The intracerebral hemorrhage acutely decreasing arterial pressure trial II (ICH ADAPT II) protocol

Background Aggressively lowering blood pressure (BP) in acute intracerebral hemorrhage (ICH) may improve outcome. Although there is no evidence that BP reduction changes cerebral blood flow, retrospective magnetic resonance imaging (MRI) studies have demonstrated sub-acute ischemic lesions in ICH patients. The primary aim of this study is to assess ischemic lesion development in patients randomized to two different BP treatment strategies. We hypothesize aggressive BP reduction is not associated with ischemic injury after ICH. Methods The Intracerebral Hemorrhage Acutely Decreasing Blood Pressure Trial II (ICH ADAPT II) is a phase II multi-centre randomized open-label, blinded-endpoint trial. Acute ICH patients (N = 270) are randomized to a systolic blood pressure (SBP) target of <140 or <180 mmHg. Acute ICH patients within 6 h of onset and two SBP measurements ≥140 mmHg recorded >2 mins apart qualify. SBP is managed with a pre-defined treatment protocol. Patients undergo MRI at 48 h, Days 7 and 30, with clinical assessment at Day 30 and 90. The primary outcome is diffusion weighted imaging (DWI) lesion frequency at 48 h. Secondary outcomes include cumulative DWI lesion rate frequency within 30 days, absolute hematoma growth, prediction of DWI lesion incidence, 30-day mortality rates, day 90 functional outcome, and cognitive status. Discussion This trial will assess the impact of hypertensive therapies on physiological markers of ischemic injury. The findings of this study will provide evidence for the link, or lack thereof, between BP reduction and ischemic injury in ICH patients. Trial registration This study is registered with clinicaltrials.gov (NCT02281838, first received October 29, 2014). Electronic supplementary material The online version of this article (doi:10.1186/s12883-017-0884-4) contains supplementary material, which is available to authorized users.


Background
Acute management of elevated blood pressure (BP) in acute intracerebral hemorrhage (ICH) remains an area of clinical equipoise. Phase III studies have failed to demonstrate marked improvements in clinical outcome when BP is lowered aggressively [1,2]. The most recent trial demonstrated a trend to worse outcomes in patients in whom BP was lowered to 120-140 mmHg [2]. Although aggressive BP reduction has not been associated with lower cerebral perfusion [3], magnetic resonance imaging (MRI) studies have reported acute and subacute ischemic lesions in 14-41% of ICH patients [4][5][6][7][8][9]. These lesions have been associated with aggressive BP treatment as well as unfavorable clinical outcomes but these data are all retrospective [4,5,9]. Therefore, we designed a prospective randomized study to definitively determine whether acute BP reduction is associated with an elevated risk of ischemic injury, detected with diffusion-weighted imaging (DWI).

Study design
The Intracerebral Hemorrhage Acutely Decreasing Arterial Pressure Trial II (ICH ADAPT II) is a phase II multi-center prospective, randomized, open-label study with blinded-evaluation (PROBE). Eligible ICH patients are randomized 1:1 to systolic BP (SBP) targets of <140 or <180 mmHg (Fig. 1). This study is registered with clinicaltrials.gov (NCT02281838). The primary study aim is to assess DWI lesion frequency in patients randomized to aggressive versus conservative BP targets.

Inclusion criteria
Patients ≥18 years with spontaneous ICH ≤6 h from onset Two SBP measurements ≥140 mmHg recorded >2 min apart Hematoma volume on CT <90 mL, as estimated using the ABC/2 method [10] Onset ≤6 h prior to randomization Glasgow Coma Scale (GCS) ≥5 prior to randomization

Exclusion criteria
Definite contraindication to BP reduction (i.e. severe arterial stenosis, MoyaMoya disease) Definite indication for BP reduction (i.e. hypertensive encephalopathy or aortic dissection) Contraindication to MRI (i.e. cardiac pacemaker) Suspected secondary cause of ICH Ischemic stroke <90 days Planned hematoma resection Pre-morbid modified Rankin score (mRS) ≥3 Life expectancy <6 months Early implementation of palliative care

Randomization
All patients undergo standard screening assessments including BP, GCS, and National Institutes of Health Stroke Scale (NIHSS) scores prior to randomization (Table 1). A centralized web-based randomization process is used to assign BP treatment target.

BP Management
The assigned BP target is achieved and maintained using an intravenous antihypertensive drug bolus protocol ( Table 2). Patients in the aggressive BP target (SBP <140 mmHg) group immediately receive a 10 mg intravenous (IV) bolus of labetalol, followed by repeated boluses designed to lower systolic BP to <140 mmHg within 60 min of randomization. The protocol utilizes IV enalapril and hydralazine boluses as well.
Patients randomized to the conservative arm (SBP <180 mmHg group) are treated with antihypertensive agents only if SBP ≥180 mmHg. BP and heart rate (HR) are continuously monitored non-invasively for the first 24 h.
24-h: Repeat CT scan at 24 ± 3 h to assess for hematoma expansion and peri-hematoma edema volume.
48-h: MRI at 48 ± 12 h, including a T1-weighted sagittal localizer, T2-weighted images, DWI (the primary endpoint), Fluid-attenuated Inverse Recovery (FLAIR), Susceptibility Weighted Imaging (SWI), and pulse Arterial Spin Labeling (ASL; optional sequence). DWI sequences are combined to form isotropic (trace) diffusion images and Apparent Diffusion Coefficient (ADC) maps are generated from these raw data. ADC maps are used to ensure all lesions represent true diffusion restriction and not T2 shine through effects. FLAIR sequences are also utilized to assess chronic small vessel ischemic changes. SWI sequences are used to assess the burden (number, total volume and topography) of cerebral microbleeds. Pulse ASL data is used to generate blood flow maps to determine if DWI lesions are correlated with hypoperfusion. All image analyses are completed centrally by raters blinded to BP treatment group allocation.

Clinical assessments
In-hospital clinical assessments (24 h, 48 h, day 7 and hospital discharge) of neurological deterioration are performed using GCS and NIHSS. Discharge mRS scores is obtained to assess disability and Montreal Cognitive Assessment (MoCA) to determine cognitive changes. This latter assessment is relevant as development of DWI lesions may impair cognition in ICH patients. All neurological, disability, and cognitive assessments are repeated at days 30 and 90.

Primary outcome
The primary endpoint is DWI lesion frequency on the 48-h MRI, which is the time point DWI lesions have most commonly been observed after ICH [4][5][6][7][8][9]. This is also the time point most relevant to acute BP reduction.

Secondary outcomes
Hematoma growth at 24 h Hypothesis: The mean hematoma growth will be smaller in the SBP <140 mmHg group. Cumulative DWI lesion rate frequency within 30 days Hypothesis: The rate of DWI lesion development will be higher in the SBP <140 mmHg group. Day 30 mortality rates Hypothesis: DWI lesion development will predict mortality, which should be independent of BP randomization. Day 90 mRS scores Hypothesis: Median mRS will be positively correlated with number of DWI lesions. Day 90 MoCA Hypothesis: MoCA scores will be lower in patients with DWI lesions.

Data safety monitoring body (DSMB)
The DSMB (Additional file 1) reviews the proportion of patients with neurological deterioration within 48 h (defined as an increase in NIHSS ≥4 points), 90-day mortality and all serious adverse events (SAE) after 33% and 67% of patients are enrolled. The committee may modify or stop the trial at any point.

Sample size estimates
The sample size is based on an observed DWI lesion frequency of 26% in the <180 mmHg target group [4][5][6][7][8][9]. The odds ratio for DWI lesion occurrence is 1.03 per decrease in mmHg of mean arterial pressure (MAP) between baseline and the MRI scan [5]. In ICH ADAPT I, MAP in the aggressive treatment group decreased by an average of 28 mmHg at the time of the primary endpoint assessment. Assuming a similar treatment effect in ICH ADAPT II, the predicted effect of SBP reduction <140 mmHg is an odds ratio of DWI lesion incidence of 1.84. The trial has been powered to detect a 0.84 (relative) increase in the frequency of DWI lesions in the <140 mmHg target group. The predicted absolute increase in the proportion of patients with DWI lesions is 22%. Hypotheses: H 0 : The proportion of patients with DWI lesions in the < 140 mmHg treatment arm will be ≤ 0.48.
End of Study Report □ H A : The proportion of patients with DWI lesions in the < 140 mmHg treatment arm will be > 0.48. The primary analysis will be a one-sided test of proportions at the alpha = 0.025 level. A sample size of 180 evaluable patients will be required to reject the null hypothesis with 80% power (alpha = 0.025). To account for withdrawal of consent and missing data related to early death and MRI contraindications, the sample size has been increased to 270 patients.

Statistical analyses
The primary endpoint will be tested using Fisher's Exact test. There will be no interim analyses for efficacy or futility.

Discussion
Elevated BP has been associated with hematoma growth, mortality, and disability after ICH [11]. However, the most recent clinical trial data have revived concerns about the safety of very aggressive BP reduction [2]. It is unknown if this trend to worse outcome is related to cerebral ischemic changes, but it is one possible mechanism [12]. There are mixed data regarding the development of ischemic lesions after ICH and its association with BP. Retrospective studies have suggested that there is a negative, positive, and even no correlation between the two [5,8,13,14]. The current trial utilizes a physiological endpoint that is more sensitive to ischemic injury to determine whether aggressive BP reduction in ICH patients exacerbates DWI lesion development, in individual patients. We have previously conducted a trial, ICH ADAPT I, in which ICH patients were randomized to aggressive (SBP <150 mmHg) versus conservative (SBP <180 mmHg) BP management strategies [3]. We did not find a difference in peri-hematoma cerebral blood flow (CBF) in these two groups. Most importantly, the magnitude of BP change was not related to regional CBF [3]. In contrast, several studies indicate that delayed cerebral ischemia, evident on MRI scan only, is common within the first week after ICH [4][5][6][7][8][9]. Although the majority of perihematoma DWI hyperintensities result from plasma derived edema, [15] true diffusion restriction representing bioenergetic compromise in this region and topographically remote areas are also present in some patients [4][5][6][7][8][9]. These DWI lesions tend to be small but are still a subject of concern as longitudinal studies indicate the probability of death/dependence at one year is increased between five and six-fold in these patients [13,16].
Canadian Stroke Best Practices recommendations for hyperacute stroke care recognize the safety of aggressively reducing SBP [17]. Furthermore, current American Heart Association/American Stroke Association guidelines advise lowering SBP <140 mmHg given its potential to improve patient prognosis in ICH patients, but more aggressive treatment is not encouraged [18]. These recommendations are based primarily on the results of two phase III studies which have failed to demonstrate an increase in the proportion of patients with good clinical outcomes when BP is lowered aggressively [1,2]. In the Intensive Blood Pressure Reduction in Acute Cerebral Hemorrhage Trial (INTERACT II), 2839 ICH patients were randomized within 6 h of symptom onset to a SBP target of <140 or <180 mmHg. The rate of death/disability was similar in the <140 mmHg target group (52%) and the <180 mmHg target group (55.3%; odds ratio with intensive treatment, 0.87; 95% CI, 0.75 to 1.01; p = 0.06) [1]. In the Antihypertensive Treatment of Acute Cerebral Hemorrhage II (ATACH II), patients were randomized earlier (4.5 rather than 6 h after symptom onset) to the aggressive and conservative BP strategies [2]. This trial recruited 1000 ICH patients, in which the primary outcome of death and disability (GCS >5) was observed in 38.7% vs. 37.7% in the aggressive vs. conservative treatment, respectively. The investigators concluded that aggressive antihypertensive therapy did not improve outcome. At this point the optimal BP treatment strategy remains unknown. It has been hypothesized that an earlier intervention (e.g., in the prehospital setting) may be needed to improve patient prognosis, and small clinical trials have demonstrated the feasibility and safety of hyperacute BP management in stroke patients [19,20]. However, it may be that in some patients aggressive BP reduction precipitate and/or exacerbate ischemic lesion development. This can only be addressed with a randomized controlled trial specifically addressing this endpoint.
In conclusion, ICH ADAPT II will provide evidence for the link, or lack thereof, between BP reduction and ischemic injury. This will add support for the safety of early systolic BP reduction to <140 mmHg, or alternatively a more nuanced approach to acute hypertension management in ICH patients.