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Assessments of Dynamic Variables of Fluid Responsiveness to Predict Desufflation-induced Hypotension in Urologic Patients Undergoing Laparoscopic Surgery

NCT03967119 · Status: UNKNOWN · Type: OBSERVATIONAL · Enrollment: 80

Last updated 2021-08-12

No results posted yet for this study

Summary

Laparoscopic surgery can induce hemodynamic pertubations. Pneumoperitoneum, inevitable in laparoscopic surgery, induces increase in intra-abdominal pressure, which can decrease cardiac output. Simultaneously, pneumoperitoneum can stimulate sympathetic system and increase vascular resistance/arterial blood pressure. Patients undergoing laparoscopic surgery may show a normal range of blood pressure during pneumoperitoneum even when the patients are in hypovolemia, and desufflation at the end of main surgical procedure can cause an abrupt hypotension revealing hypovolemia. Therefore, appropriate fluid management is essential for preventing desufflation-induced hypotension in laparoscopic surgery. Recently, dynamic variables are used to predict and guide fluid therapy during controlled ventilation. these variables arise from heart-lung interactions during positive ventilation, which influence left ventricular stroke volume. Several dynamic variables are derived from variations in left ventricular stroke volume (stroke volume variation, SVV), for example pulse pressure variation (PPV), and variations in pulse oximetry plethysmography waveform amplitude (PWV), which have all been shown to predict fluid responsiveness in different clinical and experimental settings. However, there are few evidences regarding which type of dynamic variables can predict desufflation-induced hypotension in laparoscopic surgery. Therefore, this study was designed to assess the predictive abilities of three different type of dynamic variables including PPV, SVV, and PWV for desufflation-induced hypotension in patients undergoing laparoscopic surgery.

Conditions

  • Deflation Induced Hypotension
  • Laparoscopic Surgery

Interventions

DEVICE

Patient monitoring

Arterial blood pressure, pulse oxygen saturation, and cardiac output/stroke volume are monitored with invasive arterial catheter, pulse oxymetry, and esophageal doppler in all participants. Some dynamic variables including SVV and PPV are automatically calculated in each monitor. PWV is manually calculated in a printed plethysmographic waveform. Plethysmographic waveform amplitude (PW) is measured on a beat-to-beat basis as the vertical distance between peaks and preceding valley troughs in the waveform. The maximum PW (PWmax) and minimum PW (PWmin) are determined manually over the same respiratory cycle, and PWV is calculated. PWV=(PWmax-PWmin)/\[(PWmax+PWmin)/2\].

Sponsors & Collaborators

  • Yonsei University

    lead OTHER

Eligibility

Min Age
19 Years
Sex
ALL
Healthy Volunteers
No

Timeline & Regulatory

Start
2019-04-25
Primary Completion
2022-04-30
Completion
2022-04-30

Countries

  • South Korea

Study Locations

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Read the full study record

This page highlights key information. For complete eligibility criteria, study locations, investigator contacts, and the full protocol, visit the original record on ClinicalTrials.gov.

View NCT03967119 on ClinicalTrials.gov