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MODULE 3 CHAPTER 2D
HYPERTENSION AND CVA
The plan
• Introduction• Primary prevention of stroke• Management of hypertension during acute
stoke• Secondary prevention• Conclusions
HypertensionThe leading CVD risk Factor
• Contributes to 13% global deaths1
http://www.world-heart-federation.org/press/fact-sheets/cardiovascular-disease-risk-factors/ viewed on May 16, 2013, http://hp2010.nhlbihin.net/joinhin/news/professional/hdrisk.asp5
An increase in the number and severity of risk factors by middle age can affect a person’s remaining
lifetime risk for CVD2
Prevention and control of CVD risk factors are
crucial2
Hypertension related deaths
13%
HypertensionThe Indian Scenario
• > 140 million people have high BP1
• By 2030, it is expected to cross the 214 million1
• Causes more strokes than ACS (34.6% vs 17.9%)• In India, Hypertension is responsible for
2
– 57% of all stroke deaths
– 24% of all CHD deaths
61. http://www.thehindu.com/sci-tech/health/hypertension-major-contributor-to-avoidable-deaths-in-india-who/article4513904.ece, 2. Journal of Human Hypertension (2004) 18, 73–78
Stroke has higher morbidity,
mortality and less treatment options and success when compared to CAD
So in hypertension management we must aim at preventing strokes
Benefit of Interventions Over 5 Years
The plan
• Introduction• Primary prevention of stroke• Management of hypertension during acute
stoke• Secondary prevention• Conclusions
Commonly we see..
• Pts. with good BP control suddenly develop CVA
• Pts. with long standing high BP don’t develop any vascular event
12
Mean blood pressure
• The average of several readings of systolic or diastolic pressure (expressed as numbers)
• Different from mean arterial BP (DBP+1/3 PP)• Derived from many clinical visits, Home BP
recordings and ABPM • 7 to 10 or more BP recordings at different clinical
visits are needed to get mean blood pressure • Mean BP , thus obtained may be an accurate
estimate of usual blood pressure
13
BP variability
• The variation of BP with time • Expressed as Standard Deviation (SD)• Variation may be for beat to beat (ultra short),
over 24hrs (Short term) or visit to visit (long term)
• Extent of variability is positively related to mean blood pressure
15
TO PREVENT STROKE• Both mean BP as well as BP variability should
be addressed• BP variability is assuming lot of importance in
the prevention of stroke • Control of mean BP without achieving
reduction in BP variability may not yield benefits
Examples2 patients,5 visits
• Patient 1 : 120/130/120/130/120 Mean BP- 620/5 = 124
SD= 5.5• Patient 2: 150/110/130/140/90 Mean BP – 620/5 =124 SD=24.08The patient 2 has BP variability although both
patients have same mean BP
17
SD :Standard Deviation
BP variability causes and consequences
18
BP VariabilityEvidences for increased risks
19Canadian Journal of Cardiology 29 (2013) 557e563
BP Variability Effect seen
Ohasama prospective study
Greater-than-anticipated day-to-day variation in home SBP & DBP
Increased 12-year CV and stroke mortality risks
7.8-year follow-up of a representative Finnish population
Variability of self measured home BP during 7 consecutive days
Independent predictor of subsequent CV events
Women’s Health Initiative study of 58,228 postmenopausal women
Greater visit-to-visit BP variability
Increased risk for both ischemic and hemorrhagic stroke
Which drug reduces BP variability
20
Visit to visit BPV
ASCOT TRIAL
Stroke risk and coronary risk expressed by docile of within-visit SBP variability
Number of patients in eachdocile of within-visit SD SBP
Stroke risk(HR, 95% CI)
Coronary risk(HR, 95% CI)
ALLHAT TRIAL
23REDUCTION OF STROKE WAS THE HIGHEST FOR AMLODIPINE
MAP BPV MAP MAPBPV BPV
MAP: MEAN BP BPV: BP VARIABILITY
For primary prevention• The most important aspect of primary
prevention of stroke is BP control• Calcium antagonists especially long acting DHPs
are powerful drugs to get BP targets• They have additional benefit of reducing BP
variability which is emerging as an important risk factor for stroke
• Even in combination therapy Calcium antagonists should be tried in 2nd or 3rd step
The plan
• Introduction• Primary prevention of stroke• Management of hypertension during acute
stoke• Secondary prevention• Conclusions
Early recognition, transport, evaluation and management
BP AND ACUTE STROKE
• The risk of high blood pressure in stroke is U-shaped blood pressure during acute stroke should be neither too low nor too high, either in ischemic or in hemorrhagic stroke
• However, the treatment of hypertension during acute stroke remains controversial.
Auto regulation
When the pressure falls cerebral blood flow (CBF) increases due to fall in resistance.
In ischemic stroke when there is fall in CBF due to occluded artery, CBF has to be maintainedBy increase in pressure (BP).
But may increase cerebral edema
THE NEW DATA
• In spite of the controversy, the evidence that blood pressure in acute stroke should be treated when it is very high, must be treated in some cases, and can be treated safely, is mounting.
• The change that has made the greatest difference is the advent of intravenous thrombolytics for acute stroke;
• Lowering blood pressure in patients with acute stroke eligible for tissue plasminogen activator to achieve blood pressure below 185 mm Hg systolic and below 110 mm Hg diastolic so that tissue plasminogen activator can be given has become standard therapy
Avoid BP >180/110
ICH
Patients who don’t receive tPA
• At this time, the previous recommendation not to lower the blood pressure during the initial 24 hours of acute ischemic stroke unless the blood pressure is >220/120 mm Hg or there is a concomitant specific medical condition that would benefit from blood pressure lowering remains reasonable.
Exceptions
• Some conditions, such as myocardial ischemia, aortic dissection, and heart failure, may accompany acute ischemic stroke and may be exacerbated by arterial hypertension.
• When blood pressure management is indicated for a specific medical condition in the setting of concurrent acute cerebral ischemia, an optimal approach has not been determined.
• At present, blood pressure targets are based on best clinical judgment.
• A reasonable estimate might be to initially lower the systolic blood pressure by 15% and monitor for neurological deterioration related to the pressure lowering.
Ischemic strokenot eligible for thrombolytic therapy
Intracranial hemorrhage
• In both intracerebral hemorrhage (ICH) and subarachnoid hemorrhage (SAH), the approach to blood pressure management must take into account the potential benefits (eg, reducing further bleeding) and risks (eg, reducing cerebral perfusion) of blood pressure lowering.
The difficulty
• Reducing the blood pressure in patients with either ICH or SAH may be beneficial by minimizing further bleeding and continued vascular damage .
• Patients with an intracranial hemorrhage due to ICH or SAH may have increased intracranial pressure (ICP) due to blood within the cranium.
• Cerebral perfusion pressure (CPP) equals MAP minus ICP. Thus, increases in MAP may be the only means to maintain CPP above 60 to 70 mmHg, the level necessary to maintain perfusion .
• Measuring intracranial pressure directly allows blood pressure to be reduced as low as possible while still maintaining the cerebral perfusion pressure above the conservative level of 60 mmHg
Guidelines for treatmentICH AND SAH
• For patients with SBP >200 mmHg or MAP >150 mmHg, consider aggressive reduction of blood pressure with continuous intravenous infusion of medication accompanied by frequent (every five minutes) blood pressure monitoring
• ●For patients with SBP >180 mmHg or MAP >130 mmHg and evidence or suspicion of elevated ICP, consider monitoring ICP and reducing blood pressure using intermittent or continuous intravenous medication to keep cerebral perfusion pressure in the range of 61 to 80 mmHg
• ●For patients with SBP >180 mmHg or MAP >130 mmHg and no evidence or suspicion of elevated ICP, consider a modest reduction of blood pressure (eg, target MAP of 110 mmHg or target blood pressure of 160/90 mmHg) using intermittent or continuous intravenous medication, and clinically reexamine the patient every 15 minutes
The agents- B Blockers
The agents – Sodium Nitroprusside
The agents- Calcium Antagonists
New therapy
The plan
• Introduction• Primary prevention of stroke• Management of hypertension during acute
stoke• Secondary prevention• Conclusions
Importance of BP control
• Once the stroke has stabilized, antihypertensive therapy can reduce the rate of recurrent stroke, independent of the baseline blood pressure.
• Regardless of the regimen, blood pressure reduction should be gradual.
APPROACH TO ANTIHYPERTENSIVE THERAPY- Approach
• Which patients should be treated?• When should therapy be initiated?• Which antihypertensive drugs should be used?• What is the goal blood pressure?
Which patients should be treated?• With few exceptions, the AHA/ASA stroke prevention
guidelines recommend initiation of antihypertensive therapy in all patients who have had an ischemic stroke or TIA
• However, do not recommend antihypertensive therapy in the following settings:
• Normotensive patients who have had a stroke or TIA due to a cardio embolic phenomenon (eg, atrial fibrillation) or paradoxical embolus (eg, patent foramen ovale or septal defect).
• Patients whose initial blood pressure is less than 120/70 mmHg. These patients have an increased risk of recurrent stroke if their blood pressure is further reduced compared with patients who have higher blood pressures.
When should therapy be initiated?
• After the acute management with parenteral anti hypertensive drugs, once pt. is stabilized and is able to take orally, appropriate anti hypertensives should be started according to presence or absence of compelling indications
• Dosage should be adjusted to achieve target BP without reducing vital organ perfusion
Which antihypertensive drugs should be used?- Monotherapy
• Based upon trial observations, both angiotensin inhibitors (most trials have used ACE inhibitors) and calcium channel blockers are reasonable options for initial antihypertensive therapy in patients who have had a stroke.
• Thiazide diuretics are also commonly used, but data on monotherapy in patients who have had a stroke are limited.
• There is some evidence from clinical trials that beta blockers may not reduce stroke risk compared with angiotensin inhibitors, calcium channel blockers, and, in some trials, placebo .
• Thus, unless there is a compelling indication for their use, beta blockers should not be used for prevention of recurrent stroke
The combination of an angiotensin inhibitor plus a long-acting dihydropyridine calcium channel blocker rather than a diuretic is preferred as the combination antihypertensive regimen of choice in the treatment of patients who have had a stroke. This recommendation assumes that the patient can tolerate and does not have a contraindication to the use of either drug class and does not have a specific indication for the use of another class of antihypertensive drugs.
Which antihypertensive drugs should be used?- Combination
Goal blood pressure
• The recommendations depend upon whether or not the event was due to a hemodynamically significant stenosis in a large cervicocephalic artery (ie, internal carotid, middle cerebral, vertebral, or basilar artery).
• In patients with hemodynamically significant large artery disease, it is suggested that cautious blood pressure lowering as tolerated but without a specific blood pressure goal other than a minimum reduction of 10/5 mmHg.
• However, in such patients whose initial blood pressure is less than 120/70, do not give antihypertensive therapy.
Goal blood pressure
:
• In patients without hemodynamically significant large artery stenosis, the following approach is recommended:
• Lowering the blood pressure a minimum of 10/5 mmHg in nearly all patients
• Patients whose initial blood pressure is less than 120/70, do not give antihypertensive therapy
• In patients with underlying hypertension, a goal blood pressure of less than 140/90 mmHg is recommended
• Lowering the systolic pressure below 130 to 135 mmHg can be tried if it can be achieved without producing significant side effects.
Goal blood pressure
• For patients with recent small vessel (i.e., lacunar) ischemic stroke, lowering the systolic blood pressure below 130 mmHg is recommended provided it can be achieved without side effects
:Goal blood pressure
The plan
• Introduction• Primary prevention of stroke• Management of hypertension during acute
stoke• Secondary prevention• Conclusions
Conclusions
• Case fatality in stroke obeys a U-shaped relationship: blood pressures that are either too low or too high are associated with worse outcomes both in ischemic stroke and in intracerebral hemorrhage.
• Very high blood pressures should be lowered in acute stroke, and there are some circumstances in which high blood pressure must be treated despite the presence of stroke.
• To avoid worsening of ischemia by reduction in cerebral blood flow, it is necessary to treat high blood pressure in acute stroke with drugs that can be controlled; this usually means giving drugs by intravenous infusion;
• However, there is recent evidence that transdermal administration of nitrates, which can be removed if pressure is too low, is a convenient alternative that does not reduce cerebral blood flow in acute stroke.
Reduce BP to prevent strokes!
END OF MODULE 3 CHAPTER 2D