View clinical trials related to Remote Ischaemic Preconditioning.
Filter by:With an increasingly ageing population the incidence of peripheral arterial disease (PAD) is rising. With approximately one quarter of all PAD patients ultimately progressing to Critical Limb Ischaemia (CLI), increased demands are being placed on vascular imaging to accurately assess stenotic lesions. Early infrainguinal lesions (i.e. TASC A & B) can be treated with angioplasty+/- stenting and accurate assessment relies on the imaging gold standard of angiography. Patients with PAD often have concomitant co morbidities such as diabetes and chronic renal impairment placing them at increased risk of developing contrast induced nephropathy (CIN) when exposed to iodinated contrast media. High risk individuals with decreased eGFR <60ml/min have a risk of between 20-30% of developing CIN. They have increased morbidity and mortality risks with a greater need for dialysis and prolonged in patient hospital stays. Ideally, the investigators should be searching for ways to decrease the incidence of CIN. Animal studies and more recently pilot human trials have shown that subjecting a remote vascular bed to a brief ischaemic stress, followed by a period of reperfusion; in what has been termed remote ischemic preconditioning (RIPC), may confer a protective benefit against the development of CIN. This study aims to determine if RIPC can protect against CIN in patients undergoing elective peripheral angiography for infrainguinal disease.
Computated tomography (CT) is an invaluable medical resource for both physicians and surgeons. Contrast media are an aid to improve the diagnostic yield of CT. While an incredibly powerful means of imaging the human body, there are possible complications to the use of contrast including a hypersensitive response and contract induced nephropathy (CIN). The latter will typically occur 48-72 hours after administration. One recent meta - analysis of serum creatinine levels following contrast enhanced CT found 6.4% of those undergoing this investigation developed CIN. Although typically transient, 1 % had a persisting reduced renal function, with a small minority needing renal replacement therapy (RRT). The development of CIN was influenced by co morbidities and by the amount of contrast given. The mechanism of injury to the kidney is not definitively established, but is thought most likely due to hypoxia resulting from reduced blood flow, thereby giving rise to oxygen free radicals causing direct damage to the kidney and also direct tubular damage. Remote conditioning ischaemia has been hypothesized to be nephroprotective, whereby induced transient ischaemia at another site could buffer the impact of the contrast medium's effects. This was first demonstrated during cardiac angiograms, with those patients whom received multiple balloon inflations in the coronary arteries were found to have a lower incidence of CIN than those with fewer balloon inflations. Thus it could be hypothesised that any ischaemia temporarily induced could be nephroprotective. This can be at a point of extremity, rather than involving central organs, such as the arm, with ischaemia induced by the use of a blood pressure cuff, inflated to above systolic blood pressure levels. No studies have been found in the literature attempting to demonstrate this effect in relation to contrast CT studies. Consequently, a randomised control clinical trial of patients to assess the effectiveness of remote ischaemic preconditioning is proposed. Study Hypothesis: That performing remote ischaemic preconditioning on those undergoing CTs involving IV contrast is nephroprotective.