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Considerations in Acute Blood Pressure Control Following Acute Stroke Denise H. Rhoney, Pharm.D., FCCP, FCCM, FNCS Ron and Nancy McFarlane Distinguished Professor and Chair Division of Practice Advancement and Clinical Education UNC Eshelman School of Pharmacy Chapel Hill, NC Acute Hypertensive Crises Rapid BP Control Acute Hypertensive Crises Hypertensive Urgency1 Severe BP elevation WITHOUT end-organ damage Hypertensive Emergency1 Severe BP elevation WITH end-organ damage Perioperative Hypertension2 Severe BP elevation occurring before, during, or after surgical procedures About 500,000 patients experience a hypertensive emergency annually BP=blood pressure. 1. Chobanian AV, et al. Hypertension. 2003;42:1206-1252; 2. Varon J, Marik PE. Vasc Health Risk Manag. 2008;4:615-627. End-Organ Damage in Hypertensive 1,2 Emergencies Brain Hypertensive Encephalopathy Ischemic Stroke Hemorrhagic Stroke Subarachnoid Hemorrhage Cardiovascular System Unstable Angina Acute Heart Failure Acute Myocardial Infarction Aortic Dissection References: 1. Varon J, Marik PE. Chest. 2000;118(1):214-227. 2. Rynn KO et al. J Pharm Prac. 2005;18(5):363-376. Retina Hemorrhages Exudates Papilledema Kidney Hematuria Proteinuria Decreasing Renal Function Acute Hypertension Pathophysiology and Treatment Options Circulating and local factors acting on endothelium and vascular smooth muscle Circulating Vasoconstrictors BP = Abrupt BP Circulating Catecholamines SVR Abrupt SVR X CO (SV x HR) SVR=systemic vascular resistance; CO=cardiac output; SV=stroke volume; HR=heart rate. Oates JA, Brown NJ. In: Hardman JG, Limbird LE, eds. Goodman and Gilman’s Pharmacological Basis of Therapeutics. 10th ed. New York, NY: McGraw-Hill; 1997:871-900. Challenges in Acute BP Control in Critical Care The JNC 7 guidelines recommend to “reduce MAP by no more than 25% within minutes to 1 hour” for hypertensive emergencies1 Therefore, challenges exist in individualizing treatment for each particular situation and patient1,2 The variety of patient types and clinical situations preclude more specific guidelines with regard to treatment timing or targets The agent of choice depends on the clinical presentation and specific needs of each patient2 Complications may result from aggressive BP reductions Titratable IV therapy is essential BP=blood pressure; JNC 7=Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure. 1. Chobanian AV, et al. Hypertension. 2003;42:1206-1252. 2. Varon J, Marik PE. Vasc Health Risk Manag. 2008;4:615-627; Optimal Properties of a Parenteral Antihypertensive Agent Rapid onset of action1 Predictable dose response1 Titratable to desired BP1 Minimal dose adjustments1 Minimal adverse effects1 No association with coronary steal or increased ICP2,3 Ease of use and convenience1 Abbreviation: BP, blood pressure. References: 1. Oparil S et al. Am J Hypertens. 1999:12(7):653-664. 2. Seiler C et al. Circulation. 1997;96(12):4261-4267. http://circ.ahajournals.org/cgi/content/full/96/12/4261. 3. CARDENE I.V. [package insert]. Bedminster, NJ: EKR Therapeutics. Inc.; 2008. Available Parenteral Agents to Treat Hypertensive Emergencies Calcium Chanel Blockers Nicardipine Clevidipine Hydralazine Labetalol Nitrovasdilators Nitroglycerin Adrenergic Receptor Blockers Esmolol Vasodilators Nitroprusside ACE Inhibitor Enalaprilat Primary Effects of Available Agents Considerations of Ready-to-Use Medications Safety Cost & Time Savings Support TJC standards and ASHP guidelines Eliminate admixture errors and minimizes labeling concerns Support dosage standardization Improve efficiency Save time and labor Reduce wastage Provide safe alternative to after-hours compounding Support dosage standardization Promote achievement of key clinical benchmarks Door-to-Dose Optimization of patient outcomes Abbreviations: TJC, The Joint Commission; ASHP, American Society of Health-System Pharmacists; IV, intravenous. IV Treatment of Acute Hypertension Is a Vital Consideration in Neuroemergencies Abbreviations: AIS, acute ischemic stroke; ICH, intracerebral hemorrhage; IV, intravenous; aSAH, aneurysmal subarachnoid hemorrhage; SBP, systolic blood pressure. References: 1. Jauch EC et al. Stroke. 2013;44(3):870-947. 2. Antihypertensive Treatment of Acute Cerebral Hemorrhage (ATACH) Investigators. Crit Care Med. 2010;38(2):637-648. 3. Connolly ES et al. Stroke. 2012;43(6):1711-1737. Key Considerations for Choosing an Antihypertensive Agent in Acute Stroke Abbreviations: AIS, acute ischemic stroke; BP, blood pressure; ICH, intracerebral hemorrhage; aSAH, aneurysmal subarachnoid hemorrhage. . What the Guidelines State… 12 Abbreviations: AHA, American Heart Association; ASA, American Stroke Association; aSAH, aneurysmal subarachnoid hemorrhage; BP, blood pressure; DBP, diastolic blood pressure; IV, intravenous; SBP, systolic blood pressure. References: 1. Connolly ES et al. Stroke. 2012;43(6):1711-1737. 2. Jauch EC et al. Stroke. 2013;44(3):870-947. 3. CARDENE I.V. (nicardipine hydrochloride) Premixed Injection Prescribing Information. Cary, NC: Cornerstone Therapeutics Inc.; 2013. What the Guidelines State… 13 Abbreviations: AHA, American Heart Association; ASA, American Stroke Association; ATACH, Antihypertensive Treatment of Acute Cerebral Hemorrhage trial; BP, blood pressure; ICH, intracerebral hemorrhage. Reference: Morgenstern LB et al. Stroke. 2010;41(9);2108-2129. “Time Is Brain” in Acute Ischemic Stroke Extensive Neural Circuitry Loss Occurs During Every Minute of a Typical Large Vessel, Supratentorial AIS *Stereological measurement of brains from across the human lifespan has demonstrated that the neocortex loses ≈31 million neurons per year in normal aging. Values are based on estimated loss. Abbreviation: AIS, acute ischemic stroke. Reference: Saver JL. Stroke. 2006;37(1):263-266. BP Management Is a Key Component for Patients Being Considered for tPA Therapy Door-to-tPA treatment in ≤60 minutes is the standard of care1 Gently bring BP to <185/110 mm Hg to qualify for tPA therapy1 Maintain BP at <180/105 mm Hg after tPA is administered1 “Controlled blood pressure lowering during acute stroke can best be achieved with intravenous antihypertensive therapies. A single optimal medication to lower the blood pressure in all patients with acute stroke has not been determined, and an individualized approach is best”1 Treating emergent elevated BP is a major consideration for improving rapid triage and management of patients2 Acute treatment of hypertension has not been shown to improve stroke outcomes Abbreviations: BP, blood pressure; tPA, tissue plasminogen activator. References: 1. Jauch EC et al. Stroke. 2013;44(3):870-947. 2. Shulkin DJ et al. Popul Health Manag. 2011;14(6):267-275. Summary of Key Treatment in AIS Intervention Eligible for Thrombolysis No Eligible for Thrombolysis First 24 hours From Symptom Onset Initial Evaluation Airway Protection with RSI BP Control ABC, NIHSS, GCS Etomidate 0.2-0.3 mg/kg IV; Lidocaine 1-2 mg/kg; Rocuronium 0.61.2 mg/kg IV Maintain < 180/105 mm Hg Avoid hypotension IV Fluids Maintain < 220/120 mm Hg Avoid hypotension O.9% NaCl Dysphagia screening Yes before any medication or food is given Antiplatelet NO ASA 325 mg DVT Prophylaxis Mechanical devices only LMWH Temperature Maintain core body temperature < 37.2°C with APAP or external cooling devices Blood Glucose Maintain 140-180 mg/dL Statins Jauch EC, et al. Stroke 2013; 44(3):870-947 YES Summary of Key Treatment in AIS Intervention Recommendation Beyond 24 Hours From Symptom Onset IV Fluids 0.9% NaCl BP Control Initiate long-term antihypertensives; reduce 15% of initial value Manage Cerebral Edema Head elevation (30°-45°); Osmotic therapy (mannitol 1 gm/kg IV bolus then 0.25-1 gm/kg OR 3% NaCl 250-300 mL bolus OR 23.4% NaCl 30 mL bolus); Sedation/Analgesia Temperature Maintain core body temperature < 37.2°C with APAP or ibuprofen or external cooling devices Blood Glucose Maintain 140-180 mg/dL DVT Prophylaxis LMWH Statins YES Antithrombic Therapy Antiplatelet (ASA, clopidogrel, or Aggrenox) or Anticoagulant (Warfarin or TSOAC) Jauch EC, et al. Stroke 2013; 44(3):870-947 Aggressive BP Lowering and rt-PA Therapy Evaluation of 178 patients treated with IV rt-PA w/in 3 hrs of symptom onset 28.1% received antihypertensives 52% received standard lowering with labetalol boluses 48% received aggressive lowering with nicardipine or nicardipine + labetalol Patients requiring antihypertensives had increased baseline NIHSS, increased baseline blood glucose, and history of HTN After controlling predictors of outcome use of aggressive lowering was not associated with poor outcome Aggressive lowering had significantly reduced LOS (4 vs. 7 days) Time to rt-PA from symptom onset and ED arrival was significantly longer in aggressive treatment group (~10-20 min) Hypothesized to be due to wait time for the nicardipine to be prepared Martin-Schild et al. Arch Neurol 2008;65:1174-1178 ADJUSTED RISK OF DEATH Blood Pressure Variation Linked to Mortality 1.0 0.8 0.6 0.4 0.2 0.0 High Low –0.2 –0.4 30 40 50 60 70 80 90 100 110 120 130 140 150 160 170 DBP (mm Hg) Wide fluctuation of blood pressure in the first 3 hours of the ED stay in patients with AIS appears to be associated with an increased risk of death at 90 days Stead LG et al. Neurology 2006;66:1878-1881 ADJUSTED RISK OF DEATH Mortality Risk With DBP <70 and >105 mm Hg 1.0 0.8 0.6 0.4 0.2 0.0 High Low –0.2 –0.4 70 80 90 100 110 120 130 140 150 160 170 180 190 200 210 220 230 240 250 260 270 280 SBP (mm Hg) Stead LG et al. Neurology. 2005;65:1179 Mortality Risk With SBP <155 and >220 mm Hg Large Retrospective Studies in AIS Focus on Minimizing BP Variability Blood pressure variability was associated with hemorrhagic transformation after AIS, independent of thrombolysis (N=792)1 Systolic blood pressure variability was associated with symptomatic ICH and death in thrombolysis-treated AIS patients (N=527)2 Blood pressure variability in the subacute phase of ischemic stroke was associated with poor 3-month outcomes (N=2271)3 Abbreviations: AIS, acute ischemic stroke; BP, blood pressure; ICH, intracerebral hemorrhage. References: 1. Ko Y et al. Stroke. 2010;41(11):2512-2518. 2. Endo K et al. Stroke. 2013;44(3):816-818. 3. Kang J et al. Neurology. 2012;79(20):2018-2024. Early Hemorrhage Growth in Patients with ICH N=103 patients scanned within < 3 hrs of onset 38% significant hematoma growth (> 33% increase in volume) 26% in 1hr of baseline scan 12% between 1-20hr scan ICH growth associated with clinical NIHSS deterioration 2.0 hours after onset 6.5 hours after onset NIHSS, National Institutes of Health Stroke Scale Brott T et al. Stroke. 1997;28:1-5 Proportion of Patients (%) Timing of Hematoma Expansion 40 35 30 25 20 15 10 5 0 0-3 Hr 3–6 hr 6–12 hr Time Kazui S et al. Stroke. 1996;27:1783 12–24 hr 24–48 hr Elevated SBP May Predispose to Hematoma Enlargement SBP >200 mm Hg 50 % of Patients 40 30 20 10 0 Hematoma Enlargement Kazui S et al. Stroke. 1996;27:1783 No Hematoma Enlargement Intensive BP Lowering Following ICH INTERACT ATACH N 404 60 Treatment Groups Intensive = SBP<140 Guideline = SBP<180 Tier 1 = SBP 170-200 Tier 2 = SBP 140-170 Tier 3 = SBP 110-140 Time to Intervention w/in 6 hrs of symptom onset & SBP 150-220 at baseline w/in 6 hrs of symptom onset & SBP ≥ 170 at baseline BP Lowering Therapy Variable; at discretion of individual investigators Nicardipine infusion Outcome RR hematoma growth 36% lower in the intensive group Safety endpoints not below prespecified thresholds; 3 month mortality lower than expected Anderson CS, et al. Lancet Neurol 2008; 7:391-99 Qureshi AI. Crit Care Med 2010:38 (2) [epub] Achieved BP Target & Hematoma Growth – INTERACT Absolute Increase in Hematoma Volume Proportional Increase in Hematoma Volume Maximum reduction in hematoma growth occurred in 1/3 of patients with lowest ontreatment SBP (median = 135 mm Hg) Intensive BP reduction to goal SBP 130-140 is likely to provide maximum protection against hematoma growth Arima H et al. Hypertension 2010;56:852-858 INTERACT 2 International (21 countries), multicenter, prospective, randomized, open-treatment, blinded end-point trial comparing intensive (SBP < 140 mm Hg) to guideline based treatment N= 2839 enrolled within 6 hours of symptom onset with SBP 150-220 mm Hg Anderson et al. NEJM 2013;368:2355-2365 INTERACT 2 BP Agents used in trial Mean SBP Achieved 1 hour: Intensive = 150 mm Hg vs Guideline= 164 mm Hg 6 hours: Intensive = 139 mm Hg vs Guideline = 153 mm Hg Anderson et al. NEJM 2013;368:2355-2365 INTERACT 2 - Outcomes Ordinal analysis of the primary outcome, there were significantly better functional outcomes among patients assigned to intensive treatment than among patients assigned to guidelinerecommended treatment Anderson et al. NEJM 2013;368:2355-2365 INTERACT 2 and BP Variability • SBP variability In hyperacute/acute period predicts poor outcome • Strongest predictor were max SBP and SD of SBP • Benefits of early treatment to reduce SBP < 140 mm Hg may be enhanced by smooth and sustained control trying to avoid peaks in SBP Manning et al. Lancet Neurology 2014; 13:364-373 Intensive BP Lowering Following ICH INTERACT ATACH N 404 60 Treatment Groups Intensive = SBP<140 Guideline = SBP<180 Tier 1 = SBP 170-200 Tier 2 = SBP 140-170 Tier 3 = SBP 110-140 Time to Intervention w/in 6 hrs of symptom onset & SBP 150-220 at baseline w/in 6 hrs of symptom onset & SBP ≥ 170 at baseline BP Lowering Therapy Variable; at discretion of individual investigators Nicardipine infusion Outcome RR hematoma growth 36% lower in the intensive group Safety endpoints not below prespecified thresholds; 3 month mortality lower than expected Anderson CS, et al. Lancet Neurol 2008; 7:391-99 Qureshi AI. Crit Care Med 2010:38 (2) [epub] ATACH Study SBP reduction ≥60 mmHg All Subjects N=32 SBP reduction <60 mmHg RR (95% CI) N=28 Hematoma expansion (increase of >33%) 19.4% 33.3% 0.58 (0.24, 1.42 Relative edema expansion (increase of >40%) 42.9% 57.7% 0.74 (0.43, 1.27) Death or disability (mRS 4-6) 32.1% 52.0% 0.62 (0.32, 1.19) Qureshi AI, et al. Arch Neurol. 2010;67(5):570-576. ATACH Study SBP reduction ≥60 mmHg SBP reduction <60 mmHg Subjects treated within 3 hours of symptom onset N=11 N=9 Hematoma expansion (increase of >33%) 18.2% 37.5% 0.48 (0.10, 2.26) Relative edema expansion (increase of >40%) 30.0% 37.5% 0.80 (0.22, 2.94) Death or disability (mRS 4-6) 12.5% 42.9% 0.29 (0.04, 2.21) Qureshi AI, et al. Arch Neurol. 2010;67(5):570-576. RR (95% CI) ATACH Study The consistent favorable direction of these associations support further studies to evaluate the efficacy of aggressive pharmacological SBP reduction with adequately powered randomized controlled design ATACH II Primary Hypothesis Intensive SBP reduction (SBP≤140 mmHg, intensive treatment) using IV nicardipine with treatment initiated within 3h of onset of ICH and continued for the next 24h reduces the likelihood of death or disability at 3m after ICH (defined by mRS score of 4-6) by 10% or greater (absolute difference) compared with standard SBP reduction (SBP≤180 mmHg, standard treatment) Qureshi AI, et al. Arch Neurol. 2010;67(5):570-576. Study Population Inclusion Criteria Admission to ED with documented evidence of acute unremitting focal neurological deficits Hypertension that required treatment based upon current practice Exclusion Criteria Age < 18 years Brainstem herniation or immanent brain death Traumatic brain injury History of intracranial neoplasm Acute myocardial infarction Severe aortic stenosis Bradycardia at time of randomization (defined as heart rate <50 bpm) Drug Regimens Nicardipine •Infusion started at 5 mg/hr •Titrated by 2.5 mg/hr every 15 minutes until a therapeutic response is achieved or a maximal rate of 15 mg/hr is reached Labetalol •20 mg IVP over 1-2 minutes •May repeat dose 20mg or 40mg per physician discretion every 15 minutes up to a maximum cumulative dose of 300 mg/day Study Outcomes Primary Outcomes Time to target blood pressure/ % of time at goal BP Secondary Endpoints Number of doses of labetalol administered Number of dosing changes with nicardipine Treatment failures (i.e. Failed to reach target BP; additional antihypertensive agents needed or “rescue” therapy) Extension of hemorrhage Hospital and intensive care unit lengths of stay Incidence of adverse events during the study period Hypotension, defined as SBP <90 mmHg Bradycardia, defined as HR <50 bpm Tachycardia, defined as HR >120 bpm 24-Hour BP Control P<0.05 Significantly less variation in BP in nicardipine group compared to labetalol group Blood Pressure Endpoints Variables Goal BP Achieved n(%) Within 60 minutes Time to Goal BP (min) median (IQR) % Time Spent within Goal BP (% of 24 hr) median (IQR) Labetalol (n=22) 15 (68.2%) 7 (32%) 90 (30-900) 45.7 (24.774.9) Nicardipine (n=25) 25 (100%) 22 (88%) 30 (15-120) 88.5 (79.398.2) P-value <0.001 0.026 <0.001 Medication Related Endpoints Variables Nicardipine (n=25) ----------- P-value Total dose to achieve goal (mg) Labetalol (n=22) 50 (10-280) Average rate to achieve goal (mg/hr) ----------- 5 (2.5-15) NA Number dose adjustments to reach goal BP 2 (1-10) 0 (0-4) <0.002 0 (0%) <0.001 Additional anti-HTN agents (“Rescue Therapy”) 16 (73%) NA n(%) Total dose during 24-hr (mg) Max rate during 24-hr (mg/hr) 145 (40-320) ----------- Data presented as median (IQR) unless otherwise noted ----------- 8 (2.5-15) NA NA Patients Requiring “Rescue” Therapy Variables Labetalol (n=16) Time additional agent added (hr) 16 (6-23.5) Achieved goal with additional agent n(%) 16 (100) Time goal achieved with additional agent (min) 60 (15-82.5) Agent Added: n(%) Nicardipine Enalaprilat Hydralazine Clonidine Total number of additional agents added 14(87.5) 4 (25) 1(2.1) 1 (2.1) 1 (1-3) Data presented as median (IQR) unless otherwise noted Adverse Events Variables n(%) Labetalol (n=22) Nicardipine (n=25) P-value Hypotension (SBP<90 mmHg) 1 (4.5%) 1 (4.0%) 1.000 Bradycardia (HR<50 bmp) 2 (9.1%) 0 0.214 3 (12.0%) <0.002 Reflex tachycardia (HR>120 bpm) 1 (4.5%) 24 Hour HR Profile P<0.001 Summary Limited evidence to guide practice in managing acute BP We should focus on minimizing BP variability while still achieving target BP