Background
Femoral neck fractures in the elderly make up a large proportion of Orthopaedic surgical admissions each year and the numbers worldwide are expected to reach 6.26 million cases a year by 2050 [
1]. These patients often present with numerous co-morbidities including coronary artery disease, cerebrovascular disease and peripheral vascular disease. In fact, recent studies show both a high incidence of cardiovascular disease among operative hip fracture patients (63.3 %), as well as a higher risk of hip fractures among patients with cardiovascular disease [
2‐
4]. Thus, anticoagulant therapy in patients presenting with hip fractures is becoming more and more prevalent.
Increasingly common is the use of clopidogrel, a thienopyridine derivative, which irreversibly binds to the platelet receptor adenosine diphosphonate (ADP) and thus inhibits platelet aggregation and thrombus formation [
5]. The National Institute of Clinical Excellence (NICE) guidelines recommends clopidogrel for the prevention and treatment of occlusive vascular events in patients with recent stroke, myocardial infarction, acute coronary syndrome and established peripheral vascular disease [
6]. This includes patients who have undergone percutaneous coronary intervention and coronary artery by-pass grafting. The half-life of clopidogrel is 8 h, but the affected platelets remain irreversibly inactivated and are replaced by new platelets after 5 to 7 days. Studies have shown patients to show a complete recovery of platelet function 7 days after the last clopidogrel dose [
7].
Manufacturers and other published guidelines based on the physiological lifespan of the platelets recommend stopping clopidogrel at least 5-7 days before undergoing elective surgery to allow recovery of normal platelet function and avoid the perioperative risks of increased bleeding [
8‐
11]. However there is no consensus regarding guidelines for the perioperative management of clopidogrel in patients with acute femoral neck fractures. In June 2009 the Scottish Intercollegiate Guidance Network (SIGN), published a national guideline for the management of hip fractures in elderly patients and recommended that surgery should not be delayed in patients receiving anti-platelet therapy (aspirin, clopidogrel or dipyridamole) [
12].
The difficulty in managing these patients who are on clopidogrel exists because the increased risk of perioperative bleeding and higher risk of spinal haematoma [
13] during the use of regional anaesthesia must be weighed against the risks of delayed surgery and the risks associated with the withdrawal of anti-platelet drugs. The difference between clopidogrel and many other anticoagulant medications is that there is no known method of reversing its antithrombotic effects acutely and the effectiveness of a fresh platelet transfusion in the event of excessive bleeding is controversial. There are in vitro and clinical studies that suggest platelet infusions are an effective method of reversing the effects of clopidogrel [
14‐
16]. However more recently, there have been large-scale studies that have been unable to show any effectiveness of emergency platelet transfusions in patients on antiplatelet therapy [
17‐
19].
The increased bleeding risk of clopidogrel in patients undergoing surgical procedures has been reported however there are limited reports to support this in orthopaedic literature. Most of the studies relate to cardiac surgery and in these studies clopidogrel has been reported to result in a four to five times increased risk of haemorrhage-induced surgical re-exploration and three times increased risk of blood transfusion post coronary artery bypass graft surgery [
20‐
22]. Case reports of extensive retroperitoneal haematoma post lumbar sympathetic blockade and cervical epidural haematoma post epidural injection resulting in quadriparesis have further highlighted the bleeding risks associated with clopidogrel [
23,
24].
To minimise the risks of perioperative bleeding related to clopidogrel, surgery can be delayed for at least 5 to 7 days. However the risks of delaying surgery in femoral neck fracture patients is well documented. Numerous studies have shown that a surgical delay in femoral neck fracture patients can lead to significantly poorer patient outcomes including an increased mortality rate, prolonged in-hospital stay time and a reduced rate of return to independent living [
25‐
29]. Delay to surgery greater than 48 h has been shown to be independently associated with a higher mortality rate at 30 days and 1 year [
30]. A prospective observational study of 2660 patients and found a significant increase in mortality in hip fracture patients delayed more than 4 days for surgery compared to those operated without delay (10.7 % vs 8.7 %) [
31].
Another important consideration is that of the risk of withholding clopidogrel in these hip fracture patients with cardiovascular comorbidities. Studies have shown that fractures, surgical procedures and trauma induce both an inflammatory and coagulatory effect [
32,
33]. Withholding clopidogrel in hip fracture patients can potentially induce a rebound effect and cause thromboembolic events whilst in this prothrombotic state. There are reports of a perioperative incidence of acute coronary syndrome of up to 20.2 % in patients with femoral neck fractures [
34]. In patients who have had coronary stents inserted, cessation of clopidogrel treatment during the first year is associated with a 20 % risk of myocardial infarction and 45 % mortality rate [
35]. This risk is of particular concern to those with drug-eluting stents, for which dual-antiplatelet therapy is prescribed on an empirical basis for 3-6 months after implantation, with life-long aspirin. Studies have shown that patients who prematurely cease clopidogrel therapy, have a significantly increased risk of hospitalisation and mortality within the first 11 months due to stent thrombosis [
36]. In addition, there have also been rising concerns for patients with drug-eluting stents regarding the risk of late stent occlusion after cessation of clopidogrel [
37]. This difficult balancing act in managing these patients has resulted in a lack of consensus about the best practice and safest approach, and this is demonstrated by a wide variation in policies between different Orthopaedic departments. A number of published surveys of orthopaedic departments across the UK and US have demonstrated this variation, each of them largely based on anecdotal evidence [
38‐
41]. One survey of 139 UK orthopaedic departments published in 2007 revealed 41 % stopped clopidogrel and operated immediately, 19 % continued clopidogrel and operated immediately, 21 % stopped clopidogrel for at least 5 days preoperatively and 19 % had various alternative protocols [
38].
The aim of the study was to determine if operating early on patients with neck of femur fractures who are on clopidogrel increases the risk of clinically significant bleeding, reflected in rate of blood transfusions and postoperative decreases in haemoglobin concentrations, when compared to patients who are not on clopidogrel. A secondary aim was to establish a framework for managing neck of femur patients who are on clopidogrel.
Methods
Search strategy
A comprehensive search was performed using the following databases: The Cochrane Library (Wiley, to February 2015), MEDLINE (Ovid, 1946 to February 2015) and EMBASE (Ovid, 1974 to February 2015), and Google scholar (to February 2015). The following keywords were used: Anticoagulant”, “Plavix”, “Clopidogrel”, “Thienopyridine”, “Antiplatelet therapy”, “Hip fractures”, “Femoral neck fractures”, “Neck of femur fractures”, “Orthopaedic surgery”, “Surgery”, “Bleeding”, “Blood loss” (Additional file
1). Additionally all references of the retrieved articles were also checked for additional relevant studies. Studies selected were original clinical studies that addressed the use of clopidogrel in patients undergoing surgery for neck of femur fractures. All comparative studies with a treatment group and a control group were considered. Data limits were set from all journals up to February 2015. Exclusion criteria were: (1) studies comparing non-clopidogrel anticoagulant medication, (2) studies without neck of femur patients, and (3) studies other than clinical studies such as reviews, letters, editorials and expert opinions.
Data were extracted by one of the investigators (first author) and checked by a second investigator (second author). The authors were not blind to authorship, journal of publication, or results of the trials. Extracted data included assessment of study quality, study design, number of patients, patient characteristics (age, gender, fracture), surgical treatment, number of days free of clopidogrel, and perioperative use of other anticoagulants, and follow-up. Outcome measures were divided into primary and secondary. Primary outcome measures included (1) allogeneic and autologous blood transfusion exposures or average number of units transfused per patient and (2) a postoperative haemoglobin concentration or a drop in haemoglobin concentration. Secondary outcome measures were recorded from the included studies if available: average time to surgery, length of stay in hospital and postoperative complications (including haematoma, cardiovascular, cerebrovascular, thromboembolic events, death).
Quality appraisal
The quality of the studies was appraised based on a select number of well described quality appraisal methods [
42‐
44]. These were: (1) study design- whether the study met the requirements of our research question, for example a comparative study with clopidogrel patient groups and non clopidogrel patient groups; (2) prospective or retrospective study; (3) study population clearly specified and defined; (4) homogeneity concerning patient population- for example patients on clopidogrel only or patients who are also on aspirin; (5) transparency of outcome measures and assessment; (6) transparency of missing data; (7) appropriate data management and statistics in relation to our research question; (8) confounding variables assessed, measured and commented on- for example the concurrent use of aspirin. The same investigators scored the items and assessed bias, and any disagreements were resolved by consensus.
This was done using the fixed effects model. Heterogeneity of the intervention effect was assessed with the I
2 statistic. Data analysis was performed using Review Manager 5.1 (The Cochrane Collaboration, 2011).
This systematic review conforms to the Preferred Reporting Items for Systematic reviews and Meta-Analyses (PRISMA) standards (Additional file
2).
Discussion
This systematic review and meta-analysis of the 14 comparative studies provides evidence that operating early on neck of femur patients who are on clopidogrel is safe and poses no increased risk of bleeding when compared to patients not on clopidogrel.
In review of the literature, there is a paucity of high-level evidence to guide the perioperative management of patients with neck of femur fractures who are also on clopidogrel. Most of the literature is retrospective and non-randomised, and this leads to weak conclusions. Out of all the literature, only fourteen of the available studies are comparative, none of which are RCTs, and only two of which is prospective. Meta-analyses of observational studies also possess limitations due to the inherent biases that exist in nonrandomized, unblinded studies. The difficulty in creating large scale randomised clinical trials lies in the complexity of the patient with femur fractures and their individual and variable medical comorbidities.
Search strategy
The electronic search strategy proved to be effective, generating all 13 of the 14 included studies. Only one of the included studies was not generated from the electronic searches, and this was from a reference search of an included study.
Primary outcomes
The assessment and analysis of the data for the primary outcome measures was difficult due to the studies presenting their outcomes in different formats.
Most of the studies (13 out of 14) had good patient demographic data to assess whether the CG and control group were similar. The most useful was assessment of age, ASA score, type of surgery and type of fracture, and most of the studies had matched groups. Only one study reported a significant difference in age between the two groups [
63]. As expected most studies showed a significantly higher number of either cardiovascular or cerebrovascular disease comorbidities in the intervention group, however surprisingly only two studies showed a significant difference in ASA grade [
62,
64]. One study reported a significantly higher number of premorbid cerebrovascular accidents and transient ischaemic attacks in CG potentially introducing bias for providing blood transfusions (doctors may have a lower threshold to transfuse these patients). Of the four studies reporting the type of anaesthesia used during surgery, there was no statistically significant differences between the two groups [
54,
55,
58,
61]. Despite the potential risk of spinal haematoma in patients using clopidogrel, no anaesthetic complications were reported in any of the four studies.
In comparing the primary outcomes between the CG and the controls, the best guide to assess blood loss and blood replacement is the postoperative Hb. However this was poorly recorded in some studies, and it was also reported at different times postoperatively e.g. immediately post op, 24 h post op, 48 h post op, at point of discharge. Some also only documented the lowest Hb recorded during the postoperative period. Ideally it should be taken at point of discharge because some patients had blood transfusions after the operation and before discharge.
The drop in Hb was poorly reported but the number of transfusion exposures and the mean units transfused per patient were generally well reported.
In the studies that reported on transfusion exposures, and mean units transfused per patient, most found no statistically significant difference between the groups. Only one study showed a significant increase in transfusion exposures in the CG [
63]. In terms of Hb concentrations, there were two studies that reported a significantly higher drop in Hb in the CG [
56,
58]. One study described a significant increase in perioperative blood loss (which was not part of our outcome measures due to rarity and inconsistency of reporting), however they found no significant difference in transfusion rates [
52]. Thus there appears to be good evidence to suggest clopidogrel use does not increase transfusion rates or have significantly more effect on Hb falls.
A potential confounding factor in the results may be the concurrent use of aspirin in these patients. Dual-antiplatelet therapy is the mainstay of postoperative management of cardiac stent patients. Aspirin use has been described in a number of studies to be a risk factor for increased blood loss and transfusion requirements in hip fractures and hip fracture surgery [
65‐
67].
In our report 8 out of the 14 studies reported on aspirin use. Only one of these studies showed a significant increase in aspirin use in the CG compared to controls and this study reported no significant difference in transfusion rates or Hb concentrations between the groups [
55]. Only one study reported on blood loss in patients on clopidogrel as well as in patients on clopidogrel and aspirin combined [
52]. Their results showed a significant increase in perioperative blood loss in both these groups when compared to patients not on any antiplatelet therapy, however there was no difference in transfusion rates or Hb concentrations.
Secondary outcomes
The time to theatre was a well reported in most studies and it provided data not only comparing CG and controls but also on the effect of early surgery versus delayed surgery in patients on clopidogrel. Four studies assessed the differences in outcomes between early and delayed surgery in CG patients and none of these studies found a significant difference in bleeding outcomes. However three of these studies reported increased complications in the delayed surgery group such as pulmonary emboli, cardiovascular complications and decubitus ulcers. The results of these studies suggests that it is unnecessary to delay surgery for patients on clopidogrel, and on the contrary, delaying surgery may in fact pose risks of serious complications. One of the significant concerns for patients on clopidogrel is the implications of ceasing the antiplatelet therapy. It is well reported that discontinuation of antiplatelet therapy in patients with stents (especially drug-eluting) significantly increases the risks of cardiac stent thrombosis and death. In correlation with the results of our study, which suggest an increase in cardiovascular complications relating to the with-holding of clopidogrel prior to surgery, we recommend that patients with stents should continue clopidogrel or at very least require special consideration and discussion with the treating cardiologist about continuing or ceasing anti-platelet therapy.
Seven studies provided data on length of stay and this varied widely between studies. This probably represented differences in health care systems and policies in different areas and countries. Four of these studies found that being on clopidogrel significantly prolongs the length of stay in hospital but it is important to note that two of them had significant delays to surgery.
The reporting and statistical analysis of other adverse outcomes such as haematoma, haemorrhage, cardiovascular episodes and mortality was variable between studies. There were no significant differences in adverse outcomes between CG and controls, except in one study which showed a significantly increased mortality rate in the CG [
68].
This study’s results differ slightly with a recently published systematic review and meta-analysis by Doleman and Moppett [
69] which found that in the seven studies they included in their meta-analysis, there was an overall increase in the proportion of patients receiving blood transfusions in the clopidogrel group when compared to the control group (
p = 0.05). This difference is accounted for by the different studies included in the meta-analyses (nine studies included in our meta-analysis). However the authors found no difference in mean units transfused and stated that the under-powering of the included studies prevented detection of any differences in postoperative complications.
Conclusions
The combination of increasing population age, the increasing use of clopidogrel and the increasing number of hip fracture hospital admissions creates an important issue and potential management concern for orthopaedic surgeons. There is a relatively large collection of low-quality evidence showing operating early on neck of femur fracture patients on clopidogrel to be safe. However there is still wide variation in clinical practice and no consensus on recommendations.
The aim of this paper was to gather the best evidence available on the effect of clopidogrel on hip fracture surgery patients. Most of the literature is made up of low quality retrospective non-randomised cohort studies with small sample sizes. Ultimately, large multi-centred, adequately powered, well-designed randomised trials are needed to establish clearer guidelines for the management of these patients.
On the available evidence, we recommend that these patients can be managed by normal protocols with early surgery. Operating early on patients on clopidogrel is safe and does not appear to confer any clinically significant bleeding risk. As reported in other studies, we believe clopidogrel, if possible, should not be withheld throughout the perioperative period due to an increased risk of cardiovascular events associated with stopping clopidogrel. Care should be taken intraoperatively to minimise blood loss due to the increased potential for bleeding.
Ethics approval and consent to participate
Not applicable.
Consent for publication
Not applicable.
Availability of data and materials
Data available from published papers as per references.
Competing interests
The authors declare that there are no competing interests, and they are not in receipt of any research scholarships or funding for this paper.
Authors’ contributions
CS conceived the study, helped design the study, searched databases for the articles and screened them accordingly, analysed the data and helped draft the manuscript. PDT helped design the study, analysed and tabulated data and helped draft and edit the manuscript. TY searched databases for the articles and screened them accordingly, and tabulated data. MS helped analyse and tabulate data, and helped draft the manuscript. All authors read and approved the final manuscript.