Zortress by is a Prescription medication manufactured, distributed, or labeled by Novartis Pharmaceuticals Corporation. Drug facts, warnings, and ingredients follow.
Warnings and Precautions, Embryo-Fetal Toxicity (5.17) |
1/2018 |
Zortress is an mTOR inhibitor immunosuppressant indicated for the prophylaxis of organ rejection in adult patients:
Kidney Transplant: at low-moderate immunologic risk. Use in combination with basiliximab, cyclosporine (reduced doses) and corticosteroids. (1.1)
Liver Transplant: Administer no earlier than 30 days posttransplant. Use in combination with tacrolimus (reduced doses) and corticosteroids. (1.2, 5.5)
Limitations of Use (1.3)
Safety and efficacy have not been established in the following:
Kidney transplant patients at high immunologic risk (1.3)
Recipients of transplanted organs other than kidney or liver (1.3, 5.7)
Pediatric patients (less than 18 years) (1.3)
Kidney Transplantation: starting oral dose of 0.75 mg twice daily as soon as possible after transplantation (2.1)
Liver Transplantation: starting oral dose of 1 mg twice daily starting 30 days after transplantation (2.2)
Monitor everolimus Concentrations: Adjust maintenance dose to achieve trough concentrations within the 3-8 ng/mL target range using LC/MS/MS assay method. (2.1, 2.2, 2.3)
Administer consistently with or without food at the same time as cyclosporine or tacrolimus (2.6, 12.3)
Mild Hepatic Impairment: Reduce initial daily dose by one-third (2.7)
Moderate or Severe Hepatic Impairment: Reduce initial daily dose by one-half (2.7, 12.6)
Zortress is available as 0.25 mg, 0.5 mg, 0.75 mg and 1 mg tablets (3)
Hypersensitivity to everolimus, sirolimus, or to components of the drug product (4)
Angioedema [increased risk with concomitant angiotensin converting enzyme (ACE inhibitors)]: Monitor for symptoms and treat promptly (5.8)
Delayed Wound Healing/Fluid Accumulation: Monitor symptoms; treat promptly to minimize complications (5.9)
Interstitial Lung Disease (ILD)/Non-Infectious Pneumonitis: Monitor for symptoms or radiologic changes; manage by dose reduction or discontinuation until symptoms resolve; consider use of corticosteroids (5.10)
Hyperlipidemia (elevations of serum cholesterol and triglycerides): Monitor and consider anti-lipid therapy (5.11)
Proteinuria (increased risk with higher trough concentrations): Monitor urine protein (5.12)
Polyoma Virus Infections (activation of latent viral infections; BK-virus associated nephropathy): Consider reducing immunosuppression (5.13)
TMA/TTP/HUS (concomitant use with cyclosporine may increase risk): Monitor for hematological changes or symptoms (5.15)
New Onset Diabetes After Transplantation: Monitor serum glucose (5.16)
Male Infertility: Azospermia or oligospermia may occur (5.18, 13.1)
Immunizations: Avoid live vaccines (5.19)
Embryo-Fetal Toxicity: Advise females of reproductive potential of the potential risk to a fetus and to use effective contraception during treatment with Zortress and for 8 weeks after final dose (5.17, 8.1, 8.3)
Most common adverse reactions were as follows:
To report SUSPECTED ADVERSE REACTIONS, contact Novartis Pharmaceuticals Corporation at 1-888-669-6682 or FDA at 1-800-FDA-1088 or www.fda.gov/medwatch.
See 17 for PATIENT COUNSELING INFORMATION and Medication Guide.
Revised: 8/2018
Malignancies and Serious Infections
Kidney Graft Thrombosis
Nephrotoxicity
Mortality in Heart Transplantation
Zortress is indicated for the prophylaxis of organ rejection in adult patients at low-moderate immunologic risk receiving a kidney transplant [see Clinical Studies (14.1)]. Zortress is to be administered in combination with basiliximab induction and concurrently with reduced doses of cyclosporine and with corticosteroids. Therapeutic drug monitoring (TDM) of everolimus and cyclosporine is recommended for all patients receiving these products [see Dosage and Administration (2.2, 2.3)].
Zortress is indicated for the prophylaxis of allograft rejection in adult patients receiving a liver transplant. Zortress is to be administered no earlier than 30 days posttransplant concurrently in combination with reduced doses of tacrolimus and with corticosteroids [see Warnings and Precautions (5.5), Clinical Studies (14.2)]. TDM of everolimus and tacrolimus is recommended for all patients receiving these products [see Dosage and Administration (2.3, 2.5)].
The safety and efficacy of Zortress has not been established in the following populations:
Patients receiving Zortress may require dose adjustments based on everolimus blood concentrations achieved, tolerability, individual response, change in concomitant medications and the clinical situation. Optimally, dose adjustments of Zortress should be based on trough concentrations obtained 4 or 5 days after a previous dosing change. Dose adjustment is required if the trough concentration is below 3 ng/mL. The total daily dose of Zortress should be doubled using the available tablet strengths (0.25 mg, 0.5 mg, 0.75 mg or 1 mg). Dose adjustment is also required if the trough concentration is greater than 8 ng/mL on 2 consecutive measures; the dose of Zortress should be decreased by 0.25 mg twice daily [see Dosage and Administration (2.3), Clinical Pharmacology (12.3)].
An initial Zortress dose of 0.75 mg orally twice daily (1.5 mg per day) is recommended for adult kidney transplant patients in combination with reduced dose cyclosporine, administered as soon as possible after transplantation [see Dosage and Administration (2.3, 2.4), Clinical Studies (14.1)].
Oral prednisone should be initiated once oral medication is tolerated. Steroid doses may be further tapered on an individualized basis depending on the clinical status of patient and function of graft.
Start Zortress at least 30 days posttransplant. An initial dose of 1 mg orally twice daily (2 mg per day) is recommended for adult liver transplant patients in combination with reduced dose tacrolimus [see Dosage and Administration (2.3, 2.5), Clinical Studies (14.2)].
Steroid doses may be further tapered on an individualized basis depending on the clinical status of patient and function of graft.
Routine everolimus whole blood therapeutic drug concentration monitoring is recommended for all patients. The recommended everolimus therapeutic range is 3 to 8 ng/mL [see Clinical Pharmacology (12.7)]. Careful attention should be made to clinical signs and symptoms, tissue biopsies, and laboratory parameters. It is important to monitor everolimus blood concentrations, in patients with hepatic impairment, during concomitant administration of CYP3A4 inducers or inhibitors, when switching cyclosporine formulations and/or when cyclosporine dosing is reduced according to recommended target concentrations [see Clinical Pharmacology (12.7, 12.8)].
There is an interaction of cyclosporine on everolimus, and consequently, everolimus concentrations may decrease if cyclosporine exposure is reduced. There is little to no pharmacokinetic interaction of tacrolimus on everolimus, and thus, everolimus concentrations do not decrease if the tacrolimus exposure is reduced [see Drug Interactions (7.2)].
The everolimus recommended therapeutic range of 3 to 8 ng/mL is based on an LC/MS/MS assay method. Currently in clinical practice, everolimus whole blood trough concentrations may be measured by chromatographic or immunoassay methodologies. Because the measured everolimus whole blood trough concentrations depend on the assay used, individual patient sample concentration values from different assays may not be interchangeable. Consideration of assay results must be made with knowledge of the specific assay used. Therefore, communication should be maintained with the laboratory performing the assay.
Both cyclosporine doses and the target range for whole blood trough concentrations should be reduced, when given in a regimen with Zortress, in order to minimize the risk of nephrotoxicity [see Warnings and Precautions (5.6), Drug Interactions (7.2), Clinical Pharmacology (12.8)].
The recommended cyclosporine therapeutic ranges when administered with Zortress are 100 to 200 ng/mL through Month 1 posttransplant, 75 to 150 ng/mL at Months 2 and 3 posttransplant, 50 to 100 ng/mL at Month 4 posttransplant, and 25 to 50 ng/mL from Month 6 through Month 12 posttransplant. The median trough concentrations observed in the clinical trial ranged between 161 to 185 ng/mL through Month 1 posttransplant and between 111 to 140 ng/mL at Months 2 and 3 posttransplant. The median trough concentration was 99 ng/mL at Month 4 posttransplant and ranged between 46 to 75 ng/mL from Months 6 through Month 12 posttransplant [see Clinical Pharmacology (12.8), Clinical Studies (14.1)].
Cyclosporine, USP Modified is to be administered as oral capsules twice daily unless cyclosporine oral solution or intravenous administration of cyclosporine cannot be avoided. Cyclosporine, USP Modified should be initiated as soon as possible, and no later than 48 hours after reperfusion of the graft and dose adjusted to target concentrations from Day 5 onwards.
If impairment of renal function is progressive, the treatment regimen should be adjusted. In renal transplant patients, the cyclosporine dose should be based on cyclosporine whole blood trough concentrations [see Clinical Pharmacology (12.8)].
In renal transplantation, there are limited data regarding dosing Zortress with reduced cyclosporine trough concentrations of 25 to 50 ng/mL after 12 months. Zortress has not been evaluated in clinical trials with other formulations of cyclosporine. Prior to dose reduction of cyclosporine it should be ascertained that steady-state everolimus whole blood trough concentration is at least 3 ng/mL. There is an interaction of cyclosporine on everolimus, and consequently, everolimus concentrations may decrease if cyclosporine exposure is reduced [see Drug Interactions (7.2)].
Both tacrolimus doses and the target range for whole blood trough concentrations should be reduced, when given in a regimen with Zortress, in order to minimize the potential risk of nephrotoxicity [see Warnings and Precautions (5.6), Clinical Pharmacology (12.9)].
The recommended tacrolimus therapeutic range when administered with Zortress are whole blood trough (C-0h) concentrations of 3 to 5 ng/mL by three weeks after the first dose of Zortress (approximately Month 2) and through Month 12 posttransplant.
The median tacrolimus trough concentrations observed in the clinical trial ranged between 8.6 to 9.5 ng/mL at Weeks 2 and 4 posttransplant (prior to initiation of everolimus). The median tacrolimus trough concentrations ranged between 7 to 8.1 ng/mL at Weeks 5 and 6 posttransplant, between 5.2 to 5.6 ng/mL at Months 2 and 3 posttransplant, and between 4.3 to 4.9 ng/mL between Months 4 and 12 posttransplant [see Clinical Pharmacology (12.9), Clinical Studies (14.2)].
Tacrolimus is to be administered as oral capsules twice daily unless intravenous administration of tacrolimus cannot be avoided.
In liver transplant patients, the tacrolimus dose should be based on tacrolimus whole blood trough concentrations [see Clinical Pharmacology (12.9)].
In liver transplantation, there are limited data regarding dosing Zortress with reduced tacrolimus trough concentrations of 3 to 5 ng/mL after 12 months. Prior to dose reduction of tacrolimus it should be ascertained that the steady-state everolimus whole blood trough concentration is at least 3 ng/mL. Unlike the interaction between cyclosporine and everolimus, tacrolimus does not affect everolimus trough concentrations, and consequently, everolimus concentrations do not decrease if the tacrolimus exposure is reduced.
Zortress tablets should be swallowed whole with a glass of water and not crushed before use.
Administer Zortress consistently approximately 12 hours apart with or without food to minimize variability in absorption and at the same time as cyclosporine or tacrolimus [see Clinical Pharmacology (12.3)].
Whole blood trough concentrations of everolimus should be closely monitored in patients with impaired hepatic function. For patients with mild hepatic impairment (Child-Pugh Class A), the initial daily dose should be reduced by approximately one-third of the normally recommended daily dose. For patients with moderate or severe hepatic impairment (Child-Pugh B or C), the initial daily dose should be reduced to approximately one-half of the normally recommended daily dose. Further dose adjustment and/or dose titration should be made if a patient’s whole blood trough concentration of everolimus, as measured by an LC/MS/MS assay, is not within the target trough concentration range of 3 to 8 ng/mL [see Clinical Pharmacology (12.6)].
Zortress is available as 0.25 mg, 0.5 mg, 0.75 mg and 1 mg tablets.
Dosage Strength | 0.25 mg | 0.5 mg | 0.75 mg | 1 mg |
Appearance | White to yellowish, marbled, round, flat tablets with bevelled edge | |||
Imprint | “C” on one side and “NVR” on the other | “CH” on one side and “NVR” on the other | “CL” on one side and “NVR” on the other | “CU” on one side and “NVR” on the other |
Only physicians experienced in management of systemic immunosuppressant therapy in transplantation should prescribe Zortress. Patients receiving the drug should be managed in facilities equipped and staffed with adequate laboratory and supportive medical resources. The physician responsible for the maintenance therapy should have complete information requisite for the follow-up of the patient. In limited data with the complete elimination of calcineurin inhibition (CNI), there was an increased risk of acute rejection.
Patients receiving immunosuppressants, including Zortress, are at increased risk of developing lymphomas and other malignancies, particularly of the skin. The risk appears to be related to the intensity and duration of immunosuppression rather than to the use of any specific agent.
As usual for patients with increased risk for skin cancer, exposure to sunlight and ultraviolet light should be limited by wearing protective clothing and using a sunscreen with a high protection factor.
Patients receiving immunosuppressants, including Zortress, are at increased risk of developing bacterial, viral, fungal, and protozoal infections, including opportunistic infections [see Warnings and Precautions (5.13), Adverse Reactions (6.1, 6.2)]. These infections may lead to serious, including fatal, outcomes. Because of the danger of over-immunosuppression, which can cause increased susceptibility to infection, combination immunosuppressant therapy should be used with caution.
Antimicrobial prophylaxis for Pneumocystis jiroveci (carinii) pneumonia and prophylaxis for cytomegalovirus (CMV) is recommended in transplant recipients.
An increased risk of kidney arterial and venous thrombosis, resulting in graft loss, has been reported, usually within the first 30 days posttransplantation [see Boxed Warning].
Mammalian target of rapamycin (mTOR) inhibitors are associated with an increase in hepatic artery thrombosis (HAT). Reported cases mostly have occurred within the first 30 days posttransplant and most also lead to graft loss or death. Therefore, Zortress should not be administered earlier than 30 days after liver transplant.
In kidney transplant recipients, Zortress with standard dose cyclosporine increases the risk of nephrotoxicity resulting in a lower glomerular filtration rate. Reduced doses of cyclosporine are required for use in combination with Zortress in order to reduce renal dysfunction [see Boxed Warning, Indications and Usage (1.1), Clinical Pharmacology (12.8)].
In liver transplant recipients, Zortress has not been studied with standard dose tacrolimus. Reduced doses of tacrolimus should be used in combination with Zortress in order to minimize the potential risk of nephrotoxicity [see Indications and Usage (1.2), Clinical Pharmacology (12.9)].
Renal function should be monitored during the administration of Zortress. Consider switching to other immunosuppressive therapies if renal function does not improve after dose adjustments or if the dysfunction is thought to be drug related. Caution should be exercised when using other drugs which are known to impair renal function.
In a clinical trial of de novo heart transplant patients, Zortress in an immunosuppressive regimen with or without induction therapy, resulted in an increased mortality often associated with serious infections within the first three months posttransplantation compared to the control regimen. Use of Zortress in heart transplantation is not recommended.
Zortress has been associated with the development of angioedema. The concomitant use of Zortress with other drugs known to cause angioedema, such as angiotensin converting enzyme (ACE) inhibitors may increase the risk of developing angioedema.
Zortress increases the risk of delayed wound healing and increases the occurrence of wound-related complications like wound dehiscence, wound infection, incisional hernia, lymphocele and seroma. These wound-related complications may require more surgical intervention. Generalized fluid accumulation, including peripheral edema (e.g., lymphoedema) and other types of localized fluid collection, such as pericardial and pleural effusions and ascites have also been reported.
A diagnosis of interstitial lung disease (ILD) should be considered in patients presenting with symptoms consistent with infectious pneumonia but not responding to antibiotic therapy and in whom infectious, neoplastic and other non-drug causes have been ruled out through appropriate investigations. Cases of ILD, implying lung intraparenchymal inflammation (pneumonitis) and/or fibrosis of non-infectious etiology, some reported with pulmonary hypertension [including pulmonary arterial hypertension (PAH)] as a secondary event, have occurred in patients receiving rapamycins and their derivatives, including Zortress. Most cases generally resolve on drug interruption with or without glucocorticoid therapy. However, fatal cases have also occurred.
Increased serum cholesterol and triglycerides, requiring the need for anti-lipid therapy, have been reported to occur following initiation of Zortress and the risk of hyperlipidemia is increased with higher everolimus whole blood trough concentrations [see Adverse Reactions (6.2)]. Use of anti-lipid therapy may not normalize lipid levels in patients receiving Zortress.
Any patient who is administered Zortress should be monitored for hyperlipidemia. If detected, interventions, such as diet, exercise, and lipid-lowering agents should be initiated as outlined by the National Cholesterol Education Program guidelines. The risk/benefit should be considered in patients with established hyperlipidemia before initiating an immunosuppressive regimen containing Zortress. Similarly, the risk/benefit of continued Zortress therapy should be reevaluated in patients with severe refractory hyperlipidemia. Zortress has not been studied in patients with baseline cholesterol levels greater than 350 mg/dL.
Due to an interaction with cyclosporine, clinical trials of Zortress and cyclosporine in kidney transplant patients strongly discouraged patients from receiving the HMG-CoA reductase inhibitors simvastatin and lovastatin. During Zortress therapy with cyclosporine, patients administered an HMG-CoA reductase inhibitor and/or fibrate should be monitored for the possible development of rhabdomyolysis and other adverse effects, as described in the respective labeling for these agents [see Drug Interactions (7.7)].
The use of Zortress in transplant patients has been associated with increased proteinuria. The risk of proteinuria increased with higher everolimus whole blood trough concentrations. Patients receiving Zortress should be monitored for proteinuria [see Adverse Reactions (6.2)].
Patients receiving immunosuppressants, including Zortress, are at increased risk for opportunistic infections; including polyoma virus infections. Polyoma virus infections in transplant patients may have serious, and sometimes fatal, outcomes. These include polyoma virus-associated nephropathy (PVAN), mostly due to BK virus infection, and JC virus associated progressive multiple leukoencephalopathy (PML). PVAN has been observed in patients receiving immunosuppressants, including Zortress. PVAN is associated with serious outcomes; including deteriorating renal function and kidney graft loss [see Adverse Reactions (6.2)]. Patient monitoring may help detect patients at risk for PVAN. Reductions in immunosuppression should be considered for patients who develop evidence of PVAN or PML. Physicians should also consider the risk that reduced immunosuppression represents to the functioning allograft.
Coadministration of Zortress with strong CYP3A4-inhibitors (e.g., ketoconazole, itraconazole, voriconazole, clarithromycin, telithromycin, ritonavir, boceprevir, telaprevir) and strong CYP3A4 inducers (e.g., rifampin, rifabutin) is not recommended without close monitoring of everolimus whole blood trough concentrations [see Drug Interactions (7)].
The concomitant use of Zortress with cyclosporine may increase the risk of thrombotic microangiopathy/thrombotic thrombocytopenic purpura/hemolytic uremic syndrome. Monitor hematologic parameters [see Adverse Reactions (6.2)].
Zortress has been shown to increase the risk of new onset diabetes mellitus after transplant. Blood glucose concentrations should be monitored closely in patients using Zortress.
Based on animal studies and the mechanism of action [see Clinical Pharmacology (12.1)], Zortress may cause fetal harm when administered to a pregnant woman. In animal studies, everolimus caused embryo-fetal toxicity when administered during the period of organogenesis at maternal exposures that were equal to or less than human exposures at the recommended lowest starting dose. Advise pregnant women of the potential risk to a fetus. Advise female patients of reproductive potential to avoid becoming pregnant and to use effective contraception while using Zortress and for 8 weeks after ending treatment [see Use in Specific Populations (8.1, 8.3)].
Azospermia or oligospermia may be observed [see Adverse Reactions (6.2), Nonclinical Toxicology (13.1)]. Zortress is an anti-proliferative drug and affects rapidly dividing cells like the germ cells.
The use of live vaccines should be avoided during treatment with Zortress; examples include (not limited to) the following: intranasal influenza, measles, mumps, rubella, oral polio, BCG, yellow fever, varicella, and TY21a typhoid vaccines.
The following adverse reactions are discussed in greater detail in other sections of the label.
Because clinical trials are conducted under widely varying conditions, the adverse reaction rates observed cannot be directly compared to rates in other trials and may not reflect the rates observed in clinical practice.
Kidney Transplantation
The data described below reflect exposure to Zortress in an open-label, randomized trial of de novo kidney transplant patients of concentration-controlled everolimus at an initial Zortress starting dose of 1.5 mg per day [target trough concentrations 3 to 8 ng/mL with reduced exposure cyclosporine (N = 274) compared to mycophenolic acid (N = 273) with standard exposure cyclosporine]. All patients received basiliximab induction therapy and corticosteroids. The population was between 18 and 70 years, more than 43% were 50 years of age or older (mean age was 46 years in the Zortress group, 47 years control group); a majority of recipients were male (64% in the Zortress group, 69% control group); and a majority of patients were Caucasian (70% in the Zortress group, 69% control group). Demographic characteristics were comparable between treatment groups. The most frequent diseases leading to transplantation were balanced between groups and included hypertension/nephrosclerosis, glomerulonephritis/glomerular disease and diabetes mellitus. Significantly more patients discontinued Zortress 1.5 mg per day treatment (83/277, 30%) than discontinued the control regimen (60/277, 22%). Of those patients who prematurely discontinued treatment, most discontinuations were due to adverse reactions: 18% in the Zortress group compared to 9% in the control group (p-value = 0.004). This difference was more prominent between treatment groups among female patients. In those patients discontinuing study medication, adverse reactions were collected up to 7 days after study medication discontinuation and serious adverse reactions up to 30 days after study medication discontinuation.
Discontinuation of Zortress at a higher dose (3 mg per day) was 95/279, 34%, including 20% due to adverse reactions, and this regimen is not recommended (see below).
The overall incidences of serious adverse reactions were 57% (159/278) in the Zortress group and 52% (141/273) in the mycophenolic acid group. Infections and infestations reported as serious adverse reactions had the highest incidence in both groups [20% (54/274) in the Zortress group and 25% (69/273) in the control group]. The difference was mainly due to the higher incidence of viral infections in the mycophenolic acid group, mainly CMV and BK virus infections. Injury, poisoning and procedural complications reported as serious adverse reactions had the second highest incidence in both groups [14% (39/274) in the Zortress group and 12% (32/273) in the control group] followed by renal and urinary disorders [10% (28/274) in the Zortress group and 13% (36/273) in the control group] and vascular disorders [10% (26/274) in the Zortress group and 7% (20/273) in the control group].
A total of 13 patients died during the first 12 months of study; 7 (3%) in the Zortress group and 6 (2%) in the control group. The most common causes of death across the study groups were related to cardiac conditions and infections.
There were 12 (4%) graft losses in the Zortress group and 8 (3%) in the control group over the 12 month study period. Of the graft losses, 4 were due to renal artery and two due to renal vein thrombosis in the Zortress group (2%) compared to two renal artery thromboses in the control group (1%) [see Boxed Warning, Warnings and Precautions (5.4)].
The most common (greater than or equal to 20%) adverse reactions observed in the Zortress group were: peripheral edema, constipation, hypertension, nausea, anemia, urinary tract infection, and hyperlipidemia.
Infections
The overall incidence of bacterial, fungal and viral infections reported as adverse reactions was higher in the control group (68%) compared to the Zortress group (64%) and was primarily due to an increased number of viral infections (21% in the control group and 10% in the Zortress group). The incidence of CMV infections reported as adverse reactions was 8% in the control group compared to 1% in the Zortress group; and 3% of the serious CMV infections in the control group versus 0% in the Zortress group were considered serious [see Warnings and Precautions (5.3)].
BK Virus
BK virus infections were lower in incidence in the Zortress group (2 patients, 1%) compared to the control group (11 patients, 4%). One of the two BK virus infections in the Zortress group, and two of the 11 BK virus infections in the control group were also reported as serious adverse reactions. BK virus infections did not result in graft loss in any of the groups in the clinical trial.
Wound Healing and Fluid Collections
Wound healing-related reactions were identified through a retrospective search and request for additional data. The overall incidence of wound-related reactions, including lymphocele, seroma, hematoma, dehiscence, incisional hernia, and infections was 35% in the Zortress group compared to 26% in the control group. More patients required intraoperative repair debridement or drainage of incisional wound complications and more required drainage of lymphoceles and seromas in the Zortress group compared to control.
Adverse reactions due to major fluid collections such as edema and other types of fluid collections was 45% in the Zortress group and 40% in the control group [see Warnings and Precautions (5.9)].
Neoplasms
Adverse reactions due to malignant and benign neoplasms were reported in 3% of patients in the Zortress group and 6% in the control group. The most frequently reported neoplasms in the control group were basal cell carcinoma, squamous cell carcinoma, skin papilloma and seborrheic keratosis. One patient in the Zortress group who underwent a melanoma excision prior to transplantation died due to metastatic melanoma [see Boxed Warning, Warnings and Precautions (5.2)].
New Onset Diabetes Mellitus (NODM)
NODM reported based on adverse reactions and random serum glucose values, was 9% in the Zortress group compared to 7% in the control group.
Endocrine Effects in Males
In the Zortress group, serum testosterone levels significantly decreased while the FSH levels significantly increased without significant changes being observed in the control group. In both the Zortress and the control groups mean testosterone and FSH levels remained within the normal range with the mean FSH level in the Zortress group being at the upper limit of the normal range (11.1 U/L). More patients were reported with erectile dysfunction in the Zortress treatment group compared to the control group (5% compared to 2%, respectively).
Table 2 compares the incidence of treatment-emergent adverse reactions reported with an incidence of greater than or equal to 10% for patients receiving Zortress with reduced dose cyclosporine or mycophenolic acid with standard dose cyclosporine. Within each MedDRA system organ class, the adverse reactions are presented in order of decreasing frequency.
Primary System Organ Class Preferred Term | Zortress (everolimus)
1.5 mg With Reduced Exposure Cyclosporine N = 274 n (%) | Mycophenolic Acid
1.44 g With Standard Exposure Cyclosporine N = 273 n (%) |
Any Adverse Reactions* | 271 (99) | 270 (99) |
Blood Lymphatic System Disorders | 93 (34) | 111 (41) |
Anemia | 70 (26) | 68 (25) |
Leukopenia | 8 (3) | 33 (12) |
Gastrointestinal Disorders | 196 (72) | 207 (76) |
Constipation | 105 (38) | 117 (43) |
Nausea | 79 (29) | 85 (31) |
Diarrhea | 51 (19) | 54 (20) |
Vomiting | 40 (15) | 60 (22) |
Abdominal pain | 36 (13) | 42 (15) |
Dyspepsia | 12 (4) | 31 (11) |
Abdominal pain upper | 9 (3) | 30 (11) |
General Disorders and Administrative site Conditions | 181 (66) | 160 (59) |
Edema Peripheral | 123 (45) | 108 (40) |
Pyrexia | 51 (19) | 40 (15) |
Fatigue | 25 (9) | 28 (10) |
Infections and Infestations | 169 (62) | 185 (68) |
Urinary Tract Infection | 60 (22) | 63 (23) |
Upper Respiratory Tract Infection | 44 (16) | 49 (18) |
Injury, Poisoning and Procedural Complications | 163 (60) | 163 (60) |
Incision site pain | 45 (16) | 47 (17) |
Procedural pain | 40 (15) | 37 (14) |
Investigations | 137 (50) | 133 (49) |
Blood creatinine Increased | 48 (18) | 59 (22) |
Metabolism and Nutrition Disorders | 222 (81) | 199 (73) |
Hyperlipidemia | 57 (21) | 43 (16) |
Hyperkalemia | 49 (18) | 48 (18) |
Hypercholesterolemia | 47 (17) | 34 (13) |
Dyslipidemia | 41 (15) | 24 (9) |
Hypomagnesemia | 37 (14) | 40 (15) |
Hypophosphatemia | 35 (13) | 35 (13) |
Hyperglycemia | 34 (12) | 38 (14) |
Hypokalemia | 32 (12) | 32 (12) |
Musculoskeletal and Connective Tissue Disorders | 112 (41) | 105 (39) |
Pain in Extremity | 32 (12) | 29 (11) |
Back pain | 30 (11) | 28 (10) |
Nervous System Disorders | 92 (34) | 109 (40) |
Headache | 49 (18) | 40 (15) |
Tremor | 23 (8) | 38 (14) |
Psychiatric Disorders | 90 (33) | 72 (26) |
Insomnia | 47 (17) | 43 (16) |
Renal and Urinary Disorders | 112 (41) | 124 (45) |
Hematuria | 33 (12) | 33 (12) |
Dysuria | 29 (11) | 28 (10) |
Respiratory, Thoracic and Mediastinal Disorders | 86 (31) | 93 (34) |
Cough | 20 (7) | 30 (11) |
Vascular Disorders | 122 (45) | 124 (45) |
Hypertension | 81 (30) | 82 (30) |
*The safety analysis population defined as all randomized kidney transplant patients who received at least one dose of treatment and had at least one post-baseline safety assessment.
Adverse reaction that occurred with at least a 5% higher frequency in the Zortress 1.5 mg group compared to the control group were: peripheral edema (45% compared to 40%), hyperlipidemia (21% compared to 16%), dyslipidemia (15% compared to 9%), and stomatitis/mouth ulceration (8% compared to 3%).
A third treatment group of Zortress 3 mg per day (1.5 mg twice daily; target trough concentrations 6 to 12 ng/mL) with reduced exposure cyclosporine was included in the study described above. Although as effective as the lower dose Zortress group, the overall safety was worse and consequently higher doses of Zortress cannot be recommended. Out of 279 patients, 95 (34%) discontinued the study medication with 57 (20%) doing so because of adverse reactions. The most frequent adverse reactions leading to discontinuation of Zortress when used at this higher dose were injury, poisoning and procedural complications (Zortress 1.5 mg: 5%, Zortress 3 mg: 7%, and control: 2%), infections (2%, 6%, and 3%, respectively), renal and urinary disorders (4%, 7%, and 4%, respectively) and gastrointestinal disorders (1%, 3%, and 2%).
The combination of fixed dose Zortress and standard doses of cyclosporine in previous kidney clinical trials resulted in frequent elevations of serum creatinine with higher mean and median serum creatinine values observed than in the current study with reduced exposure cyclosporine. These results indicate that Zortress increases the cyclosporine-induced nephrotoxicity; and therefore should only be used in a concentration-controlled regimen with reduced exposure cyclosporine [see Boxed Warnings, Indications and Usage (1.1), Warnings and Precautions (5.6)].
Liver Transplantation
The data described below reflect exposure to Zortress starting 30 days after transplantation in an open-label, randomized trial of liver transplant patients. Seven hundred and nineteen (719) patients who fulfilled the inclusion/exclusion criteria [see Clinical Studies (14.2)] were randomized into one of the three treatment groups of the study. During the first 30 days prior to randomization patients received tacrolimus and corticosteroids, with or without mycophenolate mofetil (about 70% to 80% received MMF). No induction antibody was administered. At randomization, MMF was discontinued and patients were randomized to Zortress initial dose of 1 mg twice per day (2 mg daily) and adjusted to protocol specified target trough concentrations of 3 to 8 ng/mL with reduced exposure tacrolimus [protocol specified target troughs 3 to 5 ng/mL] (N = 245) [see Clinical Pharmacology (12.7, 12.9)] or to a control group of standard exposure tacrolimus [protocol specified target troughs 8 to 12 ng/mL up to Month 4 posttransplant, then 6 to 10 ng/mL Month 4 through Month 12 posttransplant] (N = 241). A third randomized group was discontinued prematurely [see Clinical Studies (14.2)] and is not described in this section.
The population was between 18 and 70 years, more than 50% were 50 years of age (mean age was 54 years in the Zortress group, 55 years in the tacrolimus control group); 74% were male in both Zortress and control groups, respectively, and a majority were Caucasian (86% Zortress group, 80% control group). Demographic characteristics were comparable between treatment groups. The most frequent diseases leading to transplantation were balanced between groups. The most frequent causes of end-stage liver disease (ESLD) were alcoholic cirrhosis, hepatitis C, and hepatocellular carcinoma and were balanced between groups.
Twenty-seven percent (27%) discontinued study drug in the Zortress group compared with 22% for the tacrolimus control group during the first 12 months of study. The most common reason for discontinuation of study medication was due to adverse reactions (19% and 11%, respectively), including proteinuria, recurrent hepatitis C, and pancytopenia in the Zortress group. At 24 months, the rate of discontinuation of study medication in liver transplant patients was greater for the Zortress group (42%) compared to tacrolimus control group (33%).
The overall incidences of serious adverse reactions were 50% (122/245) in the Zortress group and 43% (104/241) in the control group at 12 months and similar at 24 months (56% and 54% respectively). Infections and infestations were reported as serious adverse reactions with the highest incidence followed by gastrointestinal disorders and hepatobiliary disorders.
During the first 12 months of study, 13 deaths were reported in the Zortress group (one patient never took Zortress). In the same 12 month period, 7 deaths were reported in the tacrolimus control group. Deaths occurred in both groups for a variety of reasons and were mostly associated with liver-related issues, infections and sepsis. In the following 12 months of study, four additional deaths were reported in each treatment group.
The most common adverse reactions (reported for greater or equal to 10% patients in any group) in the Zortress group were: diarrhea, headache, peripheral edema, hypertension, nausea, pyrexia, abdominal pain, and leukopenia (see Table 3).
Infections
The overall incidence of infections reported as adverse reactions was 50% for Zortress and 44% in the control group and similar at 24 months (56% and 52% respectively). The types of infections were reported as follows: bacterial 16% vs 12%, viral 17% vs 13%; and fungal infections 2% vs 5% for Zortress and control, respectively [see Warnings and Precautions (5.3)].
Wound Healing and Fluid Collections
Wound healing complications were reported as adverse reactions for 11% of patients in the Zortress group compared to 8% of patients in the control group up to 24 months. Pleural effusions were reported in 5% in both groups, and ascites in 4% of patients in the Zortress group and 3% in the control arm.
Neoplasms
Malignant and benign neoplasms were reported as adverse reactions in 4% of patients in the Zortress group and 7% in the control group at 12 months. In the Zortress group, 3 malignant tumors were reported compared to 9 cases in the control group. For the Zortress group this included lymphoma, lymphoproliferative disorder and a hepatocellular carcinoma, and for the control group included Kaposi’s sarcoma (2), metastatic colorectal cancer, glioblastoma, malignant hepatic neoplasm, pancreatic neuroendocrine tumor, hemophagocytic histiocytosis, and squamous cell carcinomas. At 24 months, the rates of malignancies were similar (10% and 11% respectively) [see Boxed Warning, Warnings and Precautions (5.2)].
Lipid Abnormalities
Hyperlipidemia adverse reactions (including the preferred terms: hyperlipidemia, hypercholesterolemia, blood cholesterol increased, blood triglycerides increased, hypertriglyceridemia lipids increased, total cholesterol/HDL ratio increased, and dyslipidemia) were reported for 24% Zortress patients, and 10% control patients at 12 months. Results were similar at 24 months (28% and 12% respectively).
New Onset of Diabetes after Transplant (NODAT)
Of the patients without diabetes mellitus at randomization, NODAT was reported in 32% in the Zortress group compared to 29% in the control group at 12 months and similar at 24 months.
Table 3 compares the incidence of treatment-emergent adverse reactions reported with an incidence of greater than or equal to 10% for patients receiving Zortress with reduced exposure tacrolimus or standard dose tacrolimus from randomization to 24 months. Within each MedDRA system organ class, the adverse reactions are presented in order of decreasing frequency.
*The safety analysis population is defined as all randomized liver transplant patients who received at least one dose of treatment and had at least one post-baseline safety assessment. | ||||
Preferred System Organ Class
Preferred Term | 12 month | 24 month | ||
Zortress
With Reduced Exposure Tacrolimus N = 245 n (%) | Tacrolimus
Standard Exposure N = 241 n (%) | Zortress
With Reduced Exposure Tacrolimus N = 245 n (%) | Tacrolimus
Standard Exposure N = 242 n (%) |
|
Any Adverse Reaction/Infection | 232 (95) | 229 (95) | 236 (96) | 237 (98) |
Blood & Lymphatic System Disorders | 66 (27) | 47 (20) | 79 (32) | 58 (24) |
-Leukopenia | 29 (12) | 12 (5) | 31 (13) | 12 (5) |
Gastrointestinal Disorders | 136 (56) | 121 (50) | 148 (60) | 138 (57) |
-Diarrhea | 47 (19) | 50 (21) | 59 (24) | 61 (25) |
-Nausea | 33 (14) | 28 (12) | 36 (15) | 33 (14) |
-Abdominal pain | 32 (13) | 22 (9) | 37 (15) | 31 (13) |
General Disorders and Administration site Conditions | 94 (38) | 85 (35) | 113 (46) | 98 (41) |
-Peripheral Edema | 43 (18) | 26 (11) | 49 (20) | 31 (13) |
-Pyrexia | 32 (13) | 25 (10) | 43 (18) | 28 (12) |
-Fatigue | 22 (9) | 26 (11) | 27 (11) | 28 (12) |
Infections and Infestations | 123 (50) | 105 (44) | 135 (56) | 125 (52) |
-Hepatitis C* | 28 (11) | 19 (8) | 33 (14) | 24 (10) |
Investigations | 81 (33) | 78 (32) | 92 (38) | 98 (41) |
-Liver function test abnormal | 16 (7) | 24 (10) | 19 (8) | 25 (10) |
Metabolism and Nutrition Disorders | 111 (45) | 92 (38) | 134 (55) | 106 (44) |
-Hypercholesterolemia | 23 (9) | 6 (3) | 27 (11) | 9 (4) |
Nervous System Disorders | 89 (36) | 85 (35) | 99 (40) | 101 (42) |
-Headache | 47 (19) | 46 (19) | 53 (22) | 54 (22) |
-Tremor | 23 (9) | 29 (12) | 25 (10) | 37 (15) |
-Insomnia | 14 (6) | 19 (8) | 17 (7) | 24 (10) |
Renal and Urinary Disorders | 49 (20) | 53 (22) | 67 (27) | 73 (30) |
-Renal failure | 13 (5) | 17 (7) | 24 (10) | 37 (15) |
Vascular Disorders | 56 (23) | 57 (24) | 72 (29) | 68 (28) |
-Hypertension | 42 (17) | 38 (16) | 52 (21) | 44 (18) |
Primary system organ classes are presented alphabetically.
**No de novo hepatitis C cases were reported.
Less common adverse reactions, occurring overall in greater than or equal to 1% to less than 10% of either kidney or liver transplant patients treated with Zortress include:
Blood and Lymphatic System Disorders: anemia, leukocytosis, lymphadenopathy, neutropenia, pancytopenia, thrombocythemia, thrombocytopenia
Cardiac and Vascular Disorders: angina pectoris, atrial fibrillation, cardiac failure congestive, palpitations, tachycardia, hypertension including hypertensive crisis, hypotension, deep-vein thrombosis
Endocrine Disorders: Cushingoid, hyperparathyroidism, hypothyroidism
Eye Disorders: cataract, conjunctivitis, vision blurred
Gastrointestinal Disorders: abdominal distention, abdominal hernia, ascites, constipation, dyspepsia, dysphagia, epigastric discomfort, flatulence, gastritis, gastroesophageal reflux disease, gingival hypertrophy, hematemesis, hemorrhoids, ileus, mouth ulceration, peritonitis, stomatitis
General Disorders and Administrative Site Conditions: chest discomfort, chest pain, chills, fatigue, incisional hernia, inguinal hernia, malaise, edema including generalized edema, pain
Hepatobiliary Disorders: hepatic enzyme increased, bile duct stenosis, bilirubin increased, cholangitis, cholestasis, hepatitis (non-infectious)
Infections and Infestations: BK virus infection [see Warnings and Precautions (5.13)], bacteremia, bronchitis, candidiasis, cellulitis, CMV, folliculitis, gastroenteritis, herpes infections, influenza, lower respiratory tract, nasopharyngitis, onychomycosis, oral candidiasis, oral herpes, osteomyelitis, pneumonia, pyelonephritis, sepsis, sinusitis, tinea pedis, upper respiratory tract infection, urethritis, urinary tract infection, wound infection [see Boxed Warning, Warnings and Precautions (5.3)]
Injury Poisoning and Procedural Complications: incision site complications including infections, perinephric collection, seroma, wound dehiscence, incisional hernia, perinephric hematoma, localized intra-abdominal fluid collection, impaired healing, lymophocele, lymphorrhea
Investigations: blood alkaline phosphatase increased, blood creatinine increased, blood glucose increased, hemoglobin decreased, white blood cell count decreased, transaminases increased
Metabolism and Nutrition Disorders: blood urea increased, acidosis, anorexia, dehydration, diabetes mellitus [see Warnings and Precautions (5.16)], decreased appetite, fluid retention, gout, hypercalcemia, hypertriglyceridemia, hyperuricemia, hypocalcemia, hypokalemia, hypoglycemia, hypomagnesemia, hyponatremia, iron deficiency, new onset diabetes mellitus, vitamin B12 deficiency
Musculoskeletal and Connective Tissues Disorders: arthralgia, joint swelling, muscle spasms, muscular weakness, musculoskeletal pain, myalgia, osteoarthritis, osteonecrosis, osteopenia, osteoporosis, spondylitis
Nervous System Disorders: dizziness, hemiparesis, hypoesthesia, lethargy, migraine, neuralgia, paresthesia, somnolence, syncope, tremor
Psychiatric Disorders: agitation, anxiety, depression, hallucination
Renal and Urinary Disorders: bladder spasm, hydronephrosis, micturation urgency, nephritis interstitial, nocturia, pollakiuria, polyuria, proteinuria [see Warnings and Precautions (5.12)], pyuria, renal artery thrombosis [see Boxed Warning, Warnings and Precautions (5.4)], acute renal failure, renal impairment [see Warnings and Precautions (5.6)], renal tubular necrosis, urinary retention
Reproductive System and Breast Disorders: amenorrhea, benign prostatic hyperplasia, erectile dysfunction, ovarian cyst, scrotal edema
Respiratory, Thoracic, Mediastinal Disorders: atelectasis, bronchitis, dyspnea, cough, epistaxis, lower respiratory tract infection, nasal congestion, oropharyngeal pain, pleural effusions, pulmonary edema, rhinorrhea, sinus congestion, wheezing
Skin and Subcutaneous Tissue Disorders: acne, alopecia, dermatitis acneiform, ecchymosis, hirsutism, hyperhidrosis, hypertrichosis, night sweats, pruritus, rash
Vascular Disorders: venous thromboembolism (including deep vein thrombosis), phlebitis, pulmonary embolism
Less common, serious adverse reactions occurring overall in less than1% of either kidney or liver transplant patients treated with Zortress include:
Adverse reactions identified from the postmarketing use of the combination regimen of Zortress and cyclosporine that are not specific to any one transplant indication include angioedema [see Warnings and Precautions (5.8)], erythroderma, leukocytoclastic vasculitis, pancreatitis, pulmonary alveolar proteinosis, and pulmonary embolism. There have also been reports of male infertility with mTOR inhibitors including Zortress [see Warnings and Precautions (5.18)].
Everolimus is mainly metabolized by CYP3A4 in the liver and to some extent in the intestinal wall and is a substrate for the multidrug efflux pump, P-glycoprotein (P-gp). Therefore, absorption and subsequent elimination of systemically absorbed everolimus may be influenced by medicinal products that affect CYP3A4 and/or P-gp. Concurrent treatment with strong inhibitors (e.g., ketoconazole, itraconazole, voriconazole, clarithromycin, telithromycin, ritonavir, boceprevir, telaprevir) and inducers (e.g., rifampin, rifabutin) of CYP3A4 is not recommended. Inhibitors of P-gp (e.g., digoxin, cyclosporine) may decrease the efflux of everolimus from intestinal cells and increase everolimus blood concentrations. In vitro, everolimus was a competitive inhibitor of CYP3A4 and of CYP2D6, potentially increasing the concentrations of medicinal products eliminated by these enzymes. Thus, caution should be exercised when coadministering Zortress with CYP3A4 and CYP2D6 substrates with a narrow therapeutic index [see Dosage and Administration (2.3)].
All in vivo interaction studies were conducted without concomitant cyclosporine. Pharmacokinetic interactions between Zortress and concomitantly administered drugs are discussed below. Drug interaction studies have not been conducted with drugs other than those described below.
The steady-state Cmax and area under the curve (AUC) estimates of everolimus were significantly increased by coadministration of single dose cyclosporine [see Clinical Pharmacology (12.5)]. Dose adjustment of Zortress might be needed if the cyclosporine dose is altered [see Dosage and Administration (2.3)]. Zortress had a clinically minor influence on cyclosporine pharmacokinetics in transplant patients receiving cyclosporine (Neoral).
Multiple-dose ketoconazole administration to healthy volunteers significantly increased single dose estimates of everolimus Cmax, AUC, and half-life. It is recommended that strong inhibitors of CYP3A4 (e.g., ketoconazole, itraconazole, voriconazole, clarithromycin, telithromycin, ritonavir, boceprevir, telaprevir) should not be coadministered with Zortress [see Warnings and Precautions (5.14), Clinical Pharmacology (12.5)].
Multiple-dose erythromycin administration to healthy volunteers significantly increased single dose estimates of everolimus Cmax, AUC, and half-life. If erythromycin is coadministered, everolimus blood concentrations should be monitored and a dose adjustment made as necessary [see Clinical Pharmacology (12.5)].
Multiple-dose verapamil administration to healthy volunteers significantly increased single dose estimates of everolimus Cmax and AUC. Everolimus half-life was not changed. If verapamil is coadministered, everolimus blood concentrations should be monitored and a dose adjustment made as necessary [see Clinical Pharmacology (12.5)].
Single-dose administration of Zortress with either atorvastatin or pravastatin to healthy subjects did not influence the pharmacokinetics of atorvastatin, pravastatin and everolimus, as well as total HMG-CoA reductase bioreactivity in plasma to a clinically relevant extent. However, these results cannot be extrapolated to other HMG-CoA reductase inhibitors. Patients should be monitored for the development of rhabdomyolysis and other adverse reactions as described in the respective labeling for these products.
Due to an interaction with cyclosporine, clinical studies of Zortress with cyclosporine conducted in kidney transplant patients strongly discouraged patients with receiving HMG-CoA reductase inhibitors such as simvastatin and lovastatin [see Warnings and Precautions (5.11)].
Pretreatment of healthy subjects with multiple-dose rifampin followed by a single dose of Zortress increased everolimus clearance and decreased the everolimus Cmax and AUC estimates. Combination with rifampin is not recommended [see Warnings and Precautions (5.14), Clinical Pharmacology (12.5)].
Single-dose administration of midazolam to healthy volunteers following administration of multiple-dose Zortress indicated that everolimus is a weak inhibitor of CYP3A4/5. Dose adjustment of midazolam or other CYP3A4/5 substrates is not necessary when Zortress is coadministered with midazolam or other CYP3A4/5 substrates [see Clinical Pharmacology (12.5)].
Moderate inhibitors of CYP3A4 and P-gp may increase everolimus blood concentrations (e.g., fluconazole; macrolide antibiotics; nicardipine, diltiazem; nelfinavir, indinavir, amprenavir). Inducers of CYP3A4 may increase the metabolism of everolimus and decrease everolimus blood concentrations (e.g., St. John’s Wort [Hypericum perforatum]; anticonvulsants: carbamazepine, phenobarbital, phenytoin; efavirenz, nevirapine).
Risk Summary
Based on animal studies and the mechanism of action [see Clinical Pharmacology (12.1)], Zortress can cause fetal harm when administered to a pregnant woman. There are limited case reports of Zortress use in pregnant women; however, these reports are insufficient to inform a drug associated risk of adverse developmental outcomes. Reproductive studies in animals have demonstrated that everolimus was maternally toxic in rabbits, and caused embryo-fetal toxicities in rats and rabbits, at exposures near or below those achieved in human transplant patients. Advise pregnant women of the potential risk to a fetus.
The background risk of major birth defects and miscarriage for the indicated population is unknown; however, in the U.S. general population, the estimated background risk of major birth defects is 2%-4% and of miscarriage is 15%-20% of clinically recognized pregnancies.
Data
Animal Data
Everolimus crossed the placenta and was toxic to the conceptus.
Everolimus administered daily to pregnant rats by oral gavage at 0.1 mg/kg (approximately one tenth the exposure in humans administered the lowest starting dose of 0.75 mg twice daily), from before mating through organogenesis, resulted in increased preimplantation loss and embryonic resorptions. These effects occurred in the absence of maternal toxicities.
Everolimus administered daily by oral gavage to pregnant rabbits during organogenesis resulted in abortions, maternal toxicity and lethality, and increased fetal resorptions. At these doses, exposure to everolimus (AUC) was approximately one-tenth, one-half, and one and one-half fold the exposures in humans administered the starting clinical dose, respectively.
In a pre- and post-natal development study in rats, animals were dosed from implantation through lactation. At a dose of 0.1 mg/kg (0.6 mg/m2), there were no adverse effects on delivery and lactation or signs of maternal toxicity; however, there were reductions in body weight (up to 9% reduction) and in survival of offspring (~5%). There were no drug-related effects on the developmental parameters (morphological development, motor activity, learning, or fertility assessment) in the offspring.
Risk Summary
There is no data regarding the presence of Zortress in human milk, the effects on breastfed infants, or the effects on milk production. Everolimus and/or its metabolites are readily transferred into milk of lactating rats at a concentration 3.5 times higher than in maternal rat serum. In pre-post-natal and juvenile studies in rats, exposure to everolimus during the postnatal period caused developmental toxicity [see Use in Specific Populations (8.1), Nonclinical Toxicology (13.2)]. Advise lactating women not to breastfeed because of the potential for serious adverse reactions in infants exposed to everolimus.
Contraception
Females should not be pregnant or become pregnant while receiving Zortress. Advise females of reproductive potential that animal studies have been performed showing Zortress to be harmful to the mother and developing fetus [see Use in Specific Populations (8.1)]. Females of reproductive potential are recommended to use highly effective contraception methods while receiving Zortress and up to 8 weeks after treatment has been stopped.
Infertility
Females
Amenorrhea occurred in female patients taking Zortress [see Adverse Reactions (6.2)]. Zortress may cause pre-implantation loss in females based on animal data [see Nonclinical Toxicology (13.1)].
Female fertility may be compromised by treatment with Zortress.
Males
Zortress treatment may impair fertility in males based on human [see Warnings and Precautions (5.18), Adverse Reactions (6.2, 6.3)] and animal findings [see Nonclinical Toxicology (13.1)].
The safe and effective use of Zortress in kidney or liver transplant patients younger than 18 years of age has not been established.
There is limited clinical experience on the use of Zortress in patients of age 65 years or older. There is no evidence to suggest that elderly patients will require a different dosage recommendation from younger adult patients [see Clinical Pharmacology (12.5)].
Everolimus whole blood trough concentrations should be closely monitored in patients with impaired hepatic function. For patients with mild hepatic impairment (Child-Pugh Class A), the dose should be reduced by approximately one-third of the normally recommended daily dose. For patients with moderate or severe hepatic impairment (Child-Pugh B or C), the initial daily dose should be reduced to approximately half of the normally recommended daily dose. Further dose adjustment and/or dose titration should be made if a patient’s whole blood trough concentration of everolimus, as measured by an LC/MS/MS assay, is not within the target trough concentration range of 3 to 8 ng/mL [see Clinical Pharmacology (12.6)].
Reported experience with overdose in humans is very limited. There is a single case of an accidental ingestion of 1.5 mg everolimus in a 2-year-old child where no adverse reactions were observed. Single doses up to 25 mg have been administered to transplant patients with acceptable acute tolerability. Single doses up to 70 mg (without cyclosporine) have been given with acceptable acute tolerability. General supportive measures should be followed in all cases of overdose. Everolimus is not considered dialyzable to any relevant degree (less than 10% of everolimus removed within 6 hours of hemodialysis). In animal studies, everolimus showed a low acute toxic potential. No lethality or severe toxicity was observed after single oral doses of 2000 mg/kg (limit test) in either mice or rats.
Zortress (everolimus) is a macrolide immunosuppressant.
The chemical name of everolimus is (1R, 9S, 12S, 15R, 16E, 18R, 19R, 21R, 23S, 24E, 26E, 28E, 30S, 32S, 35R)-1, 18-dihydroxy-12 -{(1R)-2-[(1S,3R,4R)-4-(2-hydroxyethoxy)-3-methoxycyclohexyl]-1-methylethyl}-19,30-dimethoxy-15, 17, 21, 23, 29, 35-hexamethyl-11, 36-dioxa-4-aza-tricyclo[30.3.1.04,9] hexatriaconta-16,24,26,28-tetraene-2, 3,10,14,20-pentaone.
The molecular formula is C53H83NO14 and the molecular weight is 958.25 g/mol. The structural formula is:
Zortress is supplied as tablets for oral administration containing 0.25 mg, 0.5 mg, 0.75 mg and 1 mg of everolimus together with butylated hydroxytoluene, magnesium stearate, lactose monohydrate, hypromellose, crospovidone and lactose anhydrous as inactive ingredients.
Everolimus inhibits antigenic and interleukin (IL-2 and IL-15) stimulated activation and proliferation of T and B lymphocytes.
In cells, everolimus binds to a cytoplasmic protein, the FK506 Binding Protein-12 (FKBP-12), to form an immunosuppressive complex (everolimus: FKBP-12) that binds to and inhibits the mammalian target of rapamycin (mTOR), a key regulatory kinase. In the presence of everolimus phosphorylation of p70 S6 ribosomal protein kinase (p70S6K), a substrate of mTOR, is inhibited. Consequently, phosphorylation of the ribosomal S6 protein and subsequent protein synthesis and cell proliferation are inhibited. The everolimus: FKBP-12 complex has no effect on calcineurin activity.
In rats and nonhuman primate models, everolimus effectively reduces kidney allograft rejection resulting in prolonged graft survival.
Everolimus pharmacokinetics have been characterized after oral administration of single and multiple doses to adult kidney transplant patients, hepatically-impaired patients, and healthy subjects.
Absorption
After oral dosing, peak everolimus concentrations occur 1 to 2 hours post dose. Over the dose range of 0.5 mg to 2 mg twice daily, everolimus Cmax and AUC are dose proportional in transplant patients at steady-state.
Food Effect
In 24 healthy subjects, a high-fat breakfast (44.5 g fat) reduced everolimus Cmax by 60%, delayed Tmax by a median 1.3 hours, and reduced AUC by 16% compared with a fasting administration. To minimize variability, everolimus should be taken consistently with or without food [see Dosage and Administration (2.6)].
Distribution
The blood-to-plasma ratio of everolimus is concentration dependent ranging from 17% to 73% over the range of 5 ng/mL to 5000 ng/mL. Plasma protein binding is approximately 74% in healthy subjects and in patients with moderate hepatic impairment. The apparent distribution volume associated with the terminal phase (Vz/F) from a single-dose pharmacokinetic study in maintenance kidney transplant patients is 342 to 107 L (range 128 to 589 L).
Elimination
Metabolism
Everolimus is a substrate of CYP3A4 and P-gp. Following oral administration, everolimus is the main circulating component in human blood. Six main metabolites of everolimus have been detected in human blood, including 3 monohydroxylated metabolites, 2 hydrolytic ring-opened products, and a phosphatidylcholine conjugate of everolimus. These metabolites were also identified in animal species used in toxicity studies, and showed approximately 100 times less activity than everolimus itself.
Excretion
After a single dose of radiolabeled everolimus was given to transplant patients receiving cyclosporine, the majority (80%) of radioactivity was recovered from the feces and only a minor amount (5%) was excreted in urine. Parent drug was not detected in urine and feces.
Pharmacokinetics in Kidney Transplant Patients
Steady-state is reached by Day 4 with an accumulation in blood concentrations of 2- to 3-fold compared with the exposure after the first dose. Table 4 below provides a summary of the steady-state pharmacokinetic parameters.
Cmax | Tmax | AUC | CL/F1 | Vc/F1 | Half-life (T1/2) |
11.1 + 4.6 ng/mL | 1-2 h | 75 + 31 ngh/mL | 8.8 L/h | 110 L | 30 ± 11h |
1population pharmacokinetic analysis
The half-life estimates from 12 maintenance renal transplant patients who received single doses of everolimus capsules at 0.75 mg or 2.5 mg with their maintenance cyclosporine regimen indicate that the pharmacokinetics of everolimus are linear over the clinically-relevant dose range. Results indicate the half-life of everolimus in maintenance renal transplant patients receiving single doses of 0.75 mg or 2.5 mg Zortress during steady-state cyclosporine treatment was 30 ± 11 hours (range 19 to 53 hours).
Everolimus is known to be a substrate for both cytochrome CYP3A4 and P-gp. The pharmacokinetic interaction between everolimus and concomitantly administered drugs is discussed below. Drug interaction studies have not been conducted with drugs other than those described below [see Warnings and Precautions (5.14), Drug Interactions (7)].
Cyclosporine (CYP3A4/P-gp Inhibitor and CYP3A4 Substrate): Zortress should be taken concomitantly with cyclosporine in kidney transplant patients. Everolimus concentrations may decrease when doses of cyclosporine are reduced, unless the Zortress dose is increased [see Dosage and Administration (2.1), Drug Interactions (7.2)].
In a single-dose study in healthy subjects, cyclosporine (Neoral) administered at a dose of 175 mg increased everolimus AUC by 168% (range 46% to 365%) and Cmax by 82% (range 25% to 158%) when administered with 2 mg Zortress compared with administration of Zortress alone [see Drug Interactions (7.2)].
Ketoconazole and Other Strong CYP3A4 Inhibitors: Multiple-dose administration of 200 mg ketoconazole twice daily for 5 days to 12 healthy volunteers significantly increased everolimus Cmax, AUC, and half-life by 3.9-fold, 15-fold, and 89%, respectively, when coadministered with 2 mg Zortress. It is recommended that strong inhibitors of CYP3A4 (e.g., ketoconazole, itraconazole, voriconazole, clarithromycin, telithromycin, ritonavir, boceprevir, telaprevir) should not be coadministered with Zortress [see Warnings and Precautions (5.14), Drug Interactions (7.3)].
Erythromycin (Moderate CYP3A4 Inhibitor): Multiple-dose administration of 500 mg erythromycin 3 times daily for 5 days to 16 healthy volunteers significantly increased everolimus Cmax, AUC, and half-life by 2-fold, 4.4-fold, and 39%, respectively, when coadministered with 2 mg Zortress. If erythromycin is coadministered, everolimus blood concentrations should be monitored and a dose adjustment made as necessary [see Drug Interactions (7.4)].
Verapamil (CYP3A4 Inhibitor and P-gp Substrate): Multiple-dose administration of 80 mg verapamil 3 times daily for 5 days to 16 healthy volunteers significantly increased everolimus Cmax and AUC by 2.3-fold and 3.5-fold, respectively, when coadministered with 2 mg Zortress. Everolimus half-life was not changed. If verapamil is coadministered, everolimus blood concentrations should be monitored and a dose adjustment made as necessary [see Drug Interactions (7.5)].
Atorvastatin (CYP3A4 Substrate) and Pravastatin (P-gp Substrate): Following administration of a single dose of 2 mg Zortress to 12 healthy subjects, the concomitant administration of a single oral dose administration of atorvastatin 20 mg or pravastatin 20 mg only slightly decreased everolimus Cmax and AUC by 9% and 10%, respectively. There was no apparent change in the mean T1/2 or median Tmax. In the same study, the concomitant Zortress dose slightly increased the mean Cmax of atorvastatin by 11% and slightly decreased the AUC by 7%. The concomitant Zortress dose decreased the mean Cmax and AUC of pravastatin by 10% and 5%, respectively. No dosage adjustments are needed for concomitant administration of Zortress and atorvastatin and pravastatin [see Drug Interactions (7.6)].
Midazolam (CYP3A4/5 Substrate): In 25 healthy male subjects, coadministration of a single dose of midazolam 4 mg oral solution with steady-state everolimus (10 mg daily dose for 5 days) resulted in a 25% increase in midazolam Cmax and a 30% increase in midazolam AUC; whereas, the terminal half-life of midazolam and the metabolic AUC-ratio (1-hydroxymidazolam/midazolam) were not affected [see Drug Interactions (7.9)].
Rifampin (Strong CYP3A4 and P-gp Inducer): Pretreatment of 12 healthy subjects with multiple-dose rifampin (600 mg once-daily for 8 days) followed by a single dose of 4 mg Zortress increased everolimus clearance nearly 3-fold, and decreased Cmax by 58% and AUC by 63%. Combination with rifampin is not recommended [see Drug Interactions (7.8)].
Hepatic Impairment
Relative to the AUC of everolimus in subjects with normal hepatic function, the average AUC in 6 patients with mild hepatic impairment (Child-Pugh Class A) was 1.6-fold higher following administration of a 10 mg single-dose. In 2 independently studied groups of 8 and 9 patients with moderate hepatic impairment (Child-Pugh Class B) the average AUC was 2.1-fold and 3.3-fold higher following administration of a 2 mg or a 10 mg single-dose, respectively; and in 6 patients with severe hepatic impairment (Child-Pugh Class C) the average AUC was 3.6-fold higher following administration of a 10 mg single-dose. For patients with mild hepatic impairment (Child-Pugh Class A), the dose should be reduced by approximately one-third of the normally recommended daily dose. For patients with moderate or severe hepatic impairment (Child-Pugh B or C), the initial daily dose should be reduced to approximately one-half of the normally recommended daily dose. Further dose adjustment and/or dose titration should be made if a patient’s whole blood trough concentration of everolimus, as measured by an LC/MS/MS assay, is not within the target trough concentration range of 3 to 8 ng/mL [see Dosage and Administration (2.7)].
Renal Impairment
No pharmacokinetic studies in patients with renal impairment were conducted. Posttransplant renal function (creatinine clearance range 11 to 107 mL/min) did not affect the pharmacokinetics of everolimus, therefore, no dosage adjustments are needed in patients with renal impairment.
Geriatrics
A limited reduction in everolimus oral CL/F of 0.33% per year was estimated in adults (age range studied was 16 to 70 years). There is no evidence to suggest that elderly patients will require a different dosage recommendation from younger adult patients.
Race
Based on analysis of population pharmacokinetics, oral clearance (CL/F) is, on average, 20% higher in black transplant patients.
Everolimus in Kidney Transplantation
Based on exposure-efficacy and exposure-safety analyses of clinical trials and using an LC/MS/MS assay method, kidney transplant patients achieving everolimus whole blood trough concentrations greater than or equal to 3 ng/mL have been found to have a lower incidence of treated biopsy-proven acute rejection compared with patients whose trough concentrations were below 3 ng/mL. Patients who attained everolimus trough concentrations within the range of 6 to 12 ng/mL had similar efficacy and more adverse reactions than patients who attained lower trough concentrations between 3 to 8 ng/mL [see Dosage and Administration (2.3)].
In the kidney clinical trial [see Clinical Studies (14.1)], everolimus whole blood trough concentrations were measured at Days 3, 7, and 14 and Months 1, 2, 3, 4, 6, 7, 9, and 12. The proportion of patients receiving 0.75 mg twice daily Zortress treatment regimen who had everolimus whole blood trough concentrations within the protocol specified target range of 3 to 8 ng/mL at Days 3, 7, and 14 were 55%, 71% and 69%, respectively. Approximately 80% of patients had everolimus whole blood trough concentrations within the 3 to 8 ng/mL target range by Month 1 and remained stable within range through Month 12 posttransplant. The median everolimus trough concentration for the 0.75 mg twice daily treatment group was between 3 and 8 ng/mL throughout the study duration.
Everolimus in Liver Transplantation
In the liver clinical trial [see Clinical Studies (14.2)], Zortress dosing was initiated after 30 days following transplantation. Whole blood trough everolimus concentrations were measured within 5 days after first dose, followed by weekly intervals for 3 to 4 weeks, and then monthly thereafter. Approximately 49%, 37%, and 18% of patients, respectively, were below 3 ng/mL at 1, 2, and 4 weeks after initiation of Zortress dosing. The majority of patients (approximately 70% to 80%) had everolimus trough blood concentrations within the target range of 3 to 8 ng/mL from Month 2 through Month 24 posttransplant.
In the kidney transplant clinical trial [see Clinical Studies (14.1)], the target cyclosporine whole blood trough concentration for the Zortress treatment arm of 0.75 mg twice daily were 100 to 200 ng/mL through Month 1 posttransplant, 75 to 150 ng/mL at Months 2 and 3 posttransplant, 50 to 100 ng/mL at Month 4 posttransplant, and 25 to 50 ng/mL from Month 6 through Month 12 posttransplant. Table 5 below provides a summary of the observed cyclosporine whole blood trough concentrations during the study.
Treatment Group | Visit | N | Target
(ng/mL) | Median | 10th Percentile | 90th Percentile |
Zortress 0.75 mg twice daily | Day 3 | 242 | 100-200 | 172 | 46 | 388 |
Day 7 | 265 | 100-200 | 185 | 75 | 337 | |
Day 14 | 243 | 100-200 | 182 | 97 | 309 | |
Month 1 | 245 | 100-200 | 161 | 85 | 274 | |
Month 2 | 232 | 75-150 | 140 | 84 | 213 | |
Month 3 | 220 | 75-150 | 111 | 68 | 187 | |
Month 4 | 208 | 50-100 | 99 | 56 | 156 | |
Month 6 | 200 | 25-50 | 75 | 43 | 142 | |
Month 7 | 199 | 25-50 | 59 | 36 | 117 | |
Month 9 | 194 | 25-50 | 49 | 28 | 91 | |
Month 12 | 186 | 25-50 | 46 | 25 | 100 |
In the liver transplant clinical trial [see Clinical Studies (14.2)], the target tacrolimus whole blood trough concentrations were greater than or equal to 8 ng/mL in the first 30 days posttransplant. The protocol required that patients had a tacrolimus trough concentration of at least 8 ng/mL in the week prior to initiation of Zortress. Zortress was initiated after 30 days posttransplant. At that time, the target tacrolimus trough concentrations were reduced to 3 to 5 ng/mL. Table 6 below provides a summary of the tacrolimus whole blood trough concentrations observed during the study through Month 24 posttransplant.
Treatment Group | Visit | N | Target (ng/mL) | Median | 10th
Percentile | 90th
Percentile |
Pre-dose group Zortress 1 mg twice daily (initiated at Month 1) | Week 4 | 234 | 3-5 | 9.5 | 5.8 | 14.6 |
Week 5 | 219 | 3-5 | 8.1 | 4.5 | 13.8 | |
Week 6 | 233 | 3-5 | 7.0 | 4.1 | 12.0 | |
Month 2 | 219 | 3-5 | 5.6 | 3.4 | 10.3 | |
Month 3 | 218 | 3-5 | 5.2 | 3.1 | 9.7 | |
Month 4 | 196 | 3-5 | 4.9 | 2.9 | 7.7 | |
Month 5 | 195 | 3-5 | 4.8 | 2.7 | 7.3 | |
Month 6 | 200 | 3-5 | 4.6 | 3.0 | 7.5 | |
Month 9 | 186 | 3-5 | 4.4 | 2.9 | 8.0 | |
Month 12 | 175 | 3-5 | 4.3 | 2.6 | 7.3 | |
Month 24 | 109 | 3-5 | 3.8 | 2.3 | 5.5 |
Everolimus was not carcinogenic in mice or rats when administered daily by oral gavage for 2 years at doses up to 0.9 mg/kg, the highest dose tested. In these studies, AUCs in mice were higher (at least 20 times) than those in humans receiving 0.75 mg twice daily, and AUCs in rats were in the same range as those in humans receiving 0.75 mg twice daily.
Everolimus was not mutagenic in the bacterial reverse mutation, the mouse lymphoma thymidine kinase assay, or the chromosome aberration assay using V79 Chinese hamster cells, or in vivo following two daily doses of 500 mg/kg in the mouse micronucleus assay.
In a 13-week male fertility oral gavage study in rats, testicular morphology was affected at 0.5 mg/kg and above, and sperm motility, sperm head count and plasma testosterone concentrations were diminished at 5 mg/kg which caused a decrease in male fertility. There was evidence of reversibility of these findings in animals examined after 13 weeks post-dosing. The 0.5 mg/kg dose in male rats resulted in AUCs in the range of clinical exposures, and the 5 mg/kg dose resulted in AUCs approximately 5 times the AUCs in humans receiving 0.75 mg twice daily.
Oral doses of everolimus in female rats greater or equal to 0.1 mg/kg (approximately 0.13-fold the estimated AUC 0-24h in patients receiving the starting dose 0.75 mg twice daily) resulted in increased incidence of pre-implantation loss.
In an oral neonatal and juvenile development study in rats, oral administration of everolimus from postnatal Day 7 to 70 produced dose-related delayed attainment of developmental landmarks, including delayed eye-opening, delayed reproductive development in males and females, and increased latency time during the learning and memory phases were observed at doses as low as 0.15 mg/kg/day. Exposures in the rat at these doses were equal to or less than those obtained in adult human transplant patients.
A 24-month, multi-national, open-label, randomized (1:1:1) trial was conducted comparing two concentration-controlled Zortress regimens of 1.5 mg per day starting dose (targeting 3 to 8 ng/mL using an LC/MS/MS assay method and 3 mg per day starting dose (targeting 6 to 12 ng/mL using an LC/MS/MS assay method) with reduced exposure cyclosporine and corticosteroids, to 1.44 g per day of mycophenolic acid with standard exposure cyclosporine and corticosteroids. The mean cyclosporine starting dose was 5.2, 5 and 5.7 mg/kg body weight/day in the Zortress 1.5 mg, 3 mg and in mycophenolic acid groups, respectively. The cyclosporine dose in the Zortress group was then adjusted to the blood trough concentration ranges indicated in Table 5, whereas in the mycophenolic acid group the target ranges were 200 to 300 ng/mL starting Day 5: 200 to 300 ng/mL, and 100 to 250 ng/mL from Month 2 to Month 12.
All patients received basiliximab induction therapy. The study population consisted of 18 to 70 year old male and female low-to-moderate risk renal transplant recipients undergoing their first transplant. Low to moderate immunologic risk was defined in the study as an ABO blood type compatible first organ or tissue transplant recipient with anti-human leukocyte antigen (HLA) Class I panel reactive antibody (PRA) less than 20% by a complement dependent cytotoxicity-based assay, or less than 50% by a flow cytometry or ELISA-based assay, and with a negative T-cell cross match. Eight hundred thirty-three (833) patients were randomized after transplantation; 277 randomized to the Zortress 1.5 mg per day group, 279 to the Zortress 3 mg per day group and 277 to the mycophenolic acid 1.44 g per day group. The study was conducted at 79 renal transplant centers across Europe, South Africa, North and South America, and Asia-Pacific. There were no major baseline differences between treatment groups with regard to recipient or donor disease characteristics. The majority of transplant recipients in all groups (70% to 76%) had three or more HLA mismatches; mean percentage of panel reactive antibodies ranged from 1% to 2%. The rate of premature treatment discontinuation at 12 months was 30% and 22% in the Zortress 1.5 mg and control groups, respectively, (p = 0.03, Fisher’s exact test) and was more prominent between groups among female patients. Results at 12 months indicated that Zortress 1.5 mg per day is comparable to control with respect to efficacy failure, defined as treated biopsy-proven acute rejection*, graft loss, death or loss to follow-up. The percentage of patients experiencing this endpoint and each individual variable in the Zortress and control groups is shown in Table 7.
Zortress (everolimus)
1.5 mg per day With Reduced Exposure CsA N = 277 n (%) | Mycophenolic Acid
1.44 g per day With Standard Exposure CsA N = 277 n (%) |
||
Efficacy Endpoints1 | |||
Efficacy Failure Endpoint2 | 70 (25.3) | 67 (24.2) | |
Treated Biopsy Proven Acute Rejection | 45 (16.2) | 47 (17.0) | |
Death | 7 (2.5) | 6 (2.2) | |
Graft Loss | 12 (4.3) | 9 (3.2) | |
Loss to Follow-up | 12 (4.3) | 9 (3.2) | |
Graft Loss or Death or Loss to Follow-up3 | 32 (11.6) | 26 (9.4) | |
Graft Loss or Death | 18 (6.5) | 15 (5.4) | |
Loss to Follow-up3 | 14 (5.1) | 11 (4.0) |
*Treated biopsy-proven acute rejection (tBPAR) was defined as a histologically confirmed acute rejection with a biopsy graded as IA, IB, IIA, IIB, or III according to 1997 Banff criteria that were treated with anti-rejection medication.
1The difference in rates (Zortress–mycophenolic acid) with 95% CI for primary efficacy failure endpoint is 1.1% (-6.1%, 8.3%); and for the graft loss, death or loss to follow-up endpoint is 2.2% (-2.9%, 7.3%).
2Includes treated BPAR, graft loss, death or loss to follow-up by Month 12 where loss to follow-up represents patient who did not experience treated BPAR, graft loss or death and whose last contact date is prior to 12-month visit.
3Loss to follow-up (for Graft Loss, Death, or Loss to Follow-up) represents patient who did not experience death or graft loss and whose last contact date is prior to 12-month visit.
The estimated mean glomerular filtration rate (using the MDRD equation) for Zortress 1.5 mg (target trough concentrations 3 to 8 ng/mL) and mycophenolic acid groups were comparable at Month 12 in the ITT population (Table 8).
Month 12 GFR (MDRD) | Zortress (everolimus)
1.5 mg per day with reduced exposure CsA N = 276 | Mycophenolic Acid
1.44 g per day with standard exposure CsA N = 277 |
Mean (SD)** | 54.6 (21.7) | 52.3 (26.5) |
Median (Range) | 55.0 (0-140.9) | 50.1 (0.0-366.4) |
*Analysis based on using a subject’s last observation carried forward for missing data at 12 months due to death or lost to follow-up data, a value of zero is used for subjects who experienced a graft loss.
**SD = standard deviation
Two earlier studies compared fixed doses of Zortress 1.5 mg per day and 3 mg per day, without TDM, combined with standard exposure cyclosporine and corticosteroids to mycophenolate mofetil 2 g per day and corticosteroids. Antilymphocyte antibody induction was prohibited in both studies. Both were multicenter, double-blind (for first 12 months), randomized trials (1:1:1) of 588 and 583 de novo renal transplant patients, respectively. The 12-month analysis of GFR showed increased rates of renal impairment in both the Zortress groups compared to the mycophenolate mofetil group in both studies. Therefore, reduced exposure cyclosporine should be used in combination with Zortress in order to avoid renal dysfunction and everolimus trough concentrations should be adjusted using TDM to maintain trough concentrations between 3 to 8 ng/mL [see Boxed Warning, Dosage and Administration (2.4), Warnings and Precautions (5.6)].
A 24 month, multinational, open-label, randomized (1:1:1) trial was conducted in liver transplant patients starting 30 days posttransplant. During the first 30 days, after transplant and prior to randomization, patients received tacrolimus and corticosteriods, with or without mycophenolate mofetil. No induction antibody was administered. Approximately 70% to 80% of patients received at least one dose of mycophenolate mofetil at a median total daily dose of 1.5 g during the first 30 days. For eligibility, patients had to have a tacrolimus trough concentration of at least 8 ng/mL in the week prior to randomization.
At randomization, mycophenolate mofetil was discontinued and patients were randomized to one of two Zortress treatment groups [initial dose of 1 mg twice per day (2 mg daily) and adjusted to target trough concentrations using an LC/MS/MS assay of 3 to 8 ng/mL] either with reduced exposure of tacrolimus (target trough whole blood concentrations of 3 to 5 ng/mL) or tacrolimus elimination. In the tacrolimus elimination group, at Month 4 posttransplant, once the everolimus trough concentrations were within the target range of 6 to 10 ng/mL, reduced exposure tacrolimus was eliminated. The Zortress with tacrolimus elimination group was discontinued early due to higher incidence of acute rejection. In the control group, patients received standard exposure tacrolimus (target trough whole blood concentrations of 8 to 12 ng/mL tapered to 6 to 10 ng/mL by Month 4 posttransplant). All patients received corticosteroids during the trial.
The study population consisted of 18 to 70 year old male and female liver transplant recipients undergoing their first transplant, mean age was approximately 54 years, more than 70% of patients were male, and the majority of patients were Caucasian, with approximately 89% of patients per treatment group completing the study. Key stratification parameters of HCV status (31% to 32% HCV positive across groups) and renal function (mean baseline eGFR range 79 to 83 mL/min/1.73 m2) were also balanced between groups.
A total of 1147 patients were enrolled into the run-in period of this trial. At 30 days posttransplant a total 719 patients, who were eligible according to study inclusion/exclusion criteria, were randomized into 1 of 3 treatment groups: Zortress with reduced exposure tacrolimus; N = 245, Zortress with tacrolimus elimination (tacrolimus elimination group); N = 231, or standard dose/exposure tacrolimus (tacrolimus control); N = 243. The study was conducted at 89 liver transplant centers across Europe, including the United Kingdom and Ireland, North and South America, and Australia.
Key inclusion criteria were recipients 18 to 70 years of age, eGFR greater or equal to 30 mL/min/1.73 m2, tacrolimus trough level of greater or equal to 8 ng/mL in the week prior to randomization, and the ability to take oral medication.
Key exclusion criteria were recipients of multiple solid organ transplants, history of malignancy (except hepatocellular carcinoma within Milan criteria), human immunodeficiency virus, and any surgical or medical condition which significantly alter the absorption, distribution, metabolism and excretion of study drug.
There were no major baseline differences between treatment groups with regard to recipient or donor disease characteristics. Mean MELD scores at time of transplantation, cold ischemia times (CIT), and ABO matching were similar across groups. Overall the treatment groups were comparable with respect to the key determinants of liver transplantation.
The tacrolimus elimination group was stopped prematurely due to a higher incidence of acute rejection and adverse reactions leading to treatment discontinuation reported during the elimination phase of tacrolimus. Therefore, a treatment regimen of Zortress with tacrolimus elimination is not recommended.
Results up to 24 months are presented indicating that Zortress with reduced exposure tacrolimus is comparable to standard exposure tacrolimus with respect to efficacy failure, defined as treated biopsy-proven acute rejection, graft loss, death or loss to follow-up throughout 12-24 months of treatment. The percentage of patients experiencing this endpoint and each individual variable in the Zortress and control group for each time interval is shown in Table 9.
Zortress (everolimus)
With Reduced Exposure Tacrolimus N = 245 n (%) | Tacrolimus
(Standard Exposure) N = 243 n (%) |
|
Efficacy Endpoints1 at 12 months | ||
Composite Efficacy Failure Endpoint1,2 | 22 (9.0) | 33 (13.6) |
Treated Biopsy Proven Acute Rejection* | 7 (2.9) | 17 (7.0) |
Death | 13 (5.3) | 7 (2.9) |
Graft Loss | 6 (2.4) | 3 (1.2) |
Loss to Follow-up2 | 4 (1.6) | 9 (3.7) |
Graft Loss or Death or Loss to Follow-up | 18 (7.3) | 18 (7.4) |
Graft Loss or Death | 14 (5.7) | 8 (3.3) |
Loss to Follow-up | 4 (1.6) | 10 (4.1) |
Efficacy Endpoints at 24 months | ||
Composite Efficacy Failure Endpoint2 | 45 (18.4) | 53 (21.8) |
Treated Biopsy Proven Acute Rejection | 11 (4.5) | 18 (7.4) |
Death | 17 (6.9) | 11 (4.5) |
Graft Loss | 9 (3.7) | 7 (2.9) |
Loss to follow-up2 | 18 (7.3) | 23 (9.5) |
Graft Loss or Death or Loss to Follow-up3 | 38 (15.5) | 39 (16.0) |
Graft Loss or Death | 20 (8.2) | 15 (6.2) |
Loss to Follow-up3 | 18 (7.3) | 24 (9.9) |
*Treated biopsy-proven acute rejection (tBPAR) was defined as histologically confirmed acute rejection with a rejection activity index (RAI) greater than or equal to RAI score 3 that received anti-rejection treatment.
1The difference in rates (Zortress – control) at 12 months with 97.5% CI for efficacy failure endpoint based on normal approximation with Yates continuity correction is -4.6% (-11.4%, 2.2%); and for the graft loss, death or loss to follow-up endpoint is -0.1% (-5.4%, 5.3%).
2Loss to follow-up (for treated BPAR, graft loss, death or loss to follow-up) represents patients who did not experience treated BPAR, graft loss or death and whose last contact date is prior to 12- or 24-month visit
3Loss to follow-up (for Graft Loss, Death, or Loss to Follow-up) represents patients who did not experience death or graft loss and whose last contact date is prior to 12- or 24-month visit
At Month 12, the estimated mean glomerular filtration rate (eGFR) using the MDRD equation for the Zortress group was 80.9 mL/min/1.73m2 and the tacrolimus control was 70.3 mL/min/1.73 m2 in the ITT population. At Month 24, the eGFR using the MDRD equation for the Zortress group was 74.7 mL/min/1.73m2 and for the tacrolimus control the eGFR was 67.8 mL/min/1.73m2 (Table 10).
eGFR (MDRD) | Zortress (everolimus) With Reduced Exposure Tacrolimus
| Tacrolimus (Standard Exposure)
|
Month 12 | N = 215 | N = 209 |
Mean (SD) | 80.9 (27.3) | 70.3 (23.1) |
Median (Range) | 78.3 (28.4-153.1) | 66.4 (27.9-155.8) |
Month 24 | N = 184 | N = 186 |
Mean (SD) | 74.7 (26.1) | 67.8 (21.0) |
Median (Range) | 72.9 (20.3-151.6) | 65.2 (27.0-148.9) |
Figure 1. Mean and 95% CI of eGFR (MDRD 4) [mL/min/1.73m2] by Visit Window and Treatment After Liver Transplantation (ITT population –- 24-Month Analysis)*
*Zortress dosing was initiated 30 days after transplantation
Although the initial protocol was designed for 24 months, the study was subsequently extended to 36 months. One hundred six (106) patients (43%) in the Zortress group and 125 patients (51%) in the control group participated in the extension study from Month 24 to Month 36 after transplantation. The results for the Zortress group at 36 months were consistent with the results at 24 months in terms of tBPAR, graft loss, death and eGFR.
Zortress (everolimus) tablets are packed in child-resistant blisters.
Dosage Strength | 0.25 mg | 0.5 mg | 0.75 mg | 1 mg |
Appearance | White to yellowish, marbled, round, flat tablets with beveled edge | |||
Imprint | “C” on one side and “NVR” on the other | “CH” on one side and “NVR” on the other | “CL” on one side and “NVR” on the other | “CU” on one side and “NVR” on the other |
NDC Number | 0078-0417-20 | 0078-0414-20 | 0078-0415-20 | 0078-0422-20 |
Each strength is available in boxes of 60 tablets (6 blister strips of 10 tablets each).
Storage
Store at 25°C (77°F); excursions permitted to 15°C to 30°C (59°F to 86°F) [see USP Controlled Room Temperature].
Protect from light and moisture.
Administration
Inform patients that Zortress should be taken orally twice a day approximately 12 hours apart consistently either with or without food.
Inform patients to avoid grapefruit and grapefruit juice which increase blood drug concentrations of Zortress [see Warnings and Precautions (5.20)].
Advise patients that Zortress should be used concurrently with reduced doses of cyclosporine and that any change in doses of these medications should be made under physician supervision. A change in the cyclosporine dose may also require a change in the dosage of Zortress.
Inform patients of the necessity of repeated laboratory tests according to physician recommendations while they are taking Zortress.
Development of Lymphomas and Other Malignancies
Inform patients they are at risk of developing lymphomas and other malignancies, particularly of the skin, due to immunosuppression. Advise patients to limit exposure to sunlight and ultraviolet (UV) light by wearing protective clothing and using a sunscreen with a high protection factor [see Warnings and Precautions (5.2)].
Increased Risk of Infection
Inform patients they are at increased risk of developing a variety of infections, including opportunistic infections, due to immunosuppression. Advise patients to contact their physician if they develop any symptoms of infection [see Warnings and Precautions (5.3, 5.13)].
Kidney Graft Thrombosis
Inform patients that Zortress has been associated with an increased risk of kidney arterial and venous thrombosis, resulting in graft loss, usually within the first 30 days posttransplantation [see Warnings and Precautions (5.4)].
Zortress and Calcineurin Inhibitor-Induced Nephrotoxicity
Advise patients of the risks of impaired kidney function with the combination of Zortress and cyclosporine as well as the need for routine blood concentration monitoring for both drugs. Advise patients of the importance of serum creatinine monitoring [see Warnings and Precautions (5.6)].
Angioedema
Inform patients of the risk of angioedema and that concomitant use of ACE inhibitors may increase this risk. Advise patients to seek prompt medical attention if symptoms occur [see Warnings and Precautions (5.8)].
Wound Healing Complications and Fluid Accumulation
Inform patients the use of Zortress has been associated with impaired or delayed wound healing, fluid accumulation and the need for careful observation of their incision site [see Warnings and Precautions (5.9)].
Interstitial Lung Disease (ILD)/Non-Infectious Pneumonitis
Inform patients the use of Zortress may increase the risk of non-infectious pneumonitis. Advise patients to seek medical attention if they develop clinical symptoms consistent with pneumonia [see Warnings and Precautions (5.10)].
Hyperlipidemia
Inform patients the use of Zortress has been associated with increased serum cholesterol and triglycerides that may require treatment and the need for monitoring of blood lipid concentrations [see Warnings and Precautions (5.11)].
Proteinuria
Inform patients the use of Zortress has been associated with an increased risk of proteinuria [see Warnings and Precautions (5.12)].
Pregnancy and Lactation
Advise women of childbearing age to avoid becoming pregnant throughout treatment and for 8 weeks after Zortress therapy has stopped. Zortress can cause fetal harm if taken during pregnancy. Advise a pregnant woman of the potential risk to a fetus. Also advise not to breastfeed while taking Zortress [see Use in Specific Populations (8.1, 8.2)].
Male and Female Fertility
Inform male and female patients that Zortress may impair fertility [see Warnings and Precautions (5.18), Use in Specific Populations (8.1, 8.3), Nonclinical Toxicology (13.1)].
Medications that Interfere with Zortress
Some medications can increase or decrease blood concentrations of Zortress. Advise patients to inform their physician if they are taking any of the following: antifungals, antibiotics, antivirals, anti-epileptic medicines including carbamazepine, phenytoin and barbiturates, herbal/dietary supplements (St. John’s Wort), and/or rifampin [see Warnings and Precautions (5.14)].
New Onset Diabetes
Inform patients the use of Zortress may increase the risk of diabetes mellitus and to contact their physician if they develop symptoms [see Warnings and Precautions (5.16)].
Immunizations
Inform patients that vaccinations may be less effective while they are being treated with Zortress. Advise patients live vaccines should be avoided [see Warnings and Precautions (5.19)].
Patient with Hereditary Disorders
Advise patients to inform their physicians that if they have hereditary disorders of galactose intolerance (Lapp-lactase deficiency or glucose-galactose malabsorption) not to take Zortress [see Warnings and Precautions (5.21)].
Distributed by:
Novartis Pharmaceuticals Corporation
East Hanover, New Jersey 07936
© Novartis
T2018-110
This Medication Guide has been approved by the U.S. Food and Drug Administration Revised: January 2018 |
MEDICATION GUIDE
ZORTRESS (ZOR-tres) (everolimus) Tablets |
What is the most important information I should know about ZORTRESS?
ZORTRESS can cause serious side effects, including:
|
What is ZORTRESS?
|
Do not take ZORTRESS if you are allergic to:
|
Before taking ZORTRESS, tell your doctor about all of your medical conditions, including if you:
Tell your doctor about all the medicines you take, including prescription and over-the-counter medicines, vitamins, and herbal supplements. Especially tell your doctor if you take:
|
How should I take ZORTRESS?
|
What should I avoid while taking ZORTRESS?
|
What are the possible side effects of ZORTRESS? ZORTRESS may cause serious side effects, including:
Your doctor should do blood and urine tests to monitor your cholesterol, triglycerides and kidney function.
|
The most common side effects of ZORTRESS in people who have had a kidney or liver transplant include: These common side effects have been reported in both kidney and liver transplant patients:
The most common side effects of ZORTRESS in people who have had a kidney transplant include:
The most common side effects of ZORTRESS in people who have had a liver transplant include:
These are not all of the possible side effects of ZORTRESS. Call your doctor for medical advice about side effects. You may report side effects to FDA at 1-800-FDA-1088. |
How should I store ZORTRESS?
Keep ZORTRESS and all medicines out of the reach of children. |
General information about the safe and effective use of ZORTRESS. Medicines are sometimes prescribed for purposes other than those listed in a Medication Guide. Do not use ZORTRESS for a condition for which it was not prescribed. Do not give ZORTRESS to other people, even if they have the same symptoms that you have. It may harm them. You can ask your doctor or pharmacist for information about ZORTRESS that is written for healthcare professionals. |
What are the ingredients in ZORTRESS? Active ingredient: everolimus Inactive ingredients: butylated hydroxytoluene, magnesium stearate, lactose monohydrate, hypromellose, crospovidone and lactose anhydrous. Distributed by: Rapamune® is a registered trademark of Pfizer Inc; Gengraf® is a registered trademark of Abbott Laboratories For more information, call 1-888-669-6682 or visit www.zortress.com. T2018-111 |
PRINCIPAL DISPLAY PANEL
Package Label – 0.25 mg
Rx Only
NDC: 0078-0417-20
Zortress® (everolimus) Tablets
0.25 mg per tablet
Dispense With Medication Guide Enclosed or Provided Separately.
Contents:
6 blister cards of 10 tablets each
PRINCIPAL DISPLAY PANEL
Package Label – 0.5 mg
Rx Only
NDC: 0078-0414-20
Zortress® (everolimus) Tablets
0.5 mg per tablet
Dispense With Medication Guide Enclosed or Provided Separately.
Contents:
6 blister cards of 10 tablets each
PRINCIPAL DISPLAY PANEL
Package Label – 0.75 mg
Rx Only
NDC: 0078-0415-20
Zortress® (everolimus) Tablets
0.75 mg per tablet
Dispense With Medication Guide Enclosed or Provided Separately.
Contents:
6 blister cards of 10 tablets each
PRINCIPAL DISPLAY PANEL
Package Label – 1 mg
Rx Only
NDC: 0078-0422-20
Zortress® (everolimus) Tablets
1 mg per tablet
Dispense With Medication Guide Enclosed or Provided Separately.
Contents:
6 blister cards of 10 tablets each
ZORTRESS
everolimus tablet |
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
ZORTRESS
everolimus tablet |
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
ZORTRESS
everolimus tablet |
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
ZORTRESS
everolimus tablet |
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
||||||||||||||||||||
|
Labeler - Novartis Pharmaceuticals Corporation (002147023) |
Mark Image Registration | Serial | Company Trademark Application Date |
---|---|
ZORTRESS 79040925 3379019 Live/Registered |
Novartis AG 2006-12-20 |
ZORTRESS 78058595 2607670 Dead/Cancelled |
Novartis AG 2001-04-16 |
ZORTRESS 77912850 3945609 Live/Registered |
Novartis AG 2010-01-15 |