Department of Obstetric Anaesthesia, St James University Hospital, Beckett Street, Leeds LS9 7TF, UK*Corresponding author
Accepted for publication: January 7, 2002
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Abstract |
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Br J Anaesth 2002; 88: 7348
Keywords: complications, Glanzmanns thrombasthenia; complications, haemorrhage; anaesthesia, obstetric; equipment, Thrombelastograph®
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Introduction |
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We describe the peripartum management of a 31-yr-old primipara with Glanzmanns thrombasthenia. We make special reference to the use of the Thrombelastograph® analyser, which enabled us to assess the efficacy of various therapies.
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Case report |
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As an infant she had presented with multiple nose bleeds and frequent bruising. Investigations led to a diagnosis of Glanzmanns thrombasthenia. Her condition necessitated multiple whole-blood and platelet transfusions throughout childhood and adolescence. In early 2000 she had had an ectopic pregnancy, which was diagnosed only when it had ruptured. Following laparotomy, she required multiple transfusions of whole blood, platelets and factor VII, and had a prolonged stay in hospital.
She was referred to the antenatal clinic by her family doctor when 7 weeks pregnant. Her antenatal care was uneventful until 28 weeks gestation. At this stage, after ultrasound scanning revealed dilatation of the fetuss stomach and evidence of poor blood flow in the fetuss thoracic aorta, chorionic villus sampling was arranged to exclude an associated chromosomal abnormality. Platelet transfusion was advised for this procedure, but was complicated by the fact that the patient had anti-c antigens (albeit at low titre), and human leucocyte antigen (HLA), requiring HLA-matched platelets. Fetal chromosomes proved normal but, because of the scan abnormalities, the patient continued with twice-weekly Doppler assessments and cardiotocographs.
At 31 weeks gestation the patient developed unremitting epistaxis. Her nose was packed, she was prescribed tranexamic acid, and the bleeding subsided.
The anaesthetic team was made aware of the patient at this stage and, when assessed, her striking history of haemorrhage was noted. The presence of antiplatelet antibodies meant that platelet transfusions might not be effective. Native blood Thrombelastograph® analysis was performed at this stage, which showed normal clot initiation but poor clot strength (Fig. 1). With this information in mind, we decided that regional anaesthesia was contraindicated and that peripartum haemorrhage was inevitable. An illustration of the Thrombelastograph® indices measured is given in Figure 2.
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The Caesarean section progressed uneventfully, with an estimated blood loss of 700800 ml. There was cardiovascular stability throughout. Meticulous haemostasis was achieved before wound closure. In total, 12 units of platelets were given intraoperatively, in addition to the 10 units given preoperatively. Residual neuromuscular blockade was antagonized with neostigmine 50 µg kg1 and glycopyrronium 10 µg kg1 and the patients trachea was extubated uneventfully.
Serial Thrombelastograph® analysis was performed before and after administration of each blood product in our obstetric unit laboratory, which allowed us to make a qualitative perioperative assessment of the effect of platelets and rFVII. The patient was transferred to the intensive care unit for postoperative care because haemorrhage was anticipated. Advice from haematology was that the patient should receive rFVII 2 hourly for the first 12 h, then 3 hourly for 12 h, then 4 hourly on day 1, in a dose of 90 µg kg1. She also received 10 units of platelets 12 hourly for the first 24 h.
In the first 24 h after surgery, the patient remained cardiovascularly stable, but had a continuous ooze from her abdominal drain site, and in total lost 1900 ml of blood. Her incision site remained dry and ultrasound scanning revealed no evidence of intra-abdominal free fluid. Blood loss subsided over the ensuing 36 h. In total, the patient received 12 units of whole blood, 120 units of platelets, 38 units of cryoprecipitate and rFVII 101 mg in the first 36 h after surgery. She was discharged from the intensive care unit on the second postoperative day and had no further problems. She is now at home with a healthy baby girl.
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Discussion |
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Repeated platelet transfusions predispose to the development of antiplatelet antibodies,4 resulting in a variable response to subsequent platelet transfusions. In this case, a good response to platelet transfusion was demonstrated but in some cases, platelet transfusion may not help at all. A gamma globulin infusion was given to our patient on the night before surgery in an attempt to dampen this antiplatelet response. The rationale for prescribing rFVII was based on the theory that factor VII acts on platelets in the absence of tissue factor, to activate factors IX and X, thus enhancing thrombin generation. The increased generation of thrombin may then provide a strong signal for the recruitment of other platelets.5 Treatment with rFVII is well tolerated generally, although hugely expensive. The cost incurred for rFVII alone in our patient was £96 000.
Other treatments described include antibody removal by plasmapheresis, and transfusion of single-donor and HLA-matched platelets. Plasmapheresis has previously been used in a patient with multiple antibodies. This technique significantly decreases the antibody titre and enables the effective transfusion of compatible platelets.2 That patient did not receive rFVII. Clearly, good surgical haemostasis and oxytocin infusions also form an integral part of care.
Glanzmanns thrombasthenia is an uncommon condition, and as there is no accepted or universally available monitor of platelet function, its clinical course is difficult to monitor. Techniques include measurement of bleeding time and platelet aggregometry. Critics of the bleeding time have questioned its validity and reproducibility.6 Platelet aggregometry is not widely available.
Thrombelastograph® analysis demonstrates various aspects of coagulation. One variable, the maximum amplitude, shows consistent reproducibility as a test of platelet function.7 8 The whole test has a response time of 2030 min, making it suitable for serial sampling. We used the Thrombelastograph® to monitor this patients coagulation. The Thrombelastograph® picture of Glanzmanns thrombasthenia has not been reported previously. It was clear from the initial Thrombelastograph® tracing that the clot strength () was poor when compared with our normal pregnant reference intervals at similar gestation (Fig. 3). It was apparent using this technique and by performing serial Thrombelastograph® tests, that there was a transient improvement in clot strength after platelet transfusion, which appeared to last for about 2 h (Fig. 4). However, the effect on the Thrombelastograph® data after infusion of rFVII was less marked (Fig. 5). This is not surprising, as the purpose of factor VII is to act locally in response to tissue trauma.
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Faced with this problem again, we would adopt a similar approach. Use of the Thrombelastograph® provided reassurance of the efficacy of platelet transfusions in the presence of antibodies. Because of the multitherapeutic approach taken, it was not possible to specifically identify a key role for any individual treatment. The good outcome may have been the result of the combination of therapies. The morbidity of this condition in association with pregnancy and delivery is unclear, but the involvement of the haematology services is invaluable.
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References |
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