Assessing Fluid Intolerance with Doppler Ultrasonography: A Physiological Framework

Kenny, Jon‐Émile S.

doi:10.3390/medsci10010012

Cited by 14 publications

(18 citation statements)

References 105 publications

(115 reference statements)

Supporting

Mentioning

Contrasting

Order By: Relevance

“…A recently published framework speculates how simultaneously acquired venous and arterial Doppler ultrasound could inform patient therapy and posits that Doppler ultrasound accompany all advanced critical care echocardiography to better delineate unique hemodynamic phenotypes [ 6 ]. For instance, dynamic fluid intolerance describes a hypo-perfused patient subtype with suggestive signs of low filling pressure (e.g., flat jugular vein, collapsing inferior vena cava, low central venous pressure) who is, nevertheless, found to be fluid unresponsive during a dynamic maneuver such as a PLR [ 6 ]. We envision how this phenotype could be detected using the ultrasound system described by Wang and colleagues.…”

Section: Discussionmentioning

confidence: 99%

“…Though not explicitly described by Wang and colleagues, we believe what is most exciting about these data is simultaneous, noninvasive venous and arterial ultrasound surrogates for cardiac input and output, respectively. This novel paradigm has substantial inpatient and outpatient diagnostic and therapeutic implicationsfor example, real-time inferences of the Frank-Starling mechanism [2,[4][5][6]. This is of particular interest in the ICU.…”

Section: Physiological Implicationsmentioning

confidence: 99%

“…*Correspondence: jon-emile@heart-lung.org phenotypes [6]. For instance, dynamic fluid intolerance describes a hypo-perfused patient subtype with suggestive signs of low filling pressure (e.g., flat jugular vein, collapsing inferior vena cava, low central venous pressure) who is, nevertheless, found to be fluid unresponsive during a dynamic maneuver such as a PLR [6]. We envision how this phenotype could be detected using the ultrasound system described by Wang and colleagues.…”

Section: Open Accessmentioning

confidence: 99%

See 2 more Smart Citations

Wearable ultrasound and provocative hemodynamics: a view of the future

Kenny

Munding²,

Eibl

et al. 2022

Crit Care

View full text Add to dashboard Cite

Section: Discussionmentioning

confidence: 99%

Section: Physiological Implicationsmentioning

confidence: 99%

Section: Open Accessmentioning

confidence: 99%

See 1 more Smart Citation

Wearable ultrasound and provocative hemodynamics: a view of the future

Kenny

Munding²,

Eibl

et al. 2022

Crit Care

View full text Add to dashboard Cite

“…In these cases, a wearable Doppler device could guide sufficient, but not excessive, pericardial drainage. Additionally, the Doppler patch could be used to assess the hemodynamic response of intravenous fluids (9)(10)(11) and vasopressors for patients before drainage or in situations where the risk and benefits of drainage are less clear.…”

Section: Key Pointsmentioning

confidence: 99%

A Wireless, Wearable Carotid Doppler Ultrasound Aids Diagnosis and Monitoring of Pericardial Tamponade: A Case Report

Prager

Pratte

Kenny

et al. 2023

Critical Care Explorations

View full text Add to dashboard Cite

BACKGROUND: Pericardial tamponade can often be diagnosed through clinical findings and echocardiography; however, the diagnosis can be aided by demonstrating the hemodynamic consequences of the effusion. We describe the use of a wearable carotid Doppler device to help diagnose and monitor pericardial tamponade. CASE SUMMARY: A 54-year-old man developed hypotension after an endobronchial biopsy for a lung mass. Echocardiography showed a pericardial effusion with sonographic evidence of tamponade. A wearable carotid Doppler device demonstrated low corrected carotid flow time (CFT) (a surrogate for stroke volume) with significant respiratory variation, supporting the diagnosis of tamponade. The patient underwent pericardiocentesis which revealed purulent pericardial fluid from a mediastinal abscess. After drainage there was increased CFT and reduced respiratory variability in Doppler, surrogates of improved stroke volume. CONCLUSION: A wearable carotid Doppler device is a noninvasive tool that can help determine the hemodynamic impact of a pericardial effusion, and potentially aid in the diagnosis of pericardial tamponade.

show abstract

“…At its core is the notion that intravenous (IV) fluid has an intended effect, that is, to increase stroke volume (SV) [ 4 , 5 ]. This cause-and-effect relationship between cardiac input (i.e., preload, IV fluids) and SV is described by the ‘Starling’, or ‘cardiac function’, curve [ 6 , 7 ]. Critically, during acute illness many patients flatten their cardiac function curve such that augmenting preload with IV fluid does not have the intended effect of improving SV [ 8 , 9 ].…”

Section: Introductionmentioning

confidence: 99%

The time cost of physiologically ineffective intravenous fluids in the emergency department: an observational pilot study employing wearable Doppler ultrasound

Kenny

Gibbs²,

Johnston³

et al. 2023

j intensive care

View full text Add to dashboard Cite

Background Little data exist on the time spent by emergency department (ED) personnel providing intravenous (IV) fluid to ‘responsive’ versus ‘unresponsive’ patients. Methods A prospective, convenience sample of adult ED patients was studied; patients were enrolled if preload expansion was indicated for any reason. Using a novel, wireless, wearable ultrasound, carotid artery Doppler was obtained before and throughout a preload challenge (PC) prior to each bag of ordered IV fluid. The treating clinician was blinded to the results of the ultrasound. IV fluid was deemed ‘effective’ or ‘ineffective’ based on the greatest change in carotid artery corrected flow time (ccFT∆) during the PC. The duration, in minutes, of each bag of IV fluid administered was recorded. Results 53 patients were recruited and 2 excluded for Doppler artifact. There were 86 total PCs included in the investigation comprising 81.7 L of administered IV fluid. 19,667 carotid Doppler cardiac cycles were analyzed. Using ccFT∆ ≥ + 7 ms to discriminate ‘physiologically effective’ from ‘ineffective’ IV fluid, we observed that 54 PCs (63%) were ‘effective’, comprising 51.7 L of IV fluid, whereas, 32 (37%) were ‘ineffective’ comprising 30 L of IV fluid. 29.75 total hours across all 51 patients were spent in the ED providing IV fluids categorized as ‘ineffective.’ Conclusions We report the largest-known carotid artery Doppler analysis (i.e., roughly 20,000 cardiac cycles) in ED patients requiring IV fluid expansion. A clinically significant amount of time was spent providing physiologically ineffective IV fluid. This may represent an avenue to improve ED care efficiency.

show abstract

Assessing Fluid Intolerance with Doppler Ultrasonography: A Physiological Framework

Cited by 14 publications

References 105 publications

Wearable ultrasound and provocative hemodynamics: a view of the future

Wearable ultrasound and provocative hemodynamics: a view of the future

A Wireless, Wearable Carotid Doppler Ultrasound Aids Diagnosis and Monitoring of Pericardial Tamponade: A Case Report

The time cost of physiologically ineffective intravenous fluids in the emergency department: an observational pilot study employing wearable Doppler ultrasound

Contact Info

Product

Resources

About