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Losartan Potassium

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Losartan Potassium Tablets, USP


FULL PRESCRIBING INFORMATION: CONTENTS*




FULL PRESCRIBING INFORMATION

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USE IN PREGNANCY

, When pregnancy is detected, losartan potassium tablets should be discontinued as soon as possible. See . When used in pregnancy during the second and third trimesters drugs that act directly on the renin-angiotensin system can cause injury and even death to the developing fetus. WARNINGS, Fetal/Neonatal Morbidity and Mortality

LOSARTAN POTASSIUM DESCRIPTION

Losartan potassium is an angiotensin II receptor (type AT ) antagonist. Losartan potassium, a non-peptide molecule, is chemically described as 2-butyl-4-chloro-1-[ -( - -tetrazol-5-ylphenyl)benzyl]imidazole-5-methanol monopotassium salt. 1 p o 1H

  Its empirical formula is C H ClKN O, and its structural formula is: 22 22 6

Losartan Potassium

Losartan potassium, USP is a white to off-white free-flowing crystalline powder with a molecular weight of 461.01. It is freely soluble in water, soluble in alcohols, and slightly soluble in common organic solvents, such as acetonitrile and methyl ethyl ketone. Oxidation of the 5-hydroxymethyl group on the imidazole ring results in the active metabolite of losartan.

Losartan potassium is available as tablets for oral administration containing either 25 mg, 50 mg or 100 mg of losartan potassium and the following inactive ingredients: colloidal silicon dioxide, hydroxypropyl cellulose, hypromellose, lactose anhydrous, magnesium stearate, microcrystalline cellulose, pregelatinized starch, talc and titanium dioxide.

Losartan potassium 25 mg, 50 mg and 100 mg tablets contain potassium in the following amounts: 2.12 mg (0.054 mEq), 4.24 mg (0.108 mEq) and 8.48 mg (0.216 mEq), respectively.

CLINICAL PHARMACOLOGY

Mechanism of Action

Angiotensin II [formed from angiotensin I in a reaction catalyzed by angiotensin converting enzyme (ACE, kininase II)], is a potent vasoconstrictor, the primary vasoactive hormone of the renin-angiotensin system and an important component in the pathophysiology of hypertension. It also stimulates aldosterone secretion by the adrenal cortex. Losartan and its principal active metabolite block the vasoconstrictor and aldosterone-secreting effects of angiotensin II by selectively blocking the binding of angiotensin II to the AT receptor found in many tissues, ( vascular smooth muscle, adrenal gland). There is also an AT receptor found in many tissues but it is not known to be associated with cardiovascular homeostasis. Both losartan and its principal active metabolite do not exhibit any partial agonist activity at the AT receptor and have much greater affinity (about 1000-fold) for the AT receptor than for the AT receptor. binding studies indicate that losartan is a reversible, competitive inhibitor of the AT receptor. The active metabolite is 10 to 40 times more potent by weight than losartan and appears to be a reversible, non-competitive inhibitor of the AT receptor. 1 e.g., 2 1 1 2 In vitro 1 1

     Neither losartan nor its active metabolite inhibits ACE (kininase II, the enzyme that converts angiotensin I to angiotensin II and degrades bradykinin); nor do they bind to or block other hormone receptors or ion channels known to be important in cardiovascular regulation.

Pharmacokinetics

General

     Losartan is an orally active agent that undergoes substantial first-pass metabolism by cytochrome P450 enzymes. It is converted, in part, to an active carboxylic acid metabolite that is responsible for most of the angiotensin II receptor antagonism that follows losartan treatment. Losartan metabolites have been identified in human plasma and urine. In addition to the active carboxylic acid metabolite, several inactive metabolites are formed. Following oral and intravenous administration of C-labeled losartan potassium, circulating plasma radioactivity is primarily attributed to losartan and its active metabolite. studies indicate that cytochrome P450 2C9 and 3A4 are involved in the biotransformation of losartan to its metabolites. Minimal conversion of losartan to the active metabolite (less than 1% of the dose compared to 14% of the dose in normal subjects) was seen in about one percent of individuals studied. 14 In vitro

     The terminal half-life of losartan is about 2 hours and of the metabolite is about 6-9 hours.

    The pharmacokinetics of losartan and its active metabolite are linear with oral losartan doses up to 200 mg and do not change over time. Neither losartan nor its metabolite accumulates in plasma upon repeated once-daily dosing.

    Following oral administration, losartan is well absorbed (based on absorption of radiolabeled losartan) and undergoes substantial first-pass metabolism; the systemic bioavailability of losartan is approximately 33%. About 14% of an orally-administered dose of losartan is converted to the active metabolite. Mean peak concentrations of losartan and its active metabolite are reached in 1 hour and in 3-4 hours, respectively. While maximum plasma concentrations of losartan and its active metabolite are approximately equal, the AUC of the metabolite is about 4 times as great as that of losartan. A meal slows absorption of losartan and decreases its C but has only minor effects on losartan AUC or on the AUC of the metabolite (about 10% decreased). max

     The pharmacokinetics of losartan and its active metabolite were also determined after IV doses of each component separately in healthy volunteers. The volume of distribution of losartan and the active metabolite is about 34 liters and 12 liters, respectively. Total plasma clearance of losartan and the active metabolite is about 600 mL/min and 50 mL/min, respectively, with renal clearance of about 75 mL/min and 25 mL/min, respectively. After single doses of losartan administered orally, about 4% of the dose is excreted unchanged in the urine and about 6% is excreted in urine as active metabolite. Biliary excretion contributes to the elimination of losartan and its metabolites. Following oral C-labeled losartan, about 35% of radioactivity is recovered in the urine and about 60% in the feces. Following an intravenous dose of C-labeled losartan, about 45% of radioactivity is recovered in the urine and 50% in the feces. 14 14

     Both losartan and its active metabolite are highly bound to plasma proteins, primarily albumin, with plasma free fractions of 1.3% and 0.2%, respectively. Plasma protein binding is constant over the concentration range achieved with recommended doses. Studies in rats indicate that losartan crosses the blood-brain barrier poorly, if at all.

Special Populations

      Pharmacokinetic parameters after multiple doses of losartan (average dose 0.7 mg/kg, range 0.36 to 0.97 mg/kg) as a tablet to 25 hypertensive patients aged 6 to 16 years are shown in Table 1 below. Pharmacokinetics of losartan and its active metabolite were generally similar across the studied age groups and similar to historical pharmacokinetic data in adults. The principal pharmacokinetic parameters in adults and children are shown in the table below. Pediatric:

Table 1 Pharmacokinetic Parameters in Hypertensive Adults and Children Age 6-16 Following Multiple Dosing

Mean ± standard deviation a

Harmonic mean and standard deviation b

Median c


Adults given 50 mg once daily for 7 days N=12

Age 6-16 given 0.7 mg/kg once daily for 7 days N=25


Parent
Active Metabolite
Parent
Active Metabolite
AUC   (ng•h/mL) 0 - 2 4 a
442 ± 173
1685 ± 452
368 ± 169
1866 ± 1076
C  (ng/mL) m a x a
224 ± 82
212 ± 73
141 ± 88
222 ± 127
T  (h) ½ b
2.1 ± 0.70
7.4 ± 2.4
2.3 ± 0.8
5.6 ± 1.2
T  (h) p e a k c
0.9
3.5
2.0
4.1
CL  (mL/min) r e n a
56 ± 23
20 ± 3
53 ± 33
17 ± 8

The bioavailability of the suspension formulation was compared with losartan tablets in healthy adults. The suspension and tablet are similar in their bioavailability with respect to both losartan and the active metabolite (see ). DOSAGE AND ADMINISTRATION Preparation of Suspension

Losartan pharmacokinetics have been investigated in the elderly (65-75 years) and in both genders. Plasma concentrations of losartan and its active metabolite are similar in elderly and young hypertensives. Plasma concentrations of losartan were about twice as high in female hypertensives as male hypertensives, but concentrations of the active metabolite were similar in males and females. No dosage adjustment is necessary (see Geriatric and Gender:   ). DOSAGE AND ADMINISTRATION

Pharmacokinetic differences due to race have not been studied (see also and Race : , PRECAUTIONS   Race , CLINICAL PHARMACOLOGY , , ). Pharmacodynamics and Clinical Effects Reduction in the Risk of Stroke Race

Following oral administration, plasma concentrations and AUCs of losartan and its active metabolite are increased by 50-90% in patients with mild (creatinine clearance of 50 to 74 mL/min) or moderate (creatinine clearance 30 to 49 mL/min) renal insufficiency. In this study, renal clearance was reduced by 55-85% for both losartan and its active metabolite in patients with mild or moderate renal insufficiency. Neither losartan nor its active metabolite can be removed by hemodialysis. No dosage adjustment is necessary for patients with renal impairment unless they are volume-depleted (see and Renal Insufficiency : , WARNINGS   Hypotension ─ Volume-Depleted Patients ). DOSAGE AND ADMINISTRATION

Following oral administration in patients with mild to moderate alcoholic cirrhosis of the liver, plasma concentrations of losartan and its active metabolite were, respectively, 5-times and about 1.7-times those in young male volunteers. Compared to normal subjects the total plasma clearance of losartan in patients with hepatic insufficiency was about 50% lower and the oral bioavailability was about 2-times higher. A lower starting dose is recommended for patients with a history of hepatic impairment (see Hepatic Insufficiency : ). DOSAGE AND ADMINISTRATION

Drug Interactions

Losartan, administered for 12 days, did not affect the pharmacokinetics or pharmacodynamics of a single dose of warfarin. Losartan did not affect the pharmacokinetics of oral or intravenous digoxin. There is no pharmacokinetic interaction between losartan and hydrochlorothiazide. Coadministration of losartan and cimetidine led to an increase of about 18% in AUC of losartan but did not affect the pharmacokinetics of its active metabolite. Coadministration of losartan and phenobarbital led to a reduction of about 20% in the AUC of losartan and that of its active metabolite. A somewhat greater interaction (approximately 40% reduction in the AUC of active metabolite and approximately 30% reduction in the AUC of losartan) has been reported with rifampin. Fluconazole, an inhibitor of cytochrome P450 2C9, decreased the AUC of the active metabolite by approximately 40%, but increased the AUC of losartan by approximately 70% following multiple doses. Conversion of losartan to its active metabolite after intravenous administration is not affected by ketoconazole, an inhibitor of P450 3A4. The AUC of active metabolite following oral losartan was not affected by erythromycin, another inhibitor of P450 3A4, but the AUC of losartan was increased by 30%.

Pharmacodynamics and Clinical Effects

Adult Hypertension

     Losartan inhibits the pressor effect of angiotensin II (as well as angiotensin I) infusions. A dose of 100 mg inhibits the pressor effect by about 85% at peak with 25-40% inhibition persisting for 24 hours. Removal of the negative feedback of angiotensin II causes a 2- to 3-fold rise in plasma renin activity and consequent rise in angiotensin II plasma concentration in hypertensive patients. Losartan does not affect the response to bradykinin, whereas ACE inhibitors increase the response to bradykinin. Aldosterone plasma concentrations fall following losartan administration. In spite of the effect of losartan on aldosterone secretion, very little effect on serum potassium was observed.

     In a single-dose study in normal volunteers, losartan had no effects on glomerular filtration rate, renal plasma flow or filtration fraction. In multiple-dose studies in hypertensive patients, there were no notable effects on systemic or renal prostaglandin concentrations, fasting triglycerides, total cholesterol or HDL-cholesterol or fasting glucose concentrations. There was a small uricosuric effect leading to a minimal decrease in serum uric acid (mean decrease <0.4 mg/dL) during chronic oral administration.

     The antihypertensive effects of losartan potassium tablets were demonstrated principally in 4 placebo-controlled, 6- to 12-week trials of dosages from 10 to 150 mg per day in patients with baseline diastolic blood pressures of 95-115. The studies allowed comparisons of two doses (50-100 mg/day) as once-daily or twice-daily regimens, comparisons of peak and trough effects, and comparisons of response by gender, age, and race. Three additional studies examined the antihypertensive effects of losartan and hydrochlorothiazide in combination.

     The 4 studies of losartan monotherapy included a total of 1075 patients randomized to several doses of losartan and 334 to placebo. The 10- and 25-mg doses produced some effect at peak (6 hours after dosing) but small and inconsistent trough (24 hour) responses. Doses of 50, 100 and 150 mg once daily gave statistically significant systolic/diastolic mean decreases in blood pressure, compared to placebo in the range of 5.5-10.5/3.5-7.5 mmHg, with the 150-mg dose giving no greater effect than 50-100 mg. Twice-daily dosing at 50-100 mg/day gave consistently larger trough responses than once-daily dosing at the same total dose. Peak (6 hour) effects were uniformly, but moderately, larger than trough effects, with the trough-to-peak ratio for systolic and diastolic responses 50-95% and 60-90%, respectively.

     Addition of a low dose of hydrochlorothiazide (12.5 mg) to losartan 50 mg once daily resulted in placebo-adjusted blood pressure reductions of 15.5/9.2 mmHg.

     Analysis of age, gender, and race subgroups of patients showed that men and women, and patients over and under 65, had generally similar responses. Losartan potassium tablets were effective in reducing blood pressure regardless of race, although the effect was somewhat less in Black patients (usually a low-renin population).

     The effect of losartan is substantially present within one week but in some studies the maximal effect occurred in 3-6 weeks. In long-term follow-up studies (without placebo control) the effect of losartan appeared to be maintained for up to a year. There is no apparent rebound effect after abrupt withdrawal of losartan. There was essentially no change in average heart rate in losartan-treated patients in controlled trials.

Pediatric Hypertension

    The antihypertensive effect of losartan was studied in one trial enrolling 177 hypertensive pediatric patients aged 6 to 16 years old. Children who weighed <50 kg received 2.5, 25 or 50 mg of losartan daily and patients who weighed ≥50 kg received 5, 50 or 100 mg of losartan daily. Children in the lowest dose group were given losartan in a suspension formulation (see ). The majority of the children had hypertension associated with renal and urogenital disease. The sitting diastolic blood pressure (SiDBP) on entry into the study was higher than the 95 percentile level for the patient’s age, gender, and height. At the end of three weeks, losartan reduced systolic and diastolic blood pressure, measured at trough, in a dose-dependent manner. Overall, the two higher doses (25 to 50 mg in patients <50 kg; 50 to 100 mg in patients ≥50 kg) reduced diastolic blood pressure by 5 to 6 mmHg more than the lowest dose used (2.5 mg in patients <50 kg; 5 mg in patients ≥50 kg). The lowest dose, corresponding to an average daily dose of 0.07 mg/kg, did not appear to offer consistent antihypertensive efficacy. When patients were randomized to continue losartan at the two higher doses or to placebo after 3 weeks of therapy, trough diastolic blood pressure rose in patients on placebo between 5 and 7 mmHg more than patients randomized to continuing losartan. When the low dose of losartan was randomly withdrawn, the rise in trough diastolic blood pressure was the same in patients receiving placebo and in those continuing losartan, again suggesting that the lowest dose did not have significant antihypertensive efficacy. Overall, no significant differences in the overall antihypertensive effect of losartan were detected when the patients were analyzed according to age (<, ≥12 years old) or gender. While blood pressure was reduced in all racial subgroups examined, too few non-White patients were enrolled to compare the dose-response of losartan in the non-White subgroup. , DOSAGE AND ADMINISTRATION Preparation of Suspension th

The Losartan Intervention For Endpoint reduction in hypertension (LIFE) study was a multinational, double-blind study comparing losartan potassium tablets and atenolol in 9193 hypertensive patients with ECG-documented left ventricular hypertrophy. Patients with myocardial infarction or stroke within six months prior to randomization were excluded. Patients were randomized to receive once daily losartan potassium tablets 50 mg or atenolol 50 mg. If goal blood pressure (<140/90 mmHg) was not reached, hydrochlorothiazide (12.5 mg) was added first and, if needed, the dose of losartan potassium tablets or atenolol was then increased to 100 mg once daily. If necessary, other antihypertensive treatments ( increase in dose of hydrochlorothiazide therapy to 25 mg or addition of other diuretic therapy, calcium-channel blockers, alpha-blockers, or centrally acting agents, but not ACE inhibitors, angiotensin II antagonists, or beta-blockers) were added to the treatment regimen to reach the goal blood pressure. Reduction in the Risk of Stroke : e.g.,

    Of the randomized patients, 4963 (54%) were female and 533 (6%) were Black. The mean age was 67 with 5704 (62%) age ≥65. At baseline, 1195 (13%) had diabetes, 1326 (14%) had isolated systolic hypertension, 1469 (16%) had coronary heart disease, and 728 (8%) had cerebrovascular disease. Baseline mean blood pressure was 174/98 mmHg in both treatment groups. The mean length of follow-up was 4.8 years. At the end of study or at the last visit before a primary endpoint, 77% of the group treated with losartan potassium tablets and 73% of the group treated with atenolol were still taking study medication. Of the patients still taking study medication, the mean doses of losartan potassium tablets and atenolol were both about 80 mg/day, and 15% were taking atenolol or losartan as monotherapy, while 77% were also receiving hydrochlorothiazide (at a mean dose of 20 mg/day in each group). Blood pressure reduction measured at trough was similar for both treatment groups but blood pressure was not measured at any other time of the day. At the end of study or at the last visit before a primary endpoint, the mean blood pressures were 144.1/81.3 mmHg for the group treated with losartan potassium tablets and 145.4/80.9 mmHg for the group treated with atenolol [the difference in systolic blood pressure (SBP) of 1.3 mmHg was significant (p<0.001), while the difference of 0.4 mmHg in diastolic blood pressure (DBP) was not significant (p=0.098)].

    The primary endpoint was the first occurrence of cardiovascular death, nonfatal stroke, or nonfatal myocardial infarction. Patients with non-fatal events remained in the trial, so that there was also an examination of the first event of each type even if it was not the first event ( a stroke following an initial myocardial infarction would be counted in the analysis of stroke). Treatment with losartan potassium tablets resulted in a 13% reduction (p=0.021) in risk of the primary endpoint compared to the atenolol group (see Figure 1 and ); this difference was primarily the result of an effect on fatal and nonfatal stroke. Treatment with losartan potassium tablets reduced the risk of stroke by 25% relative to atenolol (p=0.001) (see Figure 2 and ). e.g., Table 2 Table 2

Losartan Potassium

Figure 1. Kaplan-Meier estimates of the primary endpoint of time to cardiovascular death, nonfatal stroke, or nonfatal myocardial infarction in the groups treated with losartan potassium tablets and atenolol. The Risk Reduction is adjusted for baseline Framingham risk score and level of electrocardiographic left ventricular hypertrophy.

Losartan Potassium

Figure 2. Kaplan-Meier estimates of the time to fatal/nonfatal stroke in the groups treated with losartan potassium tablets and atenolol. The Risk Reduction is adjusted for baseline Framingham risk score and level of electrocardiographic left ventricular hypertrophy.

     Table 2 shows the results for the primary composite endpoint and the individual endpoints. The primary endpoint was the first occurrence of stroke, myocardial infarction or cardiovascular death, analyzed using an intention-to-treat (ITT) approach. The table shows the number of events for each component in two different ways. The Components of Primary Endpoint (as a first event) counts only the events that define the primary endpoint, while the Secondary Endpoints count all first events of a particular type, whether or not they were preceded by a different type of event.

                                                                      Table 2 Incidence of Primary Endpoint Events

Rate per 1000 patient-years of follow-up *

Adjusted for baseline Framingham risk score and level of electrocardiogram left ventricular hypertrophy

First report of an event, in some cases the patient died subsequently to the event reported

Death due to heart failure, non-coronary vascular disease, pulmonary embolism, or a cardiovascular cause other than stroke or coronary heart disease §


Losartan Potassium Tablets

Atenolol

Risk Reduction
95 % CI
p-Value

N (%)
Rate *
N (%)
Rate *



Primary Composite Endpoint
508 (11)
23.8
588 (13)
27.9
13%
2% to 23%
0.021
Components of  Primary Composite Endpoint (as a first event)
Stroke (nonfatal )
209 (5)

286 (6)




Myocardial infarction (nonfatal )

174 (4)

168 (4)




Cardiovascular mortality
125 (3)

134 (3)




Secondary Endpoints (any time in study)
Stroke (fatal/nonfatal)
232 (5)
10.8
309 (7)
14.5
25%
11% to 37%
0.001
Myocardial infarction (fatal/nonfatal)

198 (4)
9.2
188 (4)
8.7
-7%
-13% to 12%
0.491
Cardiovascular mortality
204 (4)
9.2
234 (5)
10.6
11%
-7% to 27%
0.206
Due to CHD
125 (3)
5.6
124(3)
5.6
-3%
-32% to 20%
0.839
Due to Stroke
40 (1)
1.8
62 (1)
2.8
35%
4% to 67%
0.032
Other  §
39 (1)
1.8
48 (1)
2.2
16%
-28% to 45%
0.411

    Although the LIFE study favored losartan potassium tablets over atenolol with respect to the primary endpoint (p=0.021), this result is from a single study and, therefore, is less compelling than the difference between losartan potassium tablets and placebo. Although not measured directly, the difference between losartan potassium tablets and placebo is compelling because there is evidence that atenolol is itself effective (vs. placebo) in reducing cardiovascular events, including stroke, in hypertensive patients.

     Other clinical endpoints of the LIFE study were: total mortality, hospitalization for heart failure or angina pectoris, coronary or peripheral revascularization procedures, and resuscitated cardiac arrest. There were no significant differences in the rates of these endpoints between the losartan potassium tablets and atenolol groups.

     For the primary endpoint and stroke, the effects of losartan potassium tablets in patient subgroups defined by age, gender, race and presence or absence of isolated systolic hypertension (ISH), diabetes, and history of cardiovascular disease (CVD) are shown in Figure 3 below. Subgroup analyses can be difficult to interpret and it is not known whether these represent true differences or chance effects.

Losartan Potassium

Symbols are proportional to sample size.

#Other includes Asian, Hispanic, Asiatic, Multi-race, Indian, Native American, European.

Adjusted for baseline Framingham risk score and level of electrocardiographic left ventricular hypertophy.

      In the LIFE study, Black patients treated with atenolol were at lower risk of experiencing the primary composite endpoint compared with Black patients treated with losartan potassium tablets. In the subgroup of Black patients (n=533; 6% of the LIFE study patients), there were 29 primary endpoints among 263 patients on atenolol (11%, 26 per 1000 patient-years) and 46 primary endpoints among 270 patients (17%, 42 per 1000 patient-years) on losartan potassium tablets. This finding could not be explained on the basis of differences in the populations other than race or on any imbalances between treatment groups. In addition, blood pressure reductions in both treatment groups were consistent between Black and non-Black patients. Given the difficulty in interpreting subset differences in large trials, it cannot be known whether the observed difference is the result of chance. However, the LIFE study provides no evidence that the benefits of losartan potassium tablets on reducing the risk of cardiovascular events in hypertensive patients with left ventricular hypertrophy apply to Black patients. Race:

2 Patients The Reduction of Endpoints in NIDDM with the Angiotensin II Receptor Antagonist Losartan (RENAAL) study was a randomized, placebo-controlled, double-blind, multicenter study conducted worldwide in 1513 patients with type 2 diabetes with nephropathy (defined as serum creatinine 1.3 to 3.0 mg/dl in females or males ≤60 kg and 1.5 to 3.0 mg/dl in males >60 kg and proteinuria [urinary albumin to creatinine ratio ≥300 mg/g]). Nephropathy in Type Diabetic :

Patients were randomized to receive losartan potassium tablets 50 mg once daily or placebo on a background of conventional antihypertensive therapy excluding ACE inhibitors and angiotensin II antagonists. After one month, investigators were instructed to titrate study drug to 100 mg once daily if the trough blood pressure goal (140/90 mmHg) was not achieved. Overall, 72% of patients received the 100-mg daily dose more than 50% of the time they were on study drug. Because the study was designed to achieve equal blood pressure control in both groups, other antihypertensive agents (diuretics, calcium-channel blockers, alpha- or beta-blockers, and centrally acting agents) could be added as needed in both groups. Patients were followed for a mean duration of 3.4 years.

The study population was diverse with regard to race (Asian 16.7%, Black 15.2%, Hispanic 18.3%, White 48.6%). Overall, 63.2% of the patients were men, and 66.4% were under the age of 65 years. Almost all of the patients (96.6%) had a history of hypertension, and the patients entered the trial with a mean serum creatinine of 1.9 mg/dl and mean proteinuria (urinary albumin/creatinine) of 1808 mg/g at baseline.

The primary endpoint of the study was the time to first occurrence of any one of the following events: doubling of serum creatinine, end-stage renal disease (ESRD) (need for dialysis or transplantation), or death. Treatment with losartan potassium tablets resulted in a 16% risk reduction in this endpoint (see Figure 4 and Table 3). Treatment with losartan potassium tablets also reduced the occurrence of sustained doubling of serum creatinine by 25% and ESRD by 29% as separate endpoints, but had no effect on overall mortality (see Table 3).

The mean baseline blood pressures were 152/82 mmHg for losartan potassium tablets plus conventional antihypertensive therapy and 153/82 mmHg for placebo plus conventional antihypertensive therapy. At the end of the study, the mean blood pressures were 143/76 mmHg for the group treated with losartan potassium tablets and 146/77 mmHg for the group treated with placebo.

Losartan Potassium

Figure 4. Kaplan-Meier curve for the primary composite endpoint of doubling of serum creatinine, end stage renal disease (need for dialysis or transplantation) or death.

Table 3 Incidence of Primary Endpoint Events

Incidence
Risk Reduction
95 % C.l.
p-Value

Losartan
Placebo



Primary Composite Endpoint
43.5%
47.1%
16.1%
2.3% to 27.9%
0.022
         Doubling of Serum Creatinine, ESRD and Death Occurring as a First Event
         Doubling of Serum Creatinine
21.6%
26.0%



         ESRD
8.5%
8.5%



         Death
13.4%
12.6%



Overall Incidence of Doubling of Serum Creatinine, ESRD and Death
Doubling of Serum Creatinine
21.6%
26.0%
25.3%
7.8% to 39.4%
0.006
ESRD
19.6%
25.5%
28.6%
11.5% to 42.4%
0.002
Death
21.0%
20.3%
-1.7%
-26.9% to 18.6%
0.884

The secondary endpoints of the study were change in proteinuria, change in the rate of progression of renal disease, and the composite of morbidity and mortality from cardiovascular causes (hospitalization for heart failure, myocardial infarction, revascularization, stroke, hospitalization for unstable angina, or cardiovascular death). Compared with placebo, losartan potassium tablets significantly reduced proteinuria by an average of 34%, an effect that was evident within 3 months of starting therapy, and significantly reduced the rate of decline in glomerular filtration rate during the study by 13%, as measured by the reciprocal of the serum creatinine concentration. There was no significant difference in the incidence of the composite endpoint of cardiovascular morbidity and mortality.

The favorable effects of losartan potassium tablets were seen in patients also taking other anti-hypertensive medications (angiotensin II receptor antagonists and angiotensin converting enzyme inhibitors were not allowed), oral hypoglycemic agents and lipid-lowering agents.

For the primary endpoint and ESRD, the effects of losartan potassium tablets in patient subgroups defined by age, gender and race are shown in Table 4 below. Subgroup analyses can be difficult to interpret and it is not known whether these represent true differences or chance effects.

Table 4 Efficacy Outcomes within Demographic Subgroups


Primary Composite Endpoint
ESRD

No. of Patients

Losartan Potassium Tablets Event Rate %

Placebo Event Rate %

Hazard Ratio (95% CI)

Losartan Potassium Tablets Event Rate %

Placebo Event Rate %

Hazard Ratio (95% CI)

Overall Results
1513
43.5
47.1
0.839 (0.721, 0.977)
19.6
25.5
0.714 (0.576, 0.885)
Age







   <65  years
1005
44.1
49.0
0.784 (0.653, 0.941)
21.1
28.5
0.670 (0.521, 0.863)
   ≥65 years
508
42.3
43.5
0.978 (0.749, 1.277)
16.5
19.6
0.847 (0.560, 1.281)
Gender







   Female
557
47.8
54.1
0.762 (0.603, 0.962)
22.8
32.8
0.601 (0.436, 0.828)
   Male
956
40.9
43.3
0.892 (0.733, 1.085)
17.5
21.5
0.809 (0.605, 1.081)
Race







   Asian
252
41.9
54.8
0.655 (0.453, 0.947)
18.8
27.4
0.625 (0.367, 1.066)
   Black
230
40.0
39.0
0.983 (0.647, 1.495)
17.6
21.0
0.831 (0.456, 1.516)
   Hispanic
277
55.0
54.0
1.003 (0.728, 1.380)
30.0
28.5
1.024 (0.661, 1.586)
   White
735
40.5
43.2
0.809 (0.645, 1.013)
16.2
23.9
0.596 (0.427, 0.831)

LOSARTAN POTASSIUM INDICATIONS AND USAGE

Hypertension

    Losartan potassium tablets are indicated for the treatment of hypertension. It may be used alone or in combination with other antihypertensive agents, including diuretics.

Hypertensive Patients with Left Ventricular Hypertrophy

     Losartan potassium tablets are indicated to reduce the risk of stroke in patients with hypertension and left ventricular hypertrophy, but there is evidence that this benefit does not apply to Black patients. (See and , PRECAUTIONS   Race , CLINICAL PHARMACOLOGY , , .) Pharmacodynamics and Clinical Effects Reduction in the Risk of Stroke Race

in 2 Patients Nephropathy Type Diabetic

Losartan potassium tablets are indicated for the treatment of diabetic nephropathy with an elevated serum creatinine and proteinuria (urinary albumin to creatinine ratio ≥300 mg/g) in patients with type 2 diabetes and a history of hypertension. In this population, losartan potassium tablets reduce the rate of progression of nephropathy as measured by the occurrence of doubling of serum creatinine or end stage renal disease (need for dialysis or renal transplantation) (see , CLINICAL PHARMACOLOGY ). Pharmacodynamics and Clinical Effects

LOSARTAN POTASSIUM CONTRAINDICATIONS

    Losartan potassium tablets are contraindicated in patients who are hypersensitive to any component of this product.

WARNINGS

Fetal/Neonatal Morbidity and Mortality

    Drugs that act directly on the renin-angiotensin system can cause fetal and neonatal morbidity and death when administered to pregnant women. Several dozen cases have been reported in the world literature in patients who were taking angiotensin converting enzyme inhibitors. When pregnancy is detected, losartan potassium tablets should be discontinued as soon as possible.

     The use of drugs that act directly on the renin-angiotensin system during the second and third trimesters of pregnancy has been associated with fetal and neonatal injury, including hypotension, neonatal skull hypoplasia, anuria, reversible or irreversible renal failure, and death. Oligohydramnios has also been reported, presumably resulting from decreased fetal renal function; oligohydramnios in this setting has been associated with fetal limb contractures, craniofacial deformation, and hypoplastic lung development. Prematurity, intrauterine growth retardation, and patent ductus arteriosus have also been reported, although it is not clear whether these occurrences were due to exposure to the drug.

     These adverse effects do not appear to have resulted from intrauterine drug exposure that has been limited to the first trimester.

     Mothers whose embryos and fetuses are exposed to an angiotensin II receptor antagonist only during the first trimester should be so informed. Nonetheless, when patients become pregnant, physicians should have the patient discontinue the use of losartan potassium tablets as soon as possible.

     Rarely (probably less often than once in every thousand pregnancies), no alternative to an angiotensin II receptor antagonist will be found. In these rare cases, the mothers should be apprised of the potential hazards to their fetuses, and serial ultrasound examinations should be performed to assess the intra-amniotic environment.

     If oligohydramnios is observed, losartan potassium tablets should be discontinued unless it is considered life-saving for the mother. Contraction stress testing (CST), a non-stress test (NST), or biophysical profiling (BPP) may be appropriate, depending upon the week of pregnancy. Patients and physicians should be aware, however, that oligohydramnios may not appear until after the fetus has sustained irreversible injury.

     Infants with histories of exposure to an angiotensin II receptor antagonist should be closely observed for hypotension, oliguria, and hyperkalemia. If oliguria occurs, attention should be directed toward support of blood pressure and renal perfusion. Exchange transfusion or dialysis may be required as means of reversing hypotension and/or substituting for disordered renal function. in utero

     Losartan potassium has been shown to produce adverse effects in rat fetuses and neonates, including decreased body weight, delayed physical and behavioral development, mortality and renal toxicity. With the exception of neonatal weight gain (which was affected at doses as low as 10 mg/kg/day), doses associated with these effects exceeded 25 mg/kg/day (approximately three times the maximum recommended human dose of 100 mg on a mg/m basis). These findings are attributed to drug exposure in late gestation and during lactation. Significant levels of losartan and its active metabolite were shown to be present in rat fetal plasma during late gestation and in rat milk. 2

Hypotension - Volume-Depleted Patients

    In patients who are intravascularly volume-depleted (e.g., those treated with diuretics), symptomatic hypotension may occur after initiation of therapy with losartan potassium tablets. These conditions should be corrected prior to administration of losartan potassium tablets, or a lower starting dose should be used (see ).   DOSAGE AND ADMINISTRATION

PRECAUTIONS

General

Angioedema. See Hypersensitivity: , ADVERSE REACTIONS . Post-Marketing Experience

Impaired Hepatic Function

     Based on pharmacokinetic data which demonstrate significantly increased plasma concentrations of losartan in cirrhotic patients, a lower dose should be considered for patients with impaired liver function (see and DOSAGE AND ADMINISTRATION , CLINICAL PHARMACOLOGY ). Pharmacokinetics

Impaired Renal Function

    As a consequence of inhibiting the renin-angiotensin-aldosterone system, changes in renal function have been reported in susceptible individuals treated with losartan potassium tablets; in some patients, these changes in renal function were reversible upon discontinuation of therapy.

     In patients whose renal function may depend on the activity of the renin-angiotensin-aldosterone system ( patients with severe congestive heart failure), treatment with angiotensin converting enzyme inhibitors has been associated with oliguria and/or progressive azotemia and (rarely) with acute renal failure and/or death. Similar outcomes have been reported with losartan potassium tablets. e.g.,

     In studies of ACE inhibitors in patients with unilateral or bilateral renal artery stenosis, increases in serum creatinine or blood urea nitrogen (BUN) have been reported. Similar effects have been reported with losartan potassium tablets; in some patients, these effects were reversible upon discontinuation of therapy.

Electrolyte Imbalance

Electrolyte imbalances are common in patients with renal impairment, with or without diabetes, and should be addressed. In a clinical study conducted in type 2 diabetic patients with proteinuria, the incidence of hyperkalemia was higher in the group treated with losartan potassium tablets as compared to the placebo group; however, few patients discontinued therapy due to hyperkalemia (see ). ADVERSE REACTIONS

Information for Patients

Female patients of childbearing age should be told about the consequences of second- and third-trimester exposure to drugs that act on the renin-angiotensin system, and they should also be told that these consequences do not appear to have resulted from intrauterine drug exposure that has been limited to the first trimester. These patients should be asked to report pregnancies to their physicians as soon as possible. Pregnancy:

      A patient receiving losartan potassium tablets should be told not to use potassium supplements or salt substitutes containing potassium without consulting the prescribing physician (see Potassium Supplements: , PRECAUTIONS ). Drug Interactions

     

Drug Interactions

     No significant drug-drug pharmacokinetic interactions have been found in interaction studies with hydrochlorothiazide, digoxin, warfarin, cimetidine and phenobarbital. Rifampin, an inducer of drug metabolism, decreased the concentrations of losartan and its active metabolite (See In humans, two inhibitors of P450 3A4 have been studied. Ketoconazole did not affect the conversion of losartan to the active metabolite after intravenous administration of losartan, and erythromycin had no clinically significant effect after oral administration. Fluconazole, an inhibitor of P450 2C9, decreased active metabolite concentration and increased losartan concentration. The pharmacodynamic consequences of concomitant use of losartan and inhibitors of P450 2C9 have not been examined. Subjects who do not metabolize losartan to active metabolite have been shown to have a specific, rare defect in cytochrome P450 2C9. These data suggest that the conversion of losartan to its active metabolite is mediated primarily by P450 2C9 and not P450 3A4. , CLINICAL PHARMACOLOGY .). Drug Interactions

     As with other drugs that block angiotensin II or its effects, concomitant use of potassium-sparing diuretics ( spironolactone, triamterene, amiloride), potassium supplements, or salt substitutes containing potassium may lead to increases in serum potassium e.g., .

      As with other drugs which affect the excretion of sodium, lithium excretion may be reduced. Therefore, serum lithium levels should be monitored carefully if lithium salts are to be co-administered with angiotensin II receptor antagonists. Lithium:

      In patients who are elderly, volume-depleted (including those on diuretic therapy), or with compromised renal function, co-administration of NSAIDs, including selective COX-2 inhibitors, with angiotensin II receptor antagonists (including losartan) may result in deterioration of renal function, including possible acute renal failure. These effects are usually reversible. Monitor renal function periodically in patients receiving losartan and NSAID therapy. Non-Steroidal Anti-Inflammatory Drugs (NSAIDs) Including Selective Cyclooxygenase-2 Inhibitors (COX-2 Inhibitors):

    The antihypertensive effect of angiotensin II receptor antagonists, including losartan, may be attenuated by NSAIDs, including selective COX-2 inhibitors.

, , Carcinogenesis Mutagenesis Impairment of Fertility

    Losartan potassium was not carcinogenic when administered at maximally tolerated dosages to rats and mice for 105 and 92 weeks, respectively. Female rats given the highest dose (270 mg/kg/day) had a slightly higher incidence of pancreatic acinar adenoma. The maximally tolerated dosages (270 mg/kg/day in rats, 200 mg/kg/day in mice) provided systemic exposures for losartan and its pharmacologically active metabolite that were approximately 160- and 90-times (rats) and 30- and 15-times (mice) the exposure of a 50 kg human given 100 mg per day.

     Losartan potassium was negative in the microbial mutagenesis and V-79 mammalian cell mutagenesis assays and in the alkaline elution and and chromosomal aberration assays. In addition, the active metabolite showed no evidence of genotoxicity in the microbial mutagenesis, alkaline elution, and chromosomal aberration assays.   in vitro in vitro in vivo in vitro in vitro

    Fertility and reproductive performance were not affected in studies with male rats given oral doses of losartan potassium up to approximately 150 mg/kg/day. The administration of toxic dosage levels in females (300/200 mg/kg/day) was associated with a significant (p<0.05) decrease in the number of corpora lutea/female, implants/female, and live fetuses/female at C-section. At 100 mg/kg/day only a decrease in the number of corpora lutea/female was observed. The relationship of these findings to drug-treatment is uncertain since there was no effect at these dosage levels on implants/pregnant female, percent post-implantation loss, or live animals/litter at parturition. In nonpregnant rats dosed at 135 mg/kg/day for 7 days, systemic exposure (AUCs) for losartan and its active metabolite were approximately 66 and 26 times the exposure achieved in man at the maximum recommended human daily dosage (100 mg).

Pregnancy

     Pregnancy Categories C (first trimester) and D (second and third trimesters). See , WARNINGS . Fetal/Neonatal Morbidity and Mortality

Nursing Mothers

    It is not known whether losartan is excreted in human milk, but significant levels of losartan and its active metabolite were shown to be present in rat milk. Because of the potential for adverse effects on the nursing infant, a decision should be made whether to discontinue nursing or discontinue the drug, taking into account the importance of the drug to the mother.

Pediatric Use

Antihypertensive effects of losartan potassium tablets have been established in hypertensive pediatric patients aged 6 to 16 years. There are no data on the effect of losartan potassium tablets on blood pressure in pediatric patients under the age of 6 or in pediatric patients with glomerular filtration rate <30 mL/min/1.73 m2 (see and , CLINICAL PHARMACOLOGY ,  and , Pharmacokinetics Special Populations Pharmacodynamics and Clinical Effects ). DOSAGE AND ADMINISTRATION

Geriatric Use

    Of the total number of patients receiving losartan potassium tablets in controlled clinical studies for hypertension, 391 patients (19%) were 65 years and over, while 37 patients (2%) were 75 years and over. In a controlled clinical study for renal protection in type 2 diabetic patients with proteinuria, 248 patients (33%) were 65 years and over. In a controlled clinical study for the reduction in the combined risk of cardiovascular death, stroke and myocardial infarction in hypertensive patients with left ventricular hypertrophy, 2857 patients (62%) were 65 years and over, while 808 patients (18%) were 75 years and over. No overall differences in effectiveness or safety were observed between these patients and younger patients, but greater sensitivity of some older individuals cannot be ruled out.

Race

     In the LIFE study, Black patients with hypertension and left ventricular hypertrophy had a lower risk of stroke on atenolol than on losartan potassium tablets. Given the difficulty in interpreting subset differences in large trials, it cannot be known whether the observed difference is the result of chance. However, the LIFE study does not provide evidence that the benefits of losartan potassium tablets on reducing the risk of cardiovascular events in hypertensive patients with left ventricular hypertrophy apply to Black patients (See , CLINICAL PHARMACOLOGY ; ). Pharmacodynamics and Clinical Effects Reduction in the Risk of Stroke

LOSARTAN POTASSIUM ADVERSE REACTIONS

Hypertension

    Losartan potassium tablets have been evaluated for safety in more than 3300 adult patients treated for essential hypertension and 4058 patients/subjects overall. Over 1200 patients were treated for over 6 months and more than 800 for over one year. In general, treatment with losartan potassium tablets were well-tolerated. The overall incidence of adverse experiences reported with losartan potassium tablets were similar to placebo.

     In controlled clinical trials, discontinuation of therapy due to clinical adverse experiences was required in 2.3 percent of patients treated with losartan potassium tablets and 3.7 percent of patients given placebo.

     The following table of adverse events is based on four 6- to 12-week, placebo-controlled trials involving over 1000 patients on various doses (10-150 mg) of losartan and over 300 patients given placebo. All doses of losartan are grouped because none of the adverse events appeared to have a dose-related frequency. The adverse experiences reported in ≥1% of patients treated with losartan potassium tablets and more commonly than placebo are shown in the table below.


Losartan
Placebo

(n=1075)
(n=334)

Incidence %
Incidence %
Musculoskeletal


   Cramp, muscle
1
0
    Pain, back
2
1
    Pain, leg
1
0



Nervous  System / Psychiatric


    Dizziness
3
2



Respiratory


    Congestion, nasal
2
1
    Infection, upper respiratory
8
7
    Sinusitis
1
0

    The following adverse events were also reported at a rate of 1% or greater in patients treated with losartan, but were as, or more frequent, in the placebo group: asthenia/fatigue, edema/swelling, abdominal pain, chest pain, nausea, headache, pharyngitis, diarrhea, dyspepsia, myalgia, insomnia, cough, sinus disorder.

     Adverse events occurred at about the same rates in men and women, older and younger patients, and Black and non-Black patients.

     A patient with known hypersensitivity to aspirin and penicillin, when treated with losartan potassium tablets, was withdrawn from study due to swelling of the lips and eyelids and facial rash, reported as angioedema, which returned to normal 5 days after therapy was discontinued.

     Superficial peeling of palms and hemolysis were reported in one subject.

     In addition to the adverse events above, potentially important events that occurred in at least two patients/subjects exposed to losartan or other adverse events that occurred in <1% of patients in clinical studies are listed below. It cannot be determined whether these events were causally related to losartan:

facial edema, fever, orthostatic effects, syncope; Body as a Whole:

angina pectoris, second degree AV block, CVA, hypotension, myocardial infarction, arrhythmias including atrial fibrillation, palpitation, sinus bradycardia, tachycardia, ventricular tachycardia, ventricular fibrillation; Cardiovascular:

anorexia, constipation, dental pain, dry mouth, flatulence, gastritis, vomiting; Digestive:

anemia; Hematologic:

gout; Metabolic:

arm pain, hip pain, joint swelling, knee pain, musculoskeletal pain, shoulder pain, stiffness, arthralgia, arthritis, fibromyalgia, muscle weakness; Musculoskeletal:

anxiety, anxiety disorder, ataxia, confusion, depression, dream abnormality, hypesthesia, decreased libido, memory impairment, migraine, nervousness, paresthesia, peripheral neuropathy, panic disorder, sleep disorder, somnolence, tremor, vertigo; Nervous System/Psychiatric:

dyspnea, bronchitis, pharyngeal discomfort, epistaxis, rhinitis, respiratory congestion; Respiratory:

alopecia, dermatitis, dry skin, ecchymosis, erythema, flushing, photosensitivity, pruritus, rash, sweating, urticaria; Skin:

blurred vision, burning/stinging in the eye, conjunctivitis, taste perversion, tinnitus, decrease in visual acuity; Special Senses:

impotence, nocturia, urinary frequency, urinary tract infection. Urogenital:

     Persistent dry cough (with an incidence of a few percent) has been associated with  ACE-inhibitor use and in practice can be a cause of discontinuation of ACE-inhibitor therapy. Two prospective, parallel-group, double-blind, randomized, controlled trials were conducted to assess the effects of losartan on the incidence of cough in hypertensive patients who had experienced cough while receiving ACE-inhibitor therapy. Patients who had typical ACE-inhibitor cough when challenged with lisinopril, whose cough disappeared on placebo, were randomized to losartan 50 mg, lisinopril 20 mg, or either placebo (one study, n=97) or 25 mg hydrochlorothiazide (n=135). The double-blind treatment period lasted up to 8 weeks. The incidence of cough is shown below.

     Study 1                  HCTZ                   Losartan                     Lisinopril

________________________________________________________________________

     Cough                       25%                          17%                               69%

    Study 2              Placebo                 Losartan                        Lisinopril ††

________________________________________________________________________

 Cough                       35%                       29%                                62%

Demographics = (89% caucasian, 64% female)

Demographics = (90% caucasian, 51% female) ††

    These studies demonstrate that the incidence of cough associated with losartan therapy, in a population that all had cough associated with ACE-inhibitor therapy, is similar to that associated with hydrochlorothiazide or placebo therapy.

     Cases of cough, including positive re-challenges, have been reported with the use of losartan in post-marketing experience.

      No relevant differences between the adverse experience profile for pediatric patients and that previously reported for adult patients were identified. Pediatric Patients:

Patients Left Hypertrophy Hypertensive with Ventricular

In the LIFE study, adverse events with losartan potassium tablets were similar to those reported previously for patients with hypertension.

in 2 Patients Nephropathy Type Diabetic

In the RENAAL study involving 1513 patients treated with losartan potassium tablets or placebo, the overall incidences of reported adverse experiences were similar for the two groups. Losartan potassium tablets were generally well tolerated as evidenced by a similar incidence of discontinuations due to side effects compared to placebo (19% for losartan potassium tablets, 24% for placebo). The adverse experiences, regardless of drug relationship, reported with an incidence of ≥4% of patients treated with losartan potassium tablets and occurring more commonly than placebo, on a background of conventional antihypertensive therapy, are shown in the table below.


Losartan and Conventional  Antihypertensive Therapy  Incidence % (n=751)



Placebo and Conventional  Antihypertensive Therapy  Incidence % (n=762)



Body  as  Whole


   Asthenia/Fatigue
14
10
   Chest Pain
12
8
   Fever
4
3
   Infection
5
4
   Influenza-like disease
10
9
   Trauma
4
3
Cardiovascular


   Hypotension
7
3
   Orthostatic hypotension
4
1
Digestive


   Diarrhea
15
10
   Dyspepsia
4
3
   Gastritis
5
4
Endocrine


   Diabetic neuropathy
4
3
   Diabetic vascular disease
10
9
Eyes Ears Nose  and  Throat


   Cataract
7
5
   Sinusitis
6
5
Hemic


   Anemia
14
11
Metabolic  and  Nutrition


   Hyperkalemia
7
3
   Hypoglycemia
14
10
   Weight gain
4
3
Musculoskeletal


   Back pain
12
10
   Leg pain
5
4
   Knee pain
5
4
   Muscular weakness
7
4
Nervous  System


   Hypesthesia
5
4
Respiratory


   Bronchitis
10
9
   Cough
11
10
Skin


   Cellulitis
7
6
Urogenital


   Urinary tract infection
16
13

Post-Marketing Experience

    The following additional adverse reactions have been reported in post-marketing experience:

     : Hepatitis (reported rarely). Digestive

      Malaise. General Disorders and Administration Site Conditions:

     : Thrombocytopenia (reported rarely). Hemic

     : Angioedema, including swelling of the larynx and glottis, causing airway obstruction and/or swelling of the face, lips, pharynx, and/or tongue has been reported rarely in patients treated with losartan; some of these patients previously experienced angioedema with other drugs including ACE inhibitors. Vasculitis, including Henoch-Schonlein purpura, has been reported. Anaphylactic reactions have been reported. Hypersensitivity

      Hyperkalemia, hyponatremia have been reported with losartan.      Metabolic and Nutrition:

      Rare cases of rhabdomyolysis have been reported in patients receiving angiotensin II receptor blockers. Musculoskeletal:

      Dysgeusia Nervous system disorders:

      Dry cough (see above). Respiratory:

      Erythroderma Skin:

Laboratory Test Findings

    In controlled clinical trials, clinically important changes in standard laboratory parameters were rarely associated with administration of losartan potassium tablets.

     , Minor increases in blood urea nitrogen (BUN) or serum creatinine were observed in less than 0.1 percent of patients with essential hypertension treated with losartan potassium tablets alone (see ). Creatinine Blood Urea Nitrogen: , PRECAUTIONS Impaired Renal Function

      Small decreases in hemoglobin and hematocrit (mean decreases of approximately 0.11 grams percent and 0.09 volume percent, respectively) occurred frequently in patients treated with losartan potassium tablets alone, but were rarely of clinical importance. No patients were discontinued due to anemia. Hemoglobin and Hematocrit:

      Occasional elevations of liver enzymes and/or serum bilirubin have occurred. In patients with essential hypertension treated with losartan potassium tablets alone, one patient (<0.1%) was discontinued due to these laboratory adverse experiences. Liver Function Tests:

OVERDOSAGE

    Significant lethality was observed in mice and rats after oral administration of 1000 mg/kg and 2000 mg/kg, respectively, about 44 and 170 times the maximum recommended human dose on a mg/m basis. 2

     Limited data are available in regard to overdosage in humans. The most likely manifestation of overdosage would be hypotension and tachycardia; bradycardia could occur from parasympathetic (vagal) stimulation. If symptomatic hypotension should occur, supportive treatment should be instituted.

     Neither losartan nor its active metabolite can be removed by hemodialysis.

LOSARTAN POTASSIUM DOSAGE AND ADMINISTRATION

Adult Hypertensive Patients

    Losartan potassium tablets may be administered with other antihypertensive agents, and with or without food.       

      Dosing must be individualized. The usual starting dose of losartan potassium tablets is 50 mg once daily, with 25 mg used in patients with possible depletion of intravascular volume ( patients treated with diuretics) (see and patients with a history of hepatic impairment (see Losartan potassium tablets can be administered once or twice daily with total daily doses ranging from 25 mg to 100 mg. e.g., , WARNINGS ) Hypotension ─ Volume-Depleted Patients , PRECAUTIONS ). General

    If the antihypertensive effect measured at trough using once-a-day dosing is inadequate, a twice-a-day regimen at the same total daily dose or an increase in dose may give a more satisfactory response. The effect of losartan is substantially present within one week but in some studies the maximal effect occurred in 3-6 weeks (see Hypertension). , CLINICAL PHARMACOLOGY , Pharmacodynamics and Clinical Effects

    If blood pressure is not controlled by losartan potassium tablets alone, a low dose of a diuretic may be added. Hydrochlorothiazide has been shown to have an additive effect (see Hypertension). , CLINICAL PHARMACOLOGY ,   Pharmacodynamics and Clinical Effects

    No initial dosage adjustment is necessary for elderly patients or for patients with renal impairment, including patients on dialysis.

Pediatric Hypertensive Patients ≥6 years of age

     The usual recommended starting dose is 0.7 mg/kg once daily (up to 50 mg total) administered as a tablet or a suspension (see ). Dosage should be adjusted according to blood pressure response. Doses above 1.4 mg/kg (or in excess of 100 mg) daily have not been studied in pediatric patients (See and and  Preparation of Suspension , CLINICAL PHARMACOLOGY ,   Pharmacokinetics Special Populations , Pharmacodynamics and Clinical Effects , WARNINGS .). Hypotension ─ Volume-Depleted Patients

     Losartan potassium tablets are not recommended in pediatric patients <6 years of age or in pediatric patients with glomerular filtration rate <30 mL/min/1.73 m (see and 2 , CLINICAL PHARMACOLOGY , , , Pharmacokinetics Special Populations Pharmacodynamics and Clinical Effects ). PRECAUTIONS

Preparation of Suspension (for 200 mL of a 2.5 mg/mL suspension)

    Add 10 mL of Purified Water USP to an 8 ounce (240 mL) amber polyethylene terephthalate (PET) bottle containing ten 50 mg losartan potassium tablets. Immediately shake for at least 2 minutes. Let the concentrate stand for 1 hour and then shake for 1 minute to disperse the tablet contents. Separately prepare a 50/50 volumetric mixture of Ora-Plus and Ora-Sweet SF . Add 190 mL of the 50/50 Ora-Plus /Ora-Sweet SF mixture to the tablet and water slurry in the PET bottle and shake for 1 minute to disperse the ingredients. The suspension should be refrigerated at 2-8°C (36-46°F) and can be stored for up to 4 weeks. Shake the suspension prior to each use and return promptly to the refrigerator. TM** TM** TM TM

**Trademark of Paddock Laboratories, Inc.

Hypertensive Patients with Left Ventricular Hypertrophy

     The usual starting dose is 50 mg of losartan potassium tablets once daily. Hydrochlorothiazide 12.5 mg daily should be added and/or the dose of losartan potassium tablets should be increased to 100 mg once daily followed by an increase in hydrochlorothiazide to 25 mg once daily based on blood pressure response (see , CLINICAL PHARMACOLOGY , ). Pharmacodynamics and Clinical Effects Reduction in the Risk of Stroke

in 2 Patients Nephropathy Type Diabetic

The usual starting dose is 50 mg once daily. The dose should be increased to 100 mg once daily based on blood pressure response (see in 2 Patients). Losartan potassium tablets may be administered with insulin and other commonly used hypoglycemic agents ( . ., sulfonylureas, glitazones and glucosidase inhibitors). , CLINICAL PHARMACOLOGY , Nephropathy Pharmacodynamics and Clinical Effects Type Diabetic e g

LOSARTAN POT 25MG TABLET

Losartan Potassium

Losartan Potassium

Losartan Potassium TABLET

Product Information

Product Type Human prescription drug label Item Code (Source) NDC:50436-6664(NDC:13668-113)
Route of Administration ORAL DEA Schedule

Active Ingredient/Active Moiety

Ingredient Name Basis of Strength Strength
LOSARTAN POTASSIUM LOSARTAN 25 mg

Inactive Ingredients

Ingredient Name Strength
cellulose, microcrystalline
COLLOIDAL SILICON DIOXIDE
hydroxypropyl cellulose
HYPROMELLOSE 2910 (6 MPA.S)
LACTOSE, ANHYDROUS
MAGNESIUM STEARATE
STARCH, PREGELATINIZED CORN
talc
titanium dioxide

Product Characteristics

Color Size Imprint Code Shape
WHITE (white to off-white) 8 mm 25;113 OVAL

Packaging

# Item Code Package Description Marketing Start Date Marketing End Date
1 NDC:50436-6664-1 30 in 1 BOTTLE

Marketing Information

Marketing Category Application Number or Monograph Citation Marketing Start Date Marketing End Date
ANDA ANDA090467 2010-10-06


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