Resistant Hypertension

Assess Adherence to Therapy

Evaluation of the patient with suspected resistant hypertension should begin with an assessment of adherence to the prescribed management plan. In practice, it can be difficult to ascertain whether a patient truly is adherent to an optimally dosed 3-drug regimen and therefore qualify as having resistant hypertension. Instructing patients to bring all their medicines to an appointment affords the opportunity to reconcile medication lists and review how they take their medications. Nonjudgmental approaches to asking about adherence may provide the most accurate answers.⁴ A possible approach is to say something like, “Many patients will occasionally miss a dose—or even a few doses—of their medication(s). How often is missing medications a problem for you?” Side effects also may contribute to poor adherence to medication schedules. Asking about and addressing side effects may enhance patients' understanding and adherence.

Patients may have difficulty adhering to antihypertensive medications because of financial reasons, or they may not understand the medication regimen because of health literacy, cultural, or language barriers. Therefore, it is important to keep the medication regimen as simple as possible. A once-daily regimen improves patients' adherence to antihypertensive medications.⁵ Fixed-dose combination pills, many of which are available as generics, also may improve adherence.⁶

Rule Out Measurement Error and the White-Coat Effect

Attention to proper technique when measuring BP is important to assure readings that are as accurate as possible. Confirm that BP has been measured accurately using an appropriately sized cuff, with the patient correctly positioned and not talking after at least a 5-minute rest.^7,8 A cuff that is too small will lead to overestimation of BP. Measurement in obese patients, who may have large arms, may be particularly challenging. Use of a thigh cuff or measurement at the forearm, while not ideal, may be necessary.⁷

Some patients seem to have resistant hypertension based on their office BP measurements but actually have controlled BP when assessed by out-of-office measurements—the so-called “white-coat” effect. In a study of 611 patients with office BP >140 mm Hg systolic or >90 mm Hg diastolic, nearly 40% of those taking 1 or 2 medications and almost 30% of those taking 3 medications had controlled BP on ambulatory BP monitoring.⁹ In another recent study of more than 8200 patients with resistant hypertension in Spain, 38% of the resistant hypertension was attributed to the white-coat effect based on 24-hour ambulatory BP monitoring.³ This white-coat effect may lead to unnecessary increases in dose or number of antihypertensive medications that could result in hypotension or other side effects.

Automated office BP measurements using devices that take several BPs automatically at preprogrammed intervals without an observer present may be useful to mitigate the white-coat effect.¹⁰ Otherwise, given the high prevalence of the white-coat effect among patients suspected of having resistant hypertension based on office measurements, out-of-office BP measurements should be used to clarify status (Figure 1) (SORT C). Ambulatory BP monitoring (over 24 hours) is the ideal strategy but is not always available (or covered by insurance for this indication). An alternative to ambulatory BP monitoring is home (or self) BP monitoring.¹¹ Patients should choose a home BP monitor model that has been validated independently. A list of such devices is available at www.dableducational.org.

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Figure 1.

Ruling out the white-coat effect in patients with suspected resistant hypertension. The systematic use of out-of-office blood pressure (BP) measurements should be employed to rule out the white-coat effect. If readily available, it is reasonable to proceed directly to ambulatory BP monitoring. Otherwise, home BP monitoring can be used as an initial strategy. If the home BP monitoring confirms that BP is indeed above goal, no further testing is needed. If home BP monitoring suggests the white-coat effect, it is recommended to proceed to ambulatory BP monitoring to confirm (SORT C). *Target BP may be lower in patients with diabetes or chronic kidney disease. **Refer to Table 1. ABPM, ambulatory blood pressure monitoring. (Adapted from Refs. 11 and 52.)

Before relying on home BP measurements, it is important to ensure that the patient has the appropriate size cuff and to check the patient's monitor against a validated clinical device. One method is to take a BP measurement with the clinical device, then take another measurement 1 minute later on the same arm using the home monitor. This might be repeated once or twice. Readings within a range of approximately 5 to 10 mm Hg (systolic and diastolic) probably are acceptable, depending on the level of accuracy needed for the particular patient and circumstance.¹² Patients also should be instructed on how to perform home BP measurements and be observed to make sure they perform them correctly. Last, a systematic approach to collecting the measurements should be used. A suggested protocol for home BP monitoring is shown in Table 1.¹³ If home BP monitoring is used and readings suggest the white-coat effect, 24-hour ambulatory BP monitoring, if available, should be considered for confirmation. In a patient with otherwise uncomplicated hypertension, if the 24-hour average BP is <130/80 mm Hg (or a daytime average <135/85 mm Hg), the patient can continue current therapy. If the 24-hour average BP is ≥130/80 mm Hg (or the daytime average is ≥135/85 mm Hg), therapy should be intensified.

Consider Associated Comorbidities

Certain comorbidities or patient factors are associated with resistant hypertension. Older patients are more likely to have hypertension that is resistant to treatment.¹⁴ However, older age itself is not a reason to withhold antihypertensive therapy from those whose BP is not controlled, and even patients 80 years and older who are treated with antihypertensives have a reduction in morbidity and mortality.¹⁵ Many of these individuals will have isolated systolic hypertension. In older patients with coronary artery disease, the theoretical risk of excessive lowering of diastolic BP, leading to compromised myocardial perfusion, may limit the reductions in systolic BP that can be achieved comfortably. However, in this population, it seems safe to reduce BP to a diastolic measurement of 70 mm Hg.¹⁶

In some older patients, atherosclerosis may be so severe that it interferes with accurate BP measurement. When measuring BP using an upper-arm cuff, occlusion of the brachial artery should cause disappearance of the ipsilateral radial pulse. If the radial pulse remains palpable despite such occlusion (the Osler maneuver), “pseudohypertension” should be suspected. Clinical clues pointing to the possibility of pseudohypertension in an elderly patient include the development of dizziness or weakness temporally related to antihypertensive medications and the absence of significant target organ damage despite a very high clinic BP measurement.

Obesity is common in patients with hypertension and can make hypertension more resistant to treatment because of increased sodium and fluid retention.¹⁴ Therefore, higher doses of antihypertensive medications often are needed. Weight loss must be emphasized not only as an important part of improving overall health but also as an important part of hypertension management (SORT C). For every kilogram of weight loss, systolic BP is reduced by approximately 1 to 2 mm Hg.¹⁷

Chronic kidney disease (CKD) is also common in patients with resistant hypertension.¹⁴ CKD may result from hypertension and, like obesity, makes hypertension more resistant to treatment because of increases in sodium and fluid retention. An emphasis on dietary sodium restriction, therefore, particularly is warranted in such patients, and a diuretic is almost always required for optimal BP control (see Volume Overload). Blockade of the renin-angiotensin-aldosterone system with either an angiotensin converting enzyme (ACE) inhibitor or angiotensin-II receptor blocker (ARB) (with monitoring of serum potassium levels and glomerular filtration rate) also should be part of the hypertension management of the patient with CKD.¹⁸

Reconsider Secondary Causes

Once hypertension is confirmed as resistant, secondary causes of hypertension should be reconsidered (Table 2) (SORT C). Although possible secondary causes of hypertension often are considered during initial evaluation of a patient with newly diagnosed hypertension, patients with resistant hypertension comprise a subpopulation in which these causes will be more common. Even in these patients, however, rare causes of secondary hypertension such as pheochromocytoma are still rare. Primary aldosteronism (PA), obstructive sleep apnea (OSA), and renal artery stenosis are the most common secondary causes to reconsider.

Address Volume Overload and Interfering Substances

Intensify Therapy

Management of hypertension includes lifestyle modifications as well as antihypertensive medications, and both can be suboptimal. For patients with resistant hypertension, lifestyle modifications should be re-emphasized. Patients may not realize that the Dietary Approaches to Stop Hypertension eating plan combined with low sodium intake can be as effective in lowering BP as a single antihypertensive medication.³⁹ The importance of weight loss (for overweight patients) should be reiterated.

An important principle of antihypertensive therapy is that greater BP reduction is achieved by combining drugs from different classes rather than by maximally increasing the dose of a single medication.⁴⁰ As mentioned earlier, in almost all cases, one of the drug classes should be a diuretic. Other medication classes among the first 3 or 4 agents usually would include an ACE inhibitor or ARB (note that ACE inhibitors and ARBs should not be used together⁴¹), a long-acting dihydropyridine calcium channel blocker (CCB) (eg, amlodipine), and possibly a β-blocker (eg, metoprolol).

The aldosterone antagonist spironolactone is an evidence-based treatment option for patients with resistant hypertension (SORT C). Spironolactone can reduce systolic BP by as much as approximately 20 mm Hg in patients with hypertension that is resistant to ≥3 drugs.^42,43 When using spironolactone, careful attention must be paid to potassium levels, especially in patients who also are taking an ACE inhibitor or ARB. Spironolactone can cause gynecomastia in men. Eplerenone is an alternative aldosterone antagonist that does not cause gynecomastia. Amiloride is another alternative agent that functions as an indirect aldosterone antagonist.⁴⁴ These drugs are contraindicated in patients with severe renal impairment.

Other pharmacologic strategies for treating resistant hypertension (depending on what agents the patient already is taking) include a vasodilating β-blocker (eg, labetalol, carvedilol, nebivolol); a direct vasodilator (eg, hydralazine); or a centrally acting agent such as clonidine (transdermal or oral) or guanfacine. In men with comorbid benign prostatic hyperplasia, an α-blocker (eg, terazosin) is a reasonable addition. Another strategy that may be particularly useful in patients with comorbid diabetes or CKD is adding a CCB of the alternate class (eg, adding a nondihydropyridine to a dihydropyridine).^45,46 Keep in mind that a nondihydropyridine CCB combined with a β-blocker may promote bradycardia, which can be worsened by clonidine. Consider referral to a hypertension specialist when a patient's BP is not controlled adequately despite 4 or 5 agents. A summary of evaluation and management of resistant hypertension is shown in Table 4.