Respiratory Variation of Carotid Doppler Peak Velocity (CDPV) for Non-invasive Prediction of Fluid Responsiveness

Johannes Gutenberg University Mainz84 enrolled

Overview

The purpose of this study is to assess respiratory variation of carotid doppler peak velocity (∆CDPV) for prediction of fluid responsiveness during major abdominal surgery.

Investigating hemodynamic parameters in a group of 19 ICU-patients with septic shock, respiratory variation of carotid doppler peak velocity (∆CDPV) has been shown to be able to predict fluid responsiveness. For patients receiving so called lung protective ventilation with a tidal volume of 6ml/kg ∆CDPV was superior for prediction of fluid responsiveness when compared to other well established parameters such as pulse pressure variation (∆PP). Likewise in another study ∆CDPV has been shown to be superior to stroke volume variation (∆SV) for prediction of fluid responsiveness in patients with septic shock when ventilated with a tidal volume of ≥8ml/ kg. All in all respiratory variation of carotid doppler peak velocity (∆CDPV) seems to be a promising parameter for prediction of fluid responsiveness (Yao et al., BMC Anesthesiology 2018). However, so far clinical studies have been conducted only under a small number of patients mainly in the intensive care unit and/ or under highly specific conditions (e.g. cardiac surgery). If ∆CDPV is able to predict fluid responsiveness with high accuracy intraoperatively remains unknown. The investigators are therefore conducting this prospective monocentric observational trial to evaluate the performance of ∆CDPV during major abdominal surgery and compare it to validated fluid responsiveness monitoring parameters ∆PP and corrected flow time (fTc). Following IRB-approval and written informed consent 84 patients scheduled for major abdominal surgery will be enrolled in the study. Stroke volume will be monitored by Esophageal Doppler Monitoring (CardioQ-ODM®, Deltex Medical Ltd, Chichester, UK). In case of hypovolemia a fluid bolus of 7 ml/kg ideal body weight will be administered at the discretion of the attending anesthesiologist. Respiratory variation of carotid doppler peak velocity (∆CDPV) will be monitored before and 1 minute after completion of each fluid bolus using an ultrasound device with a common linear array transducer (Philips ClearVue 350, Philips Medizin Systeme GmbH, Boeblingen, Germany).

Study Type

OBSERVATIONAL

Enrollment

Conditions

Hemodynamic Instability

Eligibility

Sex: ALLMin age: 18 YearsMax age: 80 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Age 18-80 years * written informed consent * scheduled major abdominal surgery Exclusion Criteria: * Age \<18 or \>80 years * pregnancy * SIRS or sepsis * any kind of cardiac arrhythmia * known valve disease * known heart failure * any kind of known carotid stenosis * carotid doppler peak velocity \>182 cm/s before baseline measurement (expected stenosis) * missing indication for invasive arterial blood pressure monitoring (IBP) not related to the study * peripheral artery disease (PAD) * BMI \> 35 kg/m2 * intraabdominal hypertension * ASA-PSC of 4 * severe lung disease (e.g. COPD grade 3, fibrosis) * esophageal disease of any kind * participation in another clinical study

Locations (1)

Department of Anesthesiology, Johannes-Gutenberg University Medical Center

Mainz, Rhineland-Palatinate, Germany

RECRUITING

Outcomes

Primary Outcomes

Change in stroke volume following a fluid bolus.

A rise in stroke volume of ≥10% following a fluid bolus of 7ml/kg Ideal Body Weight is considered to reflect fluid responsiveness. Measurements will be assessed through esophageal doppler monitoring.

Time frame: Immediately before and 1 minute after completion of each fluid bolus.

Central Contacts

Johannes M Wirkus, M.D.

CONTACT

+49 6131 17- 7175 johannes.wirkus@unimedizin-mainz.de

Data from ClinicalTrials.gov

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