The goal of this clinical trial is to learn if a combined iron supplementation regimen can reduce the need for blood transfusions in adults with iron-deficiency anemia undergoing major elective cardiac surgery. The trial will also look at whether this regimen is safe and well tolerated. The main questions it aims to answer are: Does the combined regimen lower the amount of allogeneic red blood cell transfusion needed during and after surgery? Are there any side effects or safety concerns associated with the regimen? Researchers will compare the combined iron supplementation (sucrose iron, erythropoietin, and vitamin C) to standard care to see if it helps reduce blood transfusions. Participants will: Receive either the combined regimen or standard care before surgery Undergo major elective cardiac surgery under general anesthesia Be monitored for blood transfusion needs and recovery up to 90 days after surgery
1. Hypothesis:The combined protocol of preoperative sucrose iron, human erythropoietin, and vitamin C will demonstrate superiority in reducing perioperative allogeneic red blood cell (RBC) transfusion volume compared to standard care in patients with iron deficiency anemia undergoing major cardiac surgery with cardiopulmonary bypass. 2. Interventions 2.1.Experimental group: Patients in the experimental group will receive a combination therapy consisting of intravenous sucrose iron (200 mg), subcutaneous recombinant human erythropoietin (150 IU/kg), and intravenous vitamin C (2 g), administered once daily for three consecutive days within the week prior to surgery. 2.2.Control group: Routine perioperative management based on clinical judgment, including observation, monitoring, and standard nursing practices. 3. Primary endpoint: Total volume of allogeneic RBC transfusion (units) from surgery initiation to postoperative day 5. 4. Stratification in randomization: Stratification factors include types of surgery, preoperative baseline hemoglobin level. 5. Follow-up time important points include: baseline upon hospital admission, the morning of surgery, postoperative day 1, postoperative day 5, at discharge, 30 ± 7 days after surgery, and 90 ± 7 days after surgery. 6. All perioperative transfusion decisions will follow standardized restrictive transfusion thresholds. When the patient's hemoglobin concentration falls below the threshold of 70 g/L during surgery or ICU monitoring, or below 70-80 g/L in the general ward, and/or when signs of anemia or hemodynamic instability are present-including shock, severe arrhythmias, respiratory distress, heart rate \>120 beats/min, systolic blood pressure (SBP) \<80 mmHg, mean arterial pressure (MAP) \<55-60 mmHg, or a reduction in SBP or MAP exceeding 25% from baseline-these findings may indicate significant hypovolemia and warrant consideration of transfusion intervention.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
SINGLE
Enrollment
400
The participants were administered a combined iron supplementation regimen consisting of iron sucrose,Human Erythropoietin Injection, and vitamin C, three times throughout the preoperative week.
Standard Medical Care (SMC) for the treatment of IDA. SMC as determined by the Investigator for the treatment of iron deficiency anemia (IDA).
The Second Affiliated Hospital of Zhejiang University anesthesiology department
Hangzhou, Zhejiang, China
RECRUITINGPerioperative allogeneic red blood cell transfusion volume
The volume of allogeneic red blood cell transfusions during the perioperative period.
Time frame: From the initiation of the surgical procedure until five days post-surgery.
The quantity and percentage of allogeneic blood products utilized during the perioperative period.
This encompasses blood components such as plasma and platelets, erythrocytes.
Time frame: From the initiation of the surgical procedure until until 90± 7 days following the surgical procedure.
The alterations in perioperative haemoglobin levels.
Haemoglobin levels were assessed at various time intervals.
Time frame: From the point of randomisation until 90± 7 days following the surgical procedure.
The alterations in ferritin levels and TSAT during the perioperative period.
Ferritin and Transferrin Saturation values were assessed at various time intervals.
Time frame: From the point of randomisation until 90± 7 days following the surgical procedure.
The alterations in reticulocyte levels during the perioperative period.
Reticulocyte levels were measured at various time intervals.
Time frame: From the point of randomisation until 90± 7 days following the surgical procedure.
The score measuring the quality of life after surgery.
The findings are presented based on the EQ VAS score (0-100), which reflects the overall self-assessed health status. A higher score indicates a better health status. Additionally, the results are reported using the EQ-5D-3L Effectiveness Index (EQ-5D-3L) values (5-15), where a lower EQ-5D-3L value signifies a better state of health.
Time frame: From the point of randomisation until 90± 7 days following the surgical procedure.
Incidence of perioperative complication within 90 days after major cardiac surgery
The potential postoperative complications within acute kidney injury (AKI), serious adverse events (SAE), congestive heart failure, respiratory failure, Allergic reaction, Thrombotic and thromboembolic complications and various infections.
Time frame: From the point of randomisation until 90± 7 days following the surgical procedure.
The mortality rate within 30-day and 90-day postoperative period.
The mortality rate within 30-day and 90-day postoperative period.
Time frame: Within 90± 7 days after surgery
length of stay in hospital
The time period from admission to the hospital to discharge
Time frame: Within 90± 7 days after surgery
Length of stay in ICU
The time period from admission to ICU after surgery to move out from ICU to normal ward
Time frame: Within 90± 7 days after surgery
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