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`FORTAMET (metformin hydrochloride) Extended-Release Tablets
`Rx only
`DESCRIPTION
`FORTAMET (metformin hydrochloride) Extended-
`Release Tablets contain an oral antihyperglycemic drug
`used in the management of type 2 diabetes. Metformin
`hydrochloride (N, N-dimethylimidodicarbonimidic diamide
`hydrochloride) is a member of the biguanide class of oral
`antihyperglycemics and is not chemically or
`pharmacologically related to any other class of oral
`antihyperglycemic agents. The empirical formula of
`metformin hydrochloride is C4H11N5•HCl and its
`molecular weight is 165.63. Its structural formula is:
`
`metformin hydrochloride is a white to off-white crystalline
`powder that is freely soluble in water and is practically
`insoluble in acetone, ether, and chloroform. The pKa of
`metformin is 12.4. The pH of a 1% aqueous solution of
`metformin hydrochloride is 6.68.
`FORTAMET Extended-Release Tablets are designed for
`once-a-day oral administration and deliver 500 mg or
`1000 mg of metformin hydrochloride. In addition to the
`active ingredient metformin hydrochloride, each tablet
`contains the following inactive ingredients: candellila wax,
`cellulose acetate, hypromellose, magnesium stearate,
`polyethylene glycols (PEG 400, PEG 8000), polysorbate
`80, povidone, sodium lauryl sulfate, synthetic black iron
`oxides, titanium dioxide, and triacetin.
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`Andrx 2002
`Aurobindo v. Andrx
`IPR2017-01648
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`NDA 21-574
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`SYSTEM COMPONENTS AND PERFORMANCE
`FORTAMET was developed as an extended-release
`formulation of metformin hydrochloride and designed for
`once-a-day oral administration using the patented single-
`composition osmotic technology (SCOT). The tablet is
`similar in appearance to other film-coated oral
`administered tablets but it consists of an osmotically active
`core formulation that is surrounded by a semipermeable
`membrane. Two laser drilled exit ports exist in the
`membrane, one on either side of the tablet. The core
`formulation is composed primarily of drug with small
`concentrations of excipients. The semipermeable
`membrane is permeable to water but not to higher
`molecular weight components of biological fluids. Upon
`ingestion, water is taken up through the membrane, which
`in turn dissolves the drug and excipients in the core
`formulation. The dissolved drug and excipients exit
`through the laser drilled ports in the membrane. The rate
`of drug delivery is constant and dependent upon the
`maintenance of a constant osmotic gradient across the
`membrane. This situation exists so long as there is
`undissolved drug present in the core tablet. Following the
`dissolution of the core materials, the rate of drug delivery
`slowly decreases until the osmotic gradient across the
`membrane falls to zero at which time delivery ceases. The
`membrane coating remains intact during the transit of the
`dosage form through the gastrointestinal tract and is
`excreted in the feces.
`
`CLINICAL PHARMACOLOGY
`Mechanism of Action
`Metformin is an antihyperglycemic agent which improves
`glucose tolerance in patients with type 2 diabetes, lowering
`both basal and postprandial plasma glucose. Its
`pharmacologic mechanisms of action are different from
`other classes of oral antihyperglycemic agents. Metformin
`decreases hepatic glucose production, decreases intestinal
`absorption of glucose, and improves insulin sensitivity by
`increasing peripheral glucose uptake and utilization.
`Unlike sulfonylureas, metformin does not produce
`hypoglycemia in either patients with type 2 diabetes or
`normal subjects (except in special circumstances, see
`PRECAUTIONS) and does not cause hyperinsulinemia.
`With metformin therapy, insulin secretion remains
`unchanged while fasting plasma insulin levels and day-long
`plasma insulin response may actually decrease.
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`PHARMACOKINETICS AND DRUG METABOLISM
`Absorption and Bioavailability
`The appearance of metformin in plasma from a
`FORTAMET Extended-Release Tablet is slower and
`more prolonged compared to immediate-release metformin.
`
`In a multiple-dose crossover study, 23 patients with type 2
`diabetes mellitus were administered either FORTAMET
`2000 mg once a day (after dinner) or immediate-release
`(IR) metformin hydrochloride 1000 mg twice a day (after
`breakfast and after dinner). After 4 weeks of treatment,
`steady-state pharmacokinetic parameters, area under the
`concentration-time curve (AUC), time to peak plasma
`concentration (Tmax), and maximum concentration
`(Cmax) were evaluated. Results are presented in Table 1.
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`In four single-dose studies and one multiple-dose study, the
`bioavailability of FORTAMET 2000 mg given once
`daily, in the evening, under fed conditions [as measured by
`the area under the plasma concentration versus time curve
`(AUC)] was similar to the same total daily dose
`administered as immediate-release metformin 1000 mg
`given twice daily. The geometric mean ratios
`(FORTAMET/ immediate-release metformin) of
`AUC0-24hr, AUC0-72hr, and AUC0-inf. for these five studies
`ranged from 0.96 to 1.08.
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`Table 1
`FORTAMET vs. Immediate-Release Metformin
`Steady-State Pharmacokinetic Parameters at 4 Weeks
`
`FORTAMET
`2000 mg
`(administered q.d. after dinner)
`
`26,811 ± 7055
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`6 (3-10)
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`2849 ± 797
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`Pharmacokinetic Parameters
`(mean ± SD)
`
`
`AUC 0-24 hr (ng•hr/mL)
`
`Tmax (hr)
`
`Cmax (ng/mL)
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`Immediate-Release Metformin
`2000 mg
`(1000 mg b.i.d.)
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`27,371 ± 5,781
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`3 (1-8)
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`1820 ± 370
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`In a single-dose, four-period replicate crossover design
`study, comparing two 500 mg FORTAMET tablets to one
`1000 mg FORTAMET tablet administered in the evening
`with food to 29 healthy male subjects, two 500 mg
`FORTAMET tablets were found to be equivalent to one
`1000 mg FORTAMET tablet.
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`In a study carried out with FORTAMET, there was a
`dose-associated increase in metformin exposure over
`24 hours following oral administration of 1000, 1500,
`2000, and 2500 mg.
`In three studies with FORTAMET using different
`treatment regimens (2000 mg after dinner; 1000 mg after
`breakfast and after dinner; and 2500 mg after dinner), the
`pharmacokinetics of metformin as measured by AUC
`appeared linear following multiple-dose administration.
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`The extent of metformin absorption (as measured by AUC)
`from FORTAMET increased by approximately 60%
`when given with food. When FORTAMET was
`administered with food, Cmax was increased by
`approximately 30% and Tmax was more prolonged
`compared with the fasting state (6.1 versus 4.0 hours).
`
`
`Distribution
`Distribution studies with FORTAMET have not been
`conducted. However, the apparent volume of distribution
`(V/F) of metformin following single oral doses of
`immediate-release metformin 850 mg averaged 654 ±
`358 L. Metformin is negligibly bound to plasma proteins,
`in contrast to sulfonylureas, which are more than 90%
`protein bound. Metformin partitions into erythrocytes,
`most likely as a function of time. At usual clinical doses
`and dosing schedules of immediate-release metformin,
`steady state plasma concentrations of metformin are
`reached within 24-48 hours and are generally <1 µg/mL.
`During controlled clinical trials of immediate-release
`metformin, maximum metformin plasma levels did not
`exceed 5 µg/mL, even at maximum doses.
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`Metabolism and Excretion
`Metabolism studies with FORTAMET have not been
`conducted.
`Intravenous single-dose studies in normal subjects
`demonstrate that metformin is excreted unchanged in the
`urine and does not undergo hepatic metabolism (no
`metabolites have been identified in humans) nor biliary
`excretion.
`In healthy nondiabetic adults (N=18) receiving 2500 mg
`q.d. FORTAMET, the percent of the metformin dose
`excreted in urine over 24 hours was 40.9% and the renal
`clearance was 542 ± 310 mL/min. After repeated
`administration of FORTAMET, there is little or no
`accumulation of metformin in plasma, with most of the
`drug being eliminated via renal excretion over a 24-hour
`dosing interval. The t½ was 5.4 hours for FORTAMET
`
`Renal clearance of metformin (Table 2) is approximately
`3.5 times greater than creatinine clearance, which
`indicates that tubular secretion is the major route of
`metformin elimination. Following oral administration,
`approximately 90% of the absorbed drug is eliminated via
`the renal route within the first 24 hours, with a plasma
`elimination half-life of approximately 6.2 hours. In blood,
`the elimination half-life is approximately 17.6 hours,
`suggesting that the erythrocyte mass may be a
`compartment of distribution.
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`Special Populations
`Geriatrics
`Limited data from controlled pharmacokinetic studies of
`immediate-release metformin in healthy elderly subjects
`suggest that total plasma clearance of metformin is
`decreased, the half-life is prolonged, and Cmax is increased,
`compared to healthy young subjects. From these data, it
`appears that the change in metformin pharmacokinetics
`with aging is primarily accounted for by a change in renal
`function (Table 2). FORTAMET treatment should not be
`initiated in patients ≥ 80 years of age unless measurement
`of creatinine clearance demonstrates that renal function is
`not reduced. (See WARNINGS, PRECAUTIONS and
`DOSAGE AND ADMINISTRATION.)
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`Pediatrics
`No pharmacokinetic data from studies of pediatric patients
`are currently available. (See PRECAUTIONS.)
`
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`Gender
`Five studies indicated that with FORTAMET treatment,
`the pharmacokinetic results for males and females were
`comparable.
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`Table 2
`Select Mean (±SD) Metformin Pharmacokinetic Parameters Following Single or
`Multiple Oral Doses of Immediate-Release Metformin
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`b
`Cmax
`(µg/mL)
`
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`1.03 (±0.33)
`1.60 (±0.38)
`2.01 (±0.42)
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`1.48 (±0.5)
`1.90 (±0.62)
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`2.45 (±0.70)
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`1.86 (±0.52)
`4.12 (±1.83)
`3.93 (±0.92)
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`c
`Tmax
`(hrs)
`
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`2.75 (±0.81)
`2.64 (±0.82)
`1.79 (±0.94)
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`3.32 (±1.08)
`2.01 (±1.22)
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`2.71 (±1.05)
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`3.20 (±0.45)
`3.75 (±0.50)
`4.01 (±1.10)
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`Renal
`Clearance
`(mL/min)
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`600 (±132)
`552 (±139)
`642 (±173)
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`491 (±138)
`550 (±160)
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`412 (±98)
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`384 (±122)
`108 (±57)
`130 (±90)
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`Subject Groups: Immediate-Release Metformin dosea
`(number of subjects)
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`Healthy, nondiabetic adults:
` 500 mg single dose (24)
` 850 mg single dose (74)d
` 850 mg three times daily for 19 dosese (9)
`Adults with type 2 diabetes:
` 850 mg single dose (23)
` 850 mg three times daily for 19 dosese (9)
`Elderlyf, healthy nondiabetic adults:
` 850 mg single dose (12)
`Renal-impaired adults:
` 850 mg single dose
`g 61-90 mL/min) (5)
` Mild (CLcr
` Moderate (CLcr 31-60 mL/min) (4)
` Severe (CLcr 10-30 mL/min) (6)
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` a
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` All doses given fasting except the first 18 doses of the multiple dose studies
`b Peak plasma concentration
`c Time to peak plasma concentration
`d Combined results (average means) of five studies: mean age 32 years (range 23-59 years)
`e Kinetic study done following dose 19, given fasting
`f Elderly subjects, mean age 71 years (range 65-81 years)
`g CLcr = creatinine clearance normalized to body surface area of 1.73 m2
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`Renal Insufficiency
`In patients with decreased renal function (based on
`measured creatinine clearance), the plasma and blood half-
`life of metformin is prolonged and the renal clearance is
`decreased in proportion to the decrease in creatinine
`clearance (Table 2; also see WARNINGS).
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`Hepatic Insufficiency
`No pharmacokinetic studies of metformin have been
`conducted in patients with hepatic insufficiency.
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`NDA 21-574
`Page 10
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`Race
`No studies of metformin pharmacokinetic parameters
`according to race have been performed. In controlled
`clinical studies of immediate-release metformin in patients
`with type 2 diabetes, the antihyperglycemic effect was
`comparable in whites (n=249), blacks (n=51), and
`Hispanics (n=24).
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`Clinical Studies
`In a double-blind, randomized, active-controlled,
`multicenter U.S. clinical study, which compared
`FORTAMET q.d. to immediate-release metformin b.i.d.,
`680 patients with type 2 diabetes who had been taking
`metformin-containing medication at study entry were
`randomly assigned in equal numbers to double-blind
`treatment with either FORTAMET or immediate-release
`metformin. Doses were adjusted during the first six weeks
`of treatment with study medication based on patients’ FPG
`levels and were then held constant over a period of 20
`weeks. The primary efficacy endpoint was the change in
`HbA1c from baseline to endpoint. The primary objective
`was to demonstrate the clinical non-inferiority of
`FORTAMET compared to immediate-release metformin
`on the primary endpoint.
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`FORTAMET and metformin patients had mean HbA1c
`changes from baseline to endpoint equal to +0.40 and
`+0.14, respectively (Table 3). The least-square (LS) mean
`treatment difference was 0.25 (95% CI = 0.14, 0.37)
`demonstrating that FORTAMET was clinically similar to
`metformin according to the pre-defined criterion to
`establish efficacy.
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`NDA 21-574
`Page 11
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`Table 3
`FORTAMET vs. Immediate-Release Metformin
`Switch Study: Summary of Mean Changes in HbA1c, Fasting Plasma Glucose, Body
`Weight, Body Mass Index, and Plasma Insulin
`FORTAMET
`Immediate-Release
`Metformin
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`
`HbA1c (%)
` N
` Baseline (mean ± SD)
` Change from baseline (mean ±SD)
`Fasting Plasma Glucose (mg/dL)
` N
` Baseline (mean ± SD)
` Change from baseline (mean ±SD)
`
`Plasma Insulin (µu/mL)
` N
` Baseline (mean ± SD)
` Change from baseline (mean ±SD)
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`Body Weight (kg)
` N
` Baseline (mean ± SD)
` Change from baseline (mean ±SD)
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`Body Mass Index (kg/m2)
` N
` Baseline (mean ± SD)
` Change from baseline (mean ±SD)
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`327
`7.04 ± 0.88
`0.40 ± 0.75
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`329
`146.8 ± 32.1
`10.0 ± 40.8
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`304
`17.9 ± 15.1
`-3.6 ± 13.8
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`313
`94.1 ± 17.8
`0.3 ± 2.9
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`313
`31.1 ± 4.7
`0.1 ± 1.1
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`332
`7.07 ± 0.76
`0.14 ± 0.75
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`333
`145.6 ± 29.5
`4.2 ± 35.9
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`316
`17.3 ± 10.5
`-3.2 ± 8.6
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`320
`93.3 ± 17.4
`0.0 ± 3.7
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`320
`31.4 ± 4.5
`0.0 ± 1.3
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` Treatment difference
`for change from baseline
`(FORTAMET minus
`Immediate-Release
`Metformin)
`LS mean
`(2-sided 95% CI a )
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`0.25
`(0.14, 0.37) b
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`6.43
`(0.57, 12.29)
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`0.02
`(-1.47, 1.50)
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`0.30
`(-0.22, 0.81)
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`0.08
`(-0.11, 0.26)
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` a
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` CI = Confidence Interval
`b FORTAMET was clinically similar to immediate-release metformin based on the pre-defined
`criterion to establish efficacy. While demonstrating clinical similarity, the response to FORTAMET
`compared to immediate-release metformin was also shown to be statistically smaller as seen by the
`95% CI for the treatment difference which did not include zero.
`Footnote: Patients were taking metformin-containing medications at baseline that were prescribed by
`their personal physician.
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`NDA 21-574
`Page 12
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`The mean changes for FPG (Table 3) and plasma insulin
`(Table 3) were small for both FORTAMET and
`immediate-release metformin, and were not clinically
`meaningful. Seventy-six (22%) and 49 (14%) of the
`FORTAMET and immediate-release patients,
`respectively, discontinued prematurely from the trial.
`Eighteen (5%) patients on FORTAMET withdrew
`because of a stated lack of efficacy, as compared with 8
`patients (2%) on immediate-release metformin (p=0.047).
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`Results from this study also indicated that neither
`FORTAMET nor immediate-release metformin were
`associated with weight gain or increases in body mass
`index.
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`A 24-week, double blind, placebo-controlled study of
`immediate-release metformin plus insulin, versus insulin
`plus placebo, was conducted in patients with type 2
`diabetes who failed to achieve adequate glycemic control
`on insulin alone (Table 4). Patients randomized to receive
`immediate-release metformin plus insulin achieved a
`reduction in HbA1c of 2.10%, compared to a 1.56%
`reduction in HbA1c achieved by insulin plus placebo. The
`improvement in glycemic control was achieved at the final
`study visit with 16% less insulin, 93.0 U/day versus
`110.6 U/day, immediate-release metformin plus insulin
`versus insulin plus placebo, respectively, p=0.04.
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`Table 4
`Combined Immediate-Release Metformin/Insulin vs. Placebo/Insulin: Summary of
`Mean Changes from Baseline in HbA1c and Daily Insulin Dose
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`Treatment difference
`Mean ± SE
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`-0.54 ± 0.43a
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`-16.08 ± 7.77b
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`Placebo/Insulin
`(n = 28)
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`Immediate-Release
`Metformin /Insulin
`(n = 26)
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`HbA1c (%)
`9.32
`8.95
` Baseline
`-1.56
`-2.10
` Change at FINAL VISIT
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`Insulin Dose (U/day)
`94.64
`93.12
` Baseline
`15.93
`-0.15
` Change at FINAL VISIT
`a Statistically significant using analysis of covariance with baseline as covariate (p=0.04)
` Not significant using analysis of variance (values shown in table)
`b Statistically significant for insulin (p=0.04)
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` second double-blind, placebo-controlled study (n=51),
`with 16 weeks of randomized treatment, demonstrated that
`in patients with type 2 diabetes controlled on insulin for 8
`weeks with an average HbA1c of 7.46 ± 0.97%, the addition
`of immediate-release metformin maintained similar
`glycemic control (HbA1c 7.15 ± 0.61 versus
`6.97 ± 0.62 for immediate-release metformin plus insulin
`and placebo plus insulin, respectively) with 19% less
`insulin versus baseline (reduction of 23.68 ± 30.22 versus
`an increase of 0.43 ± 25.20 units for immediate-release
`metformin plus insulin and placebo plus insulin, p<0.01).
`In addition, this study demonstrated that the combination of
`immediate-release metformin plus insulin resulted in
`reduction in body weight of 3.11 ± 4.30 lbs, compared to
`an increase of 1.30 ± 6.08 lbs for placebo plus insulin,
`p=0.01.
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`Pediatric Clinical Studies
`No pediatric clinical studies have been conducted with
`FORTAMET™. In a double-blind, placebo-controlled
`study in pediatric patients aged 10 to 16 years with type 2
`diabetes (mean FPG 182.2 mg/dL), treatment with
`immediate-release metformin (up to 2000 mg/day) for up
`to 16 weeks (mean duration of treatment 11 weeks)
`resulted in a significant mean net reduction in FPG of
`64.3 mg/dL compared with placebo (Table 5).
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`Table 5
`Immediate-Release Metformin vs. Placebo (Pediatricsa):
`Summary of Mean Changes from Baseline* in Plasma Glucose and
`Body Weight at Final Visit
`Immediate-Release
`Placebo
`Metformin
`(n = 37)
`FPG (mg/dL)
`162.4
` Baseline
`-42.9
` Change at FINAL VISIT
`(n = 39)
`Body Weight (lbs)
`205.3
` Baseline
`-3.3
` Change at FINAL VISIT
`a Pediatric patients mean age 13.8 years (range 10-16 years)
`* All patients on diet therapy at Baseline
`** Not statistically significant
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`(n = 36)
`192.3
`21.4
`(n = 38)
`189.0
`-2.0
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`p-Value
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`
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`<0.001
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`NS**
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`INDICATIONS AND USAGE
`FORTAMET (metformin hydrochloride) Extended-
`Release Tablets, used as a once per day monotherapy, are
`indicated as an adjunct to diet and exercise to lower blood
`glucose. FORTAMET can be used concomitantly with a
`sulfonylurea or insulin to improve glycemic control in
`adults. FORTAMET is indicated in patients 17 years of
`age and older as either monotherapy or in combination
`therapy.
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`CONTRAINDICATIONS
`FORTAMET is contraindicated in patients with:
`1. Renal disease or renal dysfunction (e.g., as suggested by
`serum creatinine levels ≥1.5 mg/dL [males], ≥1.4 mg/dL
`[females] or abnormal creatinine clearance) which may
`also result from conditions such as cardiovascular collapse
`(shock), acute myocardial infarction, and septicemia (see
`WARNINGS and PRECAUTIONS).
`2. Congestive heart failure requiring pharmacologic
`treatment.
`3. Known hypersensitivity to metformin.
`4. Acute or chronic metabolic acidosis, including diabetic
`ketoacidosis, with or without coma. Diabetic ketoacidosis
`should be treated with insulin.
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`FORTAMET should be temporarily discontinued in
`patients undergoing radiologic studies involving
`intravascular administration of iodinated contrast materials,
`because use of such products may result in acute alteration
`of renal function. (See also PRECAUTIONS.)
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`WARNINGS
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`Lactic Acidosis:
`Lactic acidosis is a rare, but serious, metabolic
`complication that can occur due to metformin
`accumulation during treatment with FORTAMET
`(metformin hydrochloride) Extended-Release Tablets;
`when it occurs, it is fatal in approximately 50% of
`cases. Lactic acidosis may also occur in association
`with a number of pathophysiologic conditions,
`including diabetes mellitus, and whenever there is
`significant tissue hypoperfusion and hypoxemia. Lactic
`acidosis is characterized by elevated blood lactate levels
`(>5 mmol/L), decreased blood pH, electrolyte
`disturbances with an increased anion gap, and an
`increased lactate/pyruvate ratio. When metformin is
`implicated as the cause of lactic acidosis, metformin
`plasma levels >5 µg/mL are generally found.
`The reported incidence of lactic acidosis in patients
`receiving metformin hydrochloride is very low
`(approximately 0.03 cases/1000 patient-years, with
`approximately 0.015 fatal cases/1000 patient-years).
`Reported cases have occurred primarily in diabetic
`patients with significant renal insufficiency, including
`both intrinsic renal disease and renal hypoperfusion,
`often in the setting of multiple concomitant
`medical/surgical problems and multiple concomitant
`medications. Patients with congestive heart failure
`requiring pharmacologic management, in particular
`those with unstable or acute congestive heart failure
`who are at risk of hypoperfusion and hypoxemia, are at
`increased risk of lactic acidosis. The risk of lactic
`acidosis increases with the degree of renal dysfunction
`and the patient’s age. The risk of lactic acidosis may,
`therefore, be significantly decreased by regular
`monitoring of renal function in patients taking
`FORTAMET (metformin hydrochloride) Extended-
`Release Tablets and by use of the minimum effective
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`NDA 21-574
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`dose of FORTAMET. In particular, treatment of the
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`elderly should be accompanied by careful monitoring of
`renal function. FORTAMET treatment should not be
`initiated in patients ≥80 years of age unless
`measurement of creatinine clearance demonstrates that
`renal function is not reduced, as these patients are more
`susceptible to developing lactic acidosis. In addition,
`FORTAMET should be promptly withheld in the
`presence of any condition associated with hypoxemia,
`dehydration, or sepsis. Because impaired hepatic
`function may significantly limit the ability to clear
`lactate, FORTAMET should generally be avoided in
`patients with clinical or laboratory evidence of hepatic
`disease. Patients should be cautioned against excessive
`alcohol intake, either acute or chronic, when taking
`FORTAMET, since alcohol potentiates the effects of
`metformin hydrochloride on lactate metabolism. In
`addition, FORTAMET should be temporarily
`discontinued prior to any intravascular radiocontrast
`study and for any surgical procedure (see also
`PRECAUTIONS).
`The onset of lactic acidosis often is subtle, and
`accompanied only by nonspecific symptoms such as
`malaise, myalgias, respiratory distress, increasing
`somnolence, and nonspecific abdominal distress. There
`may be associated hypothermia, hypotension, and
`resistant bradyarrhythmias with more marked acidosis.
`The patient and the patient’s physician must be aware
`of the possible importance of such symptoms and the
`patient should be instructed to notify the physician
`immediately if they occur (see also PRECAUTIONS).
`FORTAMET should be withdrawn until the situation
`is clarified. Serum electrolytes, ketones, blood glucose
`and, if indicated, blood pH, lactate levels, and even
`blood metformin levels may be useful. Once a patient is
`stabilized on any dose level of FORTAMET,
`gastrointestinal symptoms, which are common during
`initiation of therapy, are unlikely to be drug related.
`Later occurrence of gastrointestinal symptoms could be
`due to lactic acidosis or other serious disease.
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`Levels of fasting venous plasma lactate above the upper
`limit of normal but less than 5 mmol/L in patients
`taking FORTAMET do not necessarily indicate
`impending lactic acidosis and may be explainable by
`other mechanisms, such as poorly controlled diabetes or
`obesity, vigorous physical activity, or technical
`problems in sample handling. (See also
`PRECAUTIONS.)
`Lactic acidosis should be suspected in any diabetic
`patient with metabolic acidosis lacking evidence of
`ketoacidosis (ketonuria and ketonemia).
`Lactic acidosis is a medical emergency that must be
`treated in a hospital setting. In a patient with lactic
`acidosis who is taking FORTAMET, the drug should
`be discontinued immediately and general supportive
`measures promptly instituted. Because metformin
`hydrochloride is dialyzable (with a clearance of up to
`170 mL/min under good hemodynamic conditions),
`prompt hemodialysis is recommended to correct the
`acidosis and remove the accumulated metformin. Such
`management often results in prompt reversal of
`symptoms and recovery.
`(See also CONTRAINDICATIONS and
`PRECAUTIONS.)
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`PRECAUTIONS
`General
`Monitoring of renal function – Metformin is known to be
`substantially excreted by the kidney, and the risk of
`metformin accumulation and lactic acidosis increases with
`the degree of impairment of renal function. Thus, patients
`with serum creatinine levels above the upper limit of
`normal for their age should not receive FORTAMET. In
`patients with advanced age, FORTAMET should be
`carefully titrated to establish the minimum dose for
`adequate glycemic effect, because aging is associated with
`reduced renal function. In elderly patients, particularly
`those ≥80 years of age, renal function should be monitored
`regularly and, generally, FORTAMET should not be
`titrated to the maximum dose (see WARNINGS and
`DOSAGE AND ADMINISTRATION).
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`Before initiation of FORTAMET therapy and at least
`annually thereafter, renal function should be assessed and
`verified as normal. In patients in whom development of
`renal dysfunction is anticipated, renal function should be
`assessed more frequently and FORTAMET discontinued
`if evidence of renal impairment is present.
`Use of concomitant medications that may affect renal
`function or metformin disposition – Concomitant
`medication(s) that may affect renal function or result in
`significant hemodynamic change or may interfere with the
`disposition of metformin, such as cationic drugs that are
`eliminated by renal tubular secretion (see
`PRECAUTIONS: Drug Interactions), should be used
`with caution.
`Radiologic studies involving the use of intravascular
`iodinated contrast materials (for example, intravenous
`urogram, intravenous cholangiography, angiography,
`and computed tomography (CT) scans with intravascular
`contrast materials) – Intravascular contrast studies with
`iodinated materials can lead to acute alteration of renal
`function and have been associated with lactic acidosis in
`patients receiving metformin (see
`CONTRAINDICATIONS). Therefore, in patients in
`whom any such study is planned, FORTAMET should be
`temporarily discontinued at the time of or prior to the
`procedure, and withheld for 48 hours subsequent to the
`procedure and reinstituted only after renal function has
`been re-evaluated and found to be normal.
`Hypoxic states – Cardiovascular collapse (shock) from
`whatever cause, acute congestive heart failure, acute
`myocardial infarction and other conditions characterized by
`hypoxemia have been associated with lactic acidosis and
`may also cause prerenal azotemia. When such events
`occur in patients on FORTAMET therapy, the drug
`should be promptly discontinued.
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`Surgical procedures – FORTAMET therapy should be
`temporarily suspended for any surgical procedure (except
`minor procedures not associated with restricted intake of
`food and fluids) and should not be restarted until the
`patient’s oral intake has resumed and renal function has
`been evaluated as normal.
`Alcohol intake – Alcohol is known to potentiate the effect
`of metformin on lactate metabolism. Patients, therefore,
`should be warned against excessive alcohol intake, acute or
`chronic, while receiving FORTAMET.
`Impaired hepatic function – Since impaired hepatic
`function has been associated with some cases of lactic
`acidosis, FORTAMET should generally be avoided in
`patients with clinical or laboratory evidence of hepatic
`disease.
`Vitamin B12 levels – In controlled clinical trials of
`immediate-release metformin of 29 weeks duration, a
`decrease to subnormal levels of previously normal serum
`Vitamin B12 levels, without clinical manifestations, was
`observed in approximately 7% of patients. Such decrease,
`possibly due to interference with B12 absorption from the
`B12-intrinsic factor complex, is, however, very rarely
`associated with anemia and appears to be rapidly reversible
`with discontinuation of immediate-release metformin or
`Vitamin B12 supplementation. Measurement of
`hematologic parameters on an annual basis is advised in
`patients on FORTAMET and any apparent abnormalities
`should be appropriately investigated and managed (see
`PRECAUTIONS: Laboratory Tests). Certain
`individuals (those with inadequate Vitamin B12 or calcium
`intake or absorption) appear to be predisposed to
`developing subnormal Vitamin B12 levels. In these
`patients, routine serum Vitamin B12 measurements at two-
`to three-year intervals may be useful.
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`Change in clinical status of patients with previously
`controlled type 2 diabetes – A patient with type 2 diabetes
`previously well controlled on FORTAMET who develops
`laboratory abnormalities or clinical illness (especially
`vague and poorly defined illness) should be evaluated
`promptly for evidence of ketoacidosis or lactic acidosis.
`Evaluation should include serum electrolytes and ketones,
`blood glucose and, if indicated, blood pH, lactate, pyruvate,
`and metformin levels. If acidosis of either form occurs,
`FORTAMET must be stopped immediately and other
`appropriate corrective measures initiated (see also
`WARNINGS).
`Hypoglycemia – Hypoglycemia does not occur in patients
`receiving FORTAMET alone under usual circumstances
`of use, but could occur when caloric intake is deficient,
`when strenuous exercise is not compensated by caloric
`supplementation, or during concomitant use with other
`glucose-lowering agents (such as sulfonylureas and insulin)
`or ethanol. Elderly, debilitated, or malnourished patients,
`and those with adrenal or pituitary insufficiency or alcohol
`intoxication are particularly susceptible to hypoglycemic
`effects. Hypoglycemia may be difficult to recognize in the
`elderly, and in people who are taking beta-adrenergic
`blocking drugs.
`Loss of control of blood glucose – When a patient
`stabilized on any diabetic regimen is exposed to stress such
`as fever, trauma, infection , or surgery, a temporary loss of
`glycemic control may occur. At such times, it may be
`necessary to withhold FORTAMET and temporarily
`administer insulin. FORTAMET may be reinstituted after
`the acute episode is resolved.
`The effectiveness of oral antidiabetic drugs in lowering
`blood glucose to a targeted level decreases in many patients
`over a period of time. This phenomenon, which may be
`due to progression of the underlying disease or to
`diminished responsiveness to the drug, is known as
`secondary failure, to distinguish it from primary failure in
`which the drug is ineffective during initial therapy. Should
`secondary failure occur with FORTAMET or
`sulfonylurea monotherapy, combined therapy with
`FORTAMET and sulfonylurea may result in a response.
`Should secondary failure occur with combined
`FORTAMET/sulfonylurea therapy, it may be necessary to
`consider therapeutic alternatives including initiation of
`insulin therapy.
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`Information for Patients
`Patients should be informed of the potential risks and
`ben