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Clinical Trial Details — Status: Recruiting

Administrative data

NCT number NCT06180902
Other study ID # COMPASS
Secondary ID
Status Recruiting
Phase N/A
First received
Last updated
Start date January 16, 2024
Est. completion date May 20, 2025

Study information

Verified date January 2024
Source Federal Research and Clinical Centre of Intensive Care Medicine and Rehabilitology
Contact Valery Likhvantsev, PhD
Phone +79036235982
Email lik0704@gmail.com
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

Hypotension is a significant precursor to unfavorable clinical outcomes. To determine whether infusion therapy can positively impact the management of hypotension, several evaluative tests can be utilized. These include assessing the collapsibility and distensibility indices of the inferior vena cava, conducting a passive leg raising (PLR) test, and performing a fluid challenge (FC). Technologically advanced methods leveraging dynamic testing are capable of real-time prediction of a patient's response to infusion therapy. Nonetheless, the use of systolic pressure variability (SPV), pulse pressure variability (PPV), and stroke volume variability (SVV) is often limited by the prohibitive costs of the necessary equipment. In contrast, the PLR test and FC are not subject to this limitation. Despite being deemed unreliable by numerous clinical protocols, static measurements of central venous pressure (CVP) or pulmonary capillary wedge pressure (PCWP) persist in usage among certain traditionalists within the medical community. It must be noted that the patient's baseline state and the unique clinical context are pivotal in determining the precision of these methodologies. For example, the PLR test may yield limited information in fully conscious patients, and the prognostic value of CVP measurements is significantly diminished in cases of pneumothorax and hydrothorax. Regrettably, there is a paucity of data on the prognostic utility of these tests in patients with altered levels of consciousness, despite their growing presence in intensive care units. This gap underscores the necessity for comprehensive studies that evaluate the predictive efficacy of infusion therapy responsiveness in patients with concurrent hypotension and impaired consciousness. Purpose of the study: to investigate the sensitivity and specificity of methods for assessing fluid responsiveness in patients with hypotension and decreased level of consciousness.


Description:

Hypotension often precedes adverse clinical outcomes, prompting an investigation into the efficacy of infusion therapy in its management. The study employs a variety of tests for assessment, including evaluation of the inferior vena cava's collapsibility and distensibility indices, passive leg raise (PLR) tests, and fluid challenge (FC) procedures. Dynamic testing methods, including systolic pressure variability (SPV), pulse pressure variability (PPV), and stroke volume variability (SVV), offer predictions of real-time responses to infusion therapy. However, the high costs of the necessary equipment restrict widespread application. In contrast, passive leg raise (PLR) and fluid challenge (FC) tests are more accessible due to lower costs. Despite skepticism in various clinical protocols regarding reliability, traditional measures such as central venous pressure (CVP) and pulmonary capillary wedge pressure (PCWP) continue to be favored in certain medical circles. Considering the patient's baseline condition and specific clinical context is critical when applying such methods. For instance, the PLR test may be less informative in fully conscious patients, and the value of CVP measurements decreases in cases like pneumothorax and hydrothorax. A notable deficiency exists in data concerning the prognostic value of tests in patients with altered consciousness levels, a scenario frequently encountered in intensive care settings. This situation underscores the urgent need for comprehensive research into the predictive accuracy of infusion therapy response in patients who have coexisting hypotension and impaired consciousness. The study aims to examine the sensitivity and specificity of fluid responsiveness assessment methods in hypotensive patients with reduced consciousness. The protocol begins by measuring the diameter of the inferior vena cava, followed by an evaluation of central venous pressure. After a brief interval, the passive leg raise (PLR) test is performed, succeeded by a 15-minute waiting period. Subsequently, an infusion load test is carried out. Next, a balanced crystalloid solution of 1000 ml at a rate of 15 ml/kg/h is administered, taking into account any previous infusions during the fluid challenge. In the study, adherence to the intention-to-treat principle is planned for all analyses. Data distribution will be assessed using the Kolmogorov-Smirnov test with Lilliefors correction or the Shapiro-Wilk test. Descriptive data will be presented as percentages, means ± SD for normally distributed variables, or medians ± interquartile ranges for non-normally distributed variables. Qualitative characteristics will be reported as frequencies. P-values and confidence intervals will be provided for all comparative outcomes between two groups. All statistical tests will be two-tailed, with a significance threshold set at p < 0.05. Outcomes for all binary variables, including primary and secondary outcomes, will be compared using the Chi-square test or Fisher's exact test, accounting for stratification variables. Comparative intergroup analysis of quantitative variables will be based on the Mann-Whitney U test or Student's t-test, depending on data distribution characteristics. Baseline data will include diagnostic test results such as true positives, true negatives, false positives, and false negatives. Diagnostic accuracy will be assessed using Area Under the Receiver Operating Characteristic curve (AUROC) and Area Under the Precision-Recall curve (AUPC). AUROC comparisons will be made using the DeLong method, with the optimal cutoff in ROC analysis determined according to Youden's index. Sensitivity, specificity, and predictive values of positive and negative results will also be evaluated. Cohen's Kappa will be used to assess test consistency.


Recruitment information / eligibility

Status Recruiting
Enrollment 222
Est. completion date May 20, 2025
Est. primary completion date May 20, 2025
Accepts healthy volunteers No
Gender All
Age group 18 Years and older
Eligibility Inclusion Criteria: - Age = 18 years. - Hospitalization in an intensive care unit - Level of consciousness on the FOUR scale = 12 points - Presence of arterial hypotension - Presence of a central venous catheter or direct indication for catheterization - The decision of the medical council to include the patient in the study Exclusion Criteria: - Pulmonary edema - Absence of one or both lower extremities - Chronic kidney disease according to KDIGO classification = stage 3b - Acute kidney injury grade 3 - Documented or suspected increased intracranial pressure (cerebral edema, brain compression, hydrocephalus, etc.). - Presence of mitral valve regurgitation > grade 1 - Presence of aortic valve regurgitation > grade 1 - Patients previously enrolled in the "COMPASS" study in the period of 12 preceding hours

Study Design


Related Conditions & MeSH terms


Intervention

Diagnostic Test:
Inferior vena cava's diameter ratio
In mechanical ventilation, the Inferior Vena Cava's maximum diameter (IVCmax) is measured at peak inspiration, and minimum diameter (IVCmin) at expiration's end. The Distensibility Index (IVCDI) is calculated as [(IVCmax - IVCmin) / IVCmin] × 100%. In spontaneous breathing, IVCmax is the diameter at expiration's end, and IVCmin at inspiration's end. The Collapse Index (IVCCI) is [(IVCmax - IVCmin) / IVCmax] × 100%. Clinically, an IVCDI/IVCCI = 18% indicates a 'responder'. Values < 18% denote 'non-responders'.
Central venous pressure
In our protocol, patients lie flat, connected to a saline-filled system for intravenous infusion via a central venous catheter. The system, starting from the subclavian catheter, extends to the 2nd to 3rd intercostal space at the mid-axillary line. The tube's end is raised perpendicular to the bed until saline flow stops, marking the liquid level. The height from the mid-axillary line to this point is measured in millimeters. If the liquid column falls below the mid-axillary line, indicating continuous flow, the CVP is negative, and the catheter is closed to block air entry. CVP readings are taken at exhalation's end. CVP interpretation: CVP = 12 mmHg (16.3 cm H2O) indicates a responder. CVP > 12 mmHg (16.3 cm H2O) indicates a non-responder.
Passive leg raising test
In our protocol, the patient starts flat for initial CVP measurement. Then, the bed is tilted to 45 degrees for the first measurements: Systolic/Diastolic Blood Pressure, Mean Arterial Pressure, and Pulse Pressure (Systolic - Diastolic). Next, the bed is adjusted to elevate the feet, creating a 135-degree angle between torso and legs. After 90 seconds, the second set of measurements, including CVP, is taken. The patient is then returned to the initial position. Interpreting results: A responder is indicated by: Over 10% Pulse Pressure (PP) increase in the second measurement; The ratio of PP change to CVP change (?PP / ?CVP) > 1; Second measurement CVP = 12 mmHg (16.3 cm H2O). A non-responder is indicated by the presence at least one of the following: Less than 10% PP increase in the second measurement; The ratio of PP change to CVP change (?PP / ?CVP) = 1; Second measurement CVP > 12 mmHg (16.3 cm H2O).
Fluid challenge
In our clinical procedure, patients start horizontally for initial measurements: Systolic, Diastolic, Mean Arterial, Pulse Blood Pressures, and Central Venous Pressure (CVP). Then, they receive a balanced crystalloid solution at 4 ml/kg body weight at maximum permissible infusion rate. After infusion, a second measurement set identical to the first is taken. Interpretation: A responder is indicated by: Pulse Pressure (PP) increase > 10% in second measurement; Ratio of PP change to CVP change (?PP / ?CVP) > 1; Second CVP measurement = 12 mmHg (16.3 cm H2O). A non-responder is indicated by the presence at least one of the following: PP increase < 10% in second measurement; Ratio of PP change to CVP change (?PP / ?CVP) = 1; Second CVP measurement > 12 mmHg (16.3 cm H2O).
Procedure:
Fluid infusion
After assessing infusion therapy responsiveness, patients receive balanced crystalloid solutions at 1000 ml, infused at 15 ml/kg/hour, accounting for any prior infusions. Effectiveness evaluation follows, involving cardiac output reassessment (initially measured upon study enrollment). Effectiveness is determined by a =10% increase in cardiac output in the second measurement compared to the first. This is quantified as: [(CO(after) - CO(before)) / CO(before)] × 100% = 10%, where CO(after) is the post-infusion cardiac output and CO(before) the pre-infusion output.

Locations

Country Name City State
Russian Federation Federal Research and Clinical Center of Intensive Care Medicine and Rehabilitology Moscow

Sponsors (1)

Lead Sponsor Collaborator
Federal Research and Clinical Centre of Intensive Care Medicine and Rehabilitology

Country where clinical trial is conducted

Russian Federation, 

Outcome

Type Measure Description Time frame Safety issue
Primary Sensitivity and specificity of methods for assessing fluid responsiveness Sensitivity - proportion of actual positives that are correctly identified by the test.
Specificity - proportion of actual negatives that are correctly identified by the test.
Through study completion, an average of 1 year
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