|
|
DESCRIPTION
MICARDIS is a non-peptide angiotensin II
receptor (type AT1) antagonist.
Telmisartan is chemically described as 4'-[(1,4'-dimethyl-2'-propyl
[2,6'-bi-1H-benzimidazol]-1'-yl)methyl]-[1,1'-biphenyl]-2-carboxylic
acid. Its empirical formula is C33H30N4O2,
its molecular weight is 514.63, and its structural formula is:
Telmisartan is a white to slightly
yellowish solid. It is practically insoluble in water and in the pH
range of 3 to 9, sparingly soluble in strong acid (except insoluble
in hydrochloric acid), and soluble in strong base.
MICARDIS is available as tablets for oral administration,
containing 20 mg, 40 mg or 80 mg of telmisartan. The tablets contain
the following inactive ingredients: sodium hydroxide, meglumine, povidone,
sorbitol, and magnesium stearate. MICARDIS tablets are hygroscopic
and require protection from moisture.
|
CLINICAL PHARMACOLOGY
Mechanism of Action
Angiotensin II is formed from angiotensin I in a reaction catalyzed
by angiotensin-converting enzyme (ACE, kininase II). Angiotensin II
is the principal pressor agent of the renin-angiotensin system, with
effects that include vasoconstriction, stimulation of synthesis and
release of aldosterone, cardiac stimulation, and renal reabsorption
of sodium. Telmisartan blocks the vasoconstrictor and aldosterone-secreting
effects of angiotensin II by selectively blocking the binding of angiotensin
II to the AT1 receptor in many tissues, such
as vascular smooth muscle and the adrenal gland. Its action is therefore
independent of the pathways for angiotensin II synthesis.
There is also an AT2 receptor found in many tissues, but AT2 is
not known to be associated with cardiovascular homeostasis. Telmisartan
has much greater affinity (>3,000 fold) for the AT1 receptor than for the AT2 receptor.
Blockade of the renin-angiotensin system
with ACE inhibitors, which inhibit the biosynthesis of angiotensin
II from angiotensin I, is widely used in the treatment of hypertension.
ACE inhibitors also inhibit the degradation of bradykinin, a reaction
also catalyzed by ACE. Because telmisartan does not inhibit ACE (kininase
II), it does not affect the response to bradykinin. Whether this difference
has clinical relevance is not yet known. Telmisartan does not bind
to or block other hormone receptors or ion channels known to be important
in cardiovascular regulation.
Blockade of the angiotensin II receptor inhibits the negative regulatory
feedback of angiotensin II on renin secretion, but the resulting increased
plasma renin activity and angiotensin II circulating levels do not
overcome the effect of telmisartan on blood pressure.
Pharmacodynamics
In normal volunteers, a dose of telmisartan 80 mg inhibited the pressor
response to an intravenous infusion of angiotensin II by about 90%
at peak plasma concentrations with approximately 40% inhibition persisting
for 24 hours.
Plasma concentration
of angiotensin II and plasma renin activity (PRA) increased in a dose-dependent
manner after single administration of telmisartan to healthy subjects
and repeated administration to hypertensive patients. The once-daily
administration of up to 80 mg telmisartan to healthy subjects did
not influence plasma aldosterone concentrations. In multiple dose
studies with hypertensive patients, there were no clinically significant
changes in electrolytes (serum potassium or sodium), or in metabolic
function (including serum levels of cholesterol, triglycerides, HDL,
LDL, glucose, or uric acid).
In
30 hypertensive patients with normal renal function treated for 8
weeks with telmisartan 80 mg or telmisartan 80 mg in combination with
hydrochlorothiazide 12.5 mg, there were no clinically significant
changes from baseline in renal blood flow, glomerular filtration rate,
filtration fraction, renovascular resistance, or creatinine clearance.
Pharmacokinetics
Following oral administration, peak concentrations (Cmax) of telmisartan are reached in 0.5 to 1 hour after dosing. Food
slightly reduces the bioavailability of telmisartan, with a reduction
in the area under the plasma concentration-time curve (AUC) of about
6% with the 40 mg tablet and about 20% after a 160 mg dose. The absolute
bioavailability of telmisartan is dose dependent. At 40 and 160 mg
the bioavailability was 42% and 58%, respectively. The pharmacokinetics
of orally administered telmisartan are nonlinear over the dose range
20 to 160 mg, with greater than proportional increases of plasma concentrations
(Cmax and AUC) with increasing doses. Telmisartan
shows bi-exponential decay kinetics with a terminal elimination half
life of approximately 24 hours. Trough plasma concentrations of telmisartan
with once daily dosing are about 10% to 25% of peak plasma concentrations.
Telmisartan has an accumulation index in plasma of 1.5 to 2.0 upon
repeated once daily dosing.
Distribution
Telmisartan
is highly bound to plasma proteins (>99.5%), mainly albumin and α1 - acid glycoprotein. Plasma protein binding is constant
over the concentration range achieved with recommended doses. The
volume of distribution for telmisartan is approximately 500 liters
indicating additional tissue binding.
Metabolism and Elimination
Following either intravenous or oral administration
of 14C-labeled telmisartan, most of the
administered dose (>97%) was eliminated unchanged in feces via biliary
excretion; only minute amounts were found in the urine (0.91% and
0.49% of total radioactivity, respectively).
Telmisartan is metabolized by conjugation to form a
pharmacologically inactive acyl glucuronide; the glucuronide of the
parent compound is the only metabolite that has been identified in
human plasma and urine. After a single dose, the glucuronide represents
approximately 11% of the measured radioactivity in plasma. The cytochrome
P450 isoenzymes are not involved in the metabolism of telmisartan.
Total plasma clearance of telmisartan is
>800 mL/min. Terminal half-life and total clearance appear to be independent
of dose.
Specific
Populations
Renal
Insufficiency
No dosage adjustment
is necessary in patients with decreased renal function. Telmisartan
is not removed from blood by hemofiltration
[see
Warnings and Precautions and
Dosage and Administration ]
.
Hepatic Insufficiency
In patients with hepatic insufficiency, plasma
concentrations of telmisartan are increased, and absolute bioavailability
approaches 100%
[see Warnings and Precautions and Use in Specific Populations ]
.
Gender
Plasma
concentrations of telmisartan are generally 2 to 3 times higher in
females than in males. In clinical trials, however, no significant
increases in blood pressure response or in the incidence of orthostatic
hypotension were found in women. No dosage adjustment is necessary.
Geriatric Patients
The pharmacokinetics of telmisartan do not differ between
the elderly and those younger than 65 years
[see
Dosage and Administration ]
.
Pediatric
Patients
Telmisartan pharmacokinetics
have not been investigated in patients <18 years of age.
NONCLINICAL TOXICOLOGY
Carcinogenesis, Mutagenesis, Impairment of Fertility
There was no evidence of carcinogenicity
when telmisartan was administered in the diet to mice and rats for
up to 2 years. The highest doses administered to mice (1000 mg/kg/day)
and rats (100 mg/kg/day) are, on a mg/m2 basis, about 59 and 13 times, respectively, the maximum recommended
human dose (MRHD) of telmisartan. These same doses have been shown
to provide average systemic exposures to telmisartan >100 times and
>25 times, respectively, the systemic exposure in humans receiving
the MRHD (80 mg/day).
Genotoxicity
assays did not reveal any telmisartan-related effects at either the
gene or chromosome level. These assays included bacterial mutagenicity
tests with
Salmonella
and
E. coli
(Ames), a gene mutation test
with Chinese hamster V79 cells, a cytogenetic test with human lymphocytes,
and a mouse micronucleus test.
No drug-related effects on the reproductive performance of male and
female rats were noted at 100 mg/kg/day (the highest dose administered),
about 13 times, on a mg/m2 basis, the MRHD
of telmisartan. This dose in the rat resulted in an average systemic
exposure (telmisartan AUC as determined on day 6 of pregnancy) at
least 50 times the average systemic exposure in humans at the MRHD
(80 mg/day).
DevelopmentalToxicity
There is no
clinical experience with the use of MICARDIS tablets in pregnant women.
No teratogenic effects were observed when telmisartan was administered
to pregnant rats at oral doses of up to 50 mg/kg/day and to pregnant
rabbits at oral doses up to 45 mg/kg/day. In rabbits, embryolethality
associated with maternal toxicity (reduced body weight gain and food
consumption) was observed at 45 mg/kg/day [about 12 times the maximum
recommended human dose (MRHD) of 80 mg on a mg/m2 basis]. In rats, maternally toxic (reduction in body weight gain
and food consumption) telmisartan doses of 15 mg/kg/day (about 1.9
times the MRHD on a mg/m2 basis), administered
during late gestation and lactation, were observed to produce adverse
effects in neonates, including reduced viability, low birth weight,
delayed maturation, and decreased weight gain. Telmisartan has been
shown to be present in rat fetuses during late gestation and in rat
milk. The no observed effect doses for developmental toxicity in rats
and rabbits, 5 and 15 mg/kg/day, respectively, are about 0.64 and
3.7 times, on a mg/m2 basis, the maximum
recommended human dose of telmisartan (80 mg/day).
|
CLINICAL STUDIES
Hypertension
The antihypertensive effects of MICARDIS
have been demonstrated in six principal placebo-controlled clinical
trials, studying a range of 20 to 160 mg; one of these examined the
antihypertensive effects of telmisartan and hydrochlorothiazide in
combination. The studies involved a total of 1773 patients with mild
to moderate hypertension (diastolic blood pressure of 95 to 114 mmHg),
1031 of whom were treated with telmisartan. Following once daily administration
of telmisartan, the magnitude of blood pressure reduction from baseline
after placebo subtraction was approximately (SBP/DBP) 6-8/6 mmHg for
20 mg, 9-13/6-8 mmHg for 40 mg, and 12-13/7-8 mmHg for 80 mg. Larger
doses (up to 160 mg) did not appear to cause a further decrease in
blood pressure.
Upon initiation
of antihypertensive treatment with telmisartan, blood pressure was
reduced after the first dose, with a maximal reduction by about 4
weeks. With cessation of treatment with MICARDIS tablets, blood pressure
gradually returned to baseline values over a period of several days
to one week. During long term studies (without placebo control) the
effect of telmisartan appeared to be maintained for up to at least
one year. The antihypertensive effect of telmisartan is not influenced
by patient age, gender, weight, or body mass index. Blood pressure
response in black patients (usually a low-renin population) is noticeably
less than that in Caucasian patients. This has been true for most,
but not all, angiotensin II antagonists and ACE inhibitors.
In a controlled study, the addition of telmisartan
to hydrochlorothiazide produced an additional dose-related reduction
in blood pressure that was similar in magnitude to the reduction achieved
with telmisartan monotherapy. Hydrochlorothiazide also had an added
blood pressure effect when added to telmisartan.
The onset of antihypertensive activity occurs within
3 hours after administration of a single oral dose. At doses of 20,
40, and 80 mg, the antihypertensive effect of once daily administration
of telmisartan is maintained for the full 24-hour dose interval. With
automated ambulatory blood pressure monitoring and conventional blood
pressure measurements, the 24-hour trough-to-peak ratio for 40 to
80 mg doses of telmisartan was 70 to 100% for both systolic and diastolic
blood pressure. The incidence of symptomatic orthostasis after the
first dose in all controlled trials was low (0.04%).
There were no changes in the heart rate of patients
treated with telmisartan in controlled trials.
There are no trials of MICARDIS demonstrating reductions
in cardiovascular risk in patients with hypertension, but at least
one pharmacologically similar drug has demonstrated such benefits.
CardiovascularRisk Reduction
Support
for use to reduce the risk of cardiovascular events was obtained in
a pair of studies. Both enrolled subjects age ≥55 years, at high cardiovascular
risk as evidenced by coronary artery disease (75%), diabetes mellitus
(27%) accompanied with end-organ damage (e.g., retinopathy, left ventricular
hypertrophy, and, in ONTARGET only, macro- or microalbuminuria), stroke
(16%), peripheral vascular disease (13%), or transient ischemic attack
(4%). Patients without a history of intolerance to ACE inhibitors
entered ONTARGET, and those with such a history, usually cough (90%),
entered TRANSCEND, but patients with >1+ proteinuria on dipstick were
excluded from TRANSCEND. For both ONTARGET and TRANSCEND trials, the
primary 4-component composite endpoint was death from cardiovascular
causes, myocardial infarction, stroke, and hospitalization for heart
failure. The secondary 3-component composite endpoint was death from
cardiovascular causes, myocardial infarction, and stroke.
ONTARGET was a randomized, active-controlled,
multinational, double-blind study in 25,620 patients who were randomized
to telmisartan 80 mg, ramipril 10 mg, or their combination. The population
studied was 73% male, 74% Caucasian, 14% Asian, and 57% were 65 years
of age or older. Baseline therapy included acetylsalicylic acid (76%),
lipid lowering agents (64%), beta-blockers (57%), calcium channel
blockers (34%), nitrates (29%), and diuretics (28%). Mean blood pressure
at randomization was 134/77 mmHg. The mean duration of follow up was
about 4 years and 6 months. During the study, 22.0% (n=1878) of telmisartan
patients discontinued the active treatment, compared to 24.4% (n=2095)
of ramipril patients and 25.3% (n=2152) of telmisartan/ramipril patients.
TRANSCEND randomized patients to telmisartan
80 mg (n=2954) or placebo (n=2972). The mean duration of follow up
was 4 years and 8 months. The population studied was 57% male, 62%
Caucasian, 21% Asian, and 60% were 65 years of age or older. Baseline
therapy included acetylsalicylic acid (75%), lipid lowering agents
(58%), beta-blockers (58%), calcium channel blockers (41%), nitrates
(34%) and diuretics (33%). Mean blood pressure at randomization was
135/78 mmHg. During the study, 17.7% (n=523) of telmisartan patients
discontinued the active treatment, compared to 19.4% (n=576) of placebo
patients.
The results for the
TRANSCEND trial are summarized in Table 2, and the results for ONTARGET
are summarized in Table 3, below:
Table 2 Incidence of the Primary and Secondary Outcomes from
TRANSCEND
*The primary
endpoint was defined as the time to first event. In case of multiple
simultaneous events, all individual events were considered; the sum
of patients with individual outcomes may exceed the number of patients
with composite (primary or secondary) outcomes.
**For individual components of the primary composite
endpoints, all events, regardless whether or not they were the first
event, were considered. Therefore, they are more than the first events
considered for the primary or secondary composite endpoint. |
| |
Telmisartan
vs. Placebo
(n=2954) (n=2972)
|
No. of Events
Telmisartan
/ Placebo
|
Hazard Ratio
95%
CI
|
p-value
|
|
*Composite of CV death,
myocardial infarction, stroke, or hospitalization for heart failure |
465 (15.7%) / 504 (17.0%) |
0.92 (0.81 – 1.05) |
0.2129 |
|
*Composite of CV death,
myocardial infarction, or stroke |
384 (13.0%) / 440 (14.8%) |
0.87 (0.76 – 1.00) |
0.0483 |
| Individual components of the primary composite
endpoint |
No. of Events
Telmisartan
/ Placebo
|
Hazard Ratio
95%
CI
|
p-value
|
| **All non-fatal
MI |
114 (3.9%) / 145 (4.9%) |
0.79 (0.62 – 1.01) |
0.0574 |
| **All non-fatal
strokes |
112 (3.8%) / 136 (4.6%) |
0.83 (0.64 – 1.06) |
0.1365 |
Table 3 Incidence of the Primary and Secondary Outcomes from
ONTARGET
| |
Telmisartan vs. Ramipril
(n=8542) (n=8576)
|
No. of Events
Telmisartan / Ramipril
|
Hazard Ratio
97.5% CI
|
| Composite of CV death, myocardial
infarction, stroke, or hospitalization for heart failure |
1423 (16.7%) / 1412 (16.5%) |
1.01 (0.93 – 1.10) |
| Composite of CV death, myocardial
infarction, or stroke |
1190 (13.9%) / 1210 (14.1%) |
0.99 (0.90 – 1.08) |
Although the event rates in ONTARGET
were similar on telmisartan and ramipril, the results did not unequivocally
rule out that MICARDIS may not preserve a meaningful fraction of the
effect of ramipril in reducing cardiovascular events. However, the
results of both ONTARGET and TRANSCEND do adequately support MICARDIS
being more effective than placebo would be in this setting, particularly
for the end point of time to cardiovascular death, myocardial infarction,
or stroke.
In ONTARGET, there
was no evidence that combining ramipril and MICARDIS reduced the risk
of death from cardiovascular causes, myocardial infarction, stroke,
or hospitalization for heart failure greater than ramipril alone;
instead, patients who received the combination of ramipril and telmisartan
in ONTARGET experienced an increased incidence of clinically important
renal dysfunction (e.g., acute renal failure) compared to patients
receiving MICARDIS or ramipril alone.
Multiple sub-group analyses did not demonstrate any
differences in the 4-component composite primary endpoint based on
age, gender, or ethnicity for either ONTARGET or TRANSCEND trial.
|
|
|
|
-- advertisement --
|
