Preconditioning Shields Against Vascular Events in Surgery (SAVES), a multicentre feasibility trial of preconditioning against adverse events in major vascular surgery: Study protocol for a randomised control trial

Donagh Healy, Mary Clarke-Moloney, Brendan Gaughan, Siobhan O'Daly, Derek Hausenloy, Faisal Sharif, John Newell, Martin O'Donnell, Pierce Grace, John F. Forbes, Walter Cullen, Eamon Kavanagh, Paul Burke, Simon Cross, Joseph Dowdall, Morgan McMonagle, Greg Fulton, Brian J. Manning, Elrasheid A.H. Kheirelseid, Austin LeahyDaragh Moneley, Peter Naughton, Emily Boyle, Seamus McHugh, Prakash Madhaven, Sean O'Neill, Zenia Martin, Donal Courtney, Muhammed Tubassam, Sherif Sultan, Damian McCartan, Mekki Medani, Stewart Walsh

Research output: Contribution to journalArticlepeer-review

Abstract

Background: Patients undergoing vascular surgery procedures constitute a 'high-risk' group. Fatal and disabling perioperative complications are common. Complications arise via multiple aetiological pathways. This mechanistic redundancy limits techniques to reduce complications that target individual mechanisms, for example, anti-platelet agents. Remote ischaemic preconditioning (RIPC) induces a protective phenotype in at-risk tissue, conferring protection against ischaemia-reperfusion injury regardless of the trigger. RIPC is induced by repeated periods of upper limb ischaemia-reperfusion produced using a blood pressure cuff. RIPC confers some protection against cardiac and renal injury during major vascular surgery in proof-of-concept trials. Similar trials suggest benefit during cardiac surgery. Several uncertainties remain in advance of a full-scale trial to evaluate clinical efficacy. We propose a feasibility trial to fully evaluate arm-induced RIPC's ability to confer protection in major vascular surgery, assess the incidence of a proposed composite primary efficacy endpoint and evaluate the intervention's acceptability to patients and staff. Methods/Design: Four hundred major vascular surgery patients in five Irish vascular centres will be randomised (stratified for centre and procedure) to undergo RIPC or not immediately before surgery. RIPC will be induced using a blood pressure cuff with four cycles of 5 minutes of ischaemia followed by 5 minutes of reperfusion immediately before the start of operations. There is no sham intervention. Participants will undergo serum troponin measurements pre-operatively and 1, 2, and 3 days post-operatively. Participants will undergo 12-lead electrocardiograms pre-operatively and on the second post-operative day. Predefined complications within one year of surgery will be recorded. Patient and staff experiences will be explored using qualitative techniques. The primary outcome measure is the proportion of patients who develop elevated serum troponin levels in the first 3 days post-operatively. Secondary outcome measures include length of hospital and critical care stay, unplanned critical care admissions, death, myocardial infarction, stroke, mesenteric ischaemia and need for renal replacement therapy (within 30 days of surgery). Discussion: RIPC is novel intervention with the potential to significantly improve perioperative outcomes. This trial will provide the first evaluation of RIPC's ability to reduce adverse clinical events following major vascular surgery. Trial Registration: www.clinicaltrials.gov.

Original languageEnglish
Article number185
Pages (from-to)185
JournalTrials
Volume16
Issue number1
DOIs
Publication statusPublished - 23 Apr 2015

Keywords

  • Perioperative complications
  • Remote preconditioning
  • Vascular surgery

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