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GAZYVARO 1 000 MG CONCENTRATE FOR SOLUTION FOR INFUSION - summary of medicine characteristics

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Summary of medicine characteristics - GAZYVARO 1 000 MG CONCENTRATE FOR SOLUTION FOR INFUSION

SUMMARY OF PRODUCT CHARACTERISTICS
NAME OF THE MEDICINAL PRODUCT

Gazyvaro 1,000 mg concentrate for solution for infusion.

2 QUALITATIVE AND QUANTITATIVE COMPOSITION

One vial of 40 mL concentrate contains 1,000 mg obinutuzumab, corresponding to a concentration before dilution of 25 mg/mL.

Obinutuzumab is a Type II humanised anti-CD20 monoclonal antibody of the IgG1 subclass derived by humanisation of the parental B-Ly1 mouse antibody and produced in the Chinese Hamster Ovary cell line by recombinant DNA technology.

For the full list of excipients, see section 6.1.

PHARMACEUTICAL FORM

Concentrate for solution for infusion.

Clear, colourless to slightly brownish liquid.

CLINICAL PARTICULARSCLINICAL PARTICULARS

4.1

Therapeutic indications

Gazyvaro in combination with chlorambucil is indicated for the treatment of adult patients with previously untreated CLL and with comorbidities making them unsuitable for full-dose fludarabine based therapy (see section 5.1).

Follicular lymphoma (FL)

Gazyvaro in combination with chemotherapy, followed by Gazyvaro maintenance therapy in patients achieving a response, is indicated for the treatment of patients with previously untreated advanced FL (see section 5.1)

Gazyvaro in combination with bendamustine followed by Gazyvaro maintenance is indicated for the treatment of patients with FL who did not respond or who progressed during or up to 6 months after treatment with rituximab or a rituximab-containing regimen.

4.2 Posology and method of administration

Gazyvaro should be administered under the close supervision of an experienced physician and in an environment where full resuscitation facilities are immediately available.

Posology

Prophylaxis and premedication for tumour lysis syndrome (TLS)

Patients with a high tumour burden and/or a high circulating lymphocyte count (> 25 × 109/L) and/or renal impairment (CrCl < 70 mL/min) are considered at risk of TLS and should receive prophylaxis. Prophylaxis should consist of adequate hydration and administration of uricostatics (e.g. allopurinol), or suitable alternative treatment such as urate oxidase (e.g. rasburicase), starting 12–24 hours prior to start of Gazyvaro infusion as per standard practice (see section 4.4). Patients should continue to receive repeated prophylaxis prior to each subsequent infusion, if deemed appropriate.

Prophylaxis and premedication for infusion related reactions (IRRs)

Premedication to reduce the risk of IRRs is outlined in Table 1 (see also section 4.4). Corticosteroid premedication is recommended for patients with FL and mandatory for CLL patients in the first cycle (see Table 1). Premedication for subsequent infusions and other premedication should be administered as described below.

Hypotension, as a symptom of IRRs, may occur during Gazyvaro intravenous infusions. Therefore, withholding of antihypertensive treatments should be considered for 12 hours prior to and throughout each Gazyvaro infusion and for the first hour after administration (see section 4.4).

Table 1 Premedication to be administered before Gazyvaro infusion to reduce the risk of IRRs in patients with CLL and FL (see section 4.4)

Day of treatment cycle

Patients requiring premedication

Premedication

Administration

Cycle 1: Day 1 for CLL and FL

All patients

Intravenous corticosteroid1,4 (mandatory for CLL, recommended for FL)

Completed at least 1 hour prior to Gazyvaro infusion

Oral analgesic/anti-pyretic2

At least 30 minutes before Gazyvaro infusion

Anti-histaminic medicine3

Cycle 1: Day 2 for CLL only

All patients

Intravenous corticosteroid (mandatory)

Completed at least 1 hour prior to Gazyvaro infusion

Oral analgesic/anti-pyretic2

At least 30 minutes before Gazyvaro infusion

Anti-histaminic medicine3

All subsequent infusions for CLL and FL

Patients with no IRR during the previous infusion

Oral analgesic/anti-pyretic2

At least 30 minutes before Gazyvaro infusion

Patients with an IRR (Grade 1 or 2) with the previous infusion

Oral analgesic/anti-pyretic2 Anti-histaminic medicine3

Patients with a Grade 3 IRR with the previous infusion OR Patients with lymphocyte counts >25 × 109/L prior to next treatment

Intravenous corticosteroid1,4

Completed at least 1 hour prior to Gazyvaro infusion

Oral analgesic/anti-pyretic2 Anti-histaminic medicine3

At least 30 minutes before Gazyvaro infusion

1100 mg prednisone/pred­nisolone or 20 mg dexamethasone or 80 mg methylprednisolone. Hydrocortisone should not be used as it has not been effective in reducing rates of IRR.

2 e.g. 1,000 mg acetaminophen/pa­racetamol

3 e.g. 50 mg diphenhydramine

4.If a corticosteroid-containing chemotherapy regimen is administered on the same day as Gazyvaro, the corticosteroid can be administered as an oral medicinal product if given at least 60 minutes prior to Gazyvaro, in which case additional IV corticosteroid as premedication is not required.

Dose

Chronic lymphocytic leukaemia (CLL, in combination with chlorambucil1)

For patients with CLL the recommended dose of Gazyvaro in combination with chlorambucil is shown in Table 2.

Cycle 1

The recommended dose of Gazyvaro in combination with chlorambucil is 1,000 mg administered over Day 1 and Day 2, (or Day 1 continued), and on Day 8 and Day 15 of the first 28 day treatment cycle.

Two infusion bags should be prepared for the infusion on Days 1 and 2 (100 mg for Day 1 and 900 mg for Day 2). If the first bag is completed without modifications of the infusion rate or interruptions, the second bag may be administered on the same day (no dose delay necessary, no repetition of premedication), provided that appropriate time, conditions and medical supervision are available throughout the infusion. If there are any modifications of the infusion rate or interruptions during the first 100 mg the second bag must be administered the following day.

Cycles 2 – 6

The recommended dose of Gazyvaro in combination with chlorambucil is 1,000 mg administered on Day 1 of each cycle.

Table 2 Dose of Gazyvaro to be administered during 6 treatment cycles

each of 28 days duration for patients with CLL

Cycle

Day of treatment

Dose of

Gazyvaro

Cycle 1

Day 1

100 mg

Day 2

(or Day 1 continued)

900 mg

Day 8

1,000 mg

Day 15

1,000 mg

Cycles 2–6

Day 1

1,000 mg

1See section 5.1 for information on chlorambucil dose

Duration of treatment

Six treatment cycles, each of 28 day duration.

Delayed or missed doses

If a planned dose of Gazyvaro is missed, it should be administered as soon as possible; do not wait until the next planned dose. The planned treatment interval for Gazyvaro should be maintained between doses.

Follicular lymphoma

For patients with FL, the recommended dose of Gazyvaro in combination with chemotherapy is shown in Table 3.

Patients with previously untreated follicular lymphoma

Induction (in combination with chemotherapy2)

Gazyvaro should be administered with chemotherapy as follows:

Six 28-day cycles in combination with bendamustine2 or,

Six 21-day cycles in combination with cyclophosphamide, doxorubicin,

vincristine, prednisolone (CHOP), followed by 2 additional cycles of Gazyvaro alone or,

Eight 21-day cycles in combination with cyclophosphamide, vincristine, and prednisone/pred­nisolone/methyl­prednisolone(CVP).

Maintenance

Patients who achieve a complete or partial response to induction treatment with Gazyvaro in combination with chemotherapy (CHOP or CVP or bendamustine) should continue to receive Gazyvaro 1,000 mg as single agent maintenance therapy once every 2 months for 2 years or until disease progression (whichever occurs first).

Patients with follicular lymphoma who did not respond or who progressed during or up to 6 months after treatment with rituximab or a rituximab-containing regimen

Induction (in combination with bendamustine2)

Gazyvaro should be administered in six 28-day cycles in combination with bendamustine2.

Maintenance

Patients who achieved a complete or partial response to induction treatment (i.e. the initial 6 treatment cycles) with Gazyvaro in combination with bendamustine or have stable disease should continue to receive Gazyvaro 1,000 mg as single agent maintenance therapy once every 2 months for 2 years or until disease progression (whichever occurs first).

Table 3 Follicular lymphoma: Dose of Gazyvaro to be administered during induction treatment, followed by maintenance treatment

Cycle

Day of treatment

Dose of Gazyvaro

Cycle 1

Day 1

1,000 mg

Day 8

1,000 mg

Day 15

1,000 mg

Cycles 2–6 or 2–8

Day 1

1,000 mg

Maintenance

Every 2 months for 2 years or until disease progression (whichever occurs first)

1,000 mg

2See section 5.1 for information on bendamustine dose

Duration of treatment

Induction treatment of approximately six months (six treatment cycles of Gazyvaro, each of 28 day duration when combined with bendamustine, or eight treatment cycles of Gazyvaro, each of 21 day duration when combined with CHOP or CVP) followed by maintenance once every 2 months for 2 years or until disease progression (whichever occurs first).

Delayed or missed doses

If a planned dose of Gazyvaro is missed, it should be administered as soon as possible; do not omit it or wait until the next planned dose.

If toxicity occurs before Cycle 1 Day 8 or Cycle 1 Day 15, requiring delay of treatment, these doses should be given after resolution of toxicity. In such instances, all subsequent visits and the start of Cycle 2 will be shifted to accommodate for the delay in Cycle 1.

During maintenance, maintain the original dosing schedule for subsequent doses.

Dose modifications during treatment (all indications)

No dose reductions of Gazyvaro are recommended.

For management of symptomatic adverse events (including IRRs), see paragraph below (Management of IRRs or section 4.4).

Special populations

Elderly

No dose adjustment is required in elderly patients (see section 5.2).

Renal impairment

No dose adjustment is required in patients with mild to moderate renal impairment (creatinine clearance [CrCl] 30–89 mL/min) (see section 5.2). The safety and efficacy of Gazyvaro has not been established in patients with severe renal impairment (CrCl < 30 mL/min) (see sections 4.8 and 5.2).

Hepatic impairment

The safety and efficacy of Gazyvaro in patients with impaired hepatic function has not been established. No specific dose recommendations can be made.

Paediatric population

The safety and efficacy of Gazyvaro in children and adolescents aged below 18 years has not been established. No data are available.

Method of administration

Gazyvaro is for intravenous use. It should be given as an intravenous infusion through a dedicated line after dilution (see section 6.6). Gazyvaro infusions should not be administered as an intravenous push or bolus.

For instructions on dilution of Gazyvaro before administration, see section 6.6.

Instructions on the rate of infusion are shown in Tables 4–6.

Table 4 Chronic lymphocytic leukaemia: Standard infusion rate in the absence of IRRs/hypersen­sitivity and recommendations in case an IRR occurred with previous infusion

Cycle

Day of treatment

Rate of infusion

The infusion rate may be escalated provided that the patient can tolerate it. For management of IRRs that occur during the infusion, refer to “Management of IRRs”.

Cycle 1

Day 1 (100 mg)

Administer at 25 mg/hr over 4 hours. Do not increase the infusion rate.

Day 2

(or Day 1 continued)

(900 mg)

If no IRR occurred during the previous infusion, administer at 50 mg/hr.

The rate of the infusion can be escalated in increments of 50 mg/hr every 30 minutes to a maximum rate of 400 mg/hr.

If the patient experienced an IRR during the previous infusion, start with administration at 25 mg/hr. The rate of infusion can be escalated in increments up to 50 mg/hr every 30 minutes to a maximum rate of 400 mg/hr.

Day 8 (1,000 mg)

If no IRR occurred during the previous infusion, when the final infusion rate was 100 mg/hr or faster, infusions can be started at a rate of 100 mg/hr and increased by 100 mg/hr increments every 30 minutes to a maximum of 400 mg/hr.

If the patient experienced an IRR during the previous infusion administer at 50 mg/hr. The rate of the infusion can be escalated in increments of 50 mg/hr every 30 minutes to a maximum rate of 400 mg/hr.

Day 15 (1,000 mg)

Cycles 2–6

Day 1

(1,000 mg)

Follicular lymphoma (FL)

Gazyvaro should be administered at the standard infusion rate in Cycle 1 (see Table 5). In patients who do not experience Grade >3 infusion related reactions (IRRs) during Cycle 1, Gazyvaro may be administered as a short (approximately 90 minutes) duration infusion (SDI) from Cycle 2 onwards (see Table 6).

Table 5 Follicular lymphoma: Standard infusion rate and recommendations in case an IRR occurred with previous infusion

Cycle

Day of treatment

Rate of infusion

The infusion rate may be escalated provided that the patient can tolerate it. For management of IRRs that occur during the infusion, refer to “Management of IRRs”.

Cycle 1

Day 1

(1,000 mg)

Administer at 50 mg/hr. The rate of infusion can be escalated in 50 mg/hr increments every 30 minutes to a maximum of 400 mg/hr.

Day 8 (1,000 mg)

If no IRR or if an IRR Grade 1 occurred during the previous infusion when the final infusion rate was 100 mg/hr or faster, infusions can be started at a rate of 100 mg/hr and increased by 100 mg/hr increments every 30 minutes to a maximum of 400 mg/hr.

If the patient experienced an IRR of Grade 2 or higher during the previous infusion administer at 50 mg/hr. The rate of infusion can be escalated in 50 mg/hr increments every 30 minutes to a maximum of 400 mg/hr.

Day 15 (1,000 mg)

Cycles 2–6 or 2–8

Day 1

(1,000 mg)

Maintenance

Every 2 months for 2 years or until disease progression (whichever occurs first)

Table 6 Follicular lymphoma: Short duration infusion rate and recommendations in case an IRR occurred with previous infusion

Cycle

Day of treatment

Rate of infusion

For management of IRRs that occur during the infusion, refer to “Management of IRRs”.

Cycles 2–6 or 2–8

Day 1

(1,000 mg)

If no IRR of Grade >3 occurred during

Cycle 1:

100 mg/hr for 30 minutes, then 900 mg/hr for approximately 60 minutes.

Maintenance

Every 2 months for 2 years or until disease progression

(whichever occurs first)

If an IRR of Grade 1–2 with ongoing symptoms or a Grade 3 IRR occurred during the previous SDI infusion, administer obinutuzumab at the standard infusion rate (see Table 5).

Management of IRRs (all indications)

Management of IRRs may require temporary interruption, reduction in the rate of infusion, or treatment discontinuations of Gazyvaro as outlined below (see also section 4.4).

Grade 4 (life threatening): Infusion must be stopped and therapy must be permanently discontinued.

Grade 3 (severe): Infusion must be temporarily stopped and symptoms treated. Upon resolution of symptoms, the infusion can be restarted at no more than half the previous rate (the rate being used at the time that the IRR v occurred) and, if the patient does not experience any IRR symptoms, the infusion rate escalation can resume at the increments and intervals as appropriate for the treatment dose (see Tables 4 –6). For CLL patients receiving the Day 1 (Cycle 1) dose split over two days, the Day 1 infusion rate may be increased back up to 25 mg/hr after 1 hour, but not increased further.

The infusion must be stopped and therapy permanently discontinued if the patient experiences a second occurrence of a Grade 3 IRR.

Grade 1–2 (mild to moderate): The infusion rate must be reduced and symptoms treated. Infusion can be continued upon resolution of symptoms and, if the patient does not experience any IRR symptoms, the infusion rate escalation can resume at the increments and intervals as appropriate for the treatment dose (see Tables 4 –6). For CLL patients receiving the Day 1 (Cycle 1) dose split over the two days, the Day 1 infusion rate may be increased back up to 25 mg/hr after 1 hour, but not increased further.

Management of IRRs occurring during SDI

Grade 4 (life threatening): Infusion must be stopped and therapy must be permanently discontinued.

Grade 3 (severe): Infusion must be temporarily stopped and symptoms treated. Upon resolution of symptoms, the infusion can be restarted at no more than half the previous rate (the rate being used at the time that the IRR occurred) and not greater than 400 mg/hr.

If the patient experiences a second Grade 3 IRR after resuming the infusion, the infusion must be stopped and therapy must be permanently discontinued. If the patient is able to complete the infusion without further Grade 3 IRRs, the next infusion should be given at a rate not higher than the standard rate.

Grade 1–2 (mild to moderate): The infusion rate must be reduced and symptoms treated. Infusion can be continued upon resolution of symptoms and, if the patient does not experience any IRR symptoms, the infusion rate escalation can resume at the increments and intervals as appropriate for the treatment dose (see Tables 5–6).

4.3 Contraindi­cations

Hypersensitivity to the active substance or to any of the excipients listed in section 6.1.

4.4 Special warnings and precautions for use

In order to improve the traceability of biological medicinal products, the trade name and batch number of the administered product should be clearly recorded (or stated) in the patient file.

Based on a subgroup analysis in previously untreated follicular lymphoma, the efficacy in FLIPI low risk (0–1) patients is currently inconclusive (see section 5.1). A therapy choice for these patients should carefully consider the overall safety profile of Gazyvaro plus chemotherapy and the patient-specific situation.

Infusion related reactions

The most frequently observed adverse drug reactions (ADRs) in patients receiving Gazyvaro were IRRs, which occurred predominantly during infusion of the first 1,000 mg. IRRs may be related to cytokine release syndrome which has also been reported in Gazyvaro treated patients. In CLL patients who received the combined measures for prevention of IRRs (adequate corticosteroid, oral analgesic/anti-histamine, omission of antihypertensive medicine in the morning of the first infusion, and the Cycle 1 Day 1 dose administered over 2 days) as described in section 4.2, a decreased incidence of IRRs of all Grades was observed. The rates of Grade 3–4 IRRs (which were based on a relatively small number of patients) were similar before and after mitigation measures were implemented. Mitigation measures to reduce IRRs should be followed (see section 4.2). The incidence and severity of infusion related symptoms decreased substantially after the first 1,000 mg was infused, with most patients having no IRRs during subsequent administrations of Gazyvaro (see section 4.8).

In the majority of patients, irrespective of indication, IRRs were mild to moderate and could be managed by the slowing or temporary halting of the first infusion, but severe and life-threatening IRRs requiring symptomatic treatment have also been reported. IRRs may be clinically indistinguishable from immunoglobulin E (IgE) mediated allergic reactions (e.g. anaphylaxis). Patients with a high tumour burden and/or high circulating lymphocyte count in CLL [> 25 × 109/L] may be at increased risk of severe IRRs. Patients with renal impairment (CrCl < 50 mL/min) and patients with both Cumulative Illness Rating Scale (CIRS) > 6 and CrCl < 70 mL/min are more at risk of IRRs, including severe IRRs (see section 4.8). For management of IRRs see section 4.2 Posology and method of administration.

Patients must not receive further Gazyvaro infusions if they experience:

acute life-threatening respiratory symptoms,

a Grade 4 (i.e. life threatening) IRR or,

a second occurrence of a Grade 3 (prolonged/re­current) IRR (after resuming the first infusion or during a subsequent infusion).

Patients who have pre-existing cardiac or pulmonary conditions should be monitored carefully throughout the infusion and the post-infusion period. Hypotension may occur during Gazyvaro intravenous infusions. Therefore, withholding of antihypertensive treatments should be considered for 12 hours prior to and throughout each Gazyvaro infusion and for the first hour after administration. Patients at acute risk of hypertensive crisis should be evaluated for the benefits and risks of withholding their anti-hypertensive medicine.

Hypersensitivity reactions

Hypersensitivity reactions with immediate (e.g. anaphylaxis) and delayed onset (e.g. serum sickness) have been reported in patients treated with Gazyvaro. Hypersensitivity may be difficult to clinically distinguish from IRRs. Hypersensitivity symptoms can occur after previous exposure and very rarely with the first infusion. If a hypersensitivity reaction is suspected during or after an infusion, the infusion must be stopped and treatment permanently discontinued. Patients with known hypersensitivity to obinutuzumab must not be treated (see section 4.3).

Tumour lysis syndrome (TLS)

TLS has been reported with Gazyvaro. Patients who are considered to be at risk of TLS (e.g. patients with a high tumour burden and/or a high circulating lymphocyte count [> 25 × 109/L] and/or renal impairment [CrCl < 70 mL/min]) should receive prophylaxis. Prophylaxis should consist of adequate hydration and administration of uricostatics (e.g. allopurinol), or a suitable alternative such as a urate oxidate (e.g. rasburicase) starting 12–24 hours prior to the infusion of Gazyvaro as per standard practice (see section 4.2). All patients considered at risk should be carefully monitored during the initial days of treatment with a special focus on renal function, potassium, and uric acid values. Any additional guidelines according to standard practice should be followed. For treatment of TLS, correct electrolyte abnormalities, monitor renal function and fluid balance, and administer supportive care, including dialysis as indicated.

Neutropenia

Severe and life-threatening neutropenia including febrile neutropenia has been reported during treatment with Gazyvaro. Patients who experience neutropenia should be closely monitored with regular laboratory tests until resolution. If treatment is necessary it should be administered in accordance with local guidelines and the administration of granulocyte-colony stimulating factors (G-CSF) should be considered. Any signs of concomitant infection should be treated as appropriate. Dose delays should be considered in case of severe or life-threatening neutropenia. It is strongly recommended that patients with severe neutropenia lasting more than 1 week receive antimicrobial prophylaxis throughout the treatment period until resolution to Grade 1 or 2. Antiviral and antifungal prophylaxis should also be considered (see section 4.2). Late onset neutropenia (occurring >28 days after the end of treatment) or prolonged neutropenia (lasting more than 28 days after treatment has been completed/stopped) may occur. Patients with renal impairment (CrCl < 50 mL/min) are more at risk of neutropenia (see section 4.8).

Thrombocytop enia

Severe and life-threatening thrombocytopenia including acute thrombocytopenia (occurring within 24 hours after the infusion) has been observed during treatment with Gazyvaro. Patients with renal impairment (CrCl < 50 mL/min) are more at risk of thrombocytopenia (see section 4.8). Fatal haemorrhagic events have also been reported in Cycle 1 in patients treated with Gazyvaro. A clear relationship between thrombocytopenia and haemorrhagic events has not been established.

Patients should be closely monitored for thrombocytopenia, especially during the first cycle; regular laboratory tests should be performed until the event resolves, and dose delays should be considered in case of severe or lifethreatening thrombocytopenia. Transfusion of blood products (i.e. platelet transfusion) according to institutional practice is at the discretion of the treating physician. Use of any concomitant therapies which could possibly worsen thrombocytopenia-related events, such as platelet inhibitors and anticoagulants, should also be taken into consideration, especially during the first cycle.

Worsening of pre-existing cardiac conditions

In patients with underlying cardiac disease, arrhythmias (such as atrial fibrillation and tachyarrhythmia), angina pectoris, acute coronary syndrome, myocardial infarction and heart failure have occurred when treated with Gazyvaro (see section 4.8). These events may occur as part of an IRR and can be fatal. Therefore patients with a history of cardiac disease should be monitored closely. In addition these patients should be hydrated with caution in order to prevent a potential fluid overload.

Infections

Gazyvaro should not be administered in the presence of an active infection and caution should be exercised when considering the use of Gazyvaro in patients with a history of recurring or chronic infections. Serious bacterial, fungal, and new or reactivated viral infections can occur during and following the completion of Gazyvaro therapy. Fatal infections have been reported.

Patients (CLL) with both CIRS > 6 and CrCl < 70 mL/min are more at risk of infections, including severe infections (see section 4.8). In the follicular lymphoma studies, a high incidence of infections was observed in all phases of the studies, including follow-up, with the highest incidence seen in the maintenance phase. During the follow-up phase, Grade 3–5 infections are observed more in patients who received Gazyvaro plus bendamustine in the induction phase.

Hepatitis B reactivation

Hepatitis B virus (HBV) reactivation, in some cases resulting in fulminant hepatitis, hepatic failure and death, can occur in patients treated with anti-CD20 antibodies including Gazyvaro (see section 4.8). HBVscreening should be performed in all patients before initiation of treatment with Gazyvaro. At a minimum this should include hepatitis B surface antigen (HBsAg) status and hepatitis B core antibody (HBcAb) status. These can be complemented with other appropriate markers as per local guidelines. Patients with active hepatitis B disease should not be treated with Gazyvaro. Patients with positive hepatitis B serology should consult liver disease experts before start of treatment and should be monitored and managed following local medical standards to prevent hepatitis reactivation.

Progressive multifocal leukoencephalopathy (PML)

Progressive multifocal leukoencephalopathy (PML) has been reported in patients treated with Gazyvaro (see section 4.8). The diagnosis of PML should be considered in any patient presenting with new-onset or changes to preexisting neurologic manifestations. The symptoms of PML are nonspecific and can vary depending on the affected region of the brain. Motor symptoms with corticospinal tract findings (e.g. muscular weakness, paralysis and sensory disturbances), sensory abnormalities, cerebellar symptoms, and visual field defects are common. Some signs/symptoms regarded as “cortical” (e.g. aphasia or visual-spatial disorientation) may occur. Evaluation of PML includes, but is not limited to, consultation with a neurologist, brain magnetic resonance imaging (MRI), and lumbar puncture (cerebrospinal fluid testing for John Cunningham viral DNA). Therapy with Gazyvaro should be withheld during the investigation of potential PML and permanently discontinued in case of confirmed PML. Discontinuation or reduction of any concomitant chemotherapy or immunosuppressive therapy should also be considered. The patient should be referred to a neurologist for the evaluation and treatment of PML.

Immunisation

The safety of immunisation with live or attenuated viral vaccines following Gazyvaro therapy has not been studied and vaccination with live virus vaccines is not recommended during treatment and until B-cell recovery.

Exposure in utero to obinutuzumab and vaccination of infants with live virus vaccines

Due to the potential depletion of B-cells in infants of mothers who have been exposed to Gazyvaro during pregnancy, infants should be monitored for B-cell depletion and vaccinations with live virus vaccines should be postponed until the infant’s B-cell count has recovered. The safety and timing of vaccination should be discussed with the infant’s physician (see section 4.6).

4.5 Interaction with other medicinal products and other forms of interaction

No formal drug-drug interaction studies have been performed, although limited drug-drug interaction sub-studies have been undertaken for Gazyvaro with bendamustine, CHOP, fludarabine and cyclophosphamide (FC), and chlorambucil.

A risk for interactions with other concomitantly used medicinal products cannot be excluded.

Pharmacokinetic interactions

Obinutuzumab is not a substrate, inhibitor, or inducer of cytochrome P450 (CYP450), uridine diphosphate glucuronyltran­sferase (UGT) enzymes and transporters such as P-glycoprotein. Therefore, no pharmacokinetic interaction is expected with medicinal products known to be metabolised by these enzyme systems.

Co-administration with Gazyvaro had no effect on the pharmacokinetics of bendamustine, FC, chlorambucil or the individual components of CHOP. In addition, there were no apparent effects of bendamustine, FC, chlorambucil or CHOP on the pharmacokinetics of Gazyvaro.

Pharmacodynamic interactions

Vaccination with live virus vaccines is not recommended during treatment and until B-cell recovery because of the immunosuppressive effect of obinutuzumab (see section 4.4).

The combination of obinutuzumab with chlorambucil, bendamustine, CHOP or CVP may increase the risk of neutropenia (see section 4.4).

4.6 Fertility, pregnancy and lactation

Women of childbearing potential

Women of childbearing potential must use effective contraception during and for 18 months after treatment with Gazyvaro.

Pregnancy

A reproduction study in cynomolgus monkeys showed no evidence of embryofoetal toxicity or teratogenic effects but resulted in a complete depletion of B-lymphocytes in offspring. B-cell counts returned to normal levels in the offspring, and immunologic function was restored within 6 months of birth. Serum concentrations of obinutuzumab in offspring were similar to those in the mothers on day 28 post-partum, whereas concentrations in milk on the same day were very low, suggesting that obinutuzumab crosses the placenta (see section 5.3). There are no data from the use of obinutuzumab in pregnant women. Gazyvaro should not be administered to pregnant women unless the possible benefit outweighs the potential risk.

In case of exposure during pregnancy, depletion of B-cells may be expected in infants due to the pharmacological properties of the product. Postponing vaccination with live vaccines should be considered for infants born to mothers who have been exposed to Gazyvaro during pregnancy until the infant’s B-cell levels are within normal ranges (see section 4.4).

Breast-feeding

Animal studies have shown secretion of obinutuzumab in breast milk (see section 5.3).

Since human immunoglobulin G (IgG) is secreted in human milk and the potential for absorption and harm to the infant is unknown, women should be advised to discontinue breast-feeding during Gazyvaro therapy and for 18 months after the last dose of Gazyvaro.

Fertility

No specific studies in animals have been performed to evaluate the effect of obinutuzumab on fertility. No adverse effects on male and female reproductive organs were observed in repeat-dose toxicity studies in cynomolgus monkeys (see section 5.3).

4.7 Effects on ability to drive and use machines

Gazyvaro has no or negligible influence on the ability to drive and use machines. IRRs are very common during the first infusion of Gazyvaro, and patients experiencing infusion related symptoms should be advised not to drive or use machines until symptoms abate.

4.8 Undesirable effects

Summary of the safety profile

The adverse drug reactions (ADRs) described in this section were identified during induction, maintenance and follow up for indolent Non-Hodgkin lymphoma (iNHL) including FL; treatment and follow up for CLL in the three pivotal clinical studies:

BO21004/CLL11 (N=781): Patients with previously untreated CLL

BO21223/GALLIUM (N=1390): Patients with previously untreated iNHL (86% of the patients had FL)

GAO4753g/GADOLIN (N=409): Patients with iNHL (81% of the patients had FL) who had no response to or who progressed during or up to 6 months after treatment with rituximab or a rituximab-containing regimen.

These trials investigated Gazyvaro in combination with chlorambucil for CLL and with bendamustine, CHOP or CVP followed by Gazyvaro maintenance therapy for iNHL. The studies BO21223/GALLIUM and GAO4753g/GADOLIN enrolled patients with iNHL including FL. Therefore, in order to provide the most comprehensive safety information, the analysis of ADRs presented in the following has been performed on the entire study population (i.e. iNHL).

Table 7 summarises the ADRs of the pivotal studies (BO21004/CLL11, BO21223/GALLIUM GAO4753g/GADOLIN) that occurred at a higher incidence (difference of > 2%) compared to the relevant comparator arm in at least one pivotal study in:

Patients with CLL receiving Gazyvaro plus chlorambucil compared with chlorambucil alone or rituximab plus chlorambucil (study BO21004/CLL11)

Patients with previously untreated iNHL receiving Gazyvaro plus chemotherapy (bendamustine, CHOP, CVP) followed by Gazyvaro maintenance in patients achieving a response, compared to rituximab plus chemotherapy followed by rituximab maintenance in patients achieving a response (study BO21223/GALLIUM)

Patients with iNHL who had no response to or who progressed during or up to 6 months after treatment with rituximab or a rituximab-containing regimen receiving Gazyvaro plus bendamustine, followed by Gazyvaro maintenance in some patients, compared to bendamustine alone (study GAO4753g/GADOLIN)

The incidences presented in Table 6 (all grades and Grades 3–5) are the highest incidence of that ADR reported from any of the three studies.

Frequencies are defined as very common (> 1/10), common (> 1/100 to < 1/10), uncommon (> 1/1,000 to < 1/100), rare (> 1/10,000 to < 1/1,000) and very rare (< 1/10,000). Within each frequency grouping, adverse reactions are presented in order of decreasing seriousness.

Tabulated list of adverse reactions

Table 7 Summary of ADRs reported with a higher incidence (difference of >2% versus the comparator arm) in patients# receiving Gazyvaro + chemotherapy*

System organ class

Frequency

All Grades

Gazyvaro + chemotherapy* (CLL, iNHL) followed by Gazyvaro maintenance (iNHL)

Grades 3–5T

Gazyvaro + chemotherapy* (CLL, iNHL) followed by Gazyvaro maintenance (iNHL)

Infections and infestations

Very common

Upper respiratory tract infection, sinusitis§,urinary tract infection, pneumonia§ ,herpes zoster§, nasopharyngitis

Common

Oral herpes, rhinitis, pharyngitis, lung infection, influenza

Urinary tract infection, pneumonia, lung infection, upper respiratory tract infection, sinusitis, herpes zoster

Uncommon

Nasopharyngitis, rhinitis, influenza, oral herpes

Neoplasms benign, malignant and unspecified (incl cysts and polyps)

Common

Squamous cell carcinoma of skin, Basal cell carcinoma

Squamous cell carcinoma of skin, Basal cell carcinoma

Blood and lymphatic system disorders

Very common

Neutropenia§, thrombocytopenia, anaemia, leukopenia

Neutropenia, thrombocytopenia

System organ class

Frequency

All Grades

Gazyvaro + chemotherapy* (CLL, iNHL) followed by Gazyvaro maintenance (iNHL)

Grades 3–5T

Gazyvaro + chemotherapy* (CLL, iNHL) followed by Gazyvaro maintenance (iNHL)

Common

Febrile neutropenia

Anaemia, leukopenia, febrile neutropenia

Metabolism and nutrition disorders

Common

Tumour lysis syndrome, hyperuricaemia, hypokalaemia

Tumour lysis syndrome, hypokalaemia

Uncommon

Hyperuricaemia

Psychiatric disorc

ers

Very common

Insomnia

Common

Depression, anxiety

Uncommon

Insomnia, depression, anxiety

Nervous system disorders

Very common

Headache

Uncommon

Headache

Cardiac disorders

Common

Atrial fibrillation

Atrial fibrillation

Vascular disorders

Common

Hypertension

Hypertension

Respiratory, thoracic and mediastinal disorders

Very common

Cough§

Common

Nasal congestion, rhinorrhoea, oropharyngeal pain

Uncommon

Cough, oropharyngeal pain

Gastrointestinal disorders

Very common

Diarrhoea, constipation§

Common

Dyspepsia, haemorrhoids

Diarrhoea

Uncommon

Constipation, haemorrhoids

Skin and subcutaneous tissue disorders

Very common

Alopecia, pruritus

Common

Eczema

Uncommon

Pruritus

Musculoskeletal and connective tissue disorders

Very common

Arthralgia§, back pain, pain in

System organ class

Frequency

All Grades

Gazyvaro + chemotherapy* (CLL, iNHL) followed by Gazyvaro maintenance (iNHL)

Grades 3–5T

Gazyvaro + chemotherapy* (CLL, iNHL) followed by Gazyvaro maintenance (iNHL)

extremity

Common

Musculoskeletal chest pain, bone pain

Pain in extremity

Uncommon

Arthralgia, back pain, musculoskeletal chest pain, bone pain

Renal and Urinary Disorders

Common

Dysuria, urinary incontinence

Uncommon

Dysuria, urinary incontinence

General disorders and administration site conditions

Very common

Pyrexia, Asthenia, fatigue

Common

Chest pain

Pyrexia, asthenia, fatigue

Uncommon

Chest pain

Investigations

Common

White blood cell count decreased, neutrophil count decreased, weight increased

White blood cell count decreased, neutrophil count decreased

Injury, poisoning and procedural complications

Very common

IRRs

IRRs

#with a higher incidence (difference of > 2% between the treatment arms). Only the highest frequency observed in the trials is reported (based on studies BO21004/previously untreated CLL, BO21223/previously untreated advanced iNHL and GAO4753g/rituximab refractory iNHL)

t No Grade 5 adverse reactions have been observed with a difference of > 2% between the treatment arms

* Chemotherapy: Chlorambucil in CLL; bendamustine, CHOP, CVP in iNHL including FL

§ observed also during maintenance treatment with at least 2% higher incidence in Gazyvaro arm (BO21223)

In study GAO4753g/GADOLIN, patients in the bendamustine arm received 6 months of induction treatment only, whereas after the induction period, patients in the Gazyvaro plus bendamustine arm continued with Gazyvaro maintenance treatment.

During the maintenance period in study GAO4753g/GADOLIN, the most common adverse reactions were cough (20%), neutropenia (13%), upper respiratory infections (12%), sinusitis (10%), diarrhoea (10%), bronchitis (10%), nausea (9%), fatigue (9%), IRRs (8%), urinary tract infections (7%), nasopharyngitis (7%), pyrexia (7%), arthralgia (6%), vomiting (6%), rash (6%), pneumonia (5%), dyspnea (5%) and pain in extremity (5%). The most common Grade 3–5 adverse reactions were neutropenia

(10%), febrile neutropenia (2%) and anaemia, thrombocytopenia, pneumonia, sepsis, upper respiratory tract infection, and urinary tract infection (all at 1%).

The profile of adverse reactions in patients with FL was consistent with the overall iNHL population in both studies.

Description of selected adverse reactions

The incidences presented in the following sections if referring to iNHL are the highest incidence of that ADR reported from either pivotal study (BO21223/GALLIUM, GAO4753g/GADOLIN).

The study MO40597 was designed to characterize the safety profile of short duration infusions (approximately 90 minutes) from Cycle 2, in patients with previously untreated FL (see section 5.1 Pharmacodynamic properties).

Infusion related reactions

Most frequently reported (> 5%) symptoms associated with an IRR were nausea, vomiting, diarrhoea, headache, dizziness, fatigue, chills, pyrexia, hypotension, flushing, hypertension, tachycardia, dyspnoea, and chest discomfort. Respiratory symptoms such as bronchospasm, larynx and throat irritation, wheezing, laryngeal oedema and cardiac symptoms such as atrial fibrillation have also been reported (see section 4.4).

Chronic Lymphocytic Leukaemia

The incidence of IRRs was higher in the Gazyvaro plus chlorambucil arm compared to the rituximab plus chlorambucil arm. The incidence of IRRs was 66% with the infusion of the first 1,000 mg of Gazyvaro (20% of patients experiencing a Grade 3–4 IRR). Overall, 7% of patients experienced an IRR leading to discontinuation of Gazyvaro. The incidence of IRRs with subsequent infusions was 3% with the second 1,000 mg dose and 1% thereafter. No Grade 3–5 IRRs were reported beyond the first 1,000 mg infusions of Cycle 1.

In patients who received the recommended measures for prevention of IRRs as described in section 4.2, a decreased incidence of IRRs of all Grades was observed. The rates of Grade 3–4 IRRs (which occurred in relatively few patients) were similar before and after mitigation measures were implemented.

Indolent Non-Hodgkin Lymphoma including Follicular Lymphoma

Grade 3–4 IRRs occurred in 12% of patients. In Cycle 1, the overall incidence of IRRs was higher in patients receiving Gazyvaro plus chemotherapy compared to patients in the comparator arm. In patients receiving Gazyvaro plus chemotherapy, the incidence of IRRs was highest on Day 1 and gradually decreased with subsequent infusions. This decreasing trend continued during maintenance therapy with Gazyvaro alone. Beyond Cycle 1 the incidence of IRRs in subsequent infusions was comparable between the Gazyvaro and the relevant comparator arms. Overall, 4% of patients experienced an infusion related reaction leading to discontinuation of Gazyvaro.

Short Duration Infusion in patients with Follicular Lymphoma

In study MO40597 assessing the safety of SDI, a greater proportion of patients experienced any grade IRRs at Cycle 2 compared to the proportion who experienced IRRs after standard infusion at Cycle 2 in study BO21223 (10/99 [10.1%] vs. 23/529 [4.3%] respectively; IRRs attributed by the investigator to any component of study therapy). No patients experienced Grade >3 IRRs after SDI at Cycle 2 in MO40597; 3/529 (0.6%) experienced Grade >3 IRRs at Cycle 2 in study BO21223. IRR symptoms and signs were similar in both studies.

Infusion related reactions observed in Study MO40597/GAZELLE are summarized in Table 8.

Table 8 Study MO40597/GAZELLE Short-Duration Infusion: Infusion Related

Reactionsa by Cycle (Safety-Evaluable Population)

CTCAE

Grade

C1 Overall

(standard infusion)

C1b by day

C2C

C3

C4

C5

C6

C7

Over all induction cycles

Day 1

Day 2d

Day 8

Day 15

All

65/113

57/113

4/51

6/112

5/111

13/110

9/108

7/108

6/107

5/105

2/55

71/113

Grade

(57.5%)

(50.4%)

(7.8%)

(5.4%)

(4.5%)

(11.8%)

(8.3%)

(6.5%)

(5.6%)

(4.8%)

(3.6%)

(62.8%)

Grade

>3

6/113 (5.3%)

5/113 (4.4%)

1/51 (2.0%)

0

0

0

0

0

1/107 (0.9%)

0

0

7/113 (6.2%)

C=cycle; CTCAE = Common Terminology Criteria for Adverse Events; IRR=infusion related reaction a Infusion related reaction defined as any event that occurred during or within 24 hours from the end of study treatment infusion that were judged by the investigator to be related to any components of therapy. b C1 comprised three infusions at the standard infusion rate, administered at weekly intervals c Patients received short-duration infusion from C2 onward. The denominator at C2 and subsequent cycles represents the number of patients who received SDI at that cycle.

d Patients treated with bendamustine on Cycle 1 Day 2.

Neutropenia and infections

Chronic Lymphocytic Leukaemia

The incidence of neutropenia was higher in the Gazyvaro plus chlorambucil arm (41%) compared to the rituximab plus chlorambucil arm with the neutropenia resolving spontaneously or with use of granulocyte-colony stimulating factors. The incidence of infection was 38% in the Gazyvaro plus chlorambucil arm and 37% in the rituximab plus chlorambucil arm (with Grade 3–5 events reported in 12% and 14%, respectively and fatal events reported in < 1% in both treatment arms). Cases of prolonged neutropenia (2% in the Gazyvaro plus chlorambucil arm and 4% in the rituximab plus chlorambucil arm) and late onset neutropenia (16% in the Gazyvaro plus chlorambucil arm and 12% in the rituximab plus chlorambucil arm) were also reported (see section 4.4).

Indolent Non-Hodgkin Lymphoma including Follicular Lymphoma

In the Gazyvaro plus chemotherapy arm, the incidence of Grade 1–4 neutropenia (50%) was higher relative to the comparator arm with an increased risk during the induction period. The incidence of prolonged neutropenia and late onset neutropenia was 3% and 8%, respectively. The incidence of infection was 81% in the Gazyvaro plus chemotherapy arm (with Grade 3–5 events reported in 22% of patients and fatal events reported in 3% of patients). Patients who received G-CSF prophylaxis had a lower rate of Grade 3–5 infections (see section 4.4).

Short Duration Infusion in patients with Follicular Lymphoma

In study MO40597, assessing the safety of SDI, neutropenia was reported as an adverse event in a higher proportion of patients compared to study BO21223 in which patients receiving standard duration infusion 69/113 [61.1%] vs 247/595 [41.5%], respectively, throughout induction). The median and range of neutrophil count values were similar in both studies at each time point. Febrile neutropenia was reported in a similar proportion of patients in MO40597 and BO21223 (6/113 [5.3%] vs 31/595 [5.2%], respectively). Infection was reported less frequently in MO40597 than in BO21223 (45/113 [39.8%] vs 284/595 [47.7%], respectively).

Thrombocytopenia and haemorrhagic events

Chronic Lymphocytic Leukaemia

The incidence of thrombocytopenia was higher in the Gazyvaro plus chlorambucil arm compared to the rituximab plus chlorambucil arm (16% vs. 7%) especially during the first cycle. Four percent of patients treated with Gazyvaro plus chlorambucil experienced acute thrombocytopenia (occurring within 24 hours after the Gazyvaro infusion) (see section 4.4). The overall incidence of haemorrhagic events was similar in the Gazyvaro treated arm and in the rituximab treated arm. The number of fatal haemorrhagic events was balanced between the treatment arms; however, all of the events in patients treated with Gazyvaro were reported in Cycle 1. No Grade 5 events of thrombocytopenia were reported. A clear relationship between thrombocytopenia and haemorrhagic events has not been established.

Indolent Non-Hodgkin Lymphoma including Follicular Lymphoma

The incidence of thrombocytopenia was 15%. Thrombocytopenia occurred more frequently in Cycle 1 in the Gazyvaro plus chemotherapy arm. Thrombocytopenia occurring during or 24 hours from end of infusion (acute thrombocytopenia) was more frequently observed in patients in the Gazyvaro plus chemotherapy arm than in the comparator arm. The incidence of haemorrhagic events was similar across all treatment arms. Haemorrhagic events and Grade 3–5 haemorrhagic events occurred in 12% and 4% of patients, respectively. While fatal haemorrhagic events occurred in less than 1% of patients; none of the fatal adverse events occurred in Cycle 1.

Short Duration Infusion in patients with Follicular Lymphoma

In study MO40597, assessing the safety of SDI, thrombocytopenia was reported as an adverse event in a higher proportion of patients compared to study BO21223 in which patients received standard duration infusion (21/113 [28.6%] vs 63/595 [10.6%], respectively, throughout induction). The median and range of platelet count values were similar in both studies at each time point. No thrombocytopenia events reported in MO40597 were associated with bleeding.

Special populations

Elderly

Chronic Lymphocytic Leukaemia

In the pivotal BO21004/CLL11 study, 46% (156 out of 336) of patients with CLL treated with Gazyvaro plus chlorambucil were 75 years or older (median age was 74 years). These patients experienced more serious adverse events and adverse events leading to death than those patients < 75 years of age.

Indolent Non Hodgkin Lymphoma including Follicular Lymphoma

In the pivotal studies (BO21223/GALLIUM, GAO4753g/GADOLIN) in iNHL, patients 65 years or older experienced more serious adverse events and adverse events leading to withdrawal or death than patients < 65 years of age.

Renal impairment

Chronic Lymphocytic Leukaemia

In the pivotal BO21004/CLL11 study, 27% (90 out of 336) of patients treated with Gazyvaro plus chlorambucil had moderate renal impairment (CrCl < 50 mL/min).

These patients experienced more serious adverse events and adverse events leading to death than patients with a CrCl > 50 mL/min (see section 4.2, 4.4 and 5.2). Patients with a CrCl < 30 mL/min were excluded from the study (see section 5.1).

Indolent Non Hodgkin Lymphoma including Follicular Lymphoma

In the pivotal studies (BO21223/GALLIUM, GAO4753g/GADOLIN) in iNHL, 5% (35 out of 698) and 7% (14 out of 204) of patients treated with Gazyvaro, respectively, had moderate renal impairment (CrCL < 50 mL/min). These patients experienced more serious adverse events, G rade 3 to 5 adverse events and adverse events leading to treatment withdrawal (patients in BO21223 only) than patients with a CrCl > 50 mL/min (see section 4.2 and 5.2). Patients with a CrCl < 40 mL/min were excluded from the studies (see section 5.1).

Additional safety information from clinical studies experience

Progressive multifocal leukoencephalopathy

PML has been reported in patients treated with Gazyvaro (see section 4.4).

Hepatitis B reactivation

Cases of hepatitis B reactivation have been reported in patients treated with Gazyvaro (see section 4.4).

Gastro-Intestinal Perforation

Cases of gastro-intestinal perforation have been reported in patients receiving Gazyvaro, mainly in iNHL. In the pivotal studies in iNHL up to 1% of patients experienced gastrointestinal perforation.

Worsening of pre-existing cardiac conditions

Cases of arrhythmias (such as atrial fibrillation and tachyarrhythmia), angina pectoris, acute coronary syndrome, myocardial infarction and heart failure have occurred when treated with Gazyvaro (see section 4.4). These events may occur as part of an IRR and can be fatal.

Laboratory abnormalities

Transient elevation in liver enzymes (aspartate aminotransferase [AST], alanine aminotransferase [ALT], alkaline phosphatase) has been observed shortly after the first infusion of Gazyvaro.

Reporting of suspected adverse reactions

Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions (see details below).

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4.9 Overdose

4.9 Overdose

No experience with overdose is available from human clinical studies. In clinical studies with Gazyvaro, doses ranging from 50 mg up to and including 2,000 mg per infusion have been administered. The incidence and intensity of adverse reactions reported in these studies did not appear to be dose dependent.

Patients who experience overdose should have immediate interruption or reduction of their infusion and be closely supervised. Consideration should be given to the need for regular monitoring of blood cell count and for increased risk of infections while patients are B-cell depleted.

5 PHARMACOLOGICAL PROPERTIES

5.1 Pharmacodynamic properties

Pharmacotherapeutic group: Antineoplastic agents, monoclonal antibodies, ATC code: L01XC15

Mechanism of action

Obinutuzumab is a recombinant monoclonal humanised and glycoengineered Type II anti-CD20 antibody of the IgG1 isotype. It specifically targets the extracellular loop of the CD20 transmembrane antigen on the surface of non-malignant and malignant pre-B and mature B-lymphocytes, but not on haematopoietic stem cells, pro-B-cells, normal plasma cells or other normal tissue. Glycoengineering of the Fc part of obinutuzumab results in higher affinity for FcDRIII receptors on immune effector cells such as natural killer (NK) cells, macrophages and monocytes as compared to non-glycoengineered antibodies.

In nonclinical studies, obinutuzumab induces direct cell death and mediates antibody dependent cellular cytotoxicity (ADCC) and antibody dependent cellular phagocytosis (ADCP) through recruitment of FcDRIII positive immune effector cells. In addition, in vivo, obinutuzumab mediates a low degree of complement dependent cytotoxicity (CDC). Compared to Type I antibodies, obinutuzumab, a Type II antibody, is characterised by an enhanced direct cell death induction with a concomitant reduction in CDC at an equivalent dose. Obinutuzumab, as a glycoengineered antibody, is characterised by enhanced ADCC and ADCP compared to non-glycoengineered antibodies at an equivalent dose. In animal models obinutuzumab mediates potent B-cell depletion and antitumour efficacy.

In the pivotal clinical study in patients with CLL (BO21004/CLL11), 91% (40 out of 44) of evaluable patients treated with Gazyvaro were B-cell depleted (defined as CD19+ B-cell counts < 0.07 × 109/L) at the end of treatment period and remained depleted during the first 6 months of follow up. Recovery of B-cells was observed within 12–18 months of follow up in 35% (14 out of 40) of patients without progressive disease and 13% (5 out of 40) with progressive disease.

In the pivotal clinical study in patients with iNHL (GAO4753/GADOLIN), 97% (171 out of 176) of evaluable patients treated with Gazyvaro were B-cell depleted at the end of the treatment period, and 97% (61 out of 63) remained depleted for more than 6 months from the last dose. Recovery of B-cells was observed within 12–18 months of follow-up in 11% (5 out of 46) of evaluable patients.

Clinical efficacy and safety

Chronic Lymphocytic Leukaemia

A Phase III international, multicentre, open label, randomised, two-stage, three-arm clinical study (BO21004/CLL11) investigating the efficacy and safety of Gazyvaro plus chlorambucil (GClb) compared to rituximab plus chlorambucil (RClb) or chlorambucil (Clb) alone was conducted in patients with previously untreated CLL with comorbidities.

Prior to enrolment, patients had to have documented CD20+ CLL, and one or both of the following measures of coexisting medical conditions: comorbidity score (CIRS) of greater than 6 or reduced renal function as measured by CrCl < 70 mL/min. Patients with inadequate liver function (National Cancer Institute – Common Terminology Criteria for Adverse Events Grade 3 liver function tests (AST, ALT > 5 x ULN for > 2 weeks; bilirubin > 3 x ULN) and renal function (CrCl < 30 mL/min) were excluded. Patients with one or more individual organ/system impairment score of 4 as assessed by the CIRS definition, excluding eyes, ears, nose, throat and larynx organ system, were excluded.

A total of 781 patients were randomised 2:2:1 to receive Gazyvaro plus chlorambucil, rituximab plus chlorambucil or chlorambucil alone. Stage 1a compared Gazyvaro plus chlorambucil to chlorambucil alone in 356 patients and Stage 2 compared Gazyvaro plus chlorambucil to rituximab plus chlorambucil in 663 patients.

In the majority of patients, Gazyvaro was given intravenously as a 1,000 mg initial dose administered on Day 1, Day 8 and Day 15 of the first treatment cycle. In order to reduce the rate of infusion related reactions in patients, an amendment was implemented and 140 patients received the first Gazyvaro dose administered over 2 days (Day 1 [100 mg] and Day 2 [900 mg]) (see section 4.2 and 4.4). For each subsequent treatment cycle (Cycles 2 to 6), patients received Gazyvaro 1,000 mg on Day 1 only. Chlorambucil was given orally at 0.5 mg/kg body weight on Day 1 and Day 15 of all treatment cycles (1 to 6).

The demographics data and baseline characteristics were well balanced between the treatment arms. The majority of patients were Caucasian (95%) and male (61%). The median age was 73 years, with 44% being 75 years or older. At baseline, 22% of patients had Binet Stage A, 42% had Binet Stage B and 36% had Binet Stage C.

The median comorbidity score was 8 and 76% of the patients enrolled had a comorbidity score above 6. The median estimated CrCl was 62 mL/min and 66% of all patients had a CrCl < 70 mL/min. Forty-two percent of patients enrolled had both a CrCl < 70 mL/min and a comorbidity score of > 6. Thirty-four percent of patients were enrolled on comorbidity score alone, and 23% of patients were enrolled with only impaired renal function.

The most frequently reported coexisting medical conditions (using a cut off of 30% or higher), in the MedDRA body systems are: Vascular disorders (73%), Cardiac disorders (46%), Gastrointestinal disorders (38%), Metabolism and nutrition disorders (40%), Renal and urinary disorders (38%), Musculoskeletal and connective tissue disorders (33%).

Efficacy results for patients with previously untreated CLL are summarised in Table 9. Kaplan-Meier curves for progression-free survival (PFS) and Overall Survival (OS) are shown in Figures 1–4.

Table 9 Summary of efficacy from BO21004/CLL11 study

Stage 1a

Stage 2

Chlorambucil

N=118

Gazyvaro + chlorambucil

N= 238

Rituximab + chlorambucil

N= 330

Gazyvaro + chlorambucil

N= 333

22.8 months median observation time g

18.7 months median observation time g

Primary endpoint

Stage 1a

Stage 2

Chlorambucil

N=118

Gazyvaro + chlorambucil

N= 238

Rituximab + chlorambucil

N= 330

Gazyvaro + chlorambucil

N= 333

22.8 months median observation time g

18.7 months median observation time g

Investigator-assessed PFS (PFS-INV)

Number (%) of patients with event

Median time to event (months)

Hazard ratio (95% CI)

p-value (Log-Rank test, stratifiedb)

96 (81.4%)      93 (39.1%)

11.1              26.7

0.18 [0.13; 0.24]

< 0.0001

199 (60.3%)   104 (31.2%)

15.2           26.7

0.39 [0.31; 0.49]

< 0.0001

Key secondary endpoints

IRC-assessed PFS (PFS-IRC)a

Number (%) of patients with event

Median time to event (months)

Hazard ratio (95% CI)

p-value (Log-Rank test, stratifiedb)

90 (76.3%)      89 (37.4%)

11.2             27.2

0.19 [0.14; 0.27]

< 0.0001

183 (55.5%)   103 (30.9%)

14.9           26.7

0.42 [0.33; 0.54]

< 0.0001

End of treatment response rate

No. of patients included in the analysis

Responders (%)

Non-responders (%)

Difference in response rate, (95% CI)

p-value (Chi-squared Test)

No. of complete respondersc (%)

118            238

37 (31.4%)      184 (77.3%)

81 (68.6%)     54 (22.7%)

45.95 [35.6; 56.3]

< 0.0001

0 (0.0%)        53 (22.3%)

329           333

214 (65.0%)   261 (78.4%)

115 (35.0%)   72 (21.6%)

13.33 [6.4; 20.3]

0.0001

23 (7.0%)     69 (20.7%)

Molecular remission at end of treatmentd

No. of patients included in the analysis

MRD negativee (%)

MRD positivef (%)

90              168

0 (0%)         45 (26.8%)

90 (100%)      123 (73.2%)

244          239

6 (2.5%)       61 (25.5%)

238 (97.5%)   178 (74.5%)

Stage 1a

Stage 2

Chlorambucil

N=118

Gazyvaro + chlorambucil

N= 238

Rituximab + chlorambucil

N= 330

Gazyvaro + chlorambucil

N= 333

22.8 months median observation time g

18.7 months median observation time g

Difference in MRD rates, (95% CI)

26.79 [19.5; 34.1]

23.06 [17.0; 29.1]

Event free survival

No. (%) of patients with event

Median time to event (months)

Hazard ratio (95% CI)

103 (87.3%)     104 (43.7%)

10.8             26.1

0.19 [0.14; 0.25]

208 (63.0 %)   118 (35.4 %)

14.3            26.1

0.43 [0.34; 0.54]

p-value (Log-Rank test, stratifiedb)

< 0.0001

< 0.0001

Time to new anti-leukaemic therapy

No. (%) of patients with event

Median time to event (months)

Hazard ratio (95% CI) p-value (Log-Rank test, stratifiedb)

65 (55.1%)      51 (21.4%)

14.8 NR

0.24 [0.16; 0.35]

< 0.0001

86 (26.1%)    55 (16.5%)

30.8 NR

0.59 [0.42; 0.82]

< 0.0018

Overall survival

No. (%) of patients with event

Median time to event (months)

Hazard ratio (95% CI) p-value (Log-Rank test, stratifiedb)

57 (48.3%)     93 (39.1%)

66.7 NR

0.68 [0.49; 0.94]

0.0196

147 (44.5%)   121 (36.3%)

73.1 NR

0.76 [0.60; 0.97]

0.0245

IRC: Independent Review Committee; PFS: progression-free survival; HR: Hazard Ratio; CI: Confidence Intervals, MRD: Minimal Residual Disease, NR = Not reached

a Defined as the time from randomisation to the first occurrence of progression, relapse or death from any cause as assessed by the investigator

b stratified by Binet stage at baseline

c Includes 11 patients in the GClb arm with a complete response with incomplete marrow recovery

d Blood and bone marrow combined

e MRD negativity is defined as a result below 0.0001

f Includes MRD positive patients and patients who progressed or died before the end of treatment

g Median observation time for overall survival (OS) data corresponds to 62.5 months median observation time in Stage 1a and to 59.4 months median observation time in Stage 2.

Results of subgroup analyses

Results of the progression free survival (PFS) subgroup analysis (i.e. sex, age, Binet stages, CrCl, CIRS score, beta2-microglobulin, IGVH status, chromosomal abnormalities, lymphocyte count at baseline) were consistent with the results seen in the overall Intent-to-Treat population. The risk of disease progression or death was reduced in the GClb arm compared to the RClb arm and Clb arm in all subgroups except in the subgroup of patients with deletion 17p. In the small subgroup of patients with deletion 17p, only a positive trend was observed compared to Clb (HR=0.42, p=0.0892); no benefit was observed compared to RClb. For subgroups, reduction of the risk of disease progression or death ranged from 92% to 58% for GClb versus Clb and 72% to 29% for GClb versus RClb.

Figure 1 Kaplan-Meier curve of Investigator assessed PFS from Stage 1a in patients with CLL (Study BO21004/CLL11)

Figure 2 Kaplan-Meier curve of OS from Stage 1a in patients with CLL (Study BO21004/CLL11)

Figure 3 Kaplan-Meier curve of investigator assessed PFS from Stage 2 in patients with CLL (Study BO21004/CLL11)

Figure 4 Kaplan-Meier curve of OS from Stage 2 in patients with CLL (Study BO21004/CLL11)

Quality of life

In the QLQC30 and QLQ-CLL-16 questionnaires conducted during the treatment period, no substantial difference in any of the subscales was observed. Data during follow up, especially for the chlorambucil alone arm, is limited. However, no notable differences in quality of life during follow up have been identified to date.

Health-related quality of life assessments, specific to fatigue through treatment period, show no statistically significant difference suggesting that the addition of Gazyvaro to a chlorambucil regimen does not increase the experience of fatigue for patients.

Follicular lymphoma

Previously untreated follicular lymphoma (study BO21223/GALLIUM)

In a phase III, open label, multicentre, randomised clinical study (BO21223/GALLIUM), 1202 patients with previously untreated Grade 1–3a advanced (stage II bulky disease, stage III/IV) FL were evaluated. Patients with FL Grade 3b were excluded from the study. Patients were randomised to 1:1 to receive either Gazyvaro (n=601 patients) or rituximab (n=601 patients) in combination with chemotherapy (bendamustine, CHOP or CVP), followed by Gazyvaro or rituximab maintenance in patients achieving a complete or partial response.

Gazyvaro was given by intravenous infusion as a dose of 1,000 mg on Days 1, 8 and 15 of Cycle 1, on Day 1 of subsequent cycles. In total, six cycles of Gazyvaro (every 28 days) were given in combination with six cycles of bendamustine, and a total of eight cycles of Gazyvaro (every 21 days) were given in combination with six cycles of CHOP or eight cycles of CVP. Gazyvaro was administered prior to chemotherapy. Bendamustine was given intravenously on Days 1 and 2 for all treatment cycles (Cycles 1–6) at 90 mg/m2/day when given in combination with Gazyvaro. Standard dosing of CHOP and CVP was given. Following Cycles 6–8, in combination with chemotherapy, responding patients received Gazyvaro maintenance therapy every 2 months until disease progression or for up to 2 years.

The demographic data and baseline characteristics of the patient population were well balanced between the treatment arms; median age was 59 years, 81% were Caucasian, 53% were female, 79% had a FLIPI score of > 2 and 7% had Stage II (bulky), 35% had Stage III and 57% had Stage IV disease, 44% had bulky disease (> 7 cm), 34% had at least one B-symptom at baseline and 97% had an ECOG performance status of 0–1 at baseline. Fifty-seven percent received bendamustine, 33% received CHOP, and 10% received CVP chemotherapy.

Efficacy results for patients with previously untreated FL are summarised in Table 10. Kaplan-Meier curves for progression-free survival (PFS) are shown in Figure 5.

Table 10 Summary of efficacy in patients with previously untreated FL from BO21223/ GALLIUM study

Rituximab +

Chemotherapy followed by rituximab maintenance

N=601

Gazyvaro +Chemotherapy followed by Gazyvaro maintenance

N=601

Median observation time 34 months

Median observation time 35 months

Primary Endpoint

Investigator-assessed PFS§ (PFS-INV)

Number (%) of patients with event

144 (24.0%)

101 (16.8%)

HR [95% CI]

0.66 [0.51, 0.85]

p-value (Log-Rank test, stratified*)

0.0012

3 year PFS estimate [95% CI]

73.3 [68.8, 77.2]

80.0 [75.9, 83.6]

Key Endpoints

IRC-assessed PFS (PFS-IRC)

Rituximab +

Chemotherapy followed by rituximab maintenance

N=601

Gazyvaro +Chemotherapy followed by Gazyvaro maintenance

N=601

Number (%) of patients with event

125 (20.8%)

93 (15.5%)

HR [95% CI]

0.71 [0.54, 0.93]

p-value (Log-Rank test, stratified*)

0.0138

Time to next antilymphoma therapy#

Number (%) of patients with event

111 (18.5%)

80 (13.3%)

HR [95% CI]

0.68 [0.51, 0.91]

p-value (Log-Rank test, stratified*)

0.0094

Overall Survival#

No. (%) of patients with event

46 (7.7%)

35 (5.8%)

HR [95% CI]

0.75 [0.49, 1.17] 1

p-value (Log-Rank test, stratified*)

0.21’

Overall Response Rate** at End of Induction* (INV-assessed, CT) #

Responders (%) (CR, PR)

522 (86.9%)

532 (88.5%)

Difference in response rate (%) [95% CI]

1.7% [-2.1%, 5.5%]

p-value (Cochran-Mantel-Haenszel test)

0.33

Complete Response (CR)

143 (23.8%)

117 (19.5%)

Partial Response (PR)

379 (63.1%)

415 (69.1%)

IRC: Independent Review Committee; PFS: progression-free survival; HR: Hazard Ratio; CI: Confidence Interval

* Stratification factors were chemotherapy regimen, FLIPI risk group for follicular lymphoma, geographic region

§ Significance level at this efficacy interim analysis: 0.012

1 Data Not Yet Mature. Median was not reached at time of analysis

# not adjusted for multiplicity

**Assessed as per modified Cheson 2007 criteria

* End of Induction = end of induction phase, does not include monotherapy maintenance

Figure 5 Kaplan-Meier curve of INV-assessed progression-free survival in patients with previously untreated FL (Study BO21223/GALLIUM)

R-Chemo: Rituximab plus chemotherapy, G-Chemo: Gazyvaro plus chemotherapy, HR: hazard ratio, CI: confidence interval

Results of subgroup analyses

Results of subgroup analyses (not adjusted for multiplicity) were, in general, consistent with the results seen in the FL population, supporting the robustness of the overall result. The subgroups evaluated included IPI, FLIPI, Bulky Disease, B Symptoms at baseline, Ann Arbor Stage and ECOG at baseline. In patients with FLIPI score 0–1 (low risk), no difference between Gazyvaro plus chemotherapy and rituximab plus chemotherapy was observed (INV-assessed PFS HR 1.17 (95%CI 0.63;2.19, 40 PFS events). This subgroup comprised 21% (253/1202) of the FL ITT population and experienced 16.3% (40/245) of the PFS events. In addition, exploratory subgroup analyses of PFS across chemotherapy regimens (bendamustine, CHOP and CVP) were consistent with the results seen in the Gazyvaro plus chemotherapy population. The observed HRs by chemotherapy subgroup were as follows; CHOP (n = 398): HR 0.77 (95% CI: 0.50, 1.20), CVP (n = 118): HR 0.63 (95% CI: 0.32, 1.21), and bendamustine (n = 686): HR 0.61 (95% CI: 0.43, 0.86).

Patient Reported Outcomes

Based on the FACT-Lym questionnaire collected during treatment and follow-up phases, patients in both treatment arms experienced clinically meaningful improvements in lymphoma-related symptoms as defined by a > 3 point increase from baseline in the Lymphoma subscale, a > 6 point increase from baseline in the FACT Lym TOI and a > 7 point increase from baseline in the FACT Lym Total score. EQ-5D utility scores were similar at baseline, during treatment and follow-up. No meaningful differences were seen between the arms in HRQOL or health status measures.

Due to the open label design the patient reported outcomes should be interpreted with caution.

Patients with follicular lymphoma who did not respond or who progressed during or up to 6 months after treatment with rituximab or a rituximab-containing regimen (study GAO4753g/GADOLIN).

In a phase III, open label, multicentre, randomised clinical study (GAO4753g/GADOLIN), 396 patients with iNHL who had no response during treatment or who progressed within 6 months following the last dose of rituximab or a rituximab-containing regimen (including rituximab monotherapy as part of induction or maintenance treatment) were evaluated. Patients were randomised 1:1 to receive either bendamustine (B) alone (n = 202) or Gazyvaro in combination with bendamustine (G+B) (n = 194) for 6 cycles, each of 28 days duration. Patients in the G+B arm who did not have disease progression (i.e. patients with a complete response (CR), partial response (PR) or stable disease (SD)) at the end of induction continued receiving Gazyvaro maintenance once every two months for two years or until disease progression (whichever occurred first). Patients were stratified according to region, iNHL subtype (follicular versus non-follicular), rituximab-refractory type (whether refractory to prior rituximab monotherapy or rituximab in combination with chemotherapy) and the number of prior therapies (< 2 versus > 2).

The demographic data and baseline characteristics were well balanced between the treatment arms (median age 63 years, the majority were Caucasian [88%] and male [58%]). The majority of patients had follicular lymphoma (81%). The median time from initial diagnosis was 3 years and the median number of prior therapies was 2 (range 1 to 10); 44% of patients had received 1 prior therapy and 34% of patients had received 2 prior therapies.

Gazyvaro was given by intravenous infusion as a dose of 1,000 mg on Days 1, 8 and 15 of Cycle 1, on Day 1 of Cycles 2–6, and in patients who did not have disease progression, once every two months for two years or until disease progression (whichever occurs first). Bendamustine was given intravenously on Days 1 and 2 for all treatment cycles (Cycles 1–6) at 90 mg/m2/day when given in combination with Gazyvaro or 120 mg/m2/day when given alone. In patients treated with G+ B, 79.4% received all six treatment cycles compared to 66.7% of patients in the B arm.

The primary analysis, based on independent Review Committee (IRC) assessment demonstrated a statistically significant – 45% reduction in the risk of disease progression or death, in patients with iNHL receiving G+B followed by Gazyvaro maintenance, compared with patients receiving bendamustine alone. The reduction in the risk of disease progression or death seen in the iNHL population is driven by the subset of patients with FL.

The majority of the patients in study GAO4753g had FL (81.1%). Efficacy results from the primary analysis in the FL population are shown in Table 11 and Figures 6 and 8. 11.6% of the patients had marginal zone lymphoma (MZL) and 7.1% had small lymphocytic lymphoma (SLL). In the non-FL population the HR for IRC-assessed PFS was 0.94 [95% CI: 0.49, 1.90]. No definitive conclusions could be drawn on efficacy in the MZL and SLL sub-populations.

At final analysis, the median observation time was 45.9 months (range: 0–100.9 months) for FL patients in the B arm and 57.3 months (range: 0.4–97.6 months) for patients in the G+B arm, representing an additional 25.6 months and 35.2 months of median follow-up in B and G+B arms, respectively, since the primary analysis. Only Investigator (INV) assessed endpoints were reported at final analysis since IRC assessments did not continue. Overall, the investigator assessed efficacy results were consistent with what was observed in the primary analysis. The overall survival (OS) in patients with FL was stable with longer follow-up (see Figure 7); the HR for risk of death was 0.71 (95%CI: 0.51, 0.98).

Table 11 Summary of primary efficacy analysis in patients with FL# from GAO4753g/GADO­LIN study

Bendamustine

N=166

Gazyvaro + Bendamustine followed by Gazyvaro maintenance

N=155

Median observation  Median observation

time: 20 months      time: 22 months

Primary Endpoint in FL population

IRC-assessed PFS

(PFS-IRC)

Number (%) of patients with event

Median time to event (months, 95% CI)

HR (95% CI)

p-value (Log-Rank test, stratified*)

90 (54.2%)                 54 (34.8%)

13.8 (11.4, 16.2)              NR (22.5,–)

0.48 (0.34, 0.68)

< 0.0001

Secondary Endpoints

Investigator-assessed PFS (PFS-INV)

Number (%) of patients with event

Median time to event (months, 95% CI)

HR (95% CI)

p-value (Log-Rank test, stratified*)

102 (61.4%)                62 (40.0%)

13.7 (11.0, 15.5)               29.2 (17.5,–)

0.48 (0.35, 0.67)

< 0.0001

Best Overall Response (BOR) (IRC-assessed)§

No. of patients included in the analysis

161

153

Responders (%) (CR/PR)

124 (77.0%)

122 (79.7%)

Difference in response rate (95% CI)

2.72 (-6.74, 12.18)

p-value (Cochran-Mantel-Haenszel test)

0.6142

Complete Responders (%)

31 (19.3%)

24 (15.7%)

Partial Responders (%)

93 (57.8%)

98 (64.1%)

Stable Disease (%)

18 (11.2%)

13 (8.5%)

Duration of response (DOR) (IRC-assessed)

No of patients included in the analysis

127

122

No. (%) of patients with event

74 (58.3%)

36 (29.5%)

Median duration (months) of DOR (95% CI)

11.9 (8.8, 13.6)

NR (25.4,–)

HR (95% CI)

0.36 (0.24, 0.54)

Overall Survival

No. (%) of patients with event

36 (21.7%)

25 (16.1%)

Median time to event (months)

NR

NR

HR (95% CI)

0.71 (0.43, 1.19)

p-value (Log-Rank test, stratified*)

0.1976

IRC: Independent Review Committee; PFS: progression-free survival; HR: Hazard Ratio; CI: Confidence Intervals, NR = Not Reached

# Patients with FL who did not respond or who progressed during or up to 6 months after treatment with rituximab or a rituximab-containing regimen

*Stratification factors for analysis were refractory type (rituximab monotherapy vs. rituximab + chemotherapy) and prior therapies (< 2 vs > 2). Follicular versus non-follicular was also a stratification factor for the study but is not applicable in the subgroup analysis of patients with FL.

§ Best response within 12 months of start of treatment

Figure 6 Kaplan-Meier curve of IRC-assessed PFS in patients with FL # (Study GAO4753g/GADOLIN)

# Patients with FL who did not respond or who progressed during or up to 6 months after treatment with rituximab or a rituximab-containing regimen

Figure 7 Kaplan-Meier curve of Overall Survival in FL patients at Final Analysis (Study GAO4753g/GADOLIN)

Overall survival (probability)

Results of subgroup analyses

Results of subgroup analyses were in general consistent with the results seen in the FL population, supporting the robustness of the overall result.

Figure 8 IRC-assessed PFS by patient subgroup in FL *# (Study GAO4753g/GADOLIN)

B                 G-B

(n = 166)                (n = 155)

Total                1 -year                   1 -year            95% Wald Fav<

Baseline factors                        n n Events KM rate n Events KM rate HR       Cl G-B

xirs

All patients                          3­21   166   90   54.888    155   54   69.219   0.49   (0.35,0.68)

Sex

Male                               ­180   95    47   55.028    85    28   72.507   0.49   (0.30,0.78)

Female                             ­141   71    43   54.593    70    26   65.083   0.50   (0.31.0.82)

Bulky disease at BL (6 cm threshold)                                        _   _____ ________

Yes                                1­07   58    33   53.774    49    17   69.568   0.51   (0.28,0.91)

No                                 ­212  106   57   55.515    106   37   69.113   0.48   (0.32,0.74)

B symptoms (a1) at BL

Yes                                 ­47   27    16   54.444    20    7    68.177   0.55   (0.22,1.34)

No                                 ­271   137   73   55.366    134   47   69.376   0.49   (0.34,0.70)

ECOG at BL 0–1                                 ­304  157   85   55.820    147   50   70.512   0.47   (0.33,0.67)

2                                      16    7      4    41.667     8      4    50.000    1.02   (0.25.4.17)

No. of prior therapies s2                                 ­255  130   74   55.100    125   41   69.826   0.43   (0.29,0.63)

>2                                  66   36    16   54.092    30    13   65.660   0.82   (0.39,1.72)

Refractory to

R-mono                             ­64   39    20   63.982    25    8    82.143   0.34   (0.15.0.80) l—

R-chemo induction..... 120   64    34   48.448    56    20   72.098   0.50   (0.28.0.87)

R-maintenance after chemo induction 133   62    35   56.561    71    26   60.648   0.58   (0.35,0.97)

Double refractory status

Yes                                2­52  133   73   51.224    119   42   67.441    0.51   (0.34.0.74)

I *

I

I—■—1

7

1

>■

■ 1 “

1 l-I—1

-■—1

1

0.03    0.1    0.3     1      3      10    30

Unstratified HR is displayed. X-axis with logarithmic scale.

B. bendamustine: BL. baseline: chemo, chemotherapy: Cl. confidence interval: ECOG. Eastern Cooperative Oncology Group:

G-B. obinutuzumab plus bendamustins; HR. hazard ratio: KM. Kaplan-Meier: R-chemo. rituximab plus chemotherapy;

R-maintenance, rituximab maintenance: R-mono. rituximab monotherapy

*pre-specified analyses performed on the intent to treat (ITT) population were repeated on the FL population; analysis of double refractory (i.e. unresponsive to or disease progression during or within 6 months of the last dose of an alkylating agent-based regimen) status was exploratory.

# Patients with FL who did not respond or who progressed during or up to 6 months after treatment with rituximab or a rituximab-containing regimen

Short Duration Infusion Study MO40597 (GAZELLE)

The safety of short (approximately 90 minutes) duration infusion (SDI) of obinutuzumab administered in combination with CHOP, CVP or bendamustine chemotherapy was evaluated in a multicenter, open-label, single arm study in 113 patients with previously untreated advanced follicular lymphoma (Study MO40597/GAZELLE).

Patients received the first cycle of obinutuzumab at the standard infusion rate on Day 1, 8, and 15 of Cycle 1. Patients who did not experience any Grade >3 IRRs during the first cycle received SDI from Cycle 2 onwards.

The primary endpoint of the study was the proportion of patients who experienced a Grade >3 IRR associated with SDI during Cycle 2, among those who had previously received 3 administrations of obinutuzumab at the standard infusion rate during Cycle 1 without experiencing a Grade >3 IRR. No Grade >3 IRRs were observed among patients receiving SDI at Cycle 2. After Cycle 2 only one patient experienced a Grade 3 IRR (hypertension at Cycle 5). See section 4.8 Undesirable Effects.

Patient-reported Outcomes

Due to the open label design the patient reported outcomes should be interpreted with caution. Based on the FACT-Lym questionnaire and EQ-5D index scale collected during the treatment and during follow-up periods, health-related quality of life was generally maintained in the pivotal study with no meaningful difference between the arms. However, in patients with FL the addition of Gazyvaro to bendamustine delayed the time to worsening of health-related quality of life as measured by the FACT-Lym TOI score by 2.2 months (median 5.6 versus 7.8 months for B and G+B respectively HR = 0.83; 95% CI: 0.60, 1.13).

Immunogenicity

Immunogenicity assay results are highly dependent on several factors including assay sensitivity and specificity, assay methodology, assay robustness to quantities of Gazyvaro/antibody in the circulation, sample handling, timing of sample collection, concomitant medicines and underlying disease. For these reasons, comparison of incidence of antibodies to Gazyvaro with the incidence of antibodies to other products may be misleading.

Patients in the CLL pivotal study BO21004/CLL11 were tested at multiple timepoints for anti-therapeutic antibodies (ATA) to Gazyvaro. In patients treated with Gazyvaro 8 out of 140 patients in the randomised phase and 2 out of 6 in the run in phase tested positive for ATA at 12 months of follow up. Of these patients, none experienced anaphylactic or hypersensitivity reactions that were considered related to ATA, nor was clinical response affected.

No post-baseline HAHA (Human Anti-Human Antibody) were observed in patients with iNHL treated in study GAO4753g/GADOLIN. In study BO21223/GALLIUM, 1/565 patient (0.2% of patients with a post-baseline assessment) developed HAHA at induction completion. While the clinical significance of HAHA is not known, a potential correlation between HAHA and clinical course cannot be ruled out.

Paediatric population

The European Medicines Agency has waived the obligation to submit the results of studies with Gazyvaro in all subsets of the paediatric population in CLLand FL (see section 4.2 for information on paediatric use).

5.2 Pharmacokinetic properties

A population pharmacokinetic (PK) model was developed to analyse the PK data in 469 iNHL, 342 CLL and 130 diffuse large B-cell lymphoma (DLBCL) patients from Phase I, Phase II and Phase III studies who received obinutuzumab alone or in combination with chemotherapy.

Obinutuzumab is administered intravenously, therefore absorption is not applicable. There have been no studies performed with other routes of administration. From the population PK model, after the Cycle 6 Day 1 infusion in CLL patients, the estimated median Cmax value was 465.7 jig/mL and AUC(t) value was 8961 gg^d/mL and in iNHL patients the estimated median Cmax value was 539.3 jig/mL and AUC(t) value was 10956 gg^day/mL.

Distribution

Following intravenous administration, the volume of distribution of the central compartment (2.98 L in patients with CLL and 2.97 in patients with iNHL), approximates serum volume, which indicates distribution is largely restricted to plasma and interstitial fluid.

Biotransformation

The metabolism of obinutuzumab has not been directly studied. Antibodies are mostly cleared by catabolism.

Elimination

The clearance of obinutuzumab was approximately 0.11 L/day in CLL patients and 0.08 L/day in iNHL patients with a median elimination t'/z of 26.4 days in CLL patients and 36.8 days in iNHL patients. Obinutuzumab elimination comprises two parallel pathways which describe clearance, a linear clearance pathway and a nonlinear clearance pathway which changes as a function of time. During the initial treatment, the non-linear time-varying clearance pathway is dominant and is consequently the major clearance pathway. As treatment continues, the impact of this pathway diminishes and the linear clearance pathway predominates. This is indicative of target mediated drug disposition (TMDD), where the initial abundance of CD20 cells causes a rapid removal of obinutuzumab from the circulation. However, once the majority of CD20 cells are bound with obinutuzumab, the impact of TMDD on PK is minimised.

Pharmacokinetic/phar­macodynamic relationship(s)

In the population pharmacokinetic analysis, gender was found to be a covariate which explains some of the inter-patient variability, with a 22% greater steady state clearance (CLss) and a 19% greater volume of distribution (V) in males. However, results from the population analysis have shown that the differences in exposure are not significant (with an estimated median AUC and Cmax in CLL patients of 11282 ^g^d/mL and 578.9 ^g/mL in females and 8451 ^g^d/mL and 432.5 ^g/mL in males, respectively at Cycle 6 and AUC and Cmax in iNHL of 13172 ^g^d/mL and 635.7 ^g/mL in females and 9769 ^g^d/mL and 481.3 ^g/mL in males, respectively), indicating that there is no need to dose adjust based on gender.

Elderly

The population pharmacokinetic analysis of obinutuzumab showed that age did not affect the pharmacokinetics of obinutuzumab. No significant difference was observed in the pharmacokinetics of obinutuzumab among patients < 65 years (n=375), patients between 65–75 years (n=265) and patients > 75 years (n=171).

Paediatric population

No studies have been conducted to investigate the pharmacokinetics of obinutuzumab in paediatric patients.

Renal impairment

The population pharmacokinetic analysis of obinutuzumab showed that creatinine clearance does not affect pharmacokinetics of obinutuzumab. Pharmacokinetics of obinutuzumab in patients with mild creatinine clearance (CrCl 50–89 mL/min, n=464) or moderate (CrCl 30 to 49 mL/min, n=106) renal impairment were similar to those in patients with normal renal function (CrCl > 90 mL/min, n=383). Pharmacokinetic data in patients with severe renal impairment (CrCl 15–29 mL/min) is limited (n=8), therefore no dose recommendations can be made.

Hepatic impairment

No formal pharmacokinetic study has been conducted in patients with hepatic impairment.

5.2 Pharmacokinetic properties

A population pharmacokinetic (PK) model was developed to analyse the PK data in 469 iNHL, 342 CLL and 130 diffuse large B-cell lymphoma (DLBCL) patients from Phase I, Phase II and Phase III studies who received obinutuzumab alone or in combination with chemotherapy.

Absorption

Obinutuzumab is administered intravenously, therefore absorption is not applicable. There have been no studies performed with other routes of administration. From the population PK model, after the Cycle 6 Day 1 infusion in CLL patients, the estimated median Cmax value was 465.7 pg/mL and AUC(t) value was 8961 pg^d/mL and in iNHL patients the estimated median Cmax value was 539.3 pg/mL and AUC(t) value was 10956 pg^day/mL.

Distribution

Following intravenous administration, the volume of distribution of the central compartment (2.98 L in patients with CLL and 2.97 in patients with iNHL), approximates serum volume, which indicates distribution is largely restricted to plasma and interstitial fluid.

Biotransformation

The metabolism of obinutuzumab has not been directly studied. Antibodies are mostly cleared by catabolism.

Elimination

The clearance of obinutuzumab was approximately 0.11 L/day in CLL patients and 0.08 L/day in iNHL patients with a median elimination t^ of 26.4 days in CLL patients and 36.8 days in iNHL patients. Obinutuzumab elimination comprises two parallel pathways which describe clearance, a linear clearance pathway and a non-linear clearance pathway which changes as a function of time. During the initial treatment, the non-linear time-varying clearance pathway is dominant and is consequently the major clearance pathway. As treatment continues, the impact of this pathway diminishes and the linear clearance pathway predominates. This is indicative of target mediated drug disposition (TMDD), where the initial abundance of CD20 cells causes a rapid removal of obinutuzumab from the circulation. However, once the majority of CD20 cells are bound with obinutuzumab, the impact of TMDD on PK is minimised.

Pharmacokinetic/phar­macodynamic relationship(s)

In the population pharmacokinetic analysis, gender was found to be a covariate which explains some of the inter-patient variability, with a 22% greater steady state clearance (CLss) and a 19% greater volume of distribution (V) in males. However, results from the population analysis have shown that the differences in exposure are not significant (with an estimated median AUC and Cmax in CLL patients of 11282 Lig^d/ml. and 578.9 |ig/mL in females and 8451 Lg^d/mL and 432.5 |ig/mL in males, respectively at Cycle 6 and AUC and Cmax in iNHL of 13172 |ig^d/mL and 635.7 |ig/mL in females and 9769 Lg^d/mL and 481.3 |ig/mL in males, respectively), indicating that there is no need to dose adjust based on gender.

Elderly

The population pharmacokinetic analysis of obinutuzumab showed that age did not affect the pharmacokinetics of obinutuzumab. No significant difference was observed in the pharmacokinetics of obinutuzumab among patients < 65 years (n=375), patients between 65–75 years (n=265) and patients > 75 years (n=171).

No studies have been conducted to investigate the pharmacokinetics of obinutuzumab in paediatric patients.

Renal impairment

The population pharmacokinetic analysis of obinutuzumab showed that creatinine clearance does not affect pharmacokinetics of obinutuzumab. Pharmacokinetics of obinutuzumab in patients with mild creatinine clearance (CrCl 50–89 mL/min, n=464) or moderate (CrCl 30 to 49 mL/min, n=106) renal impairment were similar to those in patients with normal renal function (CrCl > 90 mL/min, n=383). Pharmacokinetic data in patients with severe renal impairment (CrCl 15–29 mL/min) is limited (n=8), therefore no dose recommendations can be made.

Hepatic impairment

No formal pharmacokinetic study has been conducted in patients with hepatic impairment.

5.3 Preclinical safety data

5.3 Preclinical safety data

No studies have been performed to establish the carcinogenic potential of obinutuzumab.

No specific studies in animals have been performed to evaluate the effect of obinutuzumab on fertility. In repeat-dose toxicity studies in cynomolgus monkeys obinutuzumab had no adverse effects on male and female reproductive organs.

An enhanced pre and postnatal development (ePPND) toxicity study in pregnant cynomolgus monkeys showed no evidence of teratogenic effects. However, weekly obinutuzumab dosing from post-coitum day 20 to delivery resulted in complete depletion of B-cells in infant monkeys at weekly intravenous obinutuzumab doses of 25 and 50 mg/kg (2–5 times the clinical exposure based on Cmax and AUC). Offspring exposure on day 28 post-partum suggests that obinutuzumab can cross the blood-placenta barrier. Concentrations in infant serum on day 28 post-partum were in the range of concentrations in maternal serum, whereas concentrations in milk on the same day were very low (less than 0.5% of the corresponding maternal serum levels) suggesting that exposure of infants must have occurred in utero. The B-cell counts returned to normal levels, and immunologic function was restored within 6 months post-partum.

In a 26-week cynomolgus monkey study, hypersensitivity reactions were noted and attributed to the foreign recognition of the humanised antibody in cynomolgus monkeys (0.7–6 times the clinical exposure based on Cmax and AUC at steady state after weekly administration of 5, 25, and 50 mg/kg). Findings included acute anaphylactic or anaphylactoid reactions and an increased prevalence of systemic inflammation and infiltrates consistent with immune-complex mediated hypersensitivity reactions, such as arteritis/peri­arteritis, glomerulonephritis, and serosal/adventitial inflammation. These reactions led to unscheduled termination of 6/36 animals treated with obinutuzumab during dosing and recovery phases; these changes were partially reversible. No renal toxicity with a causal relationship to obinutuzumab has been observed in humans.

6 PHARMACEUTICAL PARTICULARS

6.1 List of excipients

Histidine

Histidine hydrochloride monohydrate

Trehalose dihydrate

Poloxamer 188

Water for injections

6.2 Incompatibilities

This medicinal product must not be mixed with other medicinal products except those mentioned in section 6.6.

6.3 Shelf life

Unopened vial

3 years.

After dilution

After dilution, chemical and physical stability have been demonstrated in sodium chloride 9 mg/mL (0.9%) solution for injection at concentrations of

0.4 mg/mL to 20 mg/mL for 24 hours at 2°C to 8°C followed by 48 hours (including infusion time) at < 30°C.

From a microbiological point of view, the prepared infusion solution should be used immediately. If not used immediately, in-use storage times and conditions prior to use are the responsibility of the user and would normally not be longer than 24 hours at 2°C-8°C, unless dilution has taken place in controlled and validated aseptic conditions.

6.4 Special precautions for storage

Store in a refrigerator (2°C-8°C).

Do not freeze.

Keep the vial in the outer carton in order to protect from light.

For storage conditions after dilution of the medicinal product, see section 6.3.

6.5 Nature and contents of container

40 mL concentrate in a 50 mL vial (clear Type I glass) with stopper (butyl rubber). Pack size of 1 vial.

6.6 Special precautions for disposal