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UnknownNCT05148650

Impact of Balanced Crystalloid and Colloid Infusion on Haemostasis in Healthy Male Volunteers

Impact of Infusion of Balanced Crystalloid and Colloid Solutions on Haemostasis in Healthy Male Volunteers- a Randomized Controlled Crossover Trial

Status
Unknown
Phase
N/A
Study type
Interventional
Enrollment
25 (actual)
Sponsor
Medical University of Silesia · Academic / Other
Sex
Male
Age
18 Years – 30 Years
Healthy volunteers
Accepted

Summary

The project focuses on perioperative bleeding that requires transfusion of blood products and supplementation of intravascular volume with crystalloids and colloids. The implemented fluid therapy affects coagulation and fibrinolysis, depending on the type of fluid used in an intravenous infusion. Massive haemorrhage significantly impacts the perioperative period and postoperative quality of life and requires individualized therapy, rending the ongoing project relevant from the perspective of the patients.

Detailed description

Perioperative bleeding is a complication that significantly affects postoperative morbidity and quality of life and increases the patient's risk of death. Massive hemorrhage requires individualized therapy, preferably based on international recommendations. It is necessary to transfuse blood and blood products (red blood cells, freshly frozen plasma, platelets, concentrates of coagulation factors) with simultaneous rational supplementation of the intravascular space using crystalloids and colloids. Usually, these are large volumes that are infused over a short time. Proceedings in the operating room and the intensive care unit environment should stabilize the patient's general condition with the lowest possible risk of complications. However, it has been shown that transfusions are not free from side effects. Transfusions may result not only from "classic" post-transfusion complications (allergic reactions, haemolytic reactions, infections, electrolyte disturbances) but also from iatrogenically generated disorders in the circulatory system (fluid overload), respiratory ( acute lung injury), and hemostasis (risk of hypercoagulability). It is also known that uncontrolled and unbalanced fluid therapy per se may additionally affect the haemodynamic state, haemostasis, and the immune system. Thromboelastometry (thromboelastography) is becoming the standard of perioperative haemostasis monitoring. It has been documented that it provides more reliable data than standard laboratory tests, such as fibrinogen concentration, activated clotting time (ACT), kaolin-kephalin (aPTT), prothrombin (PT), or INR index. The test can be performed as the so-called point-of-care test (POC), which reduces the waiting time for the result and facilitates goal-directed therapy. Little is known about the effects of fluid infusion on physiological haemostasis in healthy subjects who do not have a prior bleeding disorder and who are infused with fluids similarly to resuscitation in massive bleeding. Only singular studies in international literature attempted to answer this vital question. Still, the regular progress in the field of fluid therapy makes the obtained data less and less valuable in clinical practice.

Conditions

Interventions

TypeNameDescription
DIAGNOSTIC_TESTStandard laboratory coagulation tests and rotational thromboelastometry measurementsBlood for coagulation tests (thromboelastometry, aPTT, PT, INR, fibrinogen concentration, D dimers) and blood morphology was collected just before and immediately after the fluid infusion. With the use of a vacuum system, 20 ml of blood was collected through an IV cannula. The first 5 ml of blood were disposed of due to the possible interference with vascular stasis and fluid infusion on the measurements results. Functional tests of coagulation were analysed through ROTEM. ROTEM coagulation analysis was carried out using a ROTEM delta analyzer (Tem Innovations GmbH, Munich, Germany), and assays were allowed to run for 60 minutes. Assays were run immediately after blood sampling to minimize a preanalytical error. Three ROTEM assays were run simultaneously, INTEM, EXTEM, and FIBTEM.

Timeline

Start date
2021-02-16
Primary completion
2021-12-01
Completion
2021-12-01
First posted
2021-12-08
Last updated
2021-12-08

Locations

1 site across 1 country: Poland

Source: ClinicalTrials.gov record NCT05148650. Inclusion in this directory is not an endorsement.