Trials / Completed

CompletedNCT05076604

Effects of Microplegia on Transfusion Rates After Cardiac Surgery

Effects of Microplegia on Transfusion Rates After Cardiac Surgery: A Randomized Prospective Analysis

Status: Completed
Phase: Phase 4
Study type: Interventional
Enrollment: 314 (actual)

Sponsor: Washington University School of Medicine · Academic / Other
Sex: All
Age: 18 Years
Healthy volunteers: Not accepted

Summary

This is a prospective, randomized study that is studying the rate of red blood cell (RBC) transfusion rates after planned heart (cardiac) surgery. The study will be conducted at Barnes-Jewish Hospital. Cardioplegia refers to the method of stopping (arresting) the heart in order to perform heart surgery. However, cardioplegia has also come to refer to the solution to achieve cardiac arrest as well as the machinery in which to deliver the solution. This study will investigate our current Standard Cardioplegia (diluted 4:1 blood cardioplegia) versus Microplegia (undiluted blood cardioplegia) to determine if Microplegia reduces peri-operative blood transfusion rates as compared to Standard Cardioplegia. All forms of cardioplegia will be delivered using the MPS2 Microplegia delivery machine by Quest Medical, Inc. Patients will be randomized to receive undiluted microplegia or standard 4:1 cardioplegia. The patient and the surgeon will be blinded to the randomization. Patients will be followed for 30 days post-operatively (or until their initial standard of care post-operative follow up visit with cardiac surgery if that appointment falls outside of the 30 day post-operative window) for the development of any adverse events as well as documentation of blood products given. We will draw one tube of blood for troponin levels at four time points; 1 draw before surgery (this may be done during the intraoperative period), and 3 draws post-operatively: ICU arrival, 12 hours post-ICU arrival and 24 hours post-ICU arrival. This is to closely monitor the patient for any heart tissue injury.

Detailed description

Cardioplegia was first introduced as a method to protect the heart during cardiac surgery in the 1950s (1). Initially, it consisted of a crystalloid solution and in the 1970s Follette and colleagues proposed that blood was the best mode of delivery of cardioplegia as it is rich in nutrients and oxygen (2). Blood has better osmotic, buffering, and antioxidant qualities that are needed by ischemic myocardium. More recent studies comparing blood and crystalloid cardioplegias showed that there was less cardiac edema, and recovery of ventricular function was more rapid with blood based cardioplegia (3). A meta-analysis of over 5000 patients corroborated these findings and showed that blood based cardioplegia reduced the incidence of postoperative low cardiac output syndrome and was associated with less myocardial damage (4). Standard diluted blood cardioplegia can also be modified to undiluted blood cardioplegia also known as microplegia. To compare the cardioprotection of 4:1 blood:crystalloid cardioplegia to microplegia, McCann et al randomized 20 pigs to either group. Cardiac edema was measured using histologic morphometrics and echocardiogram. It was noted that both edema percentage and left ventricular mass were significantly more decreased in the microplegia group. Furthermore, all animals receiving microplegia were successfully weaned off cardiopulmonary bypass, whereas only 40% of those receiving standard cardioplegia were successfully weaned (5). More recently, Algarni et al. showed decreased prevalence of low cardiac output syndrome in patients who received microplegia (n=2,630) (6). Another study compared microplegia and standard cardioplegia in patients undergoing coronary artery bypass grafting and found that the microplegia group had lower troponin levels during the post-operative course. Moreover, microplegia resulted in lower transfusion rates and decreased length of hospital stay (7). A high rate of patients undergoing cardiac surgery require red blood cell transfusions (RBC). Red blood cell transfusions are strongly associated with both infection and ischemic postoperative morbidity, length of stay, increased early and late mortality, and overall hospital costs (8). Given that previous studies have shown that microplegia is associated with less transfusions, it would be reasonable to incorporate this into practice at Washington University.

Conditions

Interventions

Type	Name	Description
DRUG	Cardioplegia Solution	The microplegia solution that is standard of care for all cardiac surgery patients, and which all study subjects will receive is: Induction 240 mL Baxter Cardioplegia Solution 10. 5 mL Potassium Chloride 2 meq/ml (21 meq) 250.5 mL total volume Maintenance 747 mL Baxter Cardioplegia Solution 3.4 mL Potassium Chloride 2 meq/ml (6.75 meq) 750.4 mL total volume Subjects will be randomly assigned to 4:1 cardioplegia or nondiluted microplegia. 4:1 cardioplegia consists of 4 parts crystalloid intravenous fluid to one part human blood. Nondiluted microplegia consists of all parts human blood.
DRUG	Microplegic Solution No. 1	The microplegia solution that is standard of care for all cardiac surgery patients, and which all study subjects will receive is: Induction 240 mL Baxter Cardioplegia Solution 10. 5 mL Potassium Chloride 2 meq/ml (21 meq) 250.5 mL total volume Maintenance 747 mL Baxter Cardioplegia Solution 3.4 mL Potassium Chloride 2 meq/ml (6.75 meq) 750.4 mL total volume Subjects will be randomly assigned to 4:1 cardioplegia or nondiluted microplegia. 4:1 cardioplegia consists of 4 parts crystalloid intravenous fluid to one part human blood. Nondiluted microplegia consists of all parts human blood.

Timeline

Start date: 2019-03-25
Primary completion: 2023-06-01
Completion: 2023-08-01
First posted: 2021-10-13
Last updated: 2024-08-06
Results posted: 2024-08-06

Locations

1 site across 1 country: United States

Regulatory

FDA-regulated drug study

Source: ClinicalTrials.gov record NCT05076604. Inclusion in this directory is not an endorsement.