Perindopril/Indapamide/Amlodipine in Hypertension: A Profile of Its Use

PER is a prodrug that is hydrolysed in vivo to the active metabolite perindoprilat, which inhibits angiotensin-converting enzyme (ACE) at both plasma and tissue levels [14‐16]. ACE converts angiotensin I to angiotensin II, a vasoconstrictor. PER-induced decrease in plasma angiotensin II results in increased plasma renin activity, decreased aldosterone secretion, increased bradykinin (a vasodilator) availability and reduced total peripheral resistance. Thus, PER reduces BP mainly by suppression of the renin-angiotensin-aldosterone system (RAAS), with bradykinin also contributing to this action. At tissue level, perindoprilat predominantly acts on vascular wall and the kidney, with no salt and water retention or reflex tachycardia during chronic treatment. PER is effective in all grades of hypertension. Following a single oral dose, BP reduction is maximal at 4–6 h postdose and the efficacy is maintained through 24 h. In responders, BP is normalized typically after 1 month’s treatment, and is maintained without tachyphylaxis [14‐16]. PER has a positive effect on ischemia, atherosclerosis, inflammation, thrombosis, platelet aggregation, endothelial function, cardiovascular structure and function, and albuminuria [16]. PER improved cardiovascular and mortality outcomes in patients with stable coronary artery disease (CAD) without heart failure (EUROPA) and in elderly post-myocardial infarction (MI) patients with preserved left ventricular ejection fraction (PREAMI) [16].

IND is a thiazide-like diuretic that inhibits sodium and chloride reabsorption in the cortical dilution segment in the kidney, resulting in increased excretion of these ions in the urine [14, 17‐19]. Thus, the antihypertensive effect of IND results from increased urine output; it also lowers systolic BP (SBP) by acting as a vasorelaxant. IND has a 24–34 h duration of action. It is superior to hydrochlorothiazide (HCTZ) in reducing SBP and to enalapril in reducing left ventricular mass index (LVMI) in hypertensive patients and in reducing microalbuminuria in hypertensive patients with diabetes mellitus [14, 17‐19]. BP reduction with IND reduced the risk of fatal and nonfatal stroke by 29% in patients with a history of stroke or transient ischemic attack (PATS) [20].

AML is a dihydropyridine CCB that inhibits the transmembrane influx of calcium into cardiac muscle and vascular smooth muscle [14, 21] The antihypertensive effect of AML is due to peripheral vasodilation and subsequent reduction in systemic vascular resistance. AML has a half-life of 30–45 h, which allows for once-daily administration [14, 21].

There was no significant difference between AML, chlorthalidone and lisinopril in reducing fatal coronary heart disease (CHD) or nonfatal MI and all-cause mortality in patients aged ≥ 55 years with hypertension and at least one other CHD risk factor (ALLHAT) [22]. AML reduced adverse cardiovascular events in patients with CAD and normal BP (CAMELOT) [23]. It did not slow progression of early coronary atherosclerosis in patients with CAD, but reduced hospitalizations for unstable angina and revascularization (PREVENT) [24]. Of note, valsartan did not differ from AML in reducing cardiac morbidity and mortality in hypertensive patients with high cardiovascular risk (VALUE) [25].

PER/IND effectively reduced BP in several placebo-controlled and active comparator (losartan, atenolol, irbesartan) trials in patients with hypertension, including elderly patients and those with kidney function impairment [26]. PER/IND was associated with numerically better BP response and BP control rates (as defined in Sect. 3) than losartan, and was more effective than atenolol in elderly patients [26]. PER ± IND reduced the risk of fatal and nonfatal stroke in very elderly patients (HYVET) [27] and in hypertensive or non-hypertensive patients with a history of stroke or transient ischemic attack (PROGRESS) [28]. PER/IND reduced the risk of major macrovascular or microvascular events by 9% and the risk of death from cardiovascular disease by 18% versus placebo in patients with T2DM (ADVANCE) [29]; the risk of death decreased further in patients on a CCB at baseline versus no CCB at baseline (ADVANCE-CCB) [12].

PER/AML SPC was more effective than individual components (PATH), and a PER/AML strategy was associated with greater BP reduction than a valsartan/AML strategy in patients with mild to moderate hypertension [30]. In hypertensive patients with ≥ 3 other cardiovascular risk factors, AML ± PER was associated with reduced incidence of major cardiovascular events, all-cause mortality and new-onset diabetes, compared with atenolol ± bendroflumethiazide (ASCOT-BPLA) [31]. The two strategies did not differ significantly for the primary endpoint of non-fatal MI plus fatal CHD; it must be noted that the study became underpowered for this endpoint due to early termination because of higher mortality and worse secondary outcomes with atenolol ± bendroflumethiazide versus AML ± PER [31]. The addition of PER to a CCB reduced the composite of cardiovascular mortality, nonfatal MI and resuscitated cardiac arrest by 35% in patients with stable CAD in EUROPA (post hoc analysis) [32].

Triple-component SPC PER/IND/AML was superior to dual-component SPC PER/IND in a randomized, double-blind trial in patients with uncontrolled hypertension on current treatment (Table 2) [36]. PER/IND/AML was significantly more effective than PER/IND in reducing office supine SBP (primary endpoint) and DBP from baseline at month 1 (Table 2); the between-group difference in supine SBP/DBP was − 3.1/− 2.8 mmHg. The effect was confirmed by office standing BP measurements. The between-group difference (− 5.3/− 3.7 mmHg) became even more prominent when the white-coat effect was excluded. The triple SPC was associated with significantly higher BP control (Table 2) and BP response (72% vs 53%; p ≤ 0.001) rates versus dual SPC at month 1. Progressive improvements in BP control rates were seen in both groups, reaching 82% at study end (month 4). Fewer patients who started on PER/IND/AML required uptitrations than those who started on PER/IND. Uptitrations were associated with further significant (p < 0.001 vs month-1 values) BP reduction in both groups at month 4 [36].

In this study, ambulatory BP, home BP and central ambulatory BP measurements in subgroups of patients confirmed the superiority of PER/IND/AML over PER/IND [36, 46]. The ambulatory BP findings are summarized in Table 3 [46]. The mean change from baseline in global home SBP/DBP at month 1 was − 10.3/− 6.0 mmHg with PER/IND/AML versus − 5.0/− 3.2 mmHg with PER/IND (between-group difference − 4.9/− 3.1 mmHg; p < 0.001 for both SBP and DBP) [36]. Similar results were seen for day- and night-time ambulatory and home BP. Consistent with office BP, ambulatory and home BP measurements also demonstrated the uptitration efficacy of PER/IND/AML [36]. For central ambulatory BP, significant (p ≤ 0.05) between-group differences in favour of PER/IND/AML was seen at 1 month for SBP (− 4.5, − 5.0 and − 4.1 mmHg for 24-h, daytime and night-time, respectively) and DBP (− 2.7 and − 3.4 mmHg for 24-h and daytime) [46]. Significant (p ≤ 0.05) between-group differences in favour of PER/IND/AML were also seen for central pulse pressure and other derived parameters [46].

In an open-label trial (PRECIOUS), PER/IND/AML 4/1.25/5 mg was effective in patients with uncontrolled hypertension and PER/AML 4/5 mg was effective in those with newly diagnosed or uncontrolled hypertension [44]. After 4 months of treatment, BP control was achieved in 83.0% and 77.7% of patients in the triple and dual SPC arms. Two-thirds of the patients required no or just one uptitration of the treatment [44].

Triple therapy with PER/IND/AML as a single pill showed greater antihypertensive efficacy than PER/IND + AML given as two separate pills in a 12-week pilot study in patients (n = 12) with hypertension and no comorbidities [47]. In a subsequent randomized, open-label trial, PER/IND/AML was as effective as the equivalent dose of PER/IND + AML in patients with uncontrolled hypertension on maximal dose monotherapy or dual therapy (Table 2) [35]. At week 12, there was no significant between-group difference for office supine SBP/DBP (primary endpoint) and BP control rate, with both groups showing clinically meaningful improvements for these endpoints (Table 2). Similar results were seen for BP response rate (89.2% vs 87.1%). Most of these improvements were seen by the first post-baseline visit at week 4 and were maintained through week 12 [35].

Triple-component SPC PER/IND/AML provided better antihypertensive efficacy, with other beneficial outcomes, compared with free combination of the same agents in patients with uncontrolled hypertension, including those with comorbid T2DM and obesity [33, 34, 45].

In a 12-week randomized trial, PER/IND/AML plus atorvastatin was associated with generally greater antihypertensive efficacy (Table 2) and cardiovascular risk reduction than the equivalent dosage of the same regimen in free combination in patients with uncontrolled hypertension and no diabetes mellitus, liver or kidney failure (n = 305) [34].

In a subsequent 6-month, randomized, open-label trial, PER/IND/AML was associated with greater BP control (80% vs 58% at 3 months; 85% vs 53% at 6 months; p < 0.05 for both) and a better ambulatory BP profile in general (Table 3) than the equivalent-dose free combination in obese patients with moderate to severe hypertension uncontrolled on dual therapy (n = 75) [33]. The SPC was significantly (p ≤ 0.05) better than the free combination in terms of 24-h hypertensive time index, 24-h BP variability and the degree of night-time BP reduction. The SPC was also associated with more frequent use of lower dose levels and lesser use of maximal doses for BP control, compared with the free combination [33].

These findings were supported by a prospective clinical study in obese patients with hypertension and T2DM (n = 87) [45]. A group of patients received PER/IND/AML 4/1.25/5 mg and a matching control group received an equivalent free combination for 6 months; both groups received T2DM and hyperlipidaemia treatments and implemented dietary changes for weight loss. The baseline characteristics were well balanced between the groups. The BP control rate (target SBP/DBP 130/80 mmHg) was higher with the SPC than with the free-combination at 3 months (95.65% vs 80.49%; p = 0.03) but it did not differ significantly between the groups at 6 months (97.83% vs 92.68%), indicating BP control was achieved early with the SPC. The SPC was also associated with a lower likelihood of visiting a physician for hypertension-mediated target organ damage (relative risk 1.27; 95% CI 1.01–1.61; p = 0.045) and a lower risk for clinical worsening of hypertension, T2DM and obesity (relative risk 1.37; 95% CI 1.02–1.84; p = 0.03) [45].

PER/IND/AML was more effective than a free triple combination of a RAAS inhibitor, a diuretic and a CCB in a prospective clinical study in patients with hypertension uncontrolled on a dual SPC of RAAS inhibitor/diuretic [42]. Patients were switched to PER/IND/AML, and an age- and sex-matched control group received the free triple combination, for 4 months. Office BP (Table 2) and ambulatory BP (Table 3) decreased significantly versus baseline in both treatment groups. However, significantly more SPC than free combination recipients achieved target ambulatory BP (Table 2). The SPC was also more effective than the free combination in reducing ambulatory SBP and pulse pressure at month 1. Furthermore, BP variability was significantly lower with the SPC than with the free combination [42]. At 14 months, 77.1% and 72.4% of patients in the SPC and free combination arms achieved target office BP [48].

In prospective noncomparative studies, PER/IND/AML effectively reduced BP in patients with grade I–III uncontrolled hypertension, including those with comorbid T2DM, metabolic disorders or a high cardiovascular risk (Table 2) [37‐40, 43]. The efficacy of PER/IND/AML was confirmed by central BP measurements in one study; the mean change from baseline in central SBP/DBP at 5 months was − 24.7/− 11.8 mmHg (p ≤ 0.001 for both SBP and DBP), with 86.7% and 90% of patients achieving target central SBP and DBP, respectively [39]. Where reported, PER/IND/AML significantly (p ≤ 0.05) reduced maximum BP, BP variability, morning BP elevations and hypertensive time index [38]. Triple-component SPCs, including PER/IND/AML, were also effective in patients with resistant hypertension [41].

The therapeutic effect of PER/IND/AML was associated with improvements in health-related quality of life (HR-QOL) in hypertensive patients, as assessed by the 36-Item Short Form Survey [50] or the World Health Organization Quality-of-Life Scale (WHOQOL-BREF) [43]. In TRIO, the mean mood score increased significantly in the PER/IND/AML group versus baseline and control (p < 0.001 for both), with no significant changes in other variables in both groups [50]. In another study, the BP-lowering effect of the SPC significantly (p < 0.05) improved depression, with a slight improvement in anxiety level, as assessed by the Hospital Anxiety and Depression Scale [38]. In small clinical trials, after 3 months’ PER/IND/AML treatment, investigators rated each patient’s general condition or well being as ‘excellent’ or ‘improved’ in ≈ 89% of patients (the other rating categories were ‘appropriate’ or ‘worse’) [37, 40].

The use of triple-component SPC PER/IND/AML was associated with high adherence to treatment in the clinical practice setting [52, 56]. In CONTROL-3, patient-reported treatment adherence was assessed using the Hill-Bone high BP adherence scale, which assesses three behavioural domains (medication-taking, reduced sodium intake and appointment-keeping), with the total score ranging from 14 (high adherence) to 56 (low adherence) [52]. After 1 and 4 months’ PER/IND/AML treatment, total scores were 19.1 and 18.7, respectively. A higher treatment adherence was associated with a greater SBP reduction [52].

In clinical studies, compliance to PER/IND/AML treatment was high (87–98.5% of patients) [33‐36] and was significantly (p < 0.05) higher than that seen with the free combination of PER + IND + AML (94% vs 85% [34]; 87% vs 61% [33]). Where reported, Morisky Medication Adherence scale scores significantly (p < 0.05) increased over 3 months’ treatment with the SPC [38, 41].