By observing the changes of Central venous-arterial partial pressure difference of carbon dioxide \[P (v-a) CO2\] in liquid resuscitation during early escharectomy in patients with large-scale burns, We investigate the effect of P (v-a) CO2 on postoperative tissue perfusion and oxygenation in order to seek a more effective intergrated target plan of liquid resuscitation for burn patients.
Objective: By observing the changes of Central venous-arterial partial pressure difference of carbon dioxide \[P (v-a) CO2\] in liquid resuscitation during early escharectomy in patients with large-scale burns, We investigate the effect of P (v-a) CO2 on postoperative tissue perfusion and oxygenation in order to seek a more effective intergrated target plan of liquid resuscitation for burn patients. Methods: a prospective observational study was conducted on 145 patients with extensive burns admitted to surgical intensive care unit(SICU)of Guangzhou Red Cross hospital from January 2016 to December 2019. All patients received hemodynamic monitoring and goal-directed fluid therapy, patients with central venous oxygen saturation (ScvO2)\< 70% were excluded. Patients were divided into the following groups according to the changing trend of Pcv-aCO2 between T base (before induction) and T 0h (after surgery) : group 1 (H-H) : Pcv-aCO2≥6mmHg between T base and T 0h. Group 2 (L-H) : Pcv-aco2\< 6mmHg at T base and≥6mmHg at T 0h; Group 3 (H-L) : Pcv-aCO2≥6mmHg at T base and \< 6mmHg at T 0h. Group 4( L-L) : Pcv-aCO2 \< 6mmHg between T base and T0h.Postoperative basic physiological indicators such as heart rate(HR), blood pressure, central venous pressure (CVP), cardiac output index (CI), Pcv-aCO2 and lactic acid were recorded at 0 and 18 hours after surgery. Oxygen dynamic indicators such as oxygen delivery index (DO2I), oxygen consumption index (VO2I), oxygen uptake rate (O2ER) and so on were calculated. Pearson correlation analysis was used to evaluate the correlation between Pcv-aCO2 and CI. The change of tissue perfusion and oxygenation with different levels of Pcv-aCO2 after fluid resuscitation were analyzed.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
118
Compensatory dilatation was performed firstly and 5ml/kg crystal solution was added within 30min before induction of anesthesia.When SVV≥13%, infusion of colloidal solution 2ml/kg was performed 15-20 minutes.If the increase of SV was≥10% after the liquid impact and the SVV was still≥13%, the colloidal solution was used again for 2mL/kg and the infusion was maintained until the SVV \< 13%.The infusion was stopped when the SVV \< 10%.If the increase of SV was less than 10% or CI \< 2.0L/min/m2 after infusion, dobutamine was given intravenously to observe the change of SV. If the increase of SV was greater than 10%, dobutamine could be maintained and the above fluid regimen continued.If the increase of SV was less than 10% and MAP≥65mmHg, the infusion of liquid was stopped and replaced with 4ml/kg/h infusion for maintenance.If the increase of SV was less than 10% and MAP was less than 65mmHg, the infusion was suspended.
Central venous oxygen saturation
Central venous oxygen saturation in venous blood
Time frame: From start anesthesia until end of anesthesia, up to a maximum of 6 hours
Lactic acid value
Lactic acid level in arterial blood
Time frame: From start anesthesia until end of anesthesia, up to a maximum of 6 hours
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