Hypotension Clinical Trial
Official title:
HEMODYNAMIC OPTIMIZATION BY NON-INVASIVE DETERMINATION OF CARDIAC OUTPUT IN CRITICALLY ILL PATIENTS: A RANDOMIZED, CONTROLLED TRIAL
Inadequate identification of and subsequent delayed therapy for patients with hypoperfusion (including hypovolemia, congestive heart failure and sepsis) is a common problem faced by physicians and intensivists caring for critically ill patients. Bedside clinical assessment is notoriously inaccurate in diagnosing complex etiologies of hemodynamic disturbances and in deciding on the appropriate therapy. Invasive techniques which are often required to guide diagnosis and therapy have significant risks associated with them, are costly, and are time consuming. New technology has been developed that allows for instantaneous, noninvasive monitoring of key hemodynamic parameters, like stroke volume, peak velocity and cardiac output. This new technology has the potential to improve recognition of the etiology of hemodynamic disturbances and assist the clinician in optimizing therapy based on changes in hemodynamic parameters. There is significant potential for this to be translated into improved outcomes in critically ill patients, but this has never been studied.
Patients with life-threatening hypotension are commonly cared for in intensive care units
(ICUs). Pathophysiologic perturbations due to disease states such as sepsis, hypovolemia,
and congestive heart failure may lead to tissue hypoxia, a critical development which
precedes multi-organ failure and death. Not only is it difficult to rapidly identify
patients heading down this path, but the execution of effective hemodynamic resuscitation to
slow or reverse this process is challenging.
A cornerstone of hemodynamic resuscitation is volume administration. The goal of volume
administration is to maximize cardiac output, and thereby systemic oxygen delivery, by
optimizing cardiac preload. Bedside clinical assessment is inadequate for judging whether or
not this goal has been achieved. Invasive techniques, such as central venous pressure (CVP)
monitoring and pulmonary artery catheterization, carry risks, are costly and time-consuming,
and may yield misleading data. Doppler ultrasound-based technology has been developed that
allows for instantaneous, non-invasive monitoring of key hemodynamic parameters, such as
cardiac output. This technology may facilitate determining the etiology of hemodynamic
disturbances and assist the clinician in optimizing therapy based on changes in hemodynamic
parameters. This randomized, controlled trial was designed to determine the impact of a
volume resuscitation protocol, guided by non-invasive Doppler ultrasound technology, on
outcomes in medical ICU patients with vasopressor-dependent hypotension.
Materials and methods:
Patient Population:
Study participants were recruited between January 19, 2010 and December 26, 2010 from two
medical ICUs at Barnes-Jewish Hospital, a 1252-bed urban teaching hospital. The Washington
University School of Medicine Human Research Protection Office approved the study, and
informed consent was obtained from participants or their authorized representatives.
Inclusion criteria were age ≥18 years; administration of vasopressors, defined as a
continuous infusion of norepinephrine at a dose >5 mcg/min, dopamine ≥5 mcg/kg/min or any
dose of another vasopressor; and passage of <18 hours since initiation of vasopressors at
doses specified above. Exclusion criteria were hemorrhagic shock, need for immediate
surgery, imminent risk of death in the next 48 hours (as judged by the attending ICU
physician), level of care decision that precluded implementation of the study protocol,
enrollment in any other clinical study, and pregnancy.
Study Protocol:
Subjects were assigned to treatment groups using blocked randomization to receive either
volume resuscitation guided by the ultrasound cardiac output monitor (USCOM; USCOM Ltd.,
Sydney, Australia) or observation. The USCOM is a non-invasive device that uses
continuous-wave Doppler ultrasound measurements of blood flow in the ascending aorta or
pulmonary artery to estimate stroke volume (SV). Prior to the beginning of the study, one of
the study investigators (LMD) underwent a supervised training period with the USCOM in 50
patients to insure reproducibility of the obtained measurements. Subjects randomized to the
intervention group underwent a baseline USCOM measurement of SV by a single operator (LMD),
followed by a pressurized infusion of 1 L of normal saline (NS) over approximately 15
minutes, after which the SV measurement was repeated. If the SV increased by ≥15%, the
patient was deemed volume-responsive, and another 1 L NS bolus was administered. This
process was repeated until the SV did not increase by ≥15%, two hours had elapsed since
study enrollment, or 4 L of NS had been infused, whichever occurred first. With the
exception of initial fluid management in the intervention group, as described above, use of
all diagnostic and treatment modalities were at the discretion of the ICU physicians.
Subjects in the control group underwent no intervention; ongoing care was carried out at the
discretion of the ICU physicians. ICU physicians were unaware of subjects' group assignments
and the USCOM data acquired in the intervention group.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Open Label, Primary Purpose: Treatment
| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Completed |
NCT04062994 -
A Clinical Decision Support Trial to Reduce Intraoperative Hypotension
|
||
| Active, not recruiting |
NCT02016599 -
Effects of Transitional Circulation in ELBW Infants
|
||
| Recruiting |
NCT05836610 -
Hydrocortisone Therapy Optimization During Hypothermia Treatment in Asphyxiated Neonates
|
Phase 4 | |
| Completed |
NCT02907931 -
Carotid Doppler Ultrasound for the Measurement of Intravascular Volume Status
|
N/A | |
| Completed |
NCT03215797 -
Phenylephrine or Norepinephrine for a Better Hemodynamic Stability
|
Phase 3 | |
| Suspended |
NCT02315937 -
Hemodynamic Assessment During Spinal Anesthesia Using Transthoracic Echocardiography'
|
N/A | |
| Recruiting |
NCT02532270 -
Detecting Hypotension By Continuous Non-invasive Arterial Pressure Monitoring
|
N/A | |
| Completed |
NCT02802683 -
Hemodynamic Impact of Hyperbaric Versus Isobaric for Spinal Anesthesia During Cesarean Delivery
|
Phase 4 | |
| Completed |
NCT02437799 -
Dicrotic Notch and Hypotension at Caesarean Under Spinal Anaesthesia
|
N/A | |
| Not yet recruiting |
NCT01941472 -
Transcutaneous pO2, Transcutaneous pCO2 and Central Venous pO2 Variations to Predict Fluid Responsiveness
|
N/A | |
| Completed |
NCT02146898 -
The Severity Of Hypotension Comparing Three Positions During Spinal Anesthesia For Cesarean Delivery
|
N/A | |
| Completed |
NCT01930227 -
Transcutaneous Electrical Acupoint Stimulation(TEAS) for Hypotension After Spinal Anesthesia in Parturients
|
N/A | |
| Recruiting |
NCT01434251 -
Treatment of Hypotension of Prematurity (TOHOP)
|
N/A | |
| Withdrawn |
NCT01183741 -
Accuracy of Non-Invasive Blood Pressure Measurement in Adults
|
Phase 3 | |
| Completed |
NCT01592669 -
Passive Leg Raising Attenuates and Delays Tourniquet Deflation-induced Hypotension and Tachycardia
|
N/A | |
| Completed |
NCT00991627 -
Different Approaches to Maternal Hypotension During Cesarean Section
|
Phase 4 | |
| Withdrawn |
NCT00750516 -
Lactic Acid Levels In Hypotensive Patients Without(Standard) and With Tourniquet
|
||
| Completed |
NCT00115726 -
Trial Assessing the Effect of Preoperative Furosemide on Intraoperative Blood Pressure
|
Phase 4 | |
| Recruiting |
NCT05513066 -
Management Arterial Hypotension During Planned Caesarean Section, Intravenous Ephedrine/Phenylephrine Mixture Versus Intravenous Baby Noradrenaline
|
||
| Completed |
NCT04089644 -
Manual vs Closed-loop Control of Mean Arterial Pressure
|
N/A |