The long saphenous vein is traditionally harvested for use as a conduit in coronary artery bypass grafting surgery. Currently, the long saphenous vein is not imaged prior to surgery. This study aims to evaluate preoperative ultrasound mapping of the long saphenous vein to to improve patient and clinical outcomes.
A vein from the leg is widely is widely harvested during coronary artery bypass grafting (CABG) surgery for bypass of diseased coronary arteries. This vein is called the long saphenous vein. Currently, the long saphenous vein (LSV) is harvested blind by surgical practitioners with no imaging prior to surgery to decide on whether this vein is suitable for use in heart bypass surgery. This can result in fruitless incisions and result in additional unnecessary surgical wounds in the leg(s) to identify a suitable section of vein that can be used in the bypass operation. In these cases, excessive surgical trauma to the leg can increase the risk of a wound infection. There is some evidence that ultrasound imaging of the LSV improves leg wound outcomes in patients having CABG surgery. Some studies have reported reductions in vein wound infection rates, vein harvest time, length of hospitalisation and length of wounds. The purpose of this study will be to investigate the potential benefit of ultrasound imaging as a randomised control trial. One group will have ultrasound imaging of the long saphenous vein prior to heart bypass surgery. A second group will not undergo ultrasound imaging which is current practice at the Bristol Heart Institute. Ultrasound imaging of the long saphenous vein will allow planning and selection of the most optimal segment of vein. This targeted approach will allow guidance of surgical incisions away from unsuitable segments and thus potentially improving leg wound outcomes. The primary endpoint for this study will be to assess leg wound infection between the two randomised groups. Other endpoints that will be assessed are patient satisfaction, wound length, time taken to remove the vein, blood loss from the leg wound during surgery and the number of wounds in your leg.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
PREVENTION
Masking
NONE
Enrollment
55
Ultrasound imaging of the long saphenous vein from the ankle to the saphenofemoral junction. This will allow assessment of vein calibre, branches and bifurcations, presence of thrombophlebitis and distribution. The presence of a proximal deep vein thrombosis will also be assessed.
University Hospital Bristol NHS FT
Bristol, United Kingdom
Surgical site infection at the conduit harvest site
The ASEPSIS tool is a well established tool to quantify wound healing disturbances.
Time frame: 30 days of CABG surgery
Ability to identify abnormal segments of vein on ultrasound and direct surgical excision away from such areas.
Applicable to the ultrasound imaged group only. The incidence of an abnormal segment of vein will be quantified and whether or not this has led to avoidance of unnecessary surgical excisions.
Time frame: baseline
Time taken to harvest a suitable conduit.
The time to harvest a suitable conduit will be recorded during CABG surgery.
Time frame: intraoperative
Length of lower limb vein harvest wounds.
Length of conduit harvest wounds will be measured after surgery to the nearest centimetre.
Time frame: 1 day Post-operation
Blood loss from the vein harvest wound
The blood loss from the conduit harvest wound(s) will be measured during surgery by weighing swabs.
Time frame: intraoperative
Patient questionnaire to assess wound/scar satisfaction and complications.
An assessment of patient satisfaction and non-infective complications related to the conduit harvesting for CABG surgery.
Time frame: 30 days from surgery
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