Saxagliptin Drug Information

Generic name: DAPAGLIFLOZIN AND SAXAGLIPTIN

Sodium-Glucose Cotransporter 2 Inhibitor [EPC]

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Uses of Saxagliptin

Dapagliflozin and saxagliptin tablets are indicated as an adjunct to diet and exercise to improve glycemic control in adults with type 2 diabetes mellitus. Limitations of Use Dapagliflozin and saxagliptin tablets are not recommended for use to improve glycemic control in patients with type 1 diabetes mellitus. Dapagliflozin and saxagliptin tablets is a combination of dapagliflozin, a sodium-glucose cotransporter 2 (SGLT2) inhibitor and saxagliptin a dipeptidyl peptidase-4 (DPP-4) inhibitor indicated as an adjunct to diet and exercise to improve glycemic control in adults with type 2 diabetes mellitus.

Limitations of Use: Not recommended for use to improve glycemic control in patients with type 1 diabetes mellitus.

Dosage & Administration of Saxagliptin

Prior to Initiation of Dapagliflozin and Saxagliptin Tablets Assess renal function prior

to initiation of dapagliflozin and saxagliptin tablets therapy and periodically thereafter . Assess volume status. In patients with volume depletion, correct this condition before initiating of dapagliflozin and saxagliptin tablets .

Dosage For patients not already taking dapagliflozin, the recommended starting dose of

dapagliflozin and saxagliptin tablets is a 5 mg dapagliflozin/5 mg saxagliptin tablet taken orally once daily in the morning with or without food. In patients tolerating 5 mg dapagliflozin and 5 mg saxagliptin once daily who require additional glycemic control, the dapagliflozin and saxagliptin tablets dose can be increased to 10 mg dapagliflozin/5 mg saxagliptin tablet once daily in the morning with or without food. Swallow whole.

Do not crush, cut or chew dapagliflozin and saxagliptin tablets.

Patients with Renal Impairment No dose adjustment is needed in patients with

an estimated glomerular filtration rate (eGFR) greater than or equal to 45 mL/min/1.73 m2. Dapagliflozin and saxagliptin tablets are contraindicated in patients with an eGFR less than 45 mL/min/1.73 m2.

Use with Strong

CYP3A4/5 Inhibitors Do not coadminister dapagliflozin and saxagliptin tablets with strong cytochrome P450 3A4/5 inhibitors (e.g., ketoconazole, atazanavir, clarithromycin, indinavir, itraconazole, nefazodone, nelfinavir, ritonavir, saquinavir, and telithromycin).

Temporary Interruption for Surgery Withhold dapagliflozin and saxagliptin tablets for at least

3 days, if possible, prior to major surgery or procedures associated with prolonged fasting. Resume dapagliflozin and saxagliptin tablets when the patient is clinically stable and has resumed oral intake .

Side Effects of Saxagliptin

Clinical Trials Experience

Because clinical trials are conducted under widely varying conditions, adverse reaction rates observed in the clinical trials of a drug cannot be directly compared to rates in the clinical trials of another drug and may not reflect the rates observed in practice. The safety of combined use of 10 mg dapagliflozin and 5 mg saxagliptin has been evaluated in adult subjects with type 2 diabetes mellitus in a pooled safety analysis of three phase 3 active/placebo-controlled clinical trials with a median exposure of 51 weeks. The pooled safety analysis included a total of 1169 adults: 492 patients in the combination of saxagliptin and dapagliflozin plus metformin group, 341 patients in the dapagliflozin plus metformin group, 336 patients in the saxagliptin plus metformin group.The mean age of these subjects was 54 years, 0.8% were 75 years or older and 53.7% were female.

The population was 80.9% White, 8.3% Black or African American, 3.7% Asian, and 6.6% Other race. At baseline the population had diabetes for an average of 7.5 years and a mean HbA1c of 8.4%. The mean eGFR at baseline was 94.4 mL/min/1.73 m 2. The common adverse reactions were based on the pooled analyses of these studies as shown in Table 2. Table 2: Adverse Reactions Reported in ≥2% of Subjects Treated with 10 mg Dapagliflozin and 5 mg Saxagliptin plus Metformin (≥1,500 mg) Adverse Reaction Preferred Term* Frequency % Upper respiratory tract infection *

Urinary tract infection * 5.7 Dyslipidemia * 5.1 Headache 4.3 Diarrhea 3.7

Back pain

Genital infection * 3.0 Arthralgia 2.4 * Adverse reactions that are medically

related were grouped to a single preferred term. Additionally, adverse reactions reported in <5% and ≥2% from the dapagliflozin development program and ≥1% more frequently compared to placebo included increased urination and discomfort with urination. Hypoglycemia In the pooled analysis, the incidences of hypoglycemia (defined as a blood glucose <54 mg/dL regardless of the presence or absence of symptoms) and severe hypoglycemia (event requiring assistance due to neuroglycopenia, characterized by altered mental and/or physical status) was 1% and 0.2%, respectively.

Genital Mycotic Infections Genital mycotic infections were reported in 15 subjects (3%) treated with dapagliflozin and saxagliptin. Reported adverse reactions by frequency included vulvovaginal mycotic infection, balanoposthitis, genital fungal infection, vaginal infection, and vulvovaginitis. The majority of subjects (84.2%) who experienced genital infection adverse reactions were females.

Urinary Tract Infections Urinary tract infections were reported in 28 subjects (5.7%) treated with dapagliflozin and saxagliptin. Reported adverse reactions by frequency included urinary tract infection, Escherichia urinary tract infection, prostatitis, and pyelonephritis. The majority of subjects (80.6%) who experienced urinary tract infection adverse reactions were females.

Volume Depletion Dapagliflozin causes an osmotic diuresis, which may lead to a reduction in intravascular volume. Events related to volume depletion (hypotension, dehydration, and hypovolemia) were reported in 2 subjects (0.4%) treated with dapagliflozin and saxagliptin plus metformin. Impairment of Renal Function Adverse reactions related to decreased renal function were reported in 10 subjects (2.0%) treated with dapagliflozin and saxagliptin plus metformin.

The reported adverse reactions included decreased glomerular filtration rate, renal impairment, increased blood creatinine, acute renal failure, and decreased urine output. None of the adverse reactions were reported as serious and all but one was mild to moderate in intensity. Three subjects discontinued due to decreased eGFR. Subjects with AEs of renal impairment had lower mean eGFR values at baseline of 64.4 mL/min/1.73 m 2 compared to 94.4 mL/min/1.73 m2 in overall population treated with dapagliflozin and saxagliptin.

Ketoacidosis Dapagliflozin In the cardiovascular outcome study with dapagliflozin in patients with type 2 diabetes mellitus, events of diabetic ketoacidosis (DKA) were reported in 27 out of 8574 patients in the dapagliflozin-treated group and in 12 out of 8569 patients in the placebo group. The events were evenly distributed over the study period. LaboratoryTests Increases in Serum Creatinine and Decreases in eGFR Dapagliflozin Initiation of SGLT2 inhibitors, including dapagliflozin causes a small increase in serum creatinine and decrease in eGFR. These changes in serum creatinine and eGFR generally occur within two weeks of starting therapy and then stabilize regardless of baseline kidney function.

Changes that do not fit this pattern should prompt further evaluation to exclude the possibility of acute kidney injury. In two studies that included patients with type 2 diabetes mellitus with moderate renal impairment, the acute effect on eGFR reversed after treatment discontinuation, suggesting acute hemodynamic changes may play a role in the renal function changes observed with dapagliflozin. Decrease in Lymphocyte Counts Saxagliptin A dose-related mean decrease in absolute lymphocyte count has been observed with saxagliptin.

In a pool of 5 placebo-controlled studies, a mean decrease in absolute lymphocyte count of approximately 100 cells/microL relative to placebo was observed. The proportion of patients who were reported to have a lymphocyte count ≤750 cells/microL was 0.5%, 1.5%, and 0.4% in the 2.5 mg, 5 mg saxagliptin and placebo groups, respectively. The clinical significance of this decrease in lymphocyte count relative to placebo is not known.

The effect of saxagliptin on lymphocyte counts in patients with lymphocyte abnormalities (e.g., human immunodeficiency virus) is unknown. Increase in Hematocrit Dapagliflozin In a pool of 13 placebo-controlled studies with dapagliflozin, increases from baseline in mean hematocrit values were observed in dapagliflozin-treated patients starting at Week 1 and continuing up to Week 16, when the maximum mean difference from baseline was observed. At Week 24, the mean changes from baseline in hematocrit were −0.33% in the placebo group and 2.30% in the 10 mg dapagliflozin group.

By Week 24, hematocrit values >55% were reported in 0.4% of placebo-treated patients and 1.3% of 10 mg dapagliflozin-treated patients. Increase in Low-Density Lipoprotein Cholesterol Patients treated with dapagliflozin and saxagliptin demonstrated a mean percent increase from baseline LDL-cholesterol (ranging from 2.1 to 6.9%). Elevations in Creatine Kinase An imbalance in the number of subjects who experienced serum creatine kinase (CK) elevations >10x the upper limit of normal (a marker of muscle injury/necrosis) was observed in 5 subjects (1%) treated with dapagliflozin and saxagliptin. The elevations were transient.

Rhabdomyolysis was reported for one of those subjects for which no obvious cause was identified. Decrease in Serum Bicarbonate In a study of concomitant therapy of 10 mg dapagliflozin with exenatide extended-release (on a background of metformin), four patients (1.7%) on concomitant therapy had a serum bicarbonate value of less than or equal to 13 mEq/L compared to one each (0.4%) in the dapagliflozin and exenatide-extended release treatment groups.

Postmarketing Experience Additional adverse reactions have been identified during post-approval use of

dapagliflozin and saxagliptin. Because the following reactions are reported voluntarily from a population of uncertain size, it is generally not possible to reliably estimate their frequency or establish a causal relationship to drug exposure. Dapagliflozin Infections: Necrotizing fasciitis of the perineum (Fournier’s Gangrene), urosepsis and pyelonephritis Metabolism and Nutrition Disorders: Ketoacidosis Renal and Urinary Disorders: Acute kidney injury Skin and Subcutaneous Tissue Disorders: Rash Saxagliptin Gastrointestinal Disorders: Pancreatitis Immune System Disorders: Hypersensitivity reactions including anaphylaxis, angioedema, and exfoliative skin conditions Musculoskeletal and Connective Tissue Disorders: Rhabdomyolysis, severe and disabling arthralgia Skin and Subcutaneous Tissue Disorders: Bullous pemphigoid

Warnings & Cautions for Saxagliptin

Diabetic Ketoacidosis in Patients with Type 1 Diabetes Mellitus and Other Ketoacidosis

In patients with type 1 diabetes mellitus, dapagliflozin, a component of dapagliflozin and saxagliptin, significantly increases the risk of diabetic ketoacidosis, a life-threatening event, beyond the background rate. In placebo-controlled trials of patients with type 1 diabetes mellitus, the risk of ketoacidosis was markedly increased in patients who received sodium-glucose cotransporter 2 (SGLT2) inhibitors compared to patients who received placebo. Dapagliflozin and saxagliptin is not indicated for glycemic control in patients with type 1 diabetes mellitus.

Type 2 diabetes mellitus and pancreatic disorders (e.g., history of pancreatitis or pancreatic surgery) are also risk factors for ketoacidosis. There have been postmarketing reports of fatal events of ketoacidosis in patients with type 2 diabetes mellitus using SGLT2 inhibitors, including dapagliflozin. Precipitating conditions for diabetic ketoacidosis or other ketoacidosis include under-insulinization due to insulin dose reduction or missed insulin doses, acute febrile illness, reduced caloric intake, ketogenic diet, surgery, volume depletion, and alcohol abuse.

Signs and symptoms are consistent with dehydration and severe metabolic acidosis and include nausea, vomiting, abdominal pain, generalized malaise, and shortness of breath. Blood glucose levels at presentation may be below those typically expected for diabetic ketoacidosis (e.g., less than 250 mg/dL). Ketoacidosis and glucosuria may persist longer than typically expected. Urinary glucose excretion persists for 3 days after discontinuing dapagliflozin and saxagliptin ; however, there have been postmarketing reports of ketoacidosis and/or glucosuria lasting greater than 6 days and some up to 2 weeks after discontinuation of SGLT2 inhibitors.

Consider ketone monitoring in patients at risk for ketoacidosis if indicated by the clinical situation. Assess for ketoacidosis regardless of presenting blood glucose levels in patients who present with signs and symptoms consistent with severe metabolic acidosis. If ketoacidosis is suspected, discontinue dapagliflozin and saxagliptin, promptly evaluate, and treat ketoacidosis, if confirmed.

Monitor patients for resolution of ketoacidosis before restarting dapagliflozin and saxagliptin. Withhold dapagliflozin and saxagliptin, if possible, in temporary clinical situations that could predispose patients to ketoacidosis. Resume dapagliflozin and saxagliptin when the patient is clinically stable and has resumed oral intake.

Educate all patients on the signs and symptoms of ketoacidosis and instruct patients to discontinue dapagliflozin and saxagliptin and seek medical attention immediately if signs and symptoms occur.

Pancreatitis

There have been postmarketing reports of acute pancreatitis in patients taking saxagliptin. In a cardiovascular outcomes trial enrolling participants with established atherosclerotic cardiovascular disease (ASCVD) or multiple risk factors for ASCVD (SAVOR trial), cases of definite acute pancreatitis were confirmed in 17 of 8240 (0.2%) patients receiving saxagliptin compared to 9 of 8173 (0.1%) receiving placebo. Pre-existing risk factors for pancreatitis were identified in 88% (15/17) of those patients receiving saxagliptin and in 100% (9/9) of those patients receiving placebo.

After initiation of dapagliflozin and saxagliptin, observe patients for signs and symptoms of pancreatitis. If pancreatitis is suspected, promptly discontinue dapagliflozin and saxagliptin and initiate appropriate management. It is unknown whether patients with a history of pancreatitis are at increased risk for the development of pancreatitis while using dapagliflozin and saxagliptin.

Heart Failure

In a cardiovascular outcomes trial enrolling participants with established ASCVD or multiple risk factors for ASCVD (SAVOR trial), more patients randomized to saxagliptin (289/8280, 3.5%) were hospitalized for heart failure compared to patients randomized to placebo (228/8212, 2.8%). In a time-to-first-event analysis the risk of hospitalization for heart failure was higher in the saxagliptin group (estimated Hazard Ratio: 1.27; 95% CI: 1.07, 1.51). Subjects with a prior history of heart failure and subjects with renal impairment had a higher risk for hospitalization for heart failure, irrespective of treatment assignment. Consider the risks and benefits of dapagliflozin and saxagliptin prior to initiating treatment in patients at a higher risk of heart failure. Observe patients for signs and symptoms of heart failure during therapy.

Advise patients of the characteristic symptoms of heart failure and to immediately report such symptoms. If heart failure develops, evaluate and manage according to current standards of care and consider discontinuation of dapagliflozin and saxagliptin.

Volume Depletion Dapagliflozin can cause intravascular volume depletion which may sometimes manifest

as symptomatic hypotension or acute transient changes in creatinine. There have been postmarketing reports of acute kidney injury, some requiring hospitalization and dialysis, in patients with type 2 diabetes mellitus receiving SGLT2 inhibitors, including dapagliflozin. Patients with impaired renal function (eGFR <60 mL/min/1.73 m 2 ), elderly patients, or patients on loop diuretics may be at increased risk for volume depletion or hypotension.

Before initiating dapagliflozin and saxagliptin in patients with one or more of these characteristics, assess volume status and renal function. Dapagliflozin and saxagliptin is contraindicated in patients with an eGFR <45 mL/min/1.73 m 2. Monitor for signs and symptoms of hypotension, and renal function after initiating therapy.

Urosepsis and Pyelonephritis Serious urinary tract infections including urosepsis and pyelonephritis requiring

hospitalization have been reported in patients receiving SGLT2 inhibitors, including dapagliflozin. Treatment with SGLT2 inhibitors increases the risk for urinary tract infections.Evaluate patients for signs and symptoms of urinary tract infections and treat promptly, if indicated.

Hypoglycemia with

Concomitant Use of Insulin or Insulin Secretagogues Insulin and insulin secretagogues, such as sulfonylureas, are known to cause hypoglycemia. Both dapagliflozin and saxagliptin can individually increase the risk of hypoglycemia when combined with insulin or an insulin secretagogue. Therefore, a lower dose of insulin or insulin secretagogue may be required to reduce the risk of hypoglycemia when these agents are used in combination with dapagliflozin and saxagliptin.

Necrotizing Fasciitis of the Perineum (Fournier’s Gangrene) Reports of necrotizing fasciitis of

the perineum (Fournier’s Gangrene), a rare but serious and life-threatening necrotizing infection requiring urgent surgical intervention, have been identified in postmarketing surveillance in patients with diabetes mellitus receiving SGLT2 inhibitors, including dapagliflozin. Cases have been reported in both females and males. Serious outcomes have included hospitalization, multiple surgeries, and death.

Patients treated with dapagliflozin and saxagliptin presenting with pain or tenderness, erythema, or swelling in the genital or perineal area, along with fever or malaise, should be assessed for necrotizing fasciitis. If suspected, start treatment immediately with broad-spectrum antibiotics and, if necessary, surgical debridement. Discontinue dapagliflozin and saxagliptin, closely monitor blood glucose levels, and provide appropriate alternative therapy for glycemic control.

Hypersensitivity Reactions

There have been postmarketing reports of serious hypersensitivity reactions in patients treated with saxagliptin. These reactions include anaphylactic reactions, angioedema, and exfoliative skin conditions. Onset of these reactions occurred within the first 3 months after initiation of treatment with saxagliptin, with some reports occurring after the first dose.

If a serious hypersensitivity reaction is suspected, discontinue dapagliflozin and saxagliptin, treat per standard of care, and monitor until signs and symptoms are resolved. Assess for other potential causes for the event. Institute alternative treatment for diabetes.

Use caution in a patient with a history of angioedema to another dipeptidyl peptidase-4 (DPP-4) inhibitor because it is unknown whether such patients will be predisposed to angioedema with saxagliptin.

Genital Mycotic Infections Dapagliflozin increases the risks of genital mycotic infections. Patients

with a history of genital mycotic infections were more likely to develop genital mycotic infections. Monitor and treat appropriately. 5.10 Severe and Disabling Arthralgia There have been postmarketing reports of severe and disabling arthralgia in patients taking DPP-4 inhibitors. The time to onset of symptoms following initiation of drug therapy varied from one day to years.

Patients experienced relief of symptoms upon discontinuation of the medication. A subset of patients experienced a recurrence of symptoms restarting the same drug or a different DPP-4 inhibitor. Consider DPP-4 inhibitors as a possible cause for severe joint pain and discontinue drug if appropriate. 5.11 Bullous Pemphigoid Postmarketing cases of bullous pemphigoid requiring hospitalization have been reported with DPP-4 inhibitor use.

In reported cases, patients typically recovered with topical or systemic immunosuppressive treatment and discontinuation of the DPP-4 inhibitor. Tell patients to report development of blisters or erosions while receiving dapagliflozin and saxagliptin. If bullous pemphigoid is suspected, dapagliflozin and saxagliptin should be discontinued and referral to a dermatologist should be considered for diagnosis and appropriate treatment.

Drug Interactions with Saxagliptin

  • Table 3: Clinically Relevant Interactions with Dapagliflozin and Saxagliptin Strong Inhibitors of CYP3A4/5 Enzymes Clinical Impact Ketoconazole significantly increased saxagliptin exposure. Similar significant increases in plasma concentrations of saxagliptin are anticipated with other strong CYP3A4/5 inhibitors (e.g., atazanavir, clarithromycin, indinavir, itraconazole, nefazodone, nelfinavir, ritonavir, saquinavir, and telithromycin). Intervention Do not coadminister dapagliflozin and saxagliptin with strong cytochrome P450 3A4/5 inhibitors . Insulin or Insulin Secretagogues Clinical Impact The risk of hypoglycemia may be increased when dapagliflozin and saxagliptin is used concomitantly with insulin or insulin secretagogues (e.g., sulfonylurea) . Intervention Concomitant use may require lower doses of insulin or the insulin secretagogue to reduce the risk of hypoglycemia. Lithium Clinical Impact Concomitant use of an SGLT2 inhibitor with lithium may decrease serum lithium concentrations. Intervention Monitor serum lithium concentration more frequently during dapagliflozin and saxagliptin initiation and dosage changes. Positive Urine Glucose Test Clinical Impact SGLT2 inhibitors increase urinary glucose excretion and will lead to positive urine glucose tests. Intervention Monitoring glycemic control with urine glucose tests is not recommended in patients taking SGLT2 inhibitors. Use alternative methods to monitor glycemic control. Interference with 1,5-anhydroglucitol (1,5-AG) Assay Clinical Impact Measurements of 1,5-AG are unreliable in assessing glycemic control in patients taking SGLT2 inhibitors. Intervention Monitoring glycemic control with 1,5-AG assay is not recommended. Use alternative methods to monitor glycemic control. Strong CYP3A4/5 Inhibitors (e.g., Ketoconazole): Do not coadminister dapagliflozin and saxagliptin with strong cytochrome P450 3A4/5 inhibitors. See full prescribing information for additional drug interactions and information on interference of dapagliflozin and saxagliptin with laboratory tests.

Pregnancy Safety for Saxagliptin

Pregnancy Risk Summary Based on animal data showing adverse renal effects from dapagliflozin, dapagliflozin and saxagliptin is not recommended during the second and third trimesters of pregnancy. The limited available data with dapagliflozin and saxagliptin or its components (dapagliflozin and saxagliptin) in pregnant women are not sufficient to determine a drug-associated risk for major birth defects or miscarriage. There are risks to the mother and fetus associated with poorly controlled diabetes in pregnancy (see Clinical Considerations). In animal studies, adverse renal pelvic and tubular dilatations, that were not fully reversible, were observed in rats when dapagliflozin (a component of dapagliflozin and saxagliptin) was administered during a period of renal development corresponding to the late second and third trimesters of human pregnancy, at all doses tested; the lowest of which provided an exposure 15-times the 10 mg clinical dose (see Data). No adverse developmental effects were observed when saxagliptin was administered to pregnant rats and rabbits ( see Data). The estimated background risk of major birth defects is 6 to 10% in women with pre-gestational diabetes with an HbA1c greater than 7% and has been reported to be as high as 20 to 25% in women with an HbA1c greater than 10%. The estimated background risk of miscarriage for the indicated population is unknown.

In the U.S. general population, the estimated background risk of major birth defects and miscarriage in clinically recognized pregnancies is 2 to 4% and 15 to 20%, respectively. Clinical Considerations Disease-associated maternal and/or embryo-fetal risk Poorly controlled diabetes in pregnancy increases the maternal risk for diabetic ketoacidosis, preeclampsia, spontaneous abortions, preterm delivery and delivery complications. Poorly controlled diabetes increases the fetal risk for major birth defects, stillbirth, and macrosomia related morbidity.

Data Animal Data Dapagliflozin Dapagliflozin dosed directly to juvenile rats from postnatal day (PND) 21 until PND 90 at doses of 1, 15, or 75 mg/kg/day, increased kidney weights and increased the incidence of renal pelvic and tubular dilatations at all dose levels. Exposure at the lowest dose was 15-times the 10 mg clinical dose, (based on AUC). The renal pelvic and tubular dilatations observed in juvenile animals did not fully reverse within a 1-month recovery period. In a prenatal and postnatal development study, dapagliflozin was administered to maternal rats from gestation Day 6 through lactation Day 21 at doses of 1, 15, or 75 mg/kg/day, and pups were indirectly exposed in utero and throughout lactation.

Increased incidence or severity of renal pelvic dilatation was observed in 21 day-old pup offspring of treated dams at 75 mg/kg/day (maternal and pup dapagliflozin exposures were 1415-times and 137-times, respectively, the human values at the 10 mg clinical dose, based on AUC). Dose-related reductions in pup body weights were observed at greater than or equal to 29-times the 10 mg clinical dose (based on AUC). No adverse effects on developmental endpoints were noted at 1 mg/kg/day, (19-times the 10 mg clinical dose, based on AUC). These outcomes occurred with drug exposure during periods of renal development in rats that corresponds to the late second and third trimester of human development. In embryo-fetal development studies in rats and rabbits, dapagliflozin was administered to throughout organogenesis, corresponding to the first trimester of human pregnancy. In rats, dapagliflozin was neither embryolethal nor teratogenic at doses up to 75 mg/kg/day (1441-times the 10 mg clinical dose, based on AUC). Dose related effects on the rat fetus (structural abnormalities and reduced body weight) occurred only at higher dosages, equal to or greater than 150 mg/kg (more than 2344-times the 10 mg clinical dose, based on AUC), which were associated with maternal toxicity.

No developmental toxicities were observed in rabbits at doses up to 180 mg/kg/day (1191-times the 10 mg clinical dose, based on AUC). Saxagliptin In embryo-fetal development studies, saxagliptin was administered to pregnant rats and rabbits during the period of organogenesis, corresponding to the first trimester of human pregnancy. No adverse developmental effects were observed in either species at exposures 1503- and 152-times the 5 mg clinical dose in rats and rabbits, respectively, based on AUC. Saxagliptin crosses the placenta into the fetus following dosing in pregnant rats. In a prenatal and postnatal development study, no adverse developmental effects were observed in maternal rats administered saxagliptin from gestation day 6 through lactation day 21 at exposures up to 470-times the 5 mg clinical dose, based on AUC.

Pediatric Use of Saxagliptin

Pediatric Use Safety and effectiveness of dapagliflozin and saxagliptin in pediatric patients under 18 years of age have not been established.

Contraindications for Saxagliptin

Dapagliflozin and saxagliptin is contraindicated in patients with: History of a serious hypersensitivity reactions to dapagliflozin or to saxagliptin, including anaphylactic reaction, angioedema or exfoliative skin conditions. Moderate to severe renal impairment (eGFR less than 45 mL/min/1.73 m 2 ), end-stage renal disease (ESRD), or patients on dialysis. History of a serious hypersensitivity reaction to dapagliflozin or to saxagliptin.

Moderate to severe renal impairment (eGFR <45 mL/min/1.73 m 2 ), end-stage renal disease, or patients on dialysis.

Overdosage Information for Saxagliptin

In the event of an overdose, contact the Poison Control Center. Appropriate supportive treatment should be initiated as dictated by the patient’s clinical status. The removal of dapagliflozin by hemodialysis has not been studied.

Saxagliptin and its major metabolite can be removed by hemodialysis (23% of dose over 4 hours).

Clinical Studies of Saxagliptin

Add-on Therapy with Dapagliflozin plus Saxagliptin in Patients on Metformin Adult patients

with inadequately controlled type 2 diabetes mellitus participated in 2 active-controlled studies of 24-week duration to evaluate therapy with 5 mg dapagliflozin/5 mg saxagliptin or 10 mg dapagliflozin/5 mg saxagliptin combinations on a background of metformin. One study was a 24-week randomized, double-blind, active-controlled, parallel-group study (NCT02681094) in T2DM patients with an HbA1c ≥7.5% and ≤10.0%. Patients were on a stable dose of metformin HCl (≥1500 mg per day) for at least 8 weeks prior to being randomized to one of three double-blind treatment groups to receive 5 mg dapagliflozin and 5 mg saxagliptin added to metformin, 5 mg saxagliptin and placebo added to metformin, or 5 mg dapagliflozin and placebo added to metformin. At Week 24, concomitant addition of 5 mg dapagliflozin and 5 mg saxagliptin plus metformin resulted in statistically significant decreases in HbA1c, and a larger proportion of patients achieving the therapeutic glycemic goal of HbA1c <7%, compared to dapagliflozin plus metformin or saxagliptin plus metformin (see Table 8). Table 8 : HbA1c Results at Week 24 with the Combination of 5 mg Dapagliflozin and 5 mg Saxagliptin plus Metformin* 5 mg Dapagliflozin and 5 mg Saxagliptin + Metformin Efficacy Parameter 5 mg Dapagliflozin and 5 mg Saxagliptin + Metformin 5 mg Dapagliflozin + Metformin 5mg Saxagliptin + Metformin N † 290 289 291 Baseline (mean) 8.1 8.2

Change from baseline (adjusted mean)(95% CI) -1.02 (-1.13, -0.90) -0.62 (-0.73, -0.51)

-0.69 (-0.80, -0.59) Difference from dapagliflozin + metformin (adjusted mean) (95% CI) -0.40 ‡ (-0.55, -0.24) Difference from saxagliptin + metformin (adjusted mean) (95% CI) -0.32 ‡ (-0.48, -0.17) Percent of patients achieving HbA1c <7% 42.8 21.8 § 28.5 ¶ * Analysis of Covariance including all post-baseline data regardless of rescue or treatment discontinuation. Model estimates calculated using multiple imputation to model washout of the treatment effect using control arm data for all subjects having missing Week 24 data. † The number of randomized subjects who took at least one dose of double-blind study medication and had a baseline value for HbA1c. ‡ p-value <0.0001. § p-value <0.0001 vs. dapagliflozin and saxagliptin plus metformin. ¶ p-value = 0.0018 vs. dapagliflozin and saxagliptin plus metformin. The adjusted mean change from baseline for body weight at Week 24, using values regardless of rescue or treatment discontinuation, was -2.0 kg for the 5 mg dapagliflozin and 5 mg saxagliptin plus metformin group, -2.1 kg for the 5 mg dapagliflozin plus metformin group, and -0.4 kg for the 5 mg saxagliptin plus metformin group.

The difference in mean body weight between the 5 mg dapagliflozin and 5 mg saxagliptin plus metformin group and the 5 mg dapagliflozin plus metformin group was -1.6 kg (95% CI ). The second study was a 24-week randomized, double-blind, active comparator-controlled superiority study (NCT016060007) that compared once daily 10 mg dapagliflozin and 5 mg saxagliptin coadministered in combination with metformin XR with either 10 mg dapagliflozin and placebo added to metformin or 5 mg saxagliptin and placebo added to metformin in T2DM adult patients with inadequate glycemic control on metformin alone (HbA1c ≥8% and ≤12%). At Week 24, concomitant addition of 10 mg dapagliflozin and 5 mg saxagliptin plus metformin resulted in statistically significant decreases in HbA1c, and a larger proportion of patients achieving an HbA1c <7%, compared to dapagliflozin plus metformin or saxagliptin plus metformin (see Table 9). Table 9: HbA1c Results at Week 24 with the Combination of 10 mg Dapagliflozin and 5 mg Saxagliptin plus Metformin* Efficacy Parameter 10 mg Dapagliflozin and 5 mg Saxagliptin + Metformin 10 mg Dapagliflozin and 5 mg Saxagliptin + Metformin 10 mg Dapagliflozin + Metformin 5mg Saxagliptin + Metformin N † 179 179 176 Baseline (mean) 8.9 8.9

Change from baseline (adjusted mean) (95% CI) −1.49 (−1.64, −1.34) −1.23 (−1.38

−1.08) −1.00 (−1.15, −0.85) Difference from dapagliflozin + metformin (adjusted mean) (95% CI) −0.26 ‡ (−0.47, −0.05) Difference from saxagliptin + metformin (adjusted mean) (95% CI) −0.49 § (−0.70, −0.27) Percent of patients achieving HbA1c <7% 40.2 ¶ 21.2 ¶ 16.5 ¶ * Analysis of Covariance including all post-baseline data regardless of rescue or treatment discontinuation. Model estimates calculated using multiple imputation to model washout of the treatment effect using control arm data for all subjects having missing Week 24 data. † The number of randomized subjects who took at least one dose of double-blind study medication and had a baseline value for HbA1c. ‡ p-value=0.0148. § p-value <0.0001. ¶ Not statistically significant based on the prespecified method for controlling type I error. The adjusted mean change from baseline for body weight at Week 24, using values regardless of rescue or treatment discontinuation, was -2.0 kg for the 10 mg dapagliflozin and 5 mg saxagliptin plus metformin group, -2.3 kg for the 10 mg dapagliflozin plus metformin group, and 0 kg for the 5 mg saxagliptin plus metformin group.

Add-on Therapy with Saxagliptin in Patients on Dapagliflozin plus Metformin

A total of 315 patients with type 2 diabetes mellitus participated in this 24-week randomized, double-blind, placebo-controlled trial to evaluate the efficacy and safety of saxagliptin added to dapagliflozin and metformin in patients with a baseline of HbA1c ≥7% to ≤10.5% (NCT01619059). The mean age of these subjects was 54.6 years, 1.6% were 75 years or older and 52.7% were female. The population was 87.9% White, 6.3% Black or African American, 4.1% Asian, and 1.6% Other race. At baseline the population had diabetes for an average of 7.7 years and a mean HbA1c of 7.9%. The mean eGFR at baseline was 93.4 mL/min/1.73 m 2. Patients were required to be on a stable dose of metformin (≥1500 mg per day) for at least 8 weeks prior to enrollment.

Eligible subjects who completed the screening period entered the lead-in treatment period, which included 16 weeks of open-label metformin and 10 mg dapagliflozin treatment. Following the lead-in period, eligible patients were randomized to 5 mg saxagliptin (N=153) or placebo (N=162). The group treated with add-on saxagliptin had statistically significant greater reductions in HbA1c from baseline versus the group treated with placebo (see Table 10). Table 10 : HbA1c Change from Baseline at Week 24 in a Placebo-Controlled Trial of Saxagliptin as Add-on to Dapagliflozin and Metformin* Efficacy parameter 5 mg Saxagliptin (N=153) † Placebo (N=162) † In combination with Dapagliflozin and Metformin HbA1c (%) at week 24 ‡ Baseline (mean) 8.0

Change from baseline (adjusted mean § ) 95% Confidence Interval −0.5 (−0.6

−0.4) −0.2 (−0.3, −0.1) Difference from placebo (adjusted mean) 95% Confidence Interval −0.4 ¶ (−0.5, −0.2) Percent of patients achieving HbA1c <7% 35.3 23.1 * There were 6.5% (n=10) of randomized subjects in the saxagliptin arm and 3.1% (n=5) in the placebo arm for whom change from baseline HbA1c data was missing at Week 24. Of the subjects who discontinued study medication early, 9.1% (1 of 11) in the saxagliptin arm and 16.7% (1 of 6) in the placebo arm had HbA1c measured at Week 24. † N is the number of randomized and treated patients. ‡ Analysis of Covariance including all post-baseline data regardless of rescue or treatment discontinuation. Model estimates calculated using multiple imputation to model washout of the treatment effect using placebo data for all subjects having missing Week 24 data. § Least squares mean adjusted for baseline value. ¶ p-value <0.0001.

Cardiovascular Safety Trial

The cardiovascular risk of saxagliptin was evaluated in SAVOR (Saxagliptin Assessment of Vascular Outcomes Recorded in Patients with Diabetes Mellitus - Thrombolysis in Myocardial Infarction), a multicenter, multinational, randomized, double-blind trial comparing saxagliptin (N=8280) to placebo (N=8212), in adult patients with type 2 diabetes mellitus at high risk for atherosclerotic cardiovascular disease. Of the randomized study subjects, 97.5% completed the trial, and the median duration of follow-up was approximately 2 years (NCT01107886). Subjects were at least 40 years of age, had HbA1c ≥6.5%, and multiple risk factors (21% of randomized subjects) for cardiovascular disease (age ≥55 years for men and ≥60 years for women plus at least one additional risk factor of dyslipidemia, hypertension, or current cigarette smoking) or established (79% of the randomized subjects) cardiovascular disease defined as a history of ischemic heart disease, peripheral vascular disease, or ischemic stroke. Overall, the use of diabetes medications was balanced across treatment groups (metformin 69%, insulin 41%, sulfonylureas 40%, and TZDs 6%). The use of cardiovascular disease medications was also balanced (angiotensin-converting enzyme inhibitors or angiotensin receptor blockers 79%, statins 78%, aspirin 75%, beta-blockers 62%, and non-aspirin antiplatelet medications 24%). The majority of subjects were male (67%) and Caucasian (75%) with a mean age of 65 years.

Approximately 16% of the population had moderate (eGFR ≥30 to ≤50 mL/min/1.73 m 2 ) to severe (eGFR <30 mL/min/1.73 m 2 ) renal impairment, and 13% had a prior history of heart failure. Dapagliflozin and saxagliptin is contraindicated in patients with an eGFR <45 mL/min/1.73 m 2. Subjects had a median duration of type 2 diabetes mellitus of approximately 10 years and a mean baseline HbA1c level of 8.0%. The primary analysis in SAVOR was time to first occurrence of a Major Adverse Cardiac Event (MACE). A major adverse cardiac event in SAVOR was defined as a cardiovascular death or a nonfatal myocardial infarction (MI) or a nonfatal ischemic stroke. The incidence rate of MACE was similar in both treatment arms:

MACE per 100 patient-years on placebo vs. 3.8

MACE per 100 patient-years on saxagliptin with an estimated HR: 1.0; 95.1% CI:. The upper bound of this confidence interval, 1.12, excluded a risk margin larger than 1.3. Vital status was obtained for 99% of subjects in the trial. There were 798 deaths in the SAVOR trial. Numerically more patients (5.1%) died in the saxagliptin group than in the placebo group (4.6%). The risk of deaths from all-cause mortality was not statistically different between the treatment groups (HR: 1.11; 95.1% CI: 0.96, 1.27).

Drug information sourced from the FDA. This content is for informational purposes only and does not constitute medical advice. Consult a healthcare professional before making any medication decisions.

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