Acute and Critical Care

Original Articles

Cardiology
Clinical decision guidance by an automated, brachial cuff-based cardiac output assessment in patients with shock under treatment: a pilot study in Athens, Greece: Dimitrios Xanthis, Panagiotis Kanatas, Dimitrios Mouziouras, Antonios A. Argyris, Pavlos Vernikos, Georgia Mastakoura, Elpida Athanasopoulou, Theodore G. Papaioannou, Athanase D. Protogerou; Acute Crit Care. 2025;40(2):273-281. Published online May 23, 2025; DOI: https://doi.org/10.4266/acc.001728

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Abstract PDF: Background
Cardiac output (CO) estimation in patients in intensive care units (ICUs) by a non-invasive, automated, oscillometric, cuff-based apparatus (Mobil-O-Graph [MG]) is reproducible with acceptable accuracy versus thermodilution. In this pilot study, we tested the hypothesis that clinical decisions based on the MG device are in agreement with those based on invasive measurements using a Swan-Ganz catheter (SGC). Methods: Hemodynamic monitoring using an SGC and an MG was performed on 20 consenting critically ill patients in shock and under treatment, hospitalized in ICU. Retrospectively, three ICU physicians were asked to determine the need for blood transfusion, inotropes, fluids, diuretics, oxygen, and vasoconstrictive agents. Decisions (defined as “need for action” or “no action”) were based: (i) on SGC-acquired data and standard ICU monitoring (SIM); (ii) on MG-acquired data and SIM; (iii) SIM only. The decisions were compared using Cohen’s kappa agreement coefficient and Wilcoxon’s nonparametric test. Results: The overall number of decisions, as well as the subanalysis of “need for action” decisions, based either on information from an SGC or MG, were comparable. The significant positive kappa agreement coefficients indicated moderate to strong agreement. MG-derived decisions agreed with SGC-derived decisions to a significantly higher degree compared with SIM-based decisions. Conclusions: Clinical decisions in the ICU setting based on MG data were in acceptable agreement with SGC-based decisions. Larger studies are required to confirm this finding. MG devices may provide a simple, operator-independent, low-cost, first-line bedside method for simultaneous continuous monitoring of blood pressure and CO levels in critically ill patients outside the ICU.

Trauma
The correlation between carotid artery Doppler and stroke volume during central blood volume loss and resuscitation: Isabel Kerrebijn, Sarah Atwi, Mai Elfarnawany, Andrew M. Eibl, Joseph K. Eibl, Jenna L. Taylor, Chul Ho Kim, Bruce D. Johnson, Jon-Émile S. Kenny; Acute Crit Care. 2024;39(1):162-168. Published online February 23, 2024; DOI: https://doi.org/10.4266/acc.2023.01095

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3 Web of Science
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Background
Using peripheral arteries to infer central hemodynamics is common among hemodynamic monitors. Doppler ultrasound of the common carotid artery has been used in this manner with conflicting results. We investigated the relationship between changing common carotid artery Doppler measures and stroke volume (SV), hypothesizing that more consecutively-averaged cardiac cycles would improve SV-carotid Doppler correlation.
Methods
Twenty-seven healthy volunteers were recruited and studied in a physiology laboratory. Carotid artery Doppler pulse was measured with a wearable, wireless ultrasound during central hypovolemia and resuscitation induced by a stepped lower body negative pressure protocol. The change in maximum velocity time integral (VTI) and corrected flow time of the carotid artery (ccFT) were compared with changing SV using repeated measures correlation.
Results
In total, 73,431 cardiac cycles were compared across 27 subjects. There was a strong linear correlation between changing SV and carotid Doppler measures during simulated hemorrhage (repeated-measures linear correlation [Rrm ]=0.91 for VTI; 0.88 for ccFT). This relationship improved with larger numbers of consecutively-averaged cardiac cycles. For ccFT, beyond four consecutively-averaged cardiac cycles the correlation coefficient remained strong (i.e., Rrm of at least 0.80). For VTI, the correlation coefficient with SV was strong for any number of averaged cardiac cycles. For both ccFT and VTI, Rrm remained stable around 25 consecutively-averaged cardiac cycles.
Conclusions
There was a strong linear correlation between changing SV and carotid Doppler measures during central blood volume loss. The strength of this relationship was dependent upon the number of consecutively-averaged cardiac cycles.

Citations

Citations to this article as recorded by

Agreement Between Ventricular-Arterial Coupling Measured by Carotid Ultrasound and Transesophageal Echocardiography in Cardiac Surgery Patients:A Proof-of-Concept Study
Frederique M. de Raat, Esmée C. de Boer, Igor W.F. Paulussen, Joris van Houte, R. Arthur Bouwman, Leon J. Montenij
Journal of Cardiothoracic and Vascular Anesthesia.2026; 40(4): 1122. CrossRef
The feasibility of monitoring trauma patients with a wireless, wearable Doppler ultrasound
Luis Da Luz, Sarah Atwi, Lowyl Notario, Rachael Irvine, Diane Farah, Delaney Johnston, Jon‐Emile S. Kenny, Joseph K. Eibl, Dylan Pannell
Transfusion.2025;[Epub] CrossRef
Carotid Artery Corrected Flow Time Measured by Wearable Doppler Ultrasound Detects Stroke Volume Change Measured by Transesophageal Echocardiography After Coronary Artery Bypass Grafting
Jon-Emile S. Kenny, Geoffrey Clarke, Sarah Atwi, Isabel Kerrebijn, Tracy Savery, Meredith Knott, Chelsea E. Munding, Mai Elfarnawany, Andrew M. Eibl, Joseph K. Eibl, Bhanu Nalla, Rony Atoui
CHEST Critical Care.2025; 3(2): 100138. CrossRef

Review Articles

Cardiology/Infection
How Do I Integrate Hemodynamic Variables When Managing Septic Shock?: Olfa Hamzaoui, Jean-Louis Teboul; Korean J Crit Care Med. 2016;31(4):265-275. Published online November 30, 2016; DOI: https://doi.org/10.4266/kjccm.2016.00927

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Abstract PDF

Hemodynamic management of sepsis-induced circulatory failure is complex since this pathological state includes multiple cardiovascular derangements that can vary from patient to patient according to the degree of hypovolemia, of vascular tone depression, of myocardial depression and of microvascular dysfunction. The treatment of the sepsis-induced circulatory failure is thus not univocal and should be adapted on an individual basis. As physical examination is insufficient to obtain a comprehensive picture of the hemodynamic status, numerous hemodynamic variables more or less invasively collected, have been proposed to well assess the severity of each component of the circulatory failure and to monitor the response to therapy. In this article, we first describe the hemodynamic variables, which are the most relevant to be used, emphasizing on their physiological meaning, their validation and their limitations in patients with septic shock. We then proposed a general approach for managing patients with septic shock by describing the logical steps that need to be followed in order to select and deliver the most appropriate therapies. This therapeutic approach is essentially based on knowledge of physiology, of pathophysiology of sepsis, and of published data from clinical studies that addressed the issue of hemodynamic management of septic shock.

Citations

Citations to this article as recorded by

Enhancement in Performance of Septic Shock Prediction Using National Early Warning Score, Initial Triage Information, and Machine Learning Analysis
Hyoungju Yun, Jeong Ho Park, Dong Hyun Choi, Sang Do Shin, Myoung-jin Jang, Hyoun-Joong Kong, Suk Wha Kim
The Journal of Emergency Medicine.2021; 61(1): 1. CrossRef

Hemodynamic Monitoring and Treatment Strategy of Acute Heart Failure: Chul Soo Park; Korean J Crit Care Med. 2011;26(1):1-5.; DOI: https://doi.org/10.4266/kjccm.2011.26.1.1

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Abstract PDF

Acute heart failure (AHF) has emerged as a major public health problem over the past 2 decades and AHF represents a period of high risk for patients, during which time the patients are more susceptible to have fatal outcomes or be re-hospitalized, compared to periods of chronic stable heart failure. The goals of AHF treatment are symptomatic relief and hemodynamic stabilization, which need accurate assessment of volume status and cardiac function of patients. Until now, there is a paucity of controlled clinical data to define optimal treatment for patients with AHF and most guidelines published by the American Heart Association or European Society of Cardiology have been generated by the consensus opinions of experts. In these guidelines, routine invasive hemodynamic monitoring of AHF patients is not recommended because there have not been any reports showing survival benefit in patients monitored with pulmonary artery catheters. At present, treatment strategies based on clinical characteristics such as pulmonary congestion and tissue hypoperfusion rather than invasive hemodynamic monitoring is widely accepted. In this article, we discuss an optimal management plan including appropriate assessment of the hemodynamic status of patients and treatment of AHF.

Citations

Citations to this article as recorded by

Thoracic aortic aneurysms exerting high extrinsic pressure on the airway
Hanna Jung, Young Woo Do, Sang Yub Lee, Youngok Lee, Tak Hyuk Oh, Gun Jik Kim
Journal of Cardiothoracic Surgery.2019;[Epub] CrossRef
Relationship of Temperature and Humidity with the Number of Daily Emergency Department Visits for Acute Heart Failure: Results from a Single Institute from 2008-2010
Sang Hyun Ha, Bong Gun Song, Na Kyoung Lee, Chang Shin Choi, Chong Kun Hong, Jun Ho Lee, Seong Youn Hwang
Korean Journal of Critical Care Medicine.2012; 27(3): 165. CrossRef

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