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Red blood cell transfusion for people undergoing hip fracture surgery

Abstract

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Background

The incidence of hip fracture is increasing and it is more common with increasing age. Surgery is used for almost all hip fractures. Blood loss occurs as a consequence of both the fracture and the surgery and thus red blood cell transfusion is frequently used. However, red blood cell transfusion is not without risks. Therefore, it is important to identify the evidence for the effective and safe use of red blood cell transfusion in people with hip fracture.

Objectives

To assess the effects (benefits and harms) of red blood cell transfusion in people undergoing surgery for hip fracture.

Search methods

We searched the Cochrane Bone, Joint and Muscle Trauma Group Specialised Register (31 October 2014), the Cochrane Central Register of Controlled Trials (The Cochrane Library, 2014, Issue 10), MEDLINE (January 1946 to 20 November 2014), EMBASE (January 1974 to 20 November 2014), CINAHL (January 1982 to 20 November 2014), British Nursing Index Database (January 1992 to 20 November 2014), the Systematic Review Initiative's Transfusion Evidence Library, PubMed for e‐publications, various other databases and ongoing trial registers.

Selection criteria

Randomised controlled trials comparing red blood cell transfusion versus no transfusion or an alternative to transfusion, different transfusion protocols or different transfusion thresholds in people undergoing surgery for hip fracture.

Data collection and analysis

Three review authors independently assessed each study's risk of bias and extracted data using a study‐specific form. We pooled data where there was homogeneity in the trial comparisons and the timing of outcome measurement. We used GRADE criteria to assess the quality (low, moderate or high) of the evidence for each outcome.

Main results

We included six trials (2722 participants): all compared two thresholds for red blood cell transfusion: a 'liberal' strategy to maintain a haemoglobin concentration of usually 10 g/dL versus a more 'restrictive' strategy based on symptoms of anaemia or a lower haemoglobin concentration, usually 8 g/dL. The exact nature of the transfusion interventions, types of surgery and participants varied between trials. The mean age of participants ranged from 81 to 87 years and approximately 24% of participants were men. The largest trial enrolled 2016 participants, over 60% of whom had a history of cardiovascular disease. The percentage of participants receiving a red blood cell transfusion ranged from 74% to 100% in the liberal transfusion threshold group and from 11% to 45% in the restrictive transfusion threshold group. There were no results available for the smallest trial (18 participants). All studies were at some risk of bias, in particular performance bias relating to the absence of blinding of personnel. We judged the evidence for all outcomes, except myocardial infarction, was low quality reflecting risk of bias primarily from imbalances in protocol violations in the largest trial and imprecision, often because of insufficient events. Thus, further research is likely to have an important impact on these results.

There was no evidence of a difference between a liberal versus restricted threshold transfusion in mortality, at 30 days post hip fracture surgery (risk ratio (RR) 0.92, 95% confidence interval (CI) 0.67 to 1.26; five trials; 2683 participants; low quality evidence) or at 60 days post surgery (RR 1.08, 95% CI 0.80 to 1.44; three trials; 2283 participants; low quality evidence). Assuming an illustrative baseline risk of 50 deaths per 1000 participants in the restricted threshold group at 30 days, these data equate to four fewer (95% CI 17 fewer to 14 more) deaths per 1000 in the liberal threshold group at 30 days.

There was no evidence of a difference between a liberal versus restricted threshold transfusion in functional recovery at 60 days, assessed in terms of the inability to walk 10 feet (3 m) without human assistance (RR 1.00, 95% CI 0.87 to 1.15; two trials; 2083 participants; low quality evidence).

There was low quality evidence of no difference between the transfusion thresholds in postoperative morbidity for the following complications: thromboembolism (RR 1.15 favouring a restrictive threshold, 95% CI 0.56 to 2.37; four trials; 2416 participants), stroke (RR 2.40 favouring a restrictive threshold, 95% CI 0.85 to 6.79; four trials; 2416 participants), wound infection (RR 1.61 favouring a restrictive threshold, 95% CI 0.77 to 3.35; three trials; 2332 participants), respiratory infection (pneumonia) (RR 1.35 favouring a restrictive threshold, 95% CI 0.95 to 1.92; four trials; 2416 participants) and new diagnosis of congestive heart failure (RR 0.77 favouring a liberal threshold, 95% CI 0.48 to 1.23; three trials; 2332 participants). There was very low quality evidence of a lower risk of myocardial infarction in the liberal compared with the restrictive transfusion threshold group (RR 0.59, 95% CI 0.36 to 0.96; three trials; 2217 participants). Assuming an illustrative baseline risk of myocardial infarction of 24 per 1000 participants in the restricted threshold group, this result was compatible with between one and 15 fewer myocardial infarctions in the liberal threshold group.

Authors' conclusions

We found low quality evidence of no difference in mortality, functional recovery or postoperative morbidity between 'liberal' versus 'restrictive' thresholds for red blood cell transfusion in people undergoing surgery for hip fracture. Although further research may change the estimates of effect, the currently available evidence does not support the use of liberal red blood cell transfusion thresholds based on a 10 g/dL haemoglobin trigger in preference to more restrictive transfusion thresholds based on lower haemoglobin levels or symptoms of anaemia in these people. Future research needs to address the effectiveness of red blood cell transfusions at different time points in the surgical pathway, whether pre‐operative, peri‐operative or postoperative. In particular, such research would need to consider people who are symptomatic or haemodynamically unstable who were excluded from most of these trials.

PICOs

Population
Intervention
Comparison
Outcome

The PICO model is widely used and taught in evidence-based health care as a strategy for formulating questions and search strategies and for characterizing clinical studies or meta-analyses. PICO stands for four different potential components of a clinical question: Patient, Population or Problem; Intervention; Comparison; Outcome.

See more on using PICO in the Cochrane Handbook.

Plain language summary

Red blood cell transfusion for people undergoing hip fracture surgery

Background and aims

Most people who break their hip (hip fracture) are over 65 years old. Almost all hip fractures require surgery. People with hip fracture often receive red blood cell transfusions that aim to correct their anaemia (low levels of haemoglobin in the blood; haemoglobin is an oxygen‐carrying molecule found within red blood cells) resulting from blood loss from their fracture or surgery. However, blood transfusion is not without risk. We aimed to look at the evidence for the use of red blood cell transfusion in people undergoing surgery for a broken hip. We wanted to find out whether and when blood transfusion is of benefit and whether there are better alternatives to transfusion for these people.

Results of the search

We searched medical databases up to 20 November 2014 for studies that compared red blood cell transfusion versus no transfusion or an alternative to transfusion, different transfusion protocols or different transfusion thresholds in people undergoing any type of surgery for hip fracture. We found six studies (2722 people), all of which compared two different 'transfusion thresholds' for a red blood cell transfusion. The trials compared a liberal red blood cell transfusion threshold (giving a transfusion when the haemoglobin concentration was less than 10 g/dL) with a restrictive red blood cell transfusion threshold (giving a transfusion only when the person had symptoms of anaemia or when the haemoglobin concentration was less than 8 g/dL). Five studies applied these thresholds after surgery. The average age of trial participants was over 80 years and around three‐quarters were women.

Key results

We found no difference between the two transfusion threshold groups in the number of people who had died at 30 and 60 days after their operation. We found similar numbers of people in the two groups were unable to walk 10 feet (3 metres) or across a room without help at 60‐day follow‐up.

We were interested in the number of major complications following surgery (thromboembolism (blood clots), stroke, chest and wound infection, and cardiovascular events (heart attacks, heart failure or abnormal heart rhythms)). There was little difference between the two transfusion threshold groups in the number of people experiencing any of these major complications. Although we found the risk of a heart attack was lower in people treated with the liberal red blood cell transfusion threshold than in people treated with the restrictive red blood cell transfusion threshold, we are very unsure of this finding.

Quality of the evidence

All of the studies had some aspects that could undermine the reliability of their results. We decided the evidence was of low quality for all outcomes. Thus, we have some uncertainty about these findings and further research may provide evidence that could change our conclusions.

Conclusions

The current evidence does not support the use of liberal red blood cell transfusion thresholds based on a 10 g/dL haemoglobin trigger in preference to more restrictive transfusion thresholds based on lower haemoglobin levels or symptoms of anaemia in people with a broken hip. Further research needs to address the use of red blood cell transfusions before, during and after hip fracture surgery, and the use of red blood cell transfusions especially in people who have symptoms that reflect impaired blood flow and function.