Research on Circulation Management Strategy Based on Oxygen Metabolism Balance After CHD Surgery

N/AEnrolling By InvitationNCT06747546

Children's Hospital of Fudan University300 enrolled

Overview

The objective is to investigate a goal-oriented postoperative circulation management strategy centered on "oxygen metabolism balance". This strategy is independent of the absolute metrics of oxygen supply and consumption, and aims to enhance oxygen consumption and uptake within the critical "golden 8 hours" following pediatric cardiopulmonary bypass, thereby preventing severe hypotension, cardiopulmonary arrest, and other adverse events.

This study firstly offered a specialized treatment strategy for children, particularly those who have undergone cardiopulmonary bypass surgery, that uses tailored parallel control and is independent of absolute oxygen supply and consumption characteristics.In addition, this study seeks to investigate the correlation between oxygen supply and consumption following pediatric cardiopulmonary bypass surgery and to assess the clinical utility of a goal-directed strategy concerning cardiac function recovery (ICON, echocardiography, myocardial markers) and outcomes (incidence of low cardiac output, duration of endotracheal intubation, length of CCU stay, and mortality). This strategy is of great significance to improve the surgical outcomes and prognoses for children.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

SINGLE

Enrollment

300

Conditions

Congenital Heart Disease (CHD)Cardiopulmonary Bypass

Interventions

"goal-directed" treatment strategy based on oxygen supply and consumption balancePROCEDURE

The oxygen extraction rate immediately after CPB is set as E1, the oxygen extraction rate at 4 hours after surgery is E2, and the oxygen extraction rate at 8 hours after surgery is E3. A "goal-directed" treatment strategy based on oxygen supply and consumption balance is defined as: Combined with the value of E2 at 4 hours after CPB, the increasing oxygen consumption (VO2) after CPB is compensated by increasing oxygen delivery (DO2) to different degrees. The goal of E3 not increasing significantly compared with E1 is achieved at 8 hours after CPB, and the severity of low cardiac output is finally reduced within the "golden 8 hours" after CPB.

Conventional Treatment groupPROCEDURE

Ventilation support is adjusted to maintain arterial oxygen partial pressure and oxygen saturation. Appropriate fluid infusion to stabilize central venous pressure and ensure preload; Combined use of vasoactive drugs to maintain heart rate and blood pressure; Appropriate diuresis can improve urine output and reduce cardiac afterload. Blood transfusion is used to improve coagulation function and maintain appropriate hematocrit.

Eligibility

Sex: ALLMin age: 1 WeekMax age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * 1.Body weight \> 2.5kg; * 2.Preoperative oxygen saturation \>80%; * 3.Biventricular radical surgery with cardiopulmonary bypass. Exclusion Criteria: * 1\. Complicated with functional single ventricle and atrial isomerism; * 2.Complicated with liver, kidney, lung, brain and other vital organ diseases; * 3.History of rescue before operation; * 4.Palliative surgery; * 5.Residual deformities that significantly affected hemodynamics after operation; * 6.Guardians did not provide the bundle of informed consent.

Outcomes

Primary Outcomes

Number of participants with low cardiac output syndrome

Low Cardiac Output Syndrome (LCOS) is a pathological state of cardiac dysfunction, which is usually manifested as a significant decrease in cardiac output (the amount of blood pumped by the heart per minute), leading to hypoperfusion of systemic organs.Low cardiac output was defined as cardiac index \<2.0L/(min.m2).

Time frame: 72 hours after surgery

Secondary Outcomes

Number of death

Time frame: 1 month after surgery