[HTML][HTML] The post-operative management of anaemia: more efforts are needed

M Muņoz, M Franchini, GM Liumbruno - Blood Transfusion, 2018 - ncbi.nlm.nih.gov
M Muņoz, M Franchini, GM Liumbruno
Blood Transfusion, 2018ncbi.nlm.nih.gov
Anaemia, defined by the World Health Organization (WHO) as a haemoglobin
concentration< 13 g/dL for men and< 12 g/dL for women1, is a very common complication in
the immediate post-operative period, being present in up to 90% of patients after major
surgery2. Post-operative anaemia may be multifactorial in origin, with pre-existing anaemia,
peri-operative blood loss, frequent blood sampling and inadequate nutritional intake after
surgery all potentially having a role3. In cancer patients undergoing surgical resection of a …
Anaemia, defined by the World Health Organization (WHO) as a haemoglobin concentration< 13 g/dL for men and< 12 g/dL for women1, is a very common complication in the immediate post-operative period, being present in up to 90% of patients after major surgery2. Post-operative anaemia may be multifactorial in origin, with pre-existing anaemia, peri-operative blood loss, frequent blood sampling and inadequate nutritional intake after surgery all potentially having a role3. In cancer patients undergoing surgical resection of a tumour, post-operative anaemia is an almost invariable finding related, besides the above-mentioned causes, to chronic blood losses, especially in patients with colorectal cancer, and to previous or concomitant chemotherapy and/or radiotherapy4. In addition, inflammation-related increased hepcidin levels inhibit intestinal iron absorption and iron release from stores thus aggravating the already present iron deficiency anaemia5. Peri-operative anaemia has a deleterious effects on patients' health being associated with prolonged hospitalisation, an increased rate of post-operative complications (especially infections) and, finally, a worsened survival6. The management of peri-operative anaemia is a fundamental pillar of Patient Blood Management (PBM) programmes, which are being progressively though irregularly implemented worldwide. PBM is a multidisciplinary, multimodal patient-centred strategy aimed at minimising the use of blood products and improving patients' outcome7-9. Within a PBM programme, management of anaemia should ideally be started several weeks before surgery, but any available time should be used10. In the post-operative setting, a PBM-based approach to anaemia following surgery promotes individualised care aimed at attaining haemoglobin levels that avoid or reduce the administration of allogeneic blood transfusion. This should be followed by correction of post-operative anaemia in the shortest possible period, to facilitate the patients' functional recovery and improve their quality of life. Both transfusional and non-transfusional measures have been proposed for the post-operative period within the frame of a PBM programme2. The former include restrictive transfusion measures such as reduced red blood cell transfusion thresholds (eg, 7-8 g/dL) and a single-unit transfusion policy11-13, the latter include non-pharmacological strategies (eg, reduction in the frequency and volume of diagnostic phlebotomies, use of in-line closed blood conservation devices, cell salvage during surgical procedures) and pharmacological agents to control coagulopathy and stimulate erythropoiesis9. As iron deficiency is an almost invariable characteristic of post-operative anaemia, iron supplementation is the main target of a PBM-based approach. Management of iron deficiency with oral iron in the immediate post-operative period has a very limited role due to poor absorption, duration of action and considerable side effects, and is not currently recommended14. In contrast, post-operative administration of intravenous iron, with or without erythropoiesis-stimulating agents, has been found to be a safe and effective way for correcting anaemia after a variety of major operations15-17. Currently, six intravenous iron formulations (ie, iron gluconate, iron sucrose, low molecular weight iron dextran, ferric carboxymaltose, iron isomaltoside and ferumoxytol) are available in the Europe and/or USA: these products have very rarely been associated with serious adverse events18. As outlined by a recent meta-analysis of 103 trials including nearly 20,000 patients, intravenous iron therapy was not associated with an increased risk …
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