The aim of this study was to review the role
of clinical trial networks in orthopaedic surgery. A total of two
electronic databases (MEDLINE and EMBASE) were searched from inception
to September 2013 with no language restrictions. Articles related
to randomised controlled trials (RCTs), research networks and orthopaedic
research, were identified and reviewed. The usefulness of trainee-led
research collaborations is reported and our knowledge of current
clinical trial infrastructure further supplements the review. Searching
yielded 818 titles and abstracts, of which 12 were suitable for
this review. Results are summarised and presented narratively under
the following headings: 1) identifying clinically relevant research
questions; 2) education and training; 3) conduct of multicentre
RCTs and 4) dissemination and adoption of trial results. This review
confirms growing international awareness of the important role research
networks play in supporting trials in orthopaedic surgery. Multidisciplinary
collaboration and adequate investment in trial infrastructure are crucial
for successful delivery of RCTs. Cite this article:
We performed a systematic review and meta-analysis
to compare the efficacy of intermittent mechanical compression combined
with pharmacological thromboprophylaxis, against either mechanical
compression or pharmacological prophylaxis in preventing deep-vein
thrombosis (DVT) and pulmonary embolism in patients undergoing hip
or knee replacement. A total of six randomised controlled trials,
evaluating a total of 1399 patients, were identified. In knee arthroplasty,
the rate of DVT was reduced from 18.7% with anticoagulation alone
to 3.7% with combined modalities (risk ratio (RR) 0.27, p = 0.03;
number needed to treat: seven). There was moderate, albeit non-significant,
heterogeneity (I2 = 42%). In hip replacement, there was
a non-significant reduction in DVT from 8.7% with mechanical compression
alone to 7.2% with additional pharmacological prophylaxis (RR 0.84)
and a significant reduction in DVT from 9.7% with anticoagulation
alone to 0.9% with additional mechanical compression (RR 0.17, p
<
0.001; number needed to treat: 12), with no heterogeneity (I2 =
0%). The included studies had insufficient power to demonstrate
an effect on pulmonary embolism. We conclude that the addition of intermittent mechanical leg
compression augments the efficacy of anticoagulation in preventing
DVT in patients undergoing both knee and hip replacement. Further
research on the role of combined modalities in thromboprophylaxis
in joint replacement and in other high-risk situations, such as fracture
of the hip, is warranted.