Abdominal Aortic Aneurysm Clinical Trial
Official title:
Preconditioning Shields Against Vascular Events in Surgery: A Multi-centre Feasibility Trial of Preconditioning Against Adverse Events in Major Vascular Surgery (Preconditioning-SAVES)
Major vascular surgery involves operations to repair swollen blood vessels, clear debris from blocked arteries or bypass blocked blood vessels. Patients with these problems are a high-risk surgical group as they have generalized blood vessel disease. These puts them at risk of major complications around the time of surgery such as heart attacks , strokes and death. The mortality following repair of a swollen main artery in the abdomen is about 1 in 20. This contrasts poorly with the 1 per 100 risk of death following a heart bypass. Simple and cost-effective methods are needed to reduce the risks of major vascular surgery. Remote ischaemic preconditioning (RIPC) may be such a technique. To induce RIPC, the blood supply to muscle in the patient's arm is interrupted for about 5 minutes. It is then restored for a further five minutes. This cycle is repeated three more times. The blood supply is interrupted simply by inflating a blood pressure cuff to maximum pressure. This repeated brief interruption of the muscular blood supply sends signals to critical organs such as the brain and heart, which are rendered temporarily resistant to damage from reduced blood supply. Several small randomized clinical trials in patients undergoing different types of major vascular surgery have demonstrated a potential benefit. This large, multi-centre trial aims to determine whether RIPC can reduce complications in routine practice.
The demand for major vascular surgery is increasing [1]. Patients requiring procedures such
as aortic aneurysm repair, carotid endarterectomy, lower limb surgical re-vascularisation
and major lower limb amputation for end-stage vascular disease constitute a high-risk
surgical cohort. Peri-operative complications such as myocardial infarction, cerebrovascular
accident, renal failure and death are common [2,3]. Multiple potential mechanisms may result
in these complications. For example, myocardial injury may result from systemic hypotension
leading to reduced flow across a tight coronary artery stenosis or, alternatively, it may
arise due to acute occlusion when an unstable plaque ruptures. Most strategies aimed at
peri-operative risk reduction target a single potential mechanism. For example,
beta-blockade may prevent myocardial injury due to overwork, but cannot prevent acute
coronary occlusion. There is a requirement for a simple, effective intervention that
protects tissues against injury via multiple different mechanisms. Remote ischemic
preconditioning (RIPC) may be suitable.
Ischemic preconditioning is a phenomenon whereby a brief period of non-lethal ischemia in a
tissue renders it resistant to the effects of a subsequent much longer ischaemic insult. It
was first described in the canine heart [4]. Subsequent clinical trials showed that ischemic
preconditioning reduced heart muscle damage following coronary artery bypass grafting [5]
and liver dysfunction following hepatic resection [6]. Following cardiac surgery, it is
associated with a reduction in critical care stay, arrhythmias and inotrope use [7].
However, ischemic preconditioning requires direct interference with the target tissues'
blood supply, limiting its clinical utility. Further experimental work suggested that brief
ischemia in one tissue, such as the kidneys, could confer protection on distant organs such
as the heart [8]. A similar effect was observed after transient skeletal muscle ischemia
[9-11]. This effect is referred to as 'preconditioning at a distance' or 'remote ischemic
preconditioning' (RIPC).
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Single Blind (Outcomes Assessor), Primary Purpose: Prevention
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