edema is an important contributor to ARDS, we further hypothesize that imatinib reduces disease severity, reflected by a reduction in 28-day mortality, duration of mechanical ventilation, and ICU length of stay.Trial Status: Protocol version and date: V3.1, 16 April 2021. Recruitment started on 09 March 2021. Estimated recruitment period of approximately 40 weeks.Trial Registration: ClinicalTrials.gov NCT04794088 . Registered on 11 March 2021. [ABSTRACT FROM AUTHOR]

Published

2022

47. Update on the Features and Measurements of Experimental Acute Lung Injury in Animals: An Official American Thoracic Society Workshop Report: Executive Summary.

Author

Kulkarni, Hrishikesh S., Lee, Janet S., Bastarache, Julie A., Kuebler, Wolfgang M., Downey, Gregory P., Albaiceta, Guillermo M., Altemeier, William A., Artigas, Antonio, Bates, Jason H. T., Calfee, Carolyn S., Dela Cruz, Charles S., Dickson, Robert P., Englert, Joshua A., Everitt, Jeffrey I., Fessler, Michael B., Gelman, Andrew E., Gowdy, Kymberly M., Groshong, Steve D., Herold, Susanne, and Homer, Robert J.

Subjects

LUNG injuries, ANIMAL models in research, ADULT respiratory distress syndrome, INFLAMMATION, DELPHI method

Abstract

Advancements in methods, technology, and our understanding of the pathobiology of lung injury have created the need to update the definition of experimental acute lung injury (ALI). We queried 50 participants with expertise in ALI and acute respiratory distress syndrome using a Delphi method composed of a series of electronic surveys and a virtual workshop. We propose that ALI presents as a "multidimensional entity" characterized by four "domains" that reflect the key pathophysiologic features and underlying biology of human acute respiratory distress syndrome. These domains are 1) histological evidence of tissue injury, 2) alteration of the alveolar-capillary barrier, 3) presence of an inflammatory response, and 4) physiologic dysfunction. For each domain we present "relevant measurements," defined as those proposed by at least 30% of respondents. We propose that experimental ALI encompasses a continuum of models ranging from those focusing on gaining specific mechanistic insights to those primarily concerned with preclinical testing of novel therapeutics or interventions. We suggest that mechanistic studies may justifiably focus on a single domain of lung injury, but models must document alterations of at least three of the four domains to qualify as "experimental ALI." Finally, we propose that a time criterion defining "acute" in ALI remains relevant, but the actual time may vary based on the specific model and the aspect of injury being modeled. The continuum concept of ALI increases the flexibility and applicability of the definition to multiple models while increasing the likelihood of translating preclinical findings to critically ill patients. [ABSTRACT FROM AUTHOR]

Published

2022

48. Resuscitation of hemorrhagic shock using normal saline does not damage the glycocalyx in the immediate resuscitation phase.

Author

Pudjiadi, Antonius Hocky, Firmansyah, Agus, Soeyono, D. V. M. Gunanti, Bardosono, Saptawati, Jusman, Sri Widia, Siagian, Minarma, and Lubis, Munar

Subjects

*HEMORRHAGIC shock, *ATRIAL natriuretic peptides, *GLYCOCALYX, *RESUSCITATION, *VASCULAR resistance

Abstract

OBJECTIVES: The objectives were to study the effect of aggressive resuscitation using normal saline on hemodynamics, serum atrial natriuretic peptide (ANP), syndecan‑1 (marker of endothelial glycocalyx shedding), and extravascular lung water index (ELWI) following hemorrhagic shock. METHODS: Eleven male piglets (Sus scrofa) underwent blood drawing to create 20% drop in mean arterial pressure (MAP). Two‑phase resuscitation was performed: Phase 1 using normal saline of an equal volume of blood drawn to create shock and Phase 2 using 40 ml/kg BW of normal saline to simulate hypervolemia and hemodilution. Heart rate, MAP, cardiac index (CI), systemic vascular resistance index, oxygen delivery (DO2), global end‑diastolic volume index, ELWI, hemoglobin (Hb), lactate, ANP, and syndecan‑1 at each phase and up to 60 min following Phase 2 resuscitation were recorded. RESULTS: Phase 2 resuscitation significantly decreased Hb concentration (P = 0.006), however, DO2 was maintained (P = 1.000). CI increased from shock to Phase 1 (P = 0.029) and further increase in Phase 2 resuscitation (P = 0.001). Overall, there was a transient increase of ANP following Phase 1 resuscitation, from 85.20 ± 40.86 ng/L at baseline to 106.42 ± 33.71 ng/L (P = 0.260). Serum syndecan‑1 and ELWI change at all phases were not significant. CONCLUSIONS: We demonstrate compensatory protective mechanism despite overzealous fluid resuscitation. Compensatory increased CI despite decreased Hb maintained DO2. In the absence of inflammation, serum ANP did not increase significantly, no glycocalyx shedding occurred, subsequently no change in ELWI. We show that factors other than volume overload are more dominant in causing glycocalyx shedding. [ABSTRACT FROM AUTHOR]

Published

2022

49. 肝移植术"血流动力学指标与术后肺部并发症的关系.

Author

栾远航, 谢言虎, 柴小青, 章敏, 章蔚, 李传耀, 侯冠峰, and 王迪

Abstract

Copyright of Chinese Journal of Clinical Healthcare is the property of Chinese Journal of Clinical Healthcare and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2021

50. Point-of-Care Ultrasound (POCUS) for the assessment of volume status and fluid management in patients with severe pre-eclampsia: A systematic review and meta-analysis.

Author

Singh Bajwa, Sukhminder, Kurdi, Madhuri, Sutagatti, Jagadish, Bajwa, Sukhwinder, and Theerth, Kaushic

Subjects

*ULTRASONIC imaging, *PREECLAMPSIA, *POINT-of-care testing, *LUNGS, *PREGNANT women, *ECLAMPSIA

Abstract

Background and Aims: Appropriate volume assessment and fluid management can prevent maternal deaths in the severely pre-eclamptic (SPE) parturients. We planned a systematic review and meta-analysis (MA) to evaluate the role and ability of point-of-care ultrasound (POCUS) in the assessment of volume status and early detection of lung oedema in an SPE parturient. Methods: An e-literature search was done from several databases. Data were extracted under five domains including POCUS-derived parameters like echo comet score (ECS), lung ultrasound (LUS) scores, B-patterns, optic nerve sheath diameter (ONSD), E/e' ratio, presence of pleural effusion, pulmonary interstitial syndrome and pulmonary congestion. The risk of bias was assessed. Extracted data were analysed using MetaXL and Revman 5.3. Heterogeneity in the studies was evaluated using the Cochrane Q test and I2 statistics. Funnel plots were used for the assessment of publication bias. Results: Seven prospective studies including 574 parturients (including 396 pre-eclamptics) were selected. POCUS included lung, optic nerve, cardiac and thoracic US. In two studies, the ECS and LUS scores pre-delivery were higher in pre-eclamptics. Two studies found a mean ONSD of 5–5.84 mm before delivery. MA revealed a significantly lower mean ECS score at post-delivery than pre-delivery, and the summary prevalence of B-pattern and pleural effusion among SPE parturients was found to be 0.28 (0.03–0.84) and 0.1 (0–0.2), respectively. A good correlation was observed between B-line patterns and diastolic dysfunction (increased E/e' ratio), LUS score and thoracic fluid content, ONSD and ECS in individual studies. Conclusion: POCUS parameters can be useful as early markers of fluid status and serve as useful tools in the precise clinical management of pre-eclampsia. [ABSTRACT FROM AUTHOR]

Published

2021