LEVITRAŽ Tablets
(Vardenafil, BAYER)
Name of the Drug
Vardenafil (CAS number:
224785-90-4), as vardenafil hydrochloride
trihydrate. The empirical formula of vardenafil
hydrochloride trihydrate is C23H32N6O4S.HCl.3H2O
and its molecular weight is 579.1 g/mol.
Description
Vardenafil hydrochloride
trihydrate is
2-[2-ethoxy-5-(4-ethyl-piperazine-1-sulfonyl)-phenyl]-5-methyl-7-propyl-3H-imidazo[5,1-f][1,2,4]triazin-4-one
hydrochloride trihydrate. It is a nearly
colourless solid. Vardenafil hydrochloride
trihydrate is soluble in 0.1M HCl, very slightly
soluble in water, freely soluble in methanol,
soluble in ethanol and slightly soluble in
acetone.
LEVITRA tablets are
available in strengths of:
- 5 mg of vardenafil
(5.926 mg of vardenafil hydrochloride
trihydrate)
- 10 mg of vardenafil
(11.852 mg of vardenafil hydrochloride
trihydrate)
- 20 mg of vardenafil
(23.705 mg of vardenafil hydrochloride
trihydrate).
Besides the active
ingredient, LEVITRA tablets also contain the
following excipients: crospovidone, magnesium
stearate, microcrystalline cellulose, colloidal
anhydrous silica, macrogol 400, hypromellose,
titanium dioxide (CI77891), iron oxide yellow
(CI77492), iron oxide red (CI77491).
Pharmacology
Penile erection is a
haemodynamic process based on the relaxation of
smooth muscle in the corpus cavernosum and its
associated arterioles. During sexual stimulation,
from nerve ends in the corpus cavernosum nitric
oxide (NO) is released, which activates the enzyme
guanylate cyclase resulting in an increased level
of cyclic guanosine monophosphate (cGMP) in the
corpus cavernosum. This in turn triggers smooth
muscle relaxation, allowing increased inflow of
blood into the penis resulting in erection. The
actual cGMP level is regulated by the rate of
synthesis via the guanylate cyclase on the one
hand, and by the rate of degradation via cGMP
hydrolyzing phosphodiesterases (PDEs) on the other
hand.
The most prominent PDE in
the human corpus cavernosum is the cGMP specific
phosphodiesterase type 5 (PDE5).
By inhibiting PDE5, the
enzyme responsible for cGMP degradation in the
corpus cavernosum, vardenafil potently enhances
the effect of endogenous NO, locally released in
corpus cavernosum upon sexual stimulation. The
inhibition of PDE5 by vardenafil leads to
increased cGMP levels in the corpus cavernosum,
resulting in smooth muscle relaxation and inflow
of blood to the corpus cavernosum. Vardenafil thus
potentiates the natural response to sexual
stimulation.
In vitro assays have shown
that vardenafil is a selective inhibitor of PDE5,
with an IC50 of 0.7 nM for human platelet
PDE5.
The inhibitory effect of
vardenafil is more potent on PDE5 than on other
known phosphodiesterases (>15-fold relative to
PDE6, >130-fold relative to PDE1, >300-fold
relative to PDE11, and >1,000-fold relative to
PDE2, 3, 4, 7, 8, 9, and 10). In vitro, vardenafil
causes an elevation of cGMP in the isolated human
corpus cavernosum resulting in muscle
relaxation.
In the conscious rabbit,
vardenafil causes a penile erection which is
dependent upon endogenous nitric oxide synthesis
and is potentiated by nitric oxide donors.
Effects on Visual
Perception
In a
specific clinical trial, evaluation of visual
function at a vardenafil dose of 40 mg (twice the
maximum recommended daily dose) revealed no
effects of vardenafil on visual acuity, visual
fields, intraocular pressure, ERG latency,
fundoscopic and slit lamp findings. A subset of
patients was found to have mild and transient
impairment of colour discrimination in the
blue/green range and in the purple range 1 hour
after dosing. These changes had improved by 6
hours and no changes were present at 24 hours. The
majority of these patients had no subjective
visual symptoms.
In other trials, daily use
of vardenafil at doses of 10 mg to 40 mg for 31
days was not associated with changes in visual
acuity, intraocular pressure, or findings on
fundoscopic or slit lamp examination.
Effects on Blood
Pressure
Vardenafil
causes mild and transient decreases in blood
pressure which, in the majority of the cases, do
not translate into clinical effects. The mean
maximum decreases in supine systolic blood
pressure following 20 mg and 40 mg vardenafil were
- 6.9 mmHg with 20 mg and - 4.3 mmHg with 40 mg of
vardenafil, when compared to placebo.
Effects on Cardiac
Parameters
Single oral
doses of vardenafil up to 80 mg (four times the
maximum recommended daily dose) did not produce
clinically relevant effects on the ECGs of healthy
volunteers.
Effects on Exercise
Performance in Patients with Coronary Artery
Disease
In a
two-period, placebo-controlled, cross-over trial,
10 mg vardenafil did not alter the total treadmill
exercise time compared to placebo in 39 male
patients aged 48-77 years with coronary artery
disease and exercise induced ischaemia. The total
time to angina was not altered compared to
placebo; however, the total time to 1 mm or
greater ST-segment depression was prolonged 15% in
the vardenafil group compared to the placebo group
(p<0.001). All patients who entered the trial
completed the exercise treadmill tests without
significant drug-related side effects.
Pharmacokinetics
Absorption
Vardenafil is rapidly
absorbed after oral administration. Cmax is
reached as early as 15 minutes, in 90% of the time
Cmax is reached within 30 to 120 minutes (median
60 minutes) of oral dosing in the fasted
state.
There is extensive
first-pass metabolism of vardenafil, resulting in
considerable inter-subject and intra-subject
variability in the observed pharmacokinetic
parameters. The mean absolute bioavailability is
approximately 15% after a 10 mg dose. After oral
dosing of vardenafil, AUC and Cmax increase almost
dose proportionally over the recommended dose
range (5 mg - 20 mg).
When vardenafil was taken
with a high fat meal (~57% fat), the rate of
absorption (mean Cmax) was reduced by
approximately 20%, median tmax was delayed by
approximately 1 hour, and mean AUC was not
affected. After a 'normal meal' (~30% fat)
pharmacokinetic parameters were not significantly
affected. Based on these results vardenafil can be
taken with or without food.
Distribution
The mean steady state volume
of distribution (Vss) for vardenafil is about 2.5
L/kg, indicating distribution into the
tissues.
Vardenafil and its major
circulating metabolite (M1) are highly bound to
plasma proteins (about 95% for parent drug or M1).
This protein binding is reversible and independent
of total drug concentrations.
Based upon measurements of
vardenafil in semen of healthy subjects 90 minutes
after dosing, not more than 0.0002% of the
administered dose may appear in the semen of
patients.
Metabolism
Vardenafil is metabolised
predominantly by hepatic enzymes via CYP3A4, with
some contribution from CYP3A5 and CYP2C9 isoforms.
Mean terminal elimination half-life from plasma is
approximately 4-5 hours.
In humans, the major
circulating metabolite (M1) results from
desethylation at the piperazine moiety of
vardenafil, and is subject to further metabolism.
The terminal plasma elimination half-life of the
metabolite M1 is approximately 4 hours, comparable
to the parent drug. M1 is also present in its
glucuronide-conjugated (glucuronic acid) form in
systemic circulation. The plasma concentration of
non-glucuronidated M1 is about 26% that of the
parent compound. The metabolite M1 shows a
phosphodiesterase selectivity profile similar to
that of vardenafil and an in vitro inhibitory
potency for PDE5 of approximately 28% compared to
vardenafil, resulting in an efficacy contribution
of about 7%.
Excretion
The total body clearance of
vardenafil is 56 L/hour with a resultant terminal
half-life of about 4-5 hours.
After oral administration,
vardenafil is excreted as metabolites
predominantly in the faeces (approximately 91 -
95% of administered oral dose) and to a lesser
extent in the urine (approximately 2 - 6% of
administered oral dose).
Pharmacokinetics in special
populations
Elderly
Vardenafil half life in
healthy elderly volunteers (65 years or over) was
not significantly reduced as compared to
volunteers of younger age (45 years and below). On
average, elderly males had a 52% higher AUC than
younger males which is within the variability
observed in clinical trials. No overall
differences in safety or effectiveness were
observed between elderly and younger subjects in
placebo controlled clinical trials. Therefore no
dose adjustment is required in elderly
patients.
Renal insufficiency
In patients with mild (CLcr
50 - 80 mL/min), moderate (CLcr 30 - 50 mL/min),
or severe (CLcr < 30 mL/min) renal impairment,
vardenafil pharmacokinetics were similar to that
of a normal renal function control group. No
statistically significant correlation between
creatinine clearance and vardenafil plasma
exposure (AUC and Cmax) was observed. Based on
these data, no dose adjustment is needed in
patients with impaired renal function.
The pharmacokinetics of
vardenafil have not been studied in patients
requiring dialysis and vardenafil should not be
used in this situation.
Hepatic insufficiency
In patients with mild to
moderate hepatic impairment (Child-Pugh A and B),
vardenafil clearance was reduced in proportion to
the degree of hepatic impairment.
In patients with mild
hepatic impairment (Child-Pugh A), vardenafil AUC
and Cmax were increased 1.2-fold (AUC by 17% and
Cmax by 22%) following a 10 mg vardenafil dose,
compared to healthy control subjects. No dose
adjustment is required in patients with mild
hepatic impairment.
In patients with moderate
hepatic impairment (Child-Pugh B), vardenafil AUC
was increased 2.6-fold (an increase of 160%) and
Cmax was increased 2.3-fold (an increase of 130%),
compared to healthy control subjects. Therefore,
in patients with moderate hepatic impairment, a 5
mg starting dose should be used, which may
subsequently be increased to 10 mg and then 20 mg
based on tolerability and efficacy.
The pharmacokinetics of
vardenafil have not been studied in patients with
severe hepatic impairment (Child-Pugh C) and
vardenafil should not be used in this
situation.
Clinical
Studies
In a
placebo controlled Rigiscan study, LEVITRA
(vardenafil) 20 mg produced erections sufficient
for penetration (= 60% rigidity by Rigiscan) in
some men as early as 15 minutes. The overall
response of these subjects to vardenafil became
statistically significant compared to placebo at
25 minutes post dosing.
Vardenafil demonstrated
clinically meaningful and statistically
significant improvement of erectile function
compared to placebo in all major efficacy trials
including special populations.
Across all trials,
vardenafil was administered to over 3750 men with
erectile dysfunction (ED) aged 18 to 89 years,
many of whom had multiple other medical
conditions. Over 1630 patients were treated with
vardenafil for 6 months or longer.
In all major efficacy
trials, including studies in post-prostatectomy
patients and patients with diabetes, vardenafil 10
mg and 20 mg produced statistically significant
and clinically meaningful improvements, compared
to placebo, in the International Index of Erectile
Function (IIEF) erectile function domain score,
the percentage of patients achieving successful
penetration and maintenance of erections, and the
percentage of patients who rated their erections
as improved (Tables 1 and 2).
Table 1. IIEF erectile
function domain score and global assessment at
Week 12 (Intention-to-treat population).*
| Study
Population |
IIEF
erectile function domain score |
Percentage of patients
rating
erections as
improved |
| Placebo |
Vardenafil
10 mg |
Vardenafil
20 mg |
Placebo |
Vardenafil
10 mg |
Vardenafil
20
mg |
| General |
15.0 |
20.6 |
21.4 |
30% |
72% |
78% |
| General |
13.2 |
20.9 |
21.5 |
19% |
73% |
73% |
| Diabetic |
12.6 |
17.1 |
19.0 |
13% |
54% |
70% |
| Prostatectomy |
9.2 |
15.3 |
15.3 |
9% |
58% |
60% |
* Last available
observation used in patients with no data at Week
12.
Table 2. Percentage of
patients achieving successful penetration and
maintenance of erection at Week 12
(Intention-to-treat population). *
| Study
Population |
Penetration |
Maintenance of
erection |
| Placebo |
Vardenafil
10 mg |
Vardenafil
20 mg |
Placebo |
Vardenafil
10 mg |
Vardenafil
20
mg |
| General |
52% |
76% |
81% |
32% |
65% |
65% |
| General |
45% |
76% |
80% |
25% |
62% |
64% |
| Diabetic |
36% |
61% |
64% |
23% |
49% |
54% |
| Prostatectomy |
22% |
47% |
48% |
10% |
37% |
34% |
* Last
available observation used in patients with no
data at Week 12.
In a randomised, double
blind, placebo controlled, fixed dose trial in 749
patients, based on a global assessment question
(GAQ), vardenafil improved erections in 56%, 77%,
and 81% of the patients on 5 mg, 10 mg, and 20 mg,
respectively, at 6 months compared to 23% on
placebo.
In pooled data from the
major efficacy trials, including special
population studies, those patients who had
successful penetration on first dose of treatment
were 37% on placebo, 68% for 10 mg, and 70% for 20
mg. For those patients who had successful
penetration on first dose, on average, patients on
vardenafil 10 mg and 20 mg responded successfully
in 86% and 90% of all subsequent attempts,
respectively, over a 3 month study period.
Vardenafil was efficacious in patients regardless
of baseline severity, aetiology (organic,
psychogenic and mixed), duration of ED, ethnicity
and age as determined in subgroup analyses.
In post-prostatectomy
patients, vardenafil demonstrated clinically
meaningful and statistically significant
improvement in erectile function in a 3 month
prospective, fixed dose, placebo controlled,
double blind trial. Erectile function domain
score, the rate of obtaining an erection
sufficient for penetration, the rate of
maintaining an erection sufficient for successful
intercourse, and hardness were significantly
improved compared to placebo for the tested doses
of 10 mg and 20 mg at all time points. Improved
erectile function response rates as based on GAQ
were 57% on 10 mg, and 60% on 20 mg compared to 9%
on placebo at 3 months. In the subgroup of
patients with bilateral nerve-sparing
prostatectomy the response rates as based on GAQ
in patients who completed at 3 months were 61% for
10 mg, and 66% for 20 mg, compared to 8% for
placebo.
In patients with diabetes
mellitus, vardenafil demonstrated clinically
meaningful and statistically significant
improvement in erectile function in a 3 month
prospective, fixed dose, placebo controlled,
double blind trial. Significant improvements were
shown in the erectile function domain score, the
rate of obtaining an erection sufficient for
penetration, the rate of maintaining an erection
sufficient for successful intercourse, and
hardness, when 10 mg and 20 mg vardenafil doses
were compared to placebo. These improvements were
seen at all time points during three months of
treatment. In this population, which is typically
more resistant to therapy, response rates for
improvement of erection as based on GAQ were 54%
on 10 mg, and 70% on 20 mg vardenafil compared to
13% on placebo for patients who completed three
months of the trial. Patients in the active
treatment group were continued on blinded active
therapy of vardenafil for a total of 6 months.
These patients demonstrated response rates of 66%
and 74% for 10 mg and 20 mg, respectively.
Indications
LEVITRA is indicated for the
treatment of erectile dysfunction in adult males
(inability to achieve or maintain penile erection
sufficient for satisfactory sexual
performance).
LEVITRA is not indicated
for use by women.
Contraindications
Vardenafil is contraindicated
in patients with known hypersensitivity to any of
the drug's components (active or inactive
ingredients).
Nitrates and vardenafil
must not be used concomitantly. Co-administration
of vardenafil with nitric oxide donors, organic
nitrates, or organic nitrites in any form either
regularly or intermittently is contraindicated.
Drugs which must not be used concomitantly
include, but are not limited to, glyceryl
trinitrate (injection, tablets, sprays or
patches), isosorbide salts, sodium nitroprusside,
amyl nitrite, nicorandil or organic nitrates in
any form. Consistent with the effects of PDE
inhibition on the nitric oxide / cGMP - pathway,
PDE5 inhibitors may potentiate the hypotensive
effects of nitrates.
Vardenafil is
contraindicated in men for whom sexual intercourse
is inadvisable due to cardiovascular risk factors
(see PRECAUTIONS). The possibility of undiagnosed
cardiovascular disorders in men with erectile
dysfunction should be considered before
prescribing vardenafil.
The safety of vardenafil
has not been studied in patients with the
following conditions and its use in such patients
is therefore contraindicated until further
information is available: unstable angina; resting
or orthostatic hypotension (systolic blood
pressure <90 mmHg); uncontrolled hypertension;
myocardial infarction, stroke, cardiac ischaemia
(except stable angina), or life-threatening
arrhythmia within the previous 6 months;
uncontrolled arrhythmia; severe hepatic
impairment; end-stage renal disease requiring
dialysis; known hereditary degenerative retinal
disorders such as retinitis pigmentosa.
Precautions
Cardiovascular Disease
Prior to initiating any
treatment for erectile dysfunction, physicians
should consider the cardiovascular status of their
patients, since there is a degree of cardiac risk
associated with sexual activity.
Other Pre-existing Medical
Conditions
Agents for
the treatment of erectile dysfunction should
generally be used with caution in patients with
anatomical deformation of the penis (such as
angulation, cavernosal fibrosis or Peyronie's
disease) or in patients who have conditions which
may predispose them to priapism (such as sickle
cell anaemia, multiple myeloma or leukaemia).
The safety and efficacy of
combinations of vardenafil with other treatments
for erectile dysfunction (including other PDE5
inhibitors) have not been studied. Therefore the
use of such combinations is not recommended.
Vardenafil has not been
administered to patients with bleeding disorders
or significant active peptic ulceration. Therefore
vardenafil should be given to these patients only
after careful benefit-risk assessment. In humans,
vardenafil has no effect on bleeding time alone or
with aspirin. In vitro studies with human
platelets indicate that vardenafil alone did not
inhibit platelet aggregation induced by a variety
of platelet agonists. With supertherapeutic
concentrations of vardenafil a small
concentration-dependent enhancement of the
antiaggregatory effect of sodium nitroprusside, a
nitric oxide donor, was observed. The combination
of heparin and Vardenafil had no effect on
bleeding time in rats, but this interaction has
not been studied in humans.
Use with
alpha-Blockers
The
concomitant use of vardenafil with alpha-blockers
may lead to symptomatic hypotension in some
patients. Until further information is available,
the concomitant use of vardenafil and
alpha-blockers is not recommended.
Use with Potent CYP 3A4
Inhibitors
Concomitant
use of the potent cytochrome P450 3A4 (CYP 3A4)
inhibitors ketoconazole, itraconazole, indinavir,
or ritonavir can be expected to produce markedly
increased vardenafil plasma levels. Higher plasma
levels may increase both the efficacy and
incidence of adverse events. A maximum vardenafil
dose of 5 mg should not be exceeded if used in
combination with ketoconazole, itraconazole and
erythromycin. Concomitant use with the HIV
protease inhibitors indinavir or ritonavir should
be avoided. (see INTERACTIONS WITH OTHER
DRUGS).
Ability to Drive and Use
Machines
Patients
should be aware of how they react to vardenafil
before driving or operating machinery.
Carcinogenesis,
Mutagenesis
Vardenafil
showed no carcinogenic activity when administered
orally to rats at doses up to 75 (males) or 25
(females) mg/kg/day or via the drinking water to
mice at doses up to 150 (males) or 193 (females)
mg/kg/day. The highest doses in these studies were
associated with systemic exposure (AUC) to
vardenafil >300 (rats) or about 25 (mice) times
that expected in men taking 20 mg/day
vardenafil.
Vardenafil was not
genotoxic in assays for gene mutation (reverse
mutations in bacterial cells and forward mutations
in Chinese hamster V79 cells in vitro) or
chromosomal damage (Chinese hamster V79 cells in
vitro and mouse micronucleus assay in vivo).
Impairment of
Fertility
In a
specific clinical trial, single oral doses of 20
mg of vardenafil did not produce any effects on
sperm motility or morphology or a variety of
parameters indicative for male reproductive
function. Based upon measurements of vardenafil in
semen of healthy subjects 90 minutes after dosing,
not more than 0.0002% of the administered dose
appeared in the semen of patients.
Studies in rats showed no
effects on fertility, reproductive performance or
reproductive organ morphology in males or females
given oral doses of vardenafil up to 100 mg/kg/day
(systemic exposure >200 times that expected at
the maximum recommended dose of 20 mg, based on
AUC).
Use in Pregnancy (Category
B3)
Vardenafil is not indicated
for use by women.
Studies in rats have shown
that vardenafil and/or its metabolites cross the
placenta and distribute to the fetus. No evidence
of embryofetal toxicity or teratogenicity was
observed in pregnant rats or rabbits given oral
doses of vardenafil up to 18 mg/kg/day. These
doses were associated with systemic exposure to
vardenafil 125- (rat) or 7- (rabbit) fold greater
than that expected at the maximum recommended dose
of 20 mg, based on AUC. Higher doses were
associated with maternal toxicity, increased
embryonic resorptions and delayed fetal
development in both species.
Administration of
vardenafil 60 mg/kg/day to pregnant rats during
late gestation and throughout lactation resulted
in increased postnatal pup mortality and delayed
physical development. The no-effect-dose of 8
mg/kg/day was associated with systemic exposure
approximately 28-fold that expected in humans at
the maximum recommended dose of 20 mg
vardenafil.
There are no studies of
vardenafil in pregnant women.
Use in Lactation
Vardenafil is not indicated
for use by women.
Vardenafil and/or its
metabolites are excreted in the milk of lactating
rats at concentrations up to 19-fold higher that
the corresponding maternal plasma concentrations.
Increased pre- and post-natal mortality and
delayed physical development was observed in
offspring from rats treated with oral vardenafil
at 60 mg/kg/day during gestation and
lactation.
There are no human data on
the excretion of vardenafil into breast milk or on
the safety of vardenafil exposure in infants.
Interactions with other
Drugs
Vardenafil is metabolized
predominantly by hepatic enzymes via cytochrome
P450 (CYP) isoform 3A4, with some contribution
from CYP3A5 and CYP2C isoforms. Therefore,
inhibitors of these enzymes may reduce vardenafil
clearance.
Demonstrated Interactions
Erythromycin
Erythromycin (500 mg t.i.d.),
a CYP3A4 inhibitor, caused a 4-fold increase in
vardenafil AUC and a 3-fold increase in Cmax when
co-administered with vardenafil (5 mg) to healthy
volunteers. When used in combination with
erythromycin, a maximum vardenafil dose of 5 mg
should not be exceeded.
Ketoconazole
Ketoconazole (200 mg), which
is a potent CYP3A4 inhibitor, caused a 10-fold
increase in vardenafil AUC and a 4-fold increase
in Cmax when co-administered with Vardenafil (5
mg) to healthy volunteers. When used in
combination with ketoconazole, a maximum
vardenafil dose of 5 mg should not be
exceeded.
Indinavir
Co-administration of
vardenafil (10 mg) with the HIV protease inhibitor
indinavir (800 mg t.i.d.) resulted in a 16-fold
increase in vardenafil AUC and a 7-fold increase
in vardenafil Cmax. At 24 hours after
co-administration, the plasma levels of vardenafil
were approximately 4% of the maximum Vardenafil
plasma level (Cmax). Combination use of indinavir
and vardenafil is best avoided. If vardenafil is
used in combination with indinavir, a maximum
vardenafil dose of 5 mg should not be
exceeded.
Potential Interactions
CYP
3A4 Inhibitors
Concomitant use of other
potent CYP 3A4 inhibitors (such as itraconazole,
or ritonavir) can be expected to produce
vardenafil plasma levels comparable to those
produced by ketoconazole and indinavir (See
Demonstrated Interactions). Higher plasma levels
may increase both the efficacy and incidence of
adverse events. A maximum vardenafil dose of 5 mg
should not be exceeded if used in combination with
ketoconazole, itraconazole and erythromycin.
Concomitant use with the HIV protease inhibitors
indinavir or ritonavir should be avoided.
Nitrates, Nitric Oxide
Donors
There is
limited information on the potential hypotensive
effects of vardenafil when given in combination
with nitrates. Based on experience with other PDE5
inhibitors, some patients may experience
clinically significant hypotension if vardenafil
and nitrates are coadministered and concomitant
use is therefore contraindicated (see
CONTRAINDICATIONS).
Nitrates should not be
administered for at least 24 hours (approximately
5 half-lives) after the last dose of vardenafil. A
longer washout period should observed if the
patient has been taking concomitant drugs, such as
CYP3A4 inhibitors, which impair vardenafil
metabolism.
Antihypertensive
agents
Limited
information is available on concomitant use of
vardenafil and antihypertensive agents. Population
pharmacokinetic investigations of phase III data
revealed no significant effect of ACE-inhibitors,
beta-blockers or diuretics on the pharmacokinetics
of vardenafil. However, a potential for additive
hypotensive effect exists, and until further
information is available, caution should be
exercised when prescribing vardenafil in
combination with antihypertensive agents.
Interactions shown not to
exist
Glibenclamide
Vardenafil (20 mg), when
co-administered with glibenclamide (3.5 mg), did
not affect the relative bioavailability of
glibenclamide (no effect on AUC and Cmax of
glibenclamide).
Warfarin
No pharmacokinetic or
pharmacodynamic (prothrombin time and clotting
factor II, VII and X) interactions were shown when
warfarin (25 mg) was co-administered with
vardenafil (20 mg). Vardenafil pharmacokinetics
were not affected by co-administration of
warfarin.
Nifedipine
Coadministration of
vardenafil (20 mg) did not alter the
bioavailability (AUC and Cmax) of nifedipine (30
mg or 60 mg). The combined treatment of vardenafil
and nifedipine did not lead to pharmacodynamic
interaction (as compared to placebo, vardenafil
produced mean additional blood pressure reductions
of 5.9 mmHg and 5.2 mmHg for supine systolic and
diastolic blood pressure, respectively).
Digoxin
Lack of pharmacokinetic
interaction was shown when digoxin (0.375 mg
daily) in steady state was co-administered with
vardenafil (20 mg) over 14 days every other
day.
Antacids
Single doses of Mylanta
(magnesium hydroxide/aluminium hydroxide) did not
affect the bioavailability (AUC) or the maximum
concentration (Cmax) of vardenafil.
Ranitidine, Cimetidine
Bioavailability of vardenafil
(20 mg) was not affected by co-administration of
the H2-antagonists ranitidine (150 mg b.i.d.) and
cimetidine, a non-specific cytochrome P450
inhibitor (400 mg b.i.d.).
Aspirin
Vardenafil (10 mg) did not
influence bleeding time when taken alone or in
combination with low dose aspirin (2 x 81 mg
tablets).
Ethanol
Vardenafil (20 mg) did not
potentiate the hypotensive effects of ethanol (0.5
g/kg bodyweight). The pharmacokinetics of ethanol
and vardenafil were not significantly altered by
coadministration.
Other Drugs
Population pharmacokinetic
investigations of phase III data revealed no
significant effect of aspirin, weak CYP
3A4-inhibitors, and medications for the treatment
of diabetes (sulfonylureas and metformin) on the
pharmacokinetics of vardenafil.
Adverse
Reactions
Vardenafil was administered
to over 3750 patients during clinical trials
worldwide. Of these, over 730 have been treated
for one year or longer. Vardenafil was generally
very well tolerated. Adverse events were generally
transient and mild to moderate in nature.
Placebo controlled clinical
trials (adverse events)
When vardenafil was taken as
recommended, the following adverse events were
reported more commonly with vardenafil than
placebo in placebo controlled clinical trials (as
of 29 November 2001) (Table 3):
Table 3: Adverse events
reported by = 2% of patients treated with
vardenafil and more frequent on drug than placebo
in fixed dose phase III trials of 5 mg, 10 mg, and
20 mg vardenafil.
| Adverse event |
Vardenafil |
Placebo |
| any event |
57.6% |
39.7% |
| headache |
15.6% |
5.5% |
| flushing |
11.7% |
0.6% |
| rhinitis |
10.3% |
3.8% |
| dyspepsia |
3.9% |
0.8% |
| accidental
injury |
3.2% |
2.4% |
| sinusitis |
3.1% |
0.8% |
| flu syndrome |
2.7% |
2.3% |
| nausea |
2.3% |
0.8% |
| dizziness |
2.4% |
0.9% |
| increased creatine
kinase |
2.0% |
1.1% |
| arthralgia |
2.0% |
1.0% |
The rate
of these adverse drug reactions was dose
dependent.
All clinical trials (Adverse
Drug Reactions)
The following adverse drug
reactions (treatment-related adverse events) were
reported in patients given vardenafil and occurred
in > 2 cases in all clinical trials (as of 29
November 2001) (Table 4):
Table 4: Adverse Drug
Reactions reported in patients in all clinical
phase III trials worldwide.
| Category of frequency ? 10%
(very common): |
| Body system: |
Adverse drug
reactions: |
| Body as a
whole: |
headache |
| Cardiovascular: |
flushing |
| Category of frequency ? 1% - < 10%
(common): |
| Body system: |
Adverse drug
reactions: |
| Digestive: |
dyspepsia,
nausea |
| Nervous System: |
dizziness |
| Respiratory: |
rhinitis |
| Category of frequency ? 0.1% - < 1%
(uncommon): |
| Body system: |
Adverse drug
reactions: |
| Body as a
whole: |
abdominal pain, asthenia,
back pain, chest pain, face oedema, pain,
photosensitivity reaction |
| Cardiovascular: |
hypertension, palpitation,
tachycardia |
| Digestive: |
abnormal liver function
tests, diarrhoea, dry mouth, oesophagitis,
flatulence, gastritis, GGT increased,
vomiting |
| Metabolic and
Nutritional: |
increased creatine
kinase |
| Musculoskeletal: |
arthralgia,
myalgia |
| Nervous System: |
hypaesthesia, insomnia,
nervousness, paraesthesia, somnolence,
vertigo |
| Respiratory: |
dyspnea, epistaxis,
sinusitis |
| Skin and
Appendages: |
pruritus, rash, skin
discoloration, sweating |
| Special Senses: |
abnormal vision, amblyopia,
chromatopsia, conjunctivitis, eye disorder, eye
pain, lacrimation disorder, photophobia,
tinnitus |
| Urogenital: |
abnormal
ejaculation |
| Category of frequency ?
0.01% - < 0.1% (rare): |
| Body system: |
Adverse drug reactions (n
> 2 cases): |
| Body as a
whole: |
flu syndrome, leg
pain |
| Cardiovascular: |
atrial fibrillation,
hypotension, peripheral oedema,
syncope |
| Digestive: |
eructation,
gastrointestinal disorder |
| Musculoskeletal: |
leg cramps |
| Nervous System: |
anxiety,
hypertonia |
| Special senses: |
ear pain |
| Urogenital: |
erectile
disturbance |
In a phase I study with 40 mg
vardenafil, twice the maximum recommended dose,
priapism was observed in 2 cases as an adverse
drug reaction.
Post-Marketing
Experience
The
following serious adverse events have been
reported in temporal association with the use of
another drug of this class during post-marketing
experience (n > 2 cases):
Body system: Adverse Events:
Cardiovascular:
cerebrovascular haemorrhage, myocardial
infarction, sudden cardiac death, transient
ischaemic attack, ventricular arrhythmia
Dosage and
Administration
The recommended starting dose
of LEVITRA is 10 mg, taken orally 25 to 60 minutes
before sexual activity. Sexual activity can be
initiated as soon as 15 minutes and as long as 4-5
hours after taking LEVITRA.
The maximum recommended
dose frequency is onc
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