We have designed OVATION-65 to evaluate the effects of permissive low blood pressure compared to usual care on markers of organ injury and survival in older patients.
Background: When it is severe, hypotension compromises tissue perfusion and organ function, leading to multiple organ failure and death. Commonly in intensive care units (ICUs), excessive vasodilation causes hypotension. In response, clinicians administer vasopressors to induce vasoconstriction and thereby raise blood pressure. However, these medications may reduce blood flow to vital organs, including the heart, and therefore damage them. Titrating vasopressors therefore requires balancing the risks of organ dysfunction arising from vasopressors or hypotension. Current guidelines recommend titrating vasopressors to a mean arterial pressure (MAP) of 65 mmHg. By not specifying an upper limit, guidelines and clinicians put more emphasis on preventing hypotension than on minimizing vasopressor exposure. Permissive hypotension, defined as a MAP target below traditional levels, may reduce vasopressor-induced harm while avoiding organ dysfunction induced by severe hypotension. Observational data show that the average MAP in Canadian patients on vasopressors is 75 mmHg, 10 mmHg above current guideline recommendations and self-reported practices.The recent CIHR-funded OVATION pilot RCT (n=118) of permissive hypotension met feasibility objectives of demonstrating a separation in mean MAP between arms (9 mmHg, p\<0.0001) and enrolling patients efficiently (2.3 patients/site/month). Investigators have also completed an individual patient data meta-analysis with the French SEPSISPAM trial and found that a lower MAP target may be beneficial in patients 65 years old. Objective: The overarching goal of this randomized controlled trial (RCT) of permissive hypotension vs. usual blood pressure targets in hypotensive patients ≥65 years old is to determine whether permissive hypotension reduces the risk of harm associated with usual vasopressor therapy. The proposed RCT has specific objectives to ascertain the effect of permissive hypotension vs. usual care on: 1) markers of organ injury (primarily in the heart at day 3, secondarily (on day 3 and day 7) in the brain, liver, intestine, and skeletal muscle); 2) global tissue dysoxia (assessed by plasma lactate); 3) organ function (assessed by Sequential Organ Failure Assessment \[SOFA\] Score ); 4) resource utilization, 5) pre-specified adverse events, 6) mortality at 90 days and 6 months; 7) cognitive impairment in survivors at 6 months. Methods: Eligible patients will be randomized to target MAP 60-65 mmHg vs. usual care. By comparing permissive hypotension to usual care, we improve acceptance from clinicians and reduce the risk that the control group will diverge widely from usual care. Investigators will enroll patients in 7 Canadian ICUs. The deferred consent model will be adopted, successfully used in the pilot trial. Risk of bias will be minimized by allocation concealment, blinding of outcome assessors, complete hospital follow-up and intention-to-treat analysis. Relevance: This RCT proposal is embedded in the international OVATION-65 program of research, which includes the ongoing NIHR-funded UK65 Trial which measures 90-day mortality as the primary outcome. The Canadian OVATION-65 RCT is the only trial that measures organ injury biomarkers, providing crucial clinical information regardless of the effect on mortality. Results are expected to be incorporated into guidelines to inform practice worldwide. Sample size: The OVATION-65 Trial was designed to be complementary to the 65 Trial conducted in the United Kingdom. The original proposal, which consisted in a larger and simpler trial (n=800 participants, focused on biomarkers of organ injury) was abandoned because funding applications to the Canadian Institutes for Health Research and the Canadian Frailty Network were unsuccessful. The current trial was supported by a combination of multiple more modest operating grants awarded by the Université de Sherbrooke and the Centre de Recherche du CHU de Sherbrooke (see Funding sources). However, each grant required a distinct objective increasing the complexity of the analysis plan and sample size calculation. Certain analyses were incorporated into funding applications for local experiments on a small scale. By combining funds from multiple sources, we are able to enroll up to 200 participants, however we lack resources to measure every outcome on 200 participants. Outcomes that cannot be measured on every participant or as well as those that were planned originally but that remain unfunded are described briefly in the secondary outcomes section and specified as ancillary studies. They will be reported separately. Attempts to obtain funding for a larger OVATION-65 Trial continued until the end of 2018. Sufficient funding was secured to enroll up to 200 patients, but trial enrollment was terminated on 21 February 2020 after 159 patients were enrolled, on the recommendation of the DSMC following publication of the 65 trial. Six-month follow-up will be complete in August 2020. The statistical analysis plan will be registered and published before analyzing the data.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
SINGLE
Enrollment
159
Treating teams will adjust vasopressors to a target MAP range of 60 to 65 mmHg, avoiding vasopressor-induced MAP above this range.
Patients in the control arm will receive usual care (as per local practices).
CIUSSS de l'Estrie-CHUS
Sherbrooke, Quebec, Canada
Plasma high-sensitivity cardiac troponin T at day 3 (primary mechanistic outcome)
Plasma high-sensitivity cardiac troponin T (hsTnT) at day 3 (corrected for baseline levels) (primary mechanistic outcome)
Time frame: Day 3
Concentration of biomarkers associated with tissue injury to the brain
Concentration of biomarkers associated with tissue injury to the brain (plasma GFAP, plasma Myelin Basic Protein and serum NSE)
Time frame: Days 1 (baseline),3 and 7
Concentration of biomarker associated with tissue injury to the liver
Concentration of biomarker associated with tissue injury to the liver (plasma ALT)
Time frame: Days 1 (baseline),3 and 7
Concentration of biomarker associated with tissue injury to the intestine
Concentration of biomarker associated with tissue injury to the intestine (plasma fatty acid binding protein (FABP))
Time frame: Days 1 (baseline),3 and 7
Concentration of biomarker associated with tissue injury to the skeletal muscle
Concentration of biomarker associated with tissue injury to the skeletal muscle (plasma creatinine kinase).
Time frame: Days 1 (baseline),3 and 7
Concentration of biomarker associated with cardiac wall stress
Concentration of biomarker associated with cardiac wall stress (plasma N-terminal pro-B-type natriuretic peptide \[NT-proBNP\]).
Time frame: Days 1 (baseline),3 and 7
Global tissue dysoxia
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Global tissue dysoxia will be assessed through plasma lactate
Time frame: Days 1 (baseline),3 and 7
Plasma high-sensitivity cardiac troponin T (hsTnT)
Plasma high-sensitivity cardiac troponin T (hsTnT) at day 7
Time frame: Day 7
Pre-specified adverse events
Pre-specified adverse events assessed by events of stroke, clinically detected supraventricular arrhythmia, acute kidney injury (KDIGO stage 3), limb or intestinal ischemia
Time frame: 28 days
Organ function
Organ function using SOFA score (measured at baseline (day 1) and on days 2,3,4,7,10,14 and 28 while in the ICU)
Time frame: Days 1 (baseline), 2, 3, 4, 7, 10, 14 and 28
Mortality
Mortality at 90 days and at 6 months will be assessed during the phone call at 6 months
Time frame: 90 days and 6 months
6-month cognitive impairment
6-month cognitive impairment assessed by Telephone Interview for Cognitive Status (TICS)
Time frame: 6 months
Healthcare utilization
Healthcare utilization assessed by measuring duration of mechanical ventilation, renal replacement therapy, vasopressor therapy and ICU and hospital stay (through days of utilization)
Time frame: 28 days
Plasma level of ascorbic acid (outcome for ancillary study)
Plasma level of ascorbic acid (measured at baseline (day 1))
Time frame: Day 1 (baseline)
Biomarkers of ascorbic acid deficiency-related organ injury (outcome for ancillary study)
Inflammation (IL-1ß; TNF-α; CRP) and endothelial injury (thrombomodulin, angiopoietin-2)
Time frame: Days 1 (baseline), 3 and 7
Discovery proteomic approach to identify peptides and proteins expressed in the urine (outcome for ancillary study)
Discovery proteomic approach through novel urine biomarkers
Time frame: Days 1 (baseline), 3 and 7
Validate the predictive value of five prespecified biomarkers of renal injury in urine using a proteomic approach (outcome for ancillary study): TIMP2, NGAL, FABPL, CYTC, IGFBP7
Proteomic discovery approach through validation of prespecified urine biomarkers: TIMP2, NGAL, FABPL, CYTC, IGFBP7
Time frame: Days 1 (baseline), 3 and 7
Impact of vasopressor regimen on the immune response, adrenergic receptor activity and related proteomic signature of peripheral blood mononuclear cell (PBMC) (outcome for ancillary study)
Immune response, adrenergic receptor activity and proteomic profile through Th1/Th2 profiling, PBMC adrenergic receptors AMPc activity and proteomic signature and associations with responses to catecholamines.
Time frame: Day 1 (baseline) and 7