The purpose of this study is to investigate the maternal cardiac output response to rescue norepinephrine and phenylephrine boluses for postspinal anesthesia hypotension in parturients with preeclampsia undergoing cesarean section.
Preeclampsia, which affects 5% to 7% of parturients, is a significant cause of maternal and neonatal morbidity and mortality. Because of constricted myometrial spiral arteries with exaggerated vasomotor responsiveness, though blood pressure in parturients with preeclampsia are apparently higher than healthy parturients, placental hypoperfusion is more common. Spinal anesthesia is still the preferred mode of anesthesia in parturients with preeclampsia for cesarean section. In preeclampsia parturients, spinal anesthesia improve intervillous blood flow (provided that hypotension is avoided) which contribute to increase placental perfusion. Even so, 17-26% parturients with preeclampsia experienced postspinal anesthesia hypotension due to the extensive sympathetic block that occurred with spinal anesthesia. As a potential substitute drug for phenylephrine and ephedrine, norepinephrine has gained traction for use in parturients undergoing cesarean section. However, hemodynamic effects of the rescue norepinephrine bolus is still unknown. The purpose of this study is to investigate the maternal cardiac output response to rescue norepinephrine and phenylephrine boluses for postspinal anesthesia hypotension in parturients with preeclampsia undergoing cesarean section.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
40
A rescue phenylephrine (75μg) was given when postspinal anesthesia hypotension occurred within 30 minutes after spinal anesthesia
A rescue norepinephrine (6μg) was given when postspinal anesthesia hypotension occurred within 30 minutes after spinal anesthesia
General Hospital of Ningxia Medical University
Yinchuan, Ningxia, China
Cardiac output (CO)
Evaluated by the VIGILCO monitoring system.
Time frame: 1-30 minutes after spinal anesthesia.
Stroke volume (SV)
Evaluated by the VIGILCO monitoring system.
Time frame: 1-30 minutes after spinal anesthesia
Systemic vascular resistance (SVR)
Evaluated by the VIGILCO monitoring system.
Time frame: 1-30 minutes after spinal anesthesia
Overall stability of systolic blood pressure control versus baseline
Evaluated by performance error (PE)
Time frame: 1-30 minutes after spinal anesthesia
Overall stability of heart rate control versus baseline
Evaluated by performance error (PE)
Time frame: 1-30 minutes after spinal anesthesia
The incidence of post-spinal anesthesia hypotension
Systolic blood pressure (SBP) \< 80% of the baseline
Time frame: 1-30 minutes after spinal anesthesia.
The incidence of severe post-spinal anesthesia hypotension.
Systolic blood pressure (SBP) \< 60% of the baseline
Time frame: 1-30 minutes after spinal anesthesia.
The incidence of nausea and vomiting.
Presence of nausea and vomiting in patients after spinal anesthesia
Time frame: 1-30 minutes after spinal anesthesia
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The incidence of bradycardia.
Heart rate \< 60 beats/min.
Time frame: 1-30 minutes after spinal anesthesia
The incidence of hypertension.
Systolic blood pressure (SBP) \>120% of the baseline.
Time frame: 1-30 minutes after spinal anesthesia
pH
From umbilical arterial blood gases.
Time frame: Immediately after delivery
Partial pressure of oxygen (PO2)
From umbilical arterial blood gases.
Time frame: Immediately after delivery
Base excess (BE)
From umbilical arterial blood gases.
Time frame: Immediately after delivery
APGAR score
A= Appearance P=Pulse G=Grimace A=Attitude R=Respiration
Time frame: 1 min after delivery
APGAR score
A= Appearance P=Pulse G=Grimace A=Attitude R=Respiration
Time frame: 5 min after delivery