Withdrawal syndromes with antihypertensive drug therapy

Author:: William J Elliott, MD, PhD
Section Editor:: George L Bakris, MD
Deputy Editor:: John P Forman, MD, MSc

Literature review current through: Nov 2022. | This topic last updated: Aug 04, 2021.

INTRODUCTION — Abrupt discontinuation of antihypertensive drug therapy can result in one of the following:

●Relatively rapid, asymptomatic return of the blood pressure (BP) to pretreatment levels

●Slower, asymptomatic return of BP to pretreatment levels

●Acute rebound of the BP with symptoms and signs of sympathetic overactivity (a withdrawal syndrome)

●Overshoot of the BP above pretreatment levels

Most commonly, discontinuation of antihypertensive therapy leads to a gradual rise in the BP to pretreatment levels over a period of days to as long as six months [1]. However, approximately 40 percent of carefully selected patients with stage 1 hypertension who withdraw medications can remain normotensive 12 months or longer off of medication [2-4]. Concurrent institution of comprehensive lifestyle modifications (weight reduction, salt restriction, and avoidance of excess alcohol intake) can delay or even prevent recurrent hypertension in such individuals [5,6]. Successful withdrawal of antihypertensive drug therapy is presented separately:

●(See "Can drug therapy be discontinued in well-controlled hypertension?".)

●(See "Overview of hypertension in adults", section on 'Nonpharmacologic therapy'.)

WITHDRAWAL SYNDROMES — Withdrawal syndromes have been reported most frequently with oral clonidine (but can also be seen with transdermal clonidine) and are thought to reflect a rapid return of catecholamine secretion or receptor sensitivity that had been suppressed during therapy [7-10]. Clonidine should be weaned slowly [11], if possible, and beta blockers, such as labetalol or atenolol [11,12], can be used to antagonize the rebound hypertension that can occur.

Abrupt withdrawal of beta blockers may also lead to a withdrawal syndrome, presumably due to increased sympathetic activity related to adrenergic receptor upregulation during the period of sympathetic blockade [7,8,13].

The extent of sympathetic overactivity depends upon the relationship between the rate at which the antihypertensive agent wears off and the rate at which the receptors downregulate; these receptors have half-lives of 24 to 36 hours [14]. Thus, a hyperadrenergic state is most likely with short-acting drugs (such as clonidine and propranolol) since receptor upregulation will persist after the antihypertensive effect has disappeared [7,14]. By comparison, withdrawal syndromes are relatively unusual with longer-acting agents (such as guanfacine and nadolol) [7,14].

The clinical manifestations of clonidine and beta blocker withdrawal are somewhat different:

●The primary clinical manifestation following abrupt cessation of clonidine therapy is acute rebound hypertension above the pretreatment level [7]. Rebound hypertension usually occurs after abrupt cessation of fairly large oral doses but has also been noted with transdermal clonidine [10].

●In addition to a rise in blood pressure (BP) and heart rate, beta blocker withdrawal in patients with underlying coronary disease can lead to angina, myocardial infarction, or sudden death [7,8,15-17]. This can occur even in patients who have no previous history of coronary symptoms [15].

Prevention — To prevent withdrawal symptoms, these drugs should be slowly discontinued over a 6-to-10-day interval, cutting the dose by one-half every two to three days [7,17]. However, the protection is not absolute since rebound hypertension has occurred after gradual withdrawal of clonidine [9]. If such withdrawal symptoms occur, reinstitution of clonidine will usually provide nearly immediate relief.

SUMMARY

●Abrupt discontinuation of antihypertensive therapy can occasionally result in a withdrawal syndrome, characterized by rebound of blood pressure (BP) with symptoms and signs of sympathetic overactivity. (See 'Introduction' above.)

●The extent of sympathetic overactivity depends upon the speed at which the antihypertensive effect fades and the speed at which adrenergic receptor upregulation dissipates. Thus, a withdrawal syndrome is more likely to occur when short-acting (oral) clonidine or a short-acting beta blocker is abruptly discontinued. (See 'Withdrawal syndromes' above.)

●In patients with underlying coronary disease, beta blocker withdrawal may be associated with angina, myocardial infarction, or sudden death. (See 'Withdrawal syndromes' above.)

●If discontinuation of clonidine or a beta blocker is planned, the dose should be slowly weaned by halving the dose every two to three days. (See 'Prevention' above.)

ACKNOWLEDGMENT — The UpToDate editorial staff acknowledges Norman M Kaplan, MD, who contributed to an earlier version of this topic review.

Course of blood pressure in mild hypertensives after withdrawal of long term antihypertensive treatment. Medical Research Council Working Party on Mild Hypertension. Br Med J (Clin Res Ed) 1986; 293:988.
Nelson M, Reid C, Krum H, McNeil J. A systematic review of predictors of maintenance of normotension after withdrawal of antihypertensive drugs. Am J Hypertens 2001; 14:98.
Nelson MR, Reid CM, Krum H, et al. Short-term predictors of maintenance of normotension after withdrawal of antihypertensive drugs in the second Australian National Blood Pressure Study (ANBP2). Am J Hypertens 2003; 16:39.
van der Wardt V, Harrison JK, Welsh T, et al. Withdrawal of antihypertensive medication: a systematic review. J Hypertens 2017; 35:1742.
Stamler R, Stamler J, Grimm R, et al. Nutritional therapy for high blood pressure. Final report of a four-year randomized controlled trial--the Hypertension Control Program. JAMA 1987; 257:1484.
Ramirez-Jimenez M, Morales-Palomo F, Moreno-Cabañas A, et al. Effects of antihypertensive medication and high-intensity interval training in hypertensive metabolic syndrome individuals. Scand J Med Sci Sports 2021; 31:1411.
Houston MC. Abrupt cessation of treatment in hypertension: consideration of clinical features, mechanisms, prevention and management of the discontinuation syndrome. Am Heart J 1981; 102:415.
Lefkowitz RJ, Caron MG, Stiles GL. Mechanisms of membrane-receptor regulation. Biochemical, physiological, and clinical insights derived from studies of the adrenergic receptors. N Engl J Med 1984; 310:1570.
Vanholder R, Carpentier J, Schurgers M, Clement DL. Rebound phenomenon during gradual withdrawal of clonidine. Br Med J 1977; 1:1138.
Metz S, Klein C, Morton N. Rebound hypertension after discontinuation of transdermal clonidine therapy. Am J Med 1987; 82:17.
Lilja M, Jounela AJ, Juustila HJ, Paalzow L. Abrupt and gradual change from clonidine to beta blockers in hypertension. Acta Med Scand 1982; 211:375.
Mehta JL, Lopez LM. Rebound hypertension following abrupt cessation of clonidine and metoprolol. Treatment with labetalol. Arch Intern Med 1987; 147:389.
Frishman WH, Klein N, Strom J, et al. Comparative effects of abrupt withdrawal of propranolol and verapamil in angina pectoris. Am J Cardiol 1982; 50:1191.
Krukemyer JJ, Boudoulas H, Binkley PF, Lima JJ. Comparison of hypersensitivity to adrenergic stimulation after abrupt withdrawal of propranolol and nadolol: influence of half-life differences. Am Heart J 1990; 120:572.
Psaty BM, Koepsell TD, Wagner EH, et al. The relative risk of incident coronary heart disease associated with recently stopping the use of beta-blockers. JAMA 1990; 263:1653.
Miller RR, Olson HG, Amsterdam EA, Mason DT. Propranolol-withdrawal rebound phenomenon. Exacerbation of coronary events after abrupt cessation of antianginal therapy. N Engl J Med 1975; 293:416.
Rangno RE, Nattel S, Lutterodt A. Prevention of propranolol withdrawal mechanism by prolonged small dose propranolol schedule. Am J Cardiol 1982; 49:828.

Topic 3835 Version 17.0

Withdrawal syndromes with antihypertensive drug therapy

References