Cryopreservation moderates the thrombogenicity of arterial allografts during storage

Synergism of red blood cells and tranexamic acid in the inhibition of fibrinolysis

BACKGROUND

Postpartum hemorrhage (PPH) is the leading cause of maternal death worldwide. The World Maternal Antifibrinolytic trial showed that antifibrinolytic tranexamic acid (TXA) reduces PPH deaths. Maternal anemia increases the risk of PPH. The World Maternal Antifibrinolytic-2 trial is now assessing whether TXA can prevent PPH in women with anemia. Low red blood cell (RBC) counts promote fibrinolysis by altering fibrin structure and plasminogen activation.

OBJECTIVES

We explored interactions between RBCs and TXA in inhibiting fibrinolysis.

METHODS

We used global fibrinolytic assays (ball sedimentation and viscoelasticity) to monitor the lysis of fibrin containing plasminogen and tissue-type plasminogen activator. We applied a fluorogenic kinetic assay to measure plasmin generation in fibrin clots and scanning electron microscopy to study fibrin structure.

RESULTS

According to parallel-line bioassay analysis of the fibrin lysis-time data, the antifibrinolytic potency of 4-128 μM TXA was increased in the presence of 10% to 40% (v/v) RBCs. Global fibrinolysis assays showed that the joint effect of RBCs and TXA was about 15% larger than the sum of their individual effects in the inhibition of fibrinolysis. In plasminogen activation, TXA added the same increment of inhibition to the effect of RBCs at any cell count in the fibrin clot. Regarding fibrin structure, TXA thickened fibrin fibers, which impaired plasminogen activation, whereas RBCs promoted fine fibers that were more resistant to plasmin.

CONCLUSIONS

The antifibrinolytic potency of TXA is enhanced in fibrin formed in the presence of RBCs through inhibition of plasminogen activation and fibrin lysis, which correlates with modifications of fibrin structures.

A Tubular Vena Cava Conduit Used to Lengthen a Kidney Transplant Renal Artery Injured During Organ Procurement

Introduction

Organ transplantation is limited by the supply of transplantable organs, and the supply of organs cannot meet the needs of patients on the waiting list. Ensuring transplantation of any procured organ is therefore mandatory. Organ injury, mostly to the organ's vasculature, can occur during multi-organ procurement, preventing subsequent transplantation. In such a context, vascular reconstructions of arterial or venous organ injuries can be useful.

Report

This report describes the case of an obese 64 year old female with a history of diabetic nephropathy who underwent a cadaveric kidney transplant (right kidney with one main renal artery, one inferior polar artery, one vein, and one ureter). The ex situ preparation of the graft revealed that the main renal artery was injured and cut close to the renal hilum (0.8 cm length, 6 mm diameter), not allowing graft implantation. In order to increase the length of the main renal artery, the donor inferior vena cava was used to create a tubular conduit, allowing subsequent graft implantation. Cold and warm ischaemic times were respectively 12 hours and 36 minutes, with immediate graft function. The patient was discharged on day 8 (serum creatinine level was 95 μmol/L). Twelve month follow up was uneventful (serum creatinine level was 108 μmol/L and duplex ultrasonography showed homogeneous blood flow throughout the graft).

Discussion

This case report highlights the possibility of overcoming an injured kidney graft artery by creating a tubular vena cava conduit in order to allow subsequent transplantation. Vascular reconstructions of organs injured during procurement should be considered.