Summary Basis of Decision for Rinvoq

Review decision

The Summary Basis of Decision explains why the product was approved for sale in Canada. The document includes regulatory, safety, effectiveness and quality (in terms of chemistry and manufacturing) considerations.


Product type:

Drug

Summary Basis of Decision (SBD) documents provide information related to the original authorization of a product. The SBD for Rinvoq is located below.

Recent Activity for Rinvoq

SBDs written for eligible drugs approved after September 1, 2012 will be updated to include post-authorization information. This information will be compiled in a Post-Authorization Activity Table (PAAT). The PAAT will include brief summaries of activities such as submissions for new uses of the product, and whether Health Canada's decisions were negative or positive. PAATs will be updated regularly with post-authorization activity throughout the product's life cycle.

Summary Basis of Decision (SBD) for Rinvoq

Date SBD issued: 2020-05-05

The following information relates to the new drug submission for Rinvoq.

Upadacitinib

Drug Identification Number (DIN):

  • DIN 02495155 - 15 mg tablet, oral administration

AbbVie Corporation

New Drug Submission Control Number: 223734

On December 23, 2019, Health Canada issued a Notice of Compliance to AbbVie Corporation for the drug product Rinvoq.

The market authorization was based on quality (chemistry and manufacturing), non-clinical (pharmacology and toxicology), and clinical (pharmacology, safety, and efficacy) information submitted. Based on Health Canada's review, the benefit-harm-uncertainty profile of Rinvoq is favourable for the treatment of adults with moderately to severely active rheumatoid arthritis who have had an inadequate response or intolerance to methotrexate. Rinvoq may be used as monotherapy or in combination with methotrexate or other nonbiologic disease-modifying antirheumatic drugs (DMARDs).

Health Canada has additionally included an important caveat to accompany the indication. Rinvoq should not be used in combination with other Janus kinase (JAK) inhibitors, biologic DMARDs, or with potent immunosuppressants such as azathioprine and cyclosporine.

1 What was approved?

Rinvoq, a selective immunosuppressant, was authorized for the treatment of adults with moderately to severely active rheumatoid arthritis who have had an inadequate response or intolerance to methotrexate. Rinvoq may be used as monotherapy or in combination with methotrexate or other nonbiologic disease-modifying antirheumatic drugs (DMARDs).

Health Canada has additionally included an important caveat to accompany the indication. Rinvoq should not be used in combination with other Janus kinase (JAK) inhibitors, biologic DMARDs, or with potent immunosuppressants such as azathioprine and cyclosporine.

Rinvoq is not authorized for use in children and adolescents under 18 years of age, as its safety and efficacy have not been established in this patient population.

Caution should be used when treating geriatric patients (65 years of age and older) with Rinvoq, as an increased incidence of serious adverse events have been observed in this patient population relative to younger patients. Additionally, there are limited data available on its use in patients 75 years of age and older.

Rinvoq is contraindicated in patients who are hypersensitive to upadacitinib or to any ingredient in the formulation, including any non-medicinal ingredient, or component of the container.

Rinvoq was approved for use under the conditions stated in its Product Monograph taking into consideration the potential risks associated with the administration of this drug product.

Rinvoq (15 mg upadacitinib) is presented as an extended-release tablet. In addition to the medicinal ingredient, the tablet also contains colloidal silicon dioxide, ferrosoferric oxide (E172), hypromellose, iron oxide red (E172), magnesium stearate, mannitol, microcrystalline cellulose, polyethylene glycol, polyvinyl alcohol, talc, tartaric acid, and titanium dioxide. The tablet is gluten-free.

For more information, refer to the Clinical, Non-clinical, and Quality (Chemistry and Manufacturing) Basis for Decision sections.

Additional information may be found in the Rinvoq Product Monograph, approved by Health Canada and available through the Drug Product Database.

2 Why was Rinvoq approved?

Health Canada considers that the benefit-harm-uncertainty profile of Rinvoq is favourable for the treatment of adults with moderately to severely active rheumatoid arthritis (RA) who have had an inadequate response or intolerance to methotrexate. Rinvoq may be used as monotherapy or in combination with methotrexate or other nonbiologic disease-modifying antirheumatic drugs (DMARDs).

Health Canada has additionally included an important caveat to accompany the indication. Rinvoq should not be used in combination with other Janus kinase (JAK) inhibitors, biologic DMARDs, or with potent immunosuppressants such as azathioprine and cyclosporine.

Rheumatoid arthritis is an autoimmune disease characterized by polyarticular joint swelling and tenderness, which is caused by progressive inflammatory synovitis. Patients may develop joint deformities caused by bone erosions and tendon or ligament damage, which accumulate in an inexorable manner limiting physical function and ultimately leading to significant disability and increased mortality. The estimated global prevalence of RA is approximately 1% of the general population, with two to three times more females affected than males.

The current standard of care in newly diagnosed RA patients is treatment with conventional synthetic DMARDs (csDMARDs) such as methotrexate, either as monotherapy or combination therapy. Tumour necrosis factor alpha (TNFα) antagonists are generally the next line of treatment for patients with ongoing disease activity. Selective use of corticosteroids, analgesics, selective cyclooxygenase-2 (COX-2) inhibitors, and nonsteroidal anti-inflammatory drugs (NSAIDs) remains a mainstay of treatment for the relief of joint pain and swelling due to RA. However, initiation of DMARDs early in the course of RA is recommended to attain low disease activity (LDA) and disease remission, and to minimize joint damage. Patient response to DMARDs is variable, and some have significant toxicity profiles. Therefore, there remains a need for new treatments with a favourable safety profile, to help patients achieve LDA and remission as early as possible.

Upadacitinib, the medicinal ingredient in Rinvoq, is a selective immunosuppressant. It belongs to the JAK inhibitor class of drugs, which are targeted synthetic DMARDs. At the time of authorization two other JAK inhibitors, tofacitinib and barictinib, were approved in Canada for reducing the signs and symptoms of RA in adult patients with moderately to severely active RA.

The clinical efficacy of Rinvoq was demonstrated primarily through five pivotal Phase III clinical studies, Studies I to V, in which primary efficacy analyses ranged from 12 to 24/26 weeks. These studies evaluated the efficacy of Rinvoq as monotherapy and as combination therapy in patients with moderately to severely active RA. The primary endpoint in each study was the proportion of patients achieving a response to treatment as measured by the American College of Rheumatology (ACR) criteria at a predefined time (ACR50 in Study I and ACR20 in Studies II-V). The individual study designs and the ACR criteria are described in detail in the Clinical Efficacy section.

Statistically significant increases were observed in all five pivotal studies with respect to the proportion of patients who achieved a positive ACR20 (ACR50 for Study I) response with the daily 15 mg dose of Rinvoq (alone or in combination with csDMARDs), relative to methotrexate (Studies I and II) or placebo (Studies III, IV, and V). Statistically significant improvements were also observed across several other efficacy measures, relative to their respective controls.

The outcomes of the five pivotal studies clearly demonstrated that treatment with Rinvoq produces a clinically meaningful benefit in patients with moderate to severe active RA. Rinvoq was found to be effective when used either as monotherapy, or in combination with methotrexate or csDMARDs in patients naïve to methotrexate or who had inadequate responses to methotrexate, csDMARDs, and/or biologic DMARDs.

The clinical safety evaluation was based predominantly on data from 4,443 patients exposed to Rinvoq in Phase II and III studies. The data showed a greater percentage of RA patients experiencing adverse events (AEs), serious AEs, and certain AEs of special interest in the patients treated with 15 mg Rinvoq compared to placebo-treated patients. Safety data from these studies must be interpreted with caution due to the immunosuppressant effect of upadacitinib. Certain types of adverse events may present more frequently with longer durations of exposure to upadacitinib (e.g., malignancies or venous thromboembolic events [VTEs]).

The most frequently reported adverse events (in ≥2% of patients treated with 15 mg Rinvoq) were upper respiratory tract infection, nasopharyngitis, urinary tract infection, nausea, bronchitis, increased blood creatine phosphokinase (CPK), cough, and back pain. The most frequently reported serious adverse events in patients treated with Rinvoq (incidence rate ≥0.5/100 patient-years) included pneumonia, osteoarthritis, and pulmonary embolism. The most frequently reported adverse drug reactions (ADRs) (in ≥1% of patients treated with 15 mg Rinvoq) were upper respiratory tract infections, nausea, increased CPK, cough, neutropenia, pyrexia, and hypercholesterolemia. In addition to these ADRs, urinary tract infection, herpes zoster, nasopharyngitis, bronchitis, sinusitis, and headache were also reported in patients treated with 15 mg Rinvoq (incidence rate ≥1/100 patient-years). The adverse events which most often led to treatment discontinuation were infections including pneumonia and herpes zoster (incidence rate ≥0.5/100 patient-years).

Adverse events of serious/opportunistic infections, reactivation of herpes zoster and hepatitis B virus, anemia, neutropenia, elevated lipid concentrations, and elevated CPK levels were observed during treatment with Rinvoq. Most are consistent with those associated with other JAK inhibitors.

Events of gastrointestinal perforation have been reported in clinical studies with Rinvoq, although the role of JAK inhibition in these events is not known. Six plausible upadacitinib-related cases of gastrointestinal perforation were reported in the Phase III studies. No cases were identified in patients who received a placebo, methotrexate, or adalimumab.

A Serious Warnings and Precautions box in the Rinvoq Product Monograph highlights the risks of serious infection, malignancies, and thrombosis. Comprehensive guidelines and recommendations are included in the Product Monograph to promote the safe and effective use of Rinvoq.

A Risk Management Plan (RMP) for Rinvoq was submitted by AbbVie Corporation to Health Canada. Upon review, the RMP was considered to be acceptable. The RMP is designed to describe known and potential safety issues, to present the monitoring scheme and when needed, to describe measures that will be put in place to minimize risks associated with the product. As an additional risk minimization measure, the sponsor intends to distribute educational materials to inform healthcare professionals and patients of the risks of tuberculosis, herpes zoster, foetal malformation (pregnancy risk), and major adverse cardiovascular events, which have been associated with Rinvoq.

The submitted inner and outer labels, package insert and Patient Medication Information section of the Rinvoq Product Monograph meet the necessary regulatory labelling, plain language and design element requirements.

A Look-alike Sound-alike brand name assessment was performed and the proposed name Rinvoq was accepted.

Rinvoq has an acceptable safety profile based on the non-clinical data and clinical studies. The identified safety issues can be managed through labelling and adequate monitoring. Appropriate warnings and precautions are in place in the Rinvoq Product Monograph to address the identified safety concerns.

This New Drug Submission complies with the requirements of sections C.08.002 and C.08.005.1 and therefore Health Canada has granted the Notice of Compliance pursuant to section C.08.004 of the Food and Drug Regulations. For more information, refer to the Clinical, Non-clinical, and Quality (Chemistry and Manufacturing) Basis for Decision sections.

3 What steps led to the approval of Rinvoq?

Submission Milestones: Rinvoq

Submission MilestoneDate
Pre-submission meeting:2018-06-01
Submission filed:2019-01-16
Screening
Screening Acceptance Letter issued:2019-03-01
Review
Review of Risk Management Plan complete:2019-11-21
Biostatistics Evaluation complete:2019-12-02
Quality Evaluation complete:2019-12-18
Labelling Review complete, including Look-alike Sound-alike brand name assessment:2019-12-19
Clinical/Medical Evaluation complete:2019-12-23
Notice of Compliance issued by Director General, Therapeutic Products Directorate:2019-12-23

The Canadian regulatory decision on the review of Rinvoq was based on a critical assessment of the data package submitted to Health Canada. The foreign review completed by the United States Food and Drug Administration (FDA) was consulted for relevant supplementary information.

For additional information about the drug submission process, refer to the Management of Drug Submissions Guidance.

4 What follow-up measures will the company take?

Requirements for post-market commitments are outlined in the Food and Drugs Act and Regulations.

6 What other information is available about drugs?

Up to date information on drug products can be found at the following links:

7 What was the scientific rationale for Health Canada's decision?
7.1 Clinical basis for decision

Clinical Pharmacology

Upadacitinib, the medicinal ingredient in Rinvoq, is a Janus kinase (JAK) inhibitor. Janus kinases are intracellular enzymes involved in cell signalling processes which regulate inflammatory responses, hematopoiesis, and immune surveillance. Upadacitinib inhibits JAKs with a high degree of selectivity relative to other kinases. The inhibition of JAKs by upadacitinib prevents JAKs from activating signal transducers and activators of transcription (STATs), which modulate intracellular activities including gene expression.

Both immediate-release and extended-release formulations were used in clinical pharmacology studies. The two formulations were found to have similar efficacy in a dedicated relative bioavailability study.

The major pharmacokinetic aspects of absorption, distribution, metabolism, and elimination of upadacitinib have been well characterized in rheumatoid arthritis (RA) patients and healthy volunteers. Following multiple once daily doses of 15 mg in RA patients, upadacitinib was absorbed rapidly. The median time to maximum observed plasma concentration (tmax) was 2 to 3 hours under fasting conditions, and 4 hours under non-fasting conditions. Steady state concentrations were achieved within four days, with minimal accumulation. Plasma exposure to upadacitinib was dose-proportional over the range of 7.5 mg to 45 mg using the extended-release formulation under fasting conditions. The mean terminal elimination half-life (t½) was 9 to 14 hours, and the oral clearance (CL/F) rate was estimated as 40.5 L/h. Upadacitinib was predominantly eliminated as the unchanged parent substance in the urine and feces. Results additionally indicated that with the 15 mg once daily dose, oral clearance of upadacitinib is approximately 38% lower in RA patients than in healthy volunteers.

Upadacitinib was shown to be a selective and reversible inhibitor of JAKs through tests conducted in whole blood from healthy volunteers. A dose- and concentration-dependent inhibition of IL-6 (JAK1/JAK2)-induced STAT3 and IL-7 (JAK1/JAK3)-induced STAT5 phosphorylation was observed. Maximal inhibition occurred one hour after dosing, and returned to baseline levels by the end of the dosing interval (within 24 hours).

Upadacitinib was not shown to prolong the corrected QT (QTc) interval in RA patients following repeated once-daily doses of the 15 mg extended-release formulation.

Renal function was not found to have any clinically relevant effects on the pharmacokinetics of upadacitinib. Additionally, mild or moderate hepatic impairment were not found to have any clinically relevant effects on upadacitinib exposure. However, upadacitinib is not recommended for patients with severe hepatic impairment, as it has not been assessed in this population.

Rinvoq should be used with caution in patients who are also treated with strong cytochrome P450 (CYP) 3A4 inhibitors, as a 75% increase in exposure to upadacitinib was observed in patients following co-administration.

Additionally, co-administration of Rinvoq with strong CYP 3A4 inducers is not recommended, as this was found to decrease exposure to upadacitinib by 61%.

For further details, please refer to the Rinvoq Product Monograph, approved by Health Canada and available through the Drug Product Database.

Clinical Efficacy

The clinical efficacy of Rinvoq was demonstrated primarily through five pivotal, Phase III clinical studies. The individual study designs are described below, followed by the analysis of their collective results.

The primary efficacy endpoint in each of the pivotal studies is the proportion of patients who achieved a response as measured by the American College of Rheumatology (ACR) criteria at a pre-determined point during the study. In these pivotal studies, the ACR20 response was defined as at least a 20% improvement in both the number of tender and the number of swollen joints, along with at least a 20% improvement in three or more (≥ 3) of the following criteria: patient global assessment of disease activity, physician global assessment of disease activity, functional ability measure (assessed using the Health Assessment Questionnaire - Disability Index [HAQ-DI]), patient's assessment of pain (visual analog pain scale), and C reactive protein (CRP). The ACR50 and ACR70 responses use the same criteria, with improvement levels of 50% and 70%, respectively.

Study I

Study I was a 48-week study evaluating the efficacy of Rinvoq in 947 patients with moderate to severe active RA who were naïve to methotrexate. Patients were randomized to receive one of three treatments administered once daily as a monotherapy: 15 mg Rinvoq, 30 mg Rinvoq, or methotrexate. At Week 26, non-responding patients receiving Rinvoq were rescued through additional blinded treatment with methotrexate. Non-responding patients receiving methotrexate were also rescued through additional blinded treatment with either 15 mg or 30 mg Rinvoq. The primary efficacy endpoint was the proportion of patients who achieved an ACR50 response at Week 12.

Study II

Study II was a 14-week study evaluating the efficacy of Rinvoq in 648 patients with moderate to severe active RA who had an inadequate response to methotrexate. Patients were randomized to receive one of three treatments administered once daily as a monotherapy for 14 weeks: 15 mg Rinvoq, 30 mg Rinvoq, or continued their stable dose of methotrexate. At Week 14, patients receiving methotrexate were advanced to treatment with 15 mg or 30 mg Rinvoq once daily. The transition to treatment with Rinvoq occurred in a blinded manner, and the dosage strength was based on a pre-determined assignment at baseline. The primary efficacy endpoint was the proportion of patients who achieved an ACR20 response at Week 14.

Study III

Study III was a 12-week study evaluating the efficacy of Rinvoq in 661 patients with moderate to severe active RA, who had an inadequate response to conventional synthetic disease-modifying anti-rheumatic drugs (csDMARDs). Patients were randomized to receive one of three treatments administered once daily in addition to background csDMARD therapy: 15 mg Rinvoq, 30 mg Rinvoq, or placebo. At Week 12, patients receiving placebo were advanced to treatment with 15 mg or 30 mg Rinvoq once daily. The transition to treatment with Rinvoq occurred in a blinded manner, and the dosage strength was based on a pre-determined assignment at baseline. The primary efficacy endpoint was the proportion of patients who achieved an ACR20 response at Week 12.

Study IV

Study IV was a 48-week study evaluating the efficacy of Rinvoq in 1,629 patients with moderate to severe active RA, who had an inadequate response to methotrexate. Patients were randomized to receive one of three treatments administered once daily in addition to background treatment with methotrexate: 15 mg Rinvoq, adalimumab (an active comparator), or placebo. Starting from Week 14 (at Weeks 14, 18 and 22), non-responding patients receiving Rinvoq were switched to receive treatment with adalimumab in a blinded manner. Similarly, non-responding patients receiving placebo or adalimumab were switched to receive treatment with Rinvoq in a blinded manner. At Week 26, all patients receiving placebo were switched to receive treatment with Rinvoq in a blinded manner. The primary efficacy endpoint was the proportion of patients who achieved an ACR20 response at Week 12, relative to patients in the placebo group.

Although an active comparator group was included, this study was not properly designed to assess whether Rinvoq is superior to adalimumab. Due to the cross over element at Week 14 and other features of its design, this study is not considered adequate to enable a robust benefit-harm-uncertainty assessment comparing Rinvoq to adalimumab. Therefore, no conclusions can be drawn with respect to superiority.

Study V

Study V was a 12-week study evaluating the efficacy of Rinvoq in 499 patients with moderate to severe active RA, who had an inadequate response or intolerance to biologic DMARDs. Patients were randomized to receive one of three treatments administered once daily for 12 weeks in addition to background csDMARD therapy: 15 mg Rinvoq, 30 mg Rinvoq, or placebo. At Week 12, patients receiving the placebo were switched to the 15 mg or 30 mg Rinvoq treatment groups in a blinded manner, based on pre-determined assignment at baseline. The primary efficacy endpoint was the proportion of patients who achieved an ACR20 response at Week 12.

Results

Statistically significant increases were observed in all five pivotal studies with respect to the proportion of patients who achieved a positive ACR20 (ACR50 for Study I) response with the daily 15 mg dose of Rinvoq, relative to methotrexate (Studies I and II) or placebo (Studies III, IV, and V). Statistically significant improvements were also observed across several other efficacy measures, relative to their respective controls.

The outcomes of the five pivotal studies clearly demonstrated that treatment with Rinvoq produces a clinically meaningful benefit in patients with moderately to severely active RA. Rinvoq was found to be effective when used either as monotherapy, or in combination with methotrexate or csDMARDs in patients naïve to methotrexate or who had inadequate responses to methotrexate, csDMARDs, and/or biologic DMARDs.

Only the 15 mg dose of Rinvoq was proposed for authorization. Although the pivotal studies also assessed the efficacy of the 30 mg dose, it was associated with an increased safety risk and no clear additional benefit was observed relative to the 15 mg dose.

The inhibition of progression of structural joint damage was evaluated as a secondary endpoint using the modified Total Sharp Score (mTSS) at Week 24 in Study I and at Week 26 in Study IV. Treatment with Rinvoq resulted in significantly greater inhibition of the progression of structural joint damage relative to methotrexate monotherapy (Study I) and relative to placebo plus methotrexate (Study IV).

Indication

Sponsor's proposed indicationHealth Canada-approved indication
Rinvoq (upadacitinib) is indicated for the treatment of moderate to severe active rheumatoid arthritis in adult patients who have responded inadequately to, or who are intolerant to one or more disease-modifying anti-rheumatic drugs (DMARDs).

Rinvoq may be used as monotherapy or in combination with methotrexate or other conventional synthetic DMARDs (csDMARDs).
Rinvoq (upadacitinib) is indicated for the treatment of adults with moderately to severely active rheumatoid arthritis who have had an inadequate response or intolerance to methotrexate.

Rinvoq may be used as monotherapy or in combination with methotrexate or other nonbiologic disease-modifying antirheumatic drugs (DMARDs).

Limitations of Use: Rinvoq should not be used in combination with other Janus kinase (JAK) inhibitors, biologic DMARDs, or with potent immunosuppressants such as azathioprine and cyclosporine.

For more information, refer to the Rinvoq Product Monograph, approved by Health Canada and available through the Drug Product Database.

Clinical Safety

The data reviewed for the clinical safety evaluation were derived primarily from 4,443 patients exposed to Rinvoq over the course of the Phase II and III studies. Of these patients, 2,972 (67%) were exposed to Rinvoq for at least 48 weeks, which provided sufficient data to conduct an initial overall benefit-risk assessment.

Safety data from these studies must be interpreted with caution. Upadacitinib, the medicinal ingredient in Rinvoq, is a member of the Janus kinase (JAK) inhibitor class of drugs, which have immunosuppressive effects. Certain types of adverse events may present more frequently with longer durations of exposure to upadacitinib (e.g., malignancies or venous thromboembolic events [VTEs]).

Adverse events and serious adverse events were reported at a higher percentage in patients treated with 15 mg Rinvoq than in those who received the placebo. An increased incidence of adverse events and serious adverse events was reported in patients treated with 15 mg Rinvoq in both the controlled and long term periods of the Phase III studies. The types of adverse events and serious adverse events observed were similar between treatment arms, and were consistent with events reported in other studies of RA involving immunosuppressants and JAK inhibitors.

The most frequently reported adverse events were upper respiratory tract infection, nasopharyngitis, urinary tract infection, nausea, bronchitis, increased blood creatine phosphokinase (CPK), cough, and back pain. Each of these adverse events were reported in ≥2% of patients treated with 15 mg Rinvoq, and was reported at a higher rate in this patient group than in patients receiving the placebo.

The most frequently reported serious adverse events in patients treated with Rinvoq (incidence rate ≥0.5/100 patient-years) included pneumonia, osteoarthritis, and pulmonary embolism. The most frequently reported adverse drug reactions (ADRs) (in ≥1% of patients treated with 15 mg Rinvoq) were upper respiratory tract infections, nausea, increased CPK, cough, neutropenia, pyrexia, and hypercholesterolemia. In addition to these ADRs, urinary tract infection, herpes zoster, nasopharyngitis, bronchitis, sinusitis, and headache were also reported in patients treated with 15 mg Rinvoq (incidence rate ≥1/100 patient-years). The adverse events which most often led to treatment discontinuation were infections including pneumonia and herpes zoster (incidence rate ≥0.5/100 patient-years).

Several adverse events observed during treatment with Rinvoq (upadacitinib) are consistent with those associated with other JAK inhibitors. These include neutropenia, elevated lipid concentrations, elevated CPK levels, and viral reactivation.

Grade 2 and Grade 3 neutropenia were observed at higher frequencies in patients treated with Rinvoq than in patients who received the placebo. However, adverse events of neutropenia were observed at similar rates in the groups receiving 15 mg Rinvoq, adalimumab, and methotrexate.

Treatment with Rinvoq was also associated with a dose-dependent increase in lipid concentrations, including triglycerides, low-density lipoprotein cholesterol, and high-density lipoprotein cholesterol. However, the increased lipid concentrations did not affect the overall atherogenic indices, and were responsive to statin therapy. Additionally, there was no relationship identified between elevated lipid levels and major adverse cardiovascular events in the Phase III studies.

As with other JAK inhibitors, Rinvoq was associated with elevated CPK levels. The elevation of CPK levels was higher in patients treated with Rinvoq than in patients who received adalimumab, methotrexate, or a placebo. The elevation of CPK levels appeared to be dose-dependent, but the majority of cases were asymptomatic.

Viral reactivation (e.g., herpes zoster) has been reported in patients treated with potent immunosuppressants including members of the JAK inhibitor class of drugs. In the safety analysis for this submission, a higher rate of herpes zoster infection was observed in patients treated with upadacitinib relative to patients receiving a placebo, methotrexate, or adalimumab. A dose-dependent effect was observed, with higher rates of herpes zoster infections in patients treated with 30 mg upadacitinib compared to those treated with 15 mg upadacitinib. Additionally, two definitive cases of hepatitis B virus (HBV) reactivation were identified in patients treated with upadacitinib during the Phase II and Phase III programs.

Events of gastrointestinal perforation have been reported in clinical studies with Rinvoq, although the role of JAK inhibition in these events is not known. Six plausible upadacitinib-related cases of gastrointestinal perforation were reported in the Phase III studies. No cases were identified in patients who received a placebo, methotrexate, or adalimumab.

A Serious Warnings and Precautions box in the Rinvoq Product Monograph highlights the risks of serious infection, malignancies, and thrombosis. Patients treated with Rinvoq are at an increased risk for developing serious infections which may lead to hospitalization or death. In the clinical studies, most patients who developed serious infections were taking immunosuppressants such as methotrexate or corticosteroids concomitantly. Lymphoma and other malignancies have also been reported in patients treated with Rinvoq. Thrombosis, including deep venous thrombosis, pulmonary embolism, and arterial thrombosis, have occurred in patients treated with JAK inhibitors, including Rinvoq, for inflammatory conditions. Many of these cases were serious, and some resulted in death. Comprehensive guidelines and recommendations are included in the Rinvoq Product Monograph to promote the safe and effective use of Rinvoq.

Health Canada has determined that appropriate risk management measures are in place to address the safety concerns identified for Rinvoq. For more information, refer to the Rinvoq Product Monograph, approved by Health Canada and available through the Drug Product Database.

7.2 Non-Clinical Basis for Decision

Signs of immunosuppression were observed at clinically relevant doses during repeat-dose toxicity tests in rats and dogs. These included decreases in circulating lymphocytes and cellularity of lymphoid tissues, as well as the suppression of erythropoiesis.

Immunosuppression-induced opportunistic infections (e.g., demodicosis) were observed in a 39-week study in dogs, at exposures corresponding to approximately twice the expected exposure in humans at the daily clinical dose of 15 mg. However, there were no decreases in circulating lymphocytes and cellularity of lymphoid tissues observed in this study.

Immunotoxicity evaluations in adult rats indicated complete suppression of antibody responses by the immunoglobulins M and G to an injected test antigen at all dose levels examined (5-50 mg/kg/day). The magnitude of the decreases in antibody responses was greater than the decrease in lymphocyte counts in rats. This indicates that lymphocytes in the circulation of treated animals were likely functionally deficient, potentially due to JAK inhibition by upadacitinib.

The risks of QT prolongation and central nervous system and respiratory effects are expected to be low, based on findings from studies conducted in rats. Transient reductions in blood pressure were observed in dogs at exposures over five times the expected exposure in humans at the daily clinical dose of 15 mg.

Upadacitinib was not found to be genotoxic in vitro in bacterial and mammalian cell assays and in vivo in rats. No evidence of tumorigenicity was observed in carcinogenicity studies in rats and in Tg.rasH2 transgenic mice. The doses administered to both the rats and mice correspond to exposure levels higher than the expected exposure in humans at the daily clinical dose of 15 mg.

Signs of developmental and reproductive toxicity were identified in rats and rabbits. Dose-related increases in skeletal malformations were observed in rat fetuses and an increased incidence of cardiovascular malformations was observed in rabbit fetuses exposed to upadacitinib in utero. At a dose of 25 mg/kg/day, signs of maternal toxicity including weight loss, decreased food consumption, and an increase in aborted pregnancies were observed in rabbits. Developmental effects including increases in post-implantation loss, total and early resorptions, and cardiac malformations, and lower fetal body weights, were observed at the same dose level. Due to the outcomes of these studies, upadacitinib should not be used by women who are pregnant or of child-bearing potential.

The results of the non-clinical studies as well as the potential risks to humans have been included in the Rinvoq Product Monograph. Considering the intended use of Rinvoq, there are no pharmacological or toxicological issues within this submission which preclude authorization of the product.

For more information, refer to the Rinvoq Product Monograph, approved by Health Canada and available through the Drug Product Database.

7.3 Quality Basis for Decision

The Chemistry and Manufacturing information submitted for Rinvoq has demonstrated that the drug substance and drug product can be consistently manufactured to meet the approved specifications. Proper development and validation studies were conducted, and adequate controls are in place for the commercial processes. Changes to the manufacturing process and formulation made throughout the pharmaceutical development are considered acceptable upon review. Based on the stability data submitted, the proposed shelf life of 24 months is acceptable when the drug product is stored between 2°C and 25°C.

Proposed limits of drug-related impurities are considered adequately qualified.

All sites involved in production are compliant with Good Manufacturing Practices.

All non-medicinal ingredients (described earlier) found in the drug product are acceptable for use in drugs according to the Food and Drug Regulations.

None of the excipients used in the formulation of Rinvoq is of human or animal origin.