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| Name | Class |
|---|---|
| Laboratoire français de Fractionnement et de Biotechnologies | INDUSTRY |
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Liver transplantation (LT) is a surgery with risk of bleeding. Several risk factors have been identified: complex dissection, portal hypertension, history of ascites fluid infections, history of surgical procedures, pre-existing complex hemostatic disorders and those acquired during the procedure. Diffuse bleeding can occur at any time during the 3 phases of surgery: dissection, anhepatic and neohepatic. However, intraoperative bleeding and transfusion requirements remain difficult to predict. Current predictive models are based in particular on preoperative characteristics and do not take into account the course and different phases of the operation.
The need for transfusions has largely decreased over the last 20 years, and currently around 20-25% of patients are transfused (transfusion of at least 1 blood product during LT). However, massive transfusion is necessary in 10% of LT. The European Society of Anaesthesiology (ESA) has issued recommendations on the management of severe bleeding during surgery. However, these recommendations are not specific to LT. Moreover, transfusion strategies vary widely from one center to another. The implementation of protocols within teams dedicated to LT has led to a reduction in bleeding and transfusion, with or without the use of viscoelastic testing.
Intraoperative bleeding and transfusion requirements, as well as postoperative thromboembolic complications, remain difficult to predict. Predictive models of bleeding risk have been developed, but they are based solely on preoperative characteristics and do not take into account the course and various phases of the operation. In addition, new methods such as Bayesian inference or machine learning have been developed, and seem capable of providing different information from that obtained by conventional models.
The overall aim of this prospective multicenter observational study is to investigate the risk factors for bleeding and thrombosis in per- and post-operative LT using different predictive methods, and to describe the management of bleeding and post-operative anticoagulation in metropolitan France.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Adults Patients with Liver transplant | No intervention during this observational study. Patient who meet the inclusion criteria will be included |
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| Measure | Description | Time Frame |
|---|---|---|
| Determine factors that predict the number of red blood cells packed (pRBCs) transfused intraoperatively in LT | Number of intraoperative pRBCs transfused | number of pRBCs transfused during surgery |
| Measure | Description | Time Frame |
|---|---|---|
| Determine factors predicting transfusion of more than 2 pRBCs intraoperatively | (qualitative binary) transfusion of more than 2 intraoperative RBCs (Y/N) | During surgery |
| Determine the predictive factors for intraoperative transfusion of RBCs for LT |
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Inclusion Criteria:
Exclusion Criteria:
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Liver transplant patient
| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Emmanuel WEISS, MD | Contact | +33 1 40 87 58 81 | emmanuel.weiss@aphp.fr | |
| Stéphanie ROULLET, MD | Contact | +33 1 45 59 32 19 | stephanie.roullet@aphp.fr |
| Name | Affiliation | Role |
|---|---|---|
| WEISS, MD | Hôpital Beaujon | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Chru Minjoz | Recruiting | Besançon | France |
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(qualitative binary) intraoperative use of packed red blood cells (Y/N)
| During surgery |
| Determine the predictive factors of the number of RBCs transfused at each phase of LT | (quantitative) number of pRBCs transfused during each of the 3 phases of LT | During surgery |
| Determine factors predicting intraoperative bleeding volume in LT | intraoperative bleeding volume | During surgery |
| Determine haemoglobin mass loss in patients not receiving intraoperative pRBC transfusion of LT | Haemoglobin mass loss | During surgery |
| Describe haemostatic tests (conventional biological and viscoelastic) carried out intraoperatively on LT. By listing all haemostatic tests performed | Haemostatic tests performed | During surgery |
| Describe the use of blood products, blood-derived medicinal products and antifibrinolytics administered during each phase of LT and during the first 24 hours postoperatively. By listing all products administered. | Blood products, blood-derived medicinal products, antifibrinolytics | During surgery |
| Determine the factors predicting the number of RBCs transfused within 24 hours post-LT | (quantitative) number of RBCs transfused in the 24 hours post-LT | During 24 hours post-LT |
| To explore the links between bleeding or transfusion and the results of haemostatic tests (conventional biological and viscoelastic) in peri-operative LT. By comparing occurance of bleeding or transfusion and values of haemostatic tests. | Results of haemostatic tests performed after bleeding or transfusion | During operation |
| Describe the post-operative use of anti-aggregants and anticoagulants drugs in LT | Listing of Antiaggregation and thromboprophylaxis used | During the first 30 days postoperative LT |
| Describe postoperative venous thrombotic events (deep vein thrombosis, pulmonary embolism, portal thrombosis) and arterial (graft artery thrombosis) during the first 30 days postoperative LT | Thrombotic complications | During the first 30 days postoperative LT |
| Measure the possible effect of the various pro- and antihaemostatic treatments on haemorrhagic and thrombotic complications in the first 30 days after LT surgery | Thrombotic complications and haemorrhagic complications | During the first 30 days postoperative LT |
| Explore the links between thombothic events and the results of hemostatic tests (common biological tests and viscoelastic tests) | Results of hemostatic tests performed during thrombothic events | thombotic events observed during the first 30 days postoperative LT |
| CHU Estaing | Not yet recruiting | Clermont | France |
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| Hôpital Beaujon | Not yet recruiting | Clichy | France |
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| CHU Grenoble Alpes | Not yet recruiting | Grenoble | France |
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| CHU Claude Huriez | Recruiting | Lille | France |
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| Hôpital de la Croix-Rousse | Recruiting | Lyon | France |
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| CHU La Timone | Not yet recruiting | Marseille | France |
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| Hôpital St Eloi | Not yet recruiting | Montpellier | France |
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| Hôpital De L'Archet 2 | Not yet recruiting | Nice | France |
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| CHU Pitié-Salpêtrière | Not yet recruiting | Paris | France |
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| CHU Haut Levêque | Not yet recruiting | Pessac | France |
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| CHU Pontchaillou | Not yet recruiting | Rennes | France |
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| CHU Hautepierre | Not yet recruiting | Strasbourg | France |
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| CHU Toulouse Rangueil | Not yet recruiting | Toulouse | France |
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| CHU Tours | Not yet recruiting | Tours | France |
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| Hôpital Paul Brousse | Recruiting | Villejuif | France |
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