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LUTATHERA 370 MBQ/ML SOLUTION FOR INFUSION - summary of medicine characteristics

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Summary of medicine characteristics - LUTATHERA 370 MBQ/ML SOLUTION FOR INFUSION

SUMMARY OF PRODUCT CHARACTERISTICS

▼ This medicinal product is subject to additional monitoring. This will allow quick identification of new safety information. Healthcare professionals are asked to report any suspected adverse reactions. See section 4.8 for how to report adverse reactions.

1 NAME OF THE MEDICINAL PRODUCT

Lutathera 370 MBq/mL solution for infusion

2 QUALITATIVE AND QUANTITATIVE COMPOSITION

3   PHARMACEUTICAL FORM

4 CLINICAL PARTICULARS

4.1 Therapeutic indications

Lutathera is indicated for the treatment of unresectable or metastatic, progressive, well differentiated (G1 and G2), somatostatin receptor positive gastroenteropan­creatic neuroendocrine tumours (GEP-NETs) in adults.

4.2 Posology and method of administration

Lutathera should be administered only by persons authorised to handle radiopharmace­uticals in designated clinical settings (see section 6.6) and after evaluation of the patient by a qualified physician.

Before starting treatment with Lutathera, somatostatin receptor imaging (scintigraphy or positron emission tomography [PET]) must confirm the overexpression of these receptors in the tumour tissue with the tumour uptake at least as high as normal liver uptake.

Posology

Adults

The recommended treatment regimen of Lutathera in adults consists of 4 infusions of 7,400 MBq each. The recommended interval between each administration is 8 weeks.

Information on dose modifications to manage severe or intolerable adverse drug reactions is given in the respective section below.

For renal protection purpose, an amino acid solution must be administered intravenously during 4 hours. The infusion of the amino acid solution should start 30 minutes prior to start of Lutathera infusion.

Amino acid solution

The amino acid solution can be prepared as a compounded product, in compliance with the hospital’s sterile medicinal product preparation good practices and according to the composition specified in Table 1.

Table 1. Composition of the compounded amino acid solution

Compound

Amount

L-Lysine HCl

25 g*

L-Arginine HCl

25 g

Sodium chloride 9 mg/mL (0.9%) solution for injection, or water for injections

1 L

equivalent to 20.0 g lysine

equivalent to 20.7 g arginine

Alternatively, some commercially available amino acid solutions can be used if compliant with the specification described in Table 2.

Table 2. Specification of commercially available amino acid solutions

Characteristic

Specification

L-Lysine HCl content

Between 18 and 25 g

L-Arginine HCl content

Between 18 and 25 g

Volume

1 L to 2 L

Osmolality

< 1,200 mOsmol/kg

equivalent to 14.4–20 g lysine

equivalent to 14.9–20.7 g arginine

An amino acid solution containing just lysine and arginine in the amounts specified in Table 1 is considered the medicinal product of choice, due to its lower total volume to be infused and lower osmolality.

Treatment monitoring

Before each administration and during the treatment, biological tests are required to re-assess the patient’s condition and adapt the therapeutic protocol if necessary (dose, infusion interval, number of infusions).

The minimum laboratory tests needed before each infusion are:

Haematology (Haemoglobin [Hb], white blood cell count, platelet count)

Kidney function (serum creatinine and creatinine clearance)

Liver function (alanine aminotransferase [ALAT], aspartate aminotransferase [ASAT], albumin, bilirubin)

These tests should be performed at least once within 2 to 4 weeks prior to administration, and shortly before the administration. It is also recommended to perform these tests every 4 weeks for at least 3 months after the last infusion of

Lutathera and every 6 months thereafter, in order to be able to detect possible delayed adverse reactions (see section 4.8). Dosing may need to be modified based on the test results.

Dose modification

Management of severe or intolerable adverse drug reactions may require temporary dose interruption, extending dosing interval from 8 weeks up to 16 weeks, dose reduction, or discontinuation of treatment with Lutathera (see Table 3 and Figure 1).

Table 3. Recommended dose modifications of Lutathera for Adverse Drug Reactions

Adverse Drug Reaction

Severity of Adverse Drug Reaction

Dose Modification

Thrombocytopenia

Grade 2 (Platelets < 75 –50 × 109/L) 1

Grade 3 (Platelets < 50 –25 × 109/L)

Grade 4 (Platelets < 25 × 109/L)

Withhold dose until complete or partial resolution (Grade 0 to 1).

Resume Lutathera at 3,700 MBq (100 mCi) in patients with complete or partial resolution. If reduced dose does not result in Grade 2, 3 or 4 thrombocytopenia, administer Lutathera at 7,400 MBq (200 mCi) for next dose.

Permanently discontinue Lutathera for Grade 2 or higher thrombocytopenia requiring a treatment delay of 16 weeks or longer.

Recurrent Grade 2, 3 or 4

Permanently discontinue Lutathera.

Adverse Drug Reaction

Severity of Adverse Drug Reaction

Dose Modification

Anemia and neutropenia

Grade 3 (Hb < 8.0 g/dL) 1; transfusion indicated

Grade 4 (life threatening consequences)

Grade 3 (Absolute Neutrophil Count (ANC) < 1.0 – 0.5 × 109/L)

Grade 4 (ANC < 0.5 × 109/L)

Withhold dose until complete or partial resolution (Grade 0, 1, or 2).

Resume Lutathera at 3,700 MBq (100 mCi) in patients with complete or partial resolution. If reduced dose does not result in Grade 3 or 4 anemia or neutropenia, administer Lutathera at 7,400 MBq (200 mCi) for next dose.

Permanently discontinue Lutathera for Grade 3 or higher anemia or neutropenia requiring a treatment delay of 16 weeks or longer.

Recurrent Grade 3 or 4

Permanently discontinue Lutathera.

Renal oxicity1

Defined as:

Creatinine clearance less than 40 mL/min 1; calculate using Cockcroft Gault with actual body weight, or

40% increase in baseline serum creatinine, or

40% decrease in baseline creatinine clearance; calculate using Cockcroft Gault with actual body weight.

Withhold dose until complete resolution or return to baseline.

Resume Lutathera at 3,700 MBq (100 mCi) in patients with complete resolution or return to baseline. If reduced dose does not result in renal toxicity, administer Lutathera at 7,400 MBq (200 mCi) for next dose.

Permanently discontinue Lutathera for renal toxicity requiring a treatment delay of 16 weeks or longer.

Recurrent renal toxicity

Permanently discontinue Lutathera.

Adverse Drug Reaction

Severity of Adverse Drug Reaction

Dose Modification

Hepatotoxicity

Defined as:

Bilirubinaemia greater than 3 times the upper limit of normal (Grade 3 or 4)2, or

Hypoalbuminaemia2 less than 30 g/L with a decreased prothrombin ratio less than 70%

Withhold dose until complete resolution or return to baseline.

Resume Lutathera at 3,700 MBq (100 mCi) in patients with complete resolution or return to baseline. If reduced Lutathera dose does not result in hepatotoxicity, administer Lutathera at 7,400 MBq (200 mCi) for next dose.

Permanently discontinue Lutathera for hepatotoxicity; requiring a treatment delay of 16 weeks or longer.

Recurrent hepatotoxicity.

Permanently discontinue Lutathera.

Any other CTCAE grade 3 or grade 4 toxicity possibly related to Lutathera

Grade 3 or 4

Withhold dose until complete or partial resolution (Grade 0 to 2).

Resume Lutathera at 3,700 MBq (100 mCi) in patients with complete or partial resolution. If reduced dose does not result in Grade 3 or 4 toxicity, administer Lutathera at 7,400 MBq (200 mCi) for next dose.

Permanently discontinue Lutathera for Grade 3 or higher toxicity requiring treatment delay of 16 weeks or longer.

Recurrent Grade 3 or 4

Permanently discontinue Lutathera.

1 The same threshold initiation (see sectio

2 If same thresholds benefit risk assessmt

* CTCAE: Common Institute

s are also applicable to baseline values at the time of treatment n 4.4).

are seen at baseline treatment initiation to be considered after ent (see section 4.4).

Terminology Criteria for Adverse Events, National Cancer

Figure 1. Scheme of instructions for dose modifications

DMT: Dose modifying toxicity

Other reasons to consider temporary dose interruption of Lutathera include occurrence of an intercurrent disease (e.g. urinary tract infection), which according to the physician could increase the risks associated to Lutathera administration, and which should be resolved or stabilized for treatment to resume; and major surgery, in which case treatment should be withheld for 12 weeks after the date of surgery.

Special populations

Elderly

No dosage adjustment is required in patients 65 years or above as clinical experience has not identified differences in responses between the elderly and younger patients. However, since increased risk of presenting haematotoxicity has been described in elderly patients (> 70 years old), a close follow up allowing for prompt dose adaptation (DMT) in this population is advisable.

Renal impairment

Careful consideration of the activity to be administered is required since an increased radiation exposure is possible in these patients. The pharmacokinetic profile and safety of lutetium (177Lu) oxodotreotide in patients with severe renal impairment or end-stage renal disease has not been studied. Treatment with Lutathera in patients with severe kidney failure with creatinine clearance < 30 mL/min is contraindicated (see section 4.3). Treatment with Lutathera in patients with creatinine clearance < 40 mL/min at baseline (using Cockcroft Gault) is not recommended. No dose adjustment is recommended for renally impaired patients with creatinine clearance > 40 mL/min. However, as this medicinal product is known to be substantially excreted by the kidneys, renal function should be more frequently monitored during the treatment as these patients may be at a greater risk of toxicity.

For additional details about the treatment of patient with renal impairment see Table 3 in section4.2 and section4.4.

Hepatic impairment

No dose adjustment is recommended for patients with mild or moderate hepatic impairment. Careful consideration of the activity to be administered to patients with hepatic impairment is required since an increased radiation exposure is possible in these patients. The pharmacokinetic profile of lutetium (177Lu) oxodotreotide in patients with severe hepatic impairment has not been studied (total bilirubin > 3 times upper limit of normal and any ASAT), therefore those patients should only be treated with Lutathera after careful benefit-risk assessment.

For additional details about the treatment of patient with mild to moderate hepatic impairment, see Table 3 and section 4.4.

Paediatric population

There is no relevant use of Lutathera in the paediatric population in the indication of treatment of GEP-NETs (excluding neuroblastoma, neuroganglioblas­toma, phaeochromocytoma).

Method of administration

Lutathera is for intravenous use. It is a ready to use radiopharmaceutical medicinal product for single use only.

Lutathera must be administered by slow intravenous infusion over approximately 30 minutes, concomitantly with amino acid solution administered by contralateral intravenous infusion. This medicinal product must not be injected as a bolus.

Premedication with antiemetics should be injected at least 30 minutes prior to the start of amino acid solution infusion to reach the full antiemetic efficacy of the selected product, according to the respective product information.

The recommended infusion method for administration of Lutathera is the gravity method, described in more detail in this section. Treating physicians may use other methods deemed appropriate and safe, including the use of infusion pumps, particularly when dose reduction is required. During the administration the recommended radiation safety precaution measures should be undertaken regardless of the infusion method (see section 6.6).

Lutathera should be infused directly from its original container. The vial must not be opened or the solution transferred to another container. During the administration only disposable materials should be used.

The medicinal product should be infused through an intravenous catheter placed in the vein exclusively for its infusion.

Requirements

Storage of the vial

Either in a container made of polymethyl methacrylate (PMMA), a transparent radioprotection container that allows a direct visual inspection of the vial,

Or in the lead container in which Lutathera is delivered.

Room and equipment preparation:

Administration room:

– The floor and the furniture should be covered with tissue paper to avoid any accidental contamination

Medicinal products to be administered:

– One vial of Lutathera

– One bag of sodium chloride 9 mg/mL (0.9%) solution for injection (500 mL)

– Amino acid solution bag(s)

– Antiemetics

Care supplies and equipment:

– Two infusion poles

– One Long needle (recommended 90 – 100 mm, 18 gauge)

– One Short needle (recommended 25 mm, 20 gauge)

– Two gravity intravenous infusion sets with a clamp to regulate or stop the flow (one for Lutathera, one for amino acid solution administration)

– Two peripheral intravenous plastic catheters

– One sterile tubing line with a clamp to regulate or stop the flow

– A pair of tongs (for Lutathera vial handling)

– Calibrated radioactivity measurement system and Geiger counter to monitor the radioactivity of Lutathera

Lutathera vial tubing connections procedure (see Figure 2):

The tubing line should be pre-filled with sodium chloride 9 mg/mL (0.9%) solution for injection and then connected with a venous catheter previously inserted to the patient’s arm.

The infusion set should be connected to the bag of sodium chloride 9 mg/mL (0.9%) solution for injection and pre-filled by opening the clamp.

The short needle should be inserted into the Lutathera vial, so that it does not touch the radiopharmaceutical solution. This will equilibrate pressure thus reducing any risk of leakage.

The short needle should be then connected to the pre-filled infusion set.

The long needle should be connected to the pre-filled tubing line and then inserted into the Lutathera vial, so that it touches the bottom of the vial. This will allow for the complete extraction of the radiopharmaceutical solution.

The flow of the radiopharmaceutical solution should be regulated with the clamps.

Figure 2. Gravity infusion method – tubing connection scheme

Administration procedure (gravity method)

During the infusion, the flow of sodium chloride 9 mg/mL (0.9%) solution for injection increases the pressure in the Lutathera vial, facilitating the flow of Lutathera into the catheter inserted in the patient’s perip­heral vein.

Careful monitoring of the vital signs during the infusion is recommended.

1. Two intravenous plastic catheters should be inserted into patient’s perip­heral veins, one on each arm.

2. The catheters should be connected to the infusion sets (one for Lutathera, one for amino acid solution).

3. Antiemetic premedication should be administered at least 30 minutes prior to the start of amino acid solution infusion (see section 4.2).

4. Administration of the amino acid solution should be initiated 30 minutes before Lutathera infusion, with an infusion rate of 250 to 500 mL/h (depending on volume). Amino acid solution should be administered over 4 hour time span. In case of severe nausea or vomiting during amino acid solution infusion, an antiemetic of a different pharmacological class can be administered.

5. Radioactivity in the Lutathera vial should be measured immediately before infusion using a calibrated radioactivity measurement system.

6. Lutathera infusion should start 30 minutes after the beginning of the amino acid solution infusion, with the infusion rate of approximately 400 mL/h (this infusion rate is the reference rate; the infusion should start at a lower rate of < 100mL/h for the first 5 to 10 minutes and should then be increased depending on the patient’s venous status). Lutathera should be administered over 30 ± 10 minute time span. Constant intra-vial pressure should be maintained during the entire infusion.

7. Lutathera administration should be initiated by opening first the tubing line connected to the patient’s perip­heral vein, and then, by opening the infusion set connected to the bag of sodium chloride 9 mg/mL (0.9%) solution for injection. The pole height should be adjusted in order to compensate any increase or reduction of pressure inside the vial. Moving the patient’s arm position should be avoided if possible (extreme flexion or extension which could lead to vein compression).

8. The flow of Lutathera from the vial to the patient should be monitored during the entire infusion. Soon after the start of the infusion, the radioactivity emission over the patient’s thorax should be measured using Geiger counter to verify the presence of Lutathera in the bloodstream. Subsequent checks of the radioactivity emission should be performed approximately every 5 minutes at the level of the patient’s thorax and vial. During the infusion, the radioactivity emission from the patient’s thorax should steadily increase while the one from the Lutathera vial should decrease.

9. To ensure complete administration, the Lutathera vial should be kept under even pressure. The level of solution in the vial should remain constant during the entire infusion.

Visual controls of the solution levels should be repeated during the administration by direct visual control (when PMMA container is used) or using a pair of tongs to handle the vial when the lead shipping container is used.

10. The infusion should be stopped once the radioactivity emission from the vial becomes stable for several minutes (or during two consecutive measurements). This is the only parameter to determine the procedure completion. The volume of sodium chloride 9 mg/mL (0.9%) solution for injection necessary to complete the infusion may vary.

11. Total activity administered is equal to the activity in the vial before infusion minus the activity remaining in the vial after the infusion. The measurements should be performed using a calibrated system.

The following table summarises the required procedures during a treatment course with Lutathera using the gravity method:

Table 4. Administration procedure of antiemetic, amino acid solution and Lutathera

Administered agents

Start time (min)

Infusion rate (mL/h)

Duration

Antiemetic

at least

30 minutes prior to amino acid solution

as per prescribing information

as per prescribing information

Amino acid solution, either extemporaneously compounded (1 L) or commercial (1 L to 2 L)

0

250 – 500 depending on volume

4 hours

Lutathera with sodium chloride 9 mg/mL (0.9%) solution for injection

30

Up to 400

30 ± 10 minutes

For instructions on the medicinal product before administration, see section 12.

For patient preparation, see section 4.4.

For recommendations in case of extravasation, see section 4.4.

4.3 Contraindications

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

Established or suspected pregnancy or when pregnancy has not been excluded (see section 4.6).

Kidney failure with creatinine clearance < 30 mL/min

4.4 Special warnings and precautions for use

Individual benefit/risk justification

For each patient, the radiation exposure must be justifiable by the likely benefit. The activity administered should in every case be as low as reasonably achievable to obtain the required therapeutic effect.

Given the mechanism of action and the tolerance profile of Lutathera, it is not recommended to start treatment with Lutathera in patients with somatostatin receptor negative or mixed visceral lesions according to somatostatin receptor imaging.

Myelosuppression

Because of the potential for undesirable effects, blood counts must be monitored at baseline and during treatment and until resolution of any eventual toxicity (see section 4.2). Patients with impaired haematological function and patients who have received prior chemotherapy or external beam radiotherapy (involving more than 25% of the bone marrow) may be at higher risk of haematological toxicity during Lutathera treatment. Treatment initiation is not recommended in patients with severely impaired haematological function at baseline (e.g. Hb < 4.9 mmol/L or 8 g/dL, platelets < 75 g/L or 75 × 103/mm3, or leukocytes < 2 g/L or 2000/mm3) (except lymphopenia).

Myelodisplastic syndrome and acute leukaemia

Late-onset myelodisplastic syndrome (MDS) and acute leukaemia (AL) have been observed after treatment with Lutathera (see section 4.8), occurring approximately 28 months (9 – 41) for MDS and 55 months (32 – 125) for AL after the end of treatment. Etiology of this therapy related secondary myeloid neoplasms (t-MNs) is unclear. Factors such as age > 70 years, impaired renal function, baseline cytopenias, prior number of therapies, prior exposure to chemotherapeutic agents (specifically alkylating agents), and prior radiotherapy are suggested as potential risks and/or predictive factors for MDS/AL.

Renal toxicity

Because lutetium (177Lu) oxodotreotide is almost exclusively eliminated through the renal system, it is mandatory to concomitantly administer an amino acid solution containing the amino acids L-lysine and L-arginine. The amino acids solution will help to decrease reabsorption of lutetium (177Lu) oxodotreotide through the proximal tubules, resulting in a significant reduction in the kidney radiation dose (see section 4.2). When the recommended concomitant amino acids infusion is delivered over a 4 hour time span, a mean reduction in kidney radiation exposure of about 47% has been reported.

It is not recommended to decrease the amount of amino acid solution in case of Lutathera dose adaptation.

Patients should be encouraged to empty their bladder as frequently as possible during the administration of amino acids and the hours after administration.

Renal function as determined by serum creatinine and calculated creatinine clearance must be assessed at baseline, during and at least for the first year after treatment (see section 4.2).

Patients with renal impairment at baseline, or with renal or urinary tract morphological abnormalities may be at greater risk of toxicity. Treatment with Lutathera in patients with creatinine clearance < 40 mL/min (using Cockcroft Gault) at baseline is not recommended. More frequent monitoring of renal function is recommended in renally impaired patients with creatinine clearance > 40 mL/min (see section 4.2).

For patients with creatinine clearance < 50 mL/min, an increased risk for transient hyperkalemia due to the amino acid solution should also be taken into consideration (see Warning and precaution regarding the co-administered renal protective amino acid solution).

Hepatic toxicity

Since many patients referred for Lutathera therapy have hepatic metastasis, it may be common to observe patients with altered baseline liver function. Patients with hepatic metastasis or pre-existing advanced hepatic impairment may be at increased risk of hepatotoxicity due to radiation exposure. Therefore, it is recommended to monitor ALAT, ASAT, bilirubin and albumin serum during treatment (see section 4.2).

Patients with baseline liver impairment with either total bilirubinemia > 3 times the upper limit of normal or albuminemia < 30 g/L and prothrombin ratio decreased < 70%, should only be treated with Lutathera after careful benefit-risk assessment (see section 4.2).

Nausea and vomiting

To avoid treatment-related nausea and vomiting, an intravenous bolus of an antiemetic medicinal product should be injected at least 30 minutes prior to the start of amino acid solution infusion to reach the full antiemetic efficacy (see section 4.2).

Concomitant use of somatostatin analogues

Somatostatin and its analogues competitively bind to somatostatin receptors and may interfere with the efficacy of Lutathera (see section 4.5).

Neuroendocrine hormonal crises

Crises due to excessive release of hormones or bioactive substances may occur following treatment with Lutathera, therefore observation of patients by overnight hospitalisation should be considered in some cases (e.g. patients with poor pharmacologic control of symptoms). In case of hormonal crises, recommended treatments are: intravenous high dose somatostatin analogues, intravenous fluids, corticosteroids, and correction of electrolyte disturbances in patients with diarrhoea and/or vomiting.

Tumour lysis syndrome

Tumour lysis syndrome has been reported following therapy with medicines containing lutetium (177Lu). Patients with a history of renal insufficiency and high tumour burden may be at greater risk and should be treated with increased caution. Renal function as well as electrolyte balance should be assessed at baseline and during treatment.

Radioprotection rules

Lutathera should always be infused through an intravenous catheter placed exclusively for its infusion. The adequate position of the catheter should be checked before and during infusion.

The patient treated with Lutathera should be kept away from others during the administration and up to reaching the radiation emission limits stipulated by applicable laws, usually within the 4–5 hours following medicinal product administration. The nuclear medicine physician should determine when the patient can leave the controlled area of the hospital, i.e. when the radiation exposure to third parties does not exceed regulatory thresholds.

The patient should be encouraged to urinate as much as possible after Lutathera administration. Patients should be instructed to drink substantial quantities of water (1 glass every hour) on the day of infusion and the day after to facilitate elimination. The patient should also be encouraged to defecate every day and to use laxative if needed. Urine and faeces should be disposed according to the national regulations.

As long as the patient’s skin is not contaminated, such as from the leakage of the infusion system or because of urinary incontinence, radioactivity contamination is not expected on the skin and in the vomited mass. However, it is recommended that when conducting standard care or exams with medical devices or other instruments which contact the skin (e.g. electrocardiogram (ECG)), basic protection measures should be observed such as wearing gloves, installing the material/electrode before the start of radiopharmaceutical infusion, changing the material/electrode after measurement, and eventually monitoring the radioactivity of equipment after use.

Before the patient is released, the nuclear physician should explain the necessary radioprotection rules of interacting with family members and third parties, and the general precautions the patient must follow during daily activities after treatment (as given in next paragraph and the package leaflet) to minimize radiation exposure to others.

Close contact (less than 1 meter) with other people should be limited for 7 days following an administration of Lutathera. For children and/or pregnant women, close contact (less than 1 meter) should be limited to less than 15 minutes per day for 7 days. Patients should sleep in a separate bedroom from other people for 7 days following an administration of Lutathera. Patients should sleep in separate bedrooms from children and/or pregnant women for 15 days.

Recommended measures in case of extravasation

Disposable waterproof gloves should be worn. The infusion of the medicinal product must be immediately ceased and the administration device (catheter, etc.) removed. The nuclear medicine physician and the radiopharmacist should be informed.

All the administration device materials should be kept in order to measure the residual radioactivity and the activity actually administered and eventually the absorbed dose should be determined. The extravasation area should be delimited with an indelible pen and a picture should be taken if possible. It is also recommended to record the time of extravasation and the estimated volume extravasated.

To continue Lutathera infusion, it is mandatory to use a new catheter possibly placing it in a contralateral venous access.

No additional medicinal product can be administered to the same side where the extravasation occurred.

In order to accelerate medicinal product dispersion and to prevent its stagnation in tissue, it is recommended to increase blood flow by elevating the affected arm. Depending on the case, aspiration of extravasation fluid, sodium chloride 9 mg/mL (0.9%) solution for injection flush injection, or applying warm compresses or a heating pad to the infusion site to accelerate vasodilation should be considered.

Symptoms, especially inflammation and/or pain, should be treated. Depending on the situation, the nuclear medicine physician should inform the patient about the risks linked to extravasation injury, and give advice about potential treatment and necessary follow-up requirements. The extravasation area must be monitored until the patient is discharged from the hospital. Depending upon its seriousness, this event should be declared as an adverse reaction.

Patients with urinary incontinence

During the first 2 days following administration of this medicinal product, special precautions should be taken with patients with urinary incontinence to avoid spread of radioactive contamination. This includes the handling of any materials possibly contaminated with urine.

Patients with brain metastases

There is no efficacy data in patients with known brain metastases therefore individual benefit-risk must be assessed in these patients.

Secondary malignant neoplasms

Exposure to ionising radiation is linked with cancer induction and a potential for development of hereditary defects. The radiation dose resulting from therapeutic exposure may result in higher incidence of cancer and mutations. In all cases it is necessary to ensure that the risks of the radiation exposure are less than from the disease itself.

Other patients with risk factors

A patient presenting with any of the conditions below is more prone to develop adverse reactions. Therefore, it is recommended to monitor those patients more frequently during the treatment. Please see Table 3 in case of dose modifying toxicity.

Bone metastasis;

Previous oncologic radiometabolic therapies with 131Icompounds or any other therapy using unshielded radioactive sources;

History of other malignant tumours unless the patient is considered to be in remission for at least 5 years.

Specific warnings

This medicinal product contains up to 3.5 mmol (81.1 mg) sodium per dose, equivalent to 4% of the WHO recommended maximum daily intake of 2 g sodium for an adult.

Precautions with respect to environmental hazard see section 6.6.

Specific warnings and precautions regarding the co-administered renal protective amino acid solution

Hyperkalemia

A transient increase in serum potassium levels may occur in patients receiving arginine and lysine, usually returning to normal levels within 24 hours from the start of the amino acid infusion.

Serum potassium levels must be tested before each treatment with amino acid solutions. In case of hyperkalemia, patient’s history of hyperkalemia and concomitant medication should be checked. Hyperkalemia must be corrected accordingly before starting the infusion.

In case of pre-existing clinically significant hyperkalemia, a second monitoring prior to amino acid infusion must confirm that hyperkalemia has been successfully corrected. The patient should be monitored closely for signs and symptoms of hyperkalemia, e.g. dyspnea, weakness, numbness, chest pain and cardiac manifestations (conduction abnormalities and cardiac arrhythmias). An electrocardiogram (ECG) should be performed prior to discharging the patient.

Vital signs should be monitored during the infusion regardless of baseline serum potassium levels. Patients should be instructed to drink substantial quantities of water (at least 1 glass every hour) on the day of infusion to remain hydrated and facilitate excretion of excess serum potassium.

In case hyperkalemia symptoms develop during amino acid infusion, appropriate corrective measures must be taken. In case of severe symptomatic hyperkalemia, discontinuation of amino acid solution infusion should be considered, taking into consideration the risk-benefit of renal protection versus acute hyperkalemia.

Heart failure

Due to potential for clinical complications related to volume overload, care should be taken with use of arginine and lysine in patients with severe heart failure defined as class III or class IV in the NYHA classification (New York Heart Association).

Patients with severe heart failure defined as class III or class IV in the NYHA classification should only be treated after careful benefit-risk assessment, taking into consideration volume and osmolality of the amino acid solution.

Metabolic acidosis

Metabolic acidosis has been observed with complex amino-acid solutions administered as part of total parenteral nutrition (TPN) protocols. Shifts in acid-base balance alter the balance of extracellular-intracellular potassium and the development of acidosis may be associated with rapid increases in plasma potassium.

4.5 Interaction with other medicinal products and other forms of interaction

Somatostatin and its analogues competitively bind to somatostatin receptors and may interfere with the efficacy of Lutathera. Therefore, administration of long acting somatostatin analogues should be avoided within 30 days prior to the administration of this medicinal product. If necessary, patients may be treated with short acting somatostatin analogues until at least 24 hours preceding Lutathera administration.

There is some evidence that corticosteroids can induce down-regulation of SST2 receptors. Therefore, as a matter of cautiousness, repeated administration of high-doses of glucocorticos­teroids should be avoided during Lutathera treatment. Patients with a history of chronic use of glucocorticos­teroids should be carefully evaluated for sufficient somatostatin receptor expression. It is not known if there is of interaction between glucocorticos­teroids used intermittently for the prevention of nausea and vomiting during Lutathera administration. Therefore, glucocorticos­teroids should be avoided as preventive anti-emetic treatment. In the case where the treatments previously provided for nausea and vomiting are insufficient, a single dose of corticosteroids can be used, as long as it is not given before initiating or within one hour after the end of Lutathera infusion.

The absence of inhibition or significant induction of the human CYP450 enzymes, the absence of specific interaction with P-glycoprotein (efflux transporter) as well as OAT1, OAT3, OCT1, OCT2, OATP1B1, OATP1B3 and BCRP transporters in pre-clinical studies suggest that Lutathera has a low probability of causing significant other drug-drug interactions.

4.6 Fertility, pregnancy and lactation

Women of childbearing potential

When an administration of radiopharmace­uticals to a woman of childbearing potential is intended, it is important to determine whether or not she is pregnant. Any woman who has missed a period should be assumed to be pregnant until proven otherwise. If in any doubt about her potential pregnancy (if the woman has missed a period, if the period is very irregular, etc.), alternative techniques not using ionising radiation (if there are any) should be offered to the patient. Before the use of Lutathera, pregnancy should be excluded using an adequate/vali­dated test.

Contraception in males and females

Lutathera can cause fetal harm when administered to a pregnant woman. During treatment with Lutathera and for a minimum of the following 6 months after the end of the treatment, appropriate measures must be taken to avoid pregnancy; this applies to patients of both genders.

Pregnancy

No studies on animal reproductive function have been conducted with lutetium (177Lu) oxodotreotide.

Radionuclide procedures carried out on pregnant women also involve radiation dose to the foetus. The use of Lutathera is contraindicated during established or suspected pregnancy or when pregnancy has not been excluded due to the risk associated with the ionizing radiation (see section 4.3). Pregnant women should be advised of the risk to a foetus.

Breast-feeding

It is unknown whether lutetium (177Lu) oxodotreotide is excreted in breast milk. A risk to the suckling child associated with ionising radiation cannot be excluded. Breast-feeding should be avoided during treatment with this medicinal product. If treatment with Lutathera during breast-feeding is necessary, the child must be weaned.

Fertility

No animal studies have been performed to determine the effects of lutetium (177Lu) oxodotreotide on the fertility of either gender. Ionizing radiations of lutetium (177Lu) oxodotreotide may potentially have temporary toxic effects on female and male gonads. Genetic consultation is recommended if the patient wishes to have children after treatment. Cryopreservation of sperm or eggs can be discussed as an option to patients before the treatment.

4.7 Effects on ability to drive and use machines

Lutathera has no or negligible influence on the ability to drive and use machines. Nevertheless, the general condition of the patient and the possible adverse reactions to treatment must be taken into account before driving or using machines.

4.8 Undesirable effects

Summary of safety profile

The overall safety profile of Lutathera is based on pooled data from patients from clinical trials (NETTER-1 phase III and Erasmus phase I/II Dutch patients) and from compassionate use programs.

The most common adverse reactions in patients receiving Lutathera treatment were nausea and vomiting which occurred at the beginning of the infusion in 58.9% and 45.5% of patients, respectively. The causality of nausea / vomiting is confounded by the emetic effect of the concomitant amino acids infusion administered for renal protection.

Due to the bone marrow toxicity of Lutathera, the most expected adverse reactions were related to haematological toxicity: thrombocytopenia (25%), lymphopenia (22.3%), anaemia (13.4%), pancytopenia (10.2%).

Other very common adverse reactions reported include fatigue (27.7%) and decreased appetite (13.4%).

Tabulated list of adverse reactions

The adverse reactions are listed in Table 5 according to the frequency and the MedDRA System Organ Class (SOC). The frequencies are categorized as follows: 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), very rare (<1/10,000) and not known (cannot be estimated from the available data).

Table 5. Frequency of adverse reactions reported from clinical trials and from post-marketing surveillance

MedDRA

System Organ Class (SOC)

Very common

Common

Uncommon

Infections and infestations

Conjunctivitis

Respiratory tract infection

Cystitis

Pneumonia

Herpes zoster

Ophthalmic herpes zoster

Influenza

Staphylococcal infections

Streptococcal bacteraemia

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

Refractory cytopenia with multilineage dysplasia (Myelodysplastic syndrome)

Acute myeloid leukaemia

Acute leukaemia

Chronic myelomonocytic leukaemia

Blood and lymphatic system disorders

Thrombocytopenia2 Lymphopenia3 Anaemia4

Pancytopenia

Leukopenia5

Neutropenia6

Refractory cytopenia with unilineage dysplasia

Nephrogenic anaemia Bone marrow failure Thrombocytopenic purpura

Immune system disorders

Hypersensitivity

Endocrine disorders

Secondary hypothyroidism

Hypothyroidism

Diabetes mellitus

Carcinoid crisis

Hyperparathyroidism

Metabolism and nutrition disorders

Decreased appetite

Hyperglycaemia Dehydration Hypomagnesaemia Hyponatremia

Hypoglycaemia Hypernatremia Hypophosphatemia Tumor lysis syndrome Hypercalcaemia Hypocalcaemia Hypoalbuminaemia Metabolic acidosis

MedDRA System Organ Class (SOC)

Very common

Common

Uncommon

Psychiatric disorders

Sleep disorders

Anxiety

Hallucination

Disorientation

Nervous system disorders

Dizziness

Dysgeusia Headache10

Lethargy

Syncope

Formication

Hepatic encephalopathy

Paraesthesia

Parosmia

Somnolence

Spinal cord compression

Eye disorders

Eye disorders

Ear and labyrinth disorders

Vertigo

Cardiac disorders

Electrocardiogram QT prolonged

Atrial fibrillation Palpitations Myocardial infarction Angina pectoris Cardiogenic shock

Vascular disorders

7

Hypertension

Flushing

Hot flush

Hypotension

Vasodilatation

Peripheral coldness

Pallor

Orthostatic hypotension Phlebitis

Respiratory, thoracic and mediastinal disorders

Dyspnoea

Oropharyngeal pain Pleural effusion Sputum increased Choking sensation

MedDRA System Organ Class (SOC)

Very common

Common

Uncommon

Gastrointestinal disorders

Nausea

Vomiting

Abdominal distension

Diarrhoea

Abdominal pain

Constipation

Abdominal pain upper

Dyspepsia

Gastritis

Dry mouth Flatulence Ascities Gastrointestinal pain Stomatitis Haematochezia Abdominal discomfort Intestinal obstruction Colitis

Pancreatitis acute Rectal haemorrhage Melaena

Abdominal pain lower Haematemesis Haemorrhagic ascites Ileus

Hepatobiliary disorders

Hyperbilirubi­naemia9

Pancreatic enzymes decreased

Hepatocellular injury

Cholestasis

Hepatic congestion

Hepatic failure

Skin and subcutaneous tissue disorders

Alopecia

Rash

Dry skin

Swelling face

Hyperhidrosis Pruritus generalized

Musculoskeletal and connective tissue disorders

Musculoskeletal pain8

Muscle spasms

MedDRA System Organ Class (SOC)

Very common

Common

Uncommon

Renal and urinary disorders

Acute kidney injury Haematuria Renal failure Proteinuria

Leukocyturia

Urinary incontinence

Glomerular filtration rate decreased

Renal disorder

Acute prerenal failure

Renal impairment

General disorders and administration site conditions

Fatigue1

Injection site.       11

reaction

Oedema peripheral

Administration site pain

Chills

Influenza like illness

Injection site mass Chest discomfort Chest pain Pyrexia Malaise Pain Deaths

Feeling abnormal

Investigations

Blood creatinine increased

GGT* increased

ALAT** increased

ASAT*** increased

Blood ALP**** increased

Blood potassium decreased

Blood urea increased

Glycosylated haemoglobin increased

Haematocrit decreased

Protein urine

Weight decreased

Blood creatine phosphokinase increased

Blood lactate dehydrogenase increased

Blood catecholamines

c-reactive protein increased

Injury, poisoning and procedural complications

Clavicle fracture

MedDRA System Organ Class (SOC)

Very common

Common

Uncommon

Surgical and medical procedures

Transfusion

Abdominal cavity drainage

Dialysis

Gastrointestinal tube insertion

Stent placement

Abscess drainage

Bone marrow harvest

Polypectomy

Social circumstances

Physical disability

1 Includes Asthenia and Fatigue

2 Includes Thrombocytopenia and Platelet count decreased

3 Includes Lymphopenia and Lymphocyte count decreased

4 Includes Anaemia and Haemoglobin decreased

5 Includes Leukopenia and White blood cell count decreased

6 Includes Neutropenia and Neutrophil count decreased

7 Includes Hypertension and Hypertensive crisis

8 Includes Arthralgia, Pain in extremity, Back pain, Bone pain, Flank pain, Musculoskeletal chest pain and Neck pain

9 Includes Blood bilirubin increased and Hyperbilirubinaemia

10 Includes Headache and migraine

11

Includes injection site reaction, injection site hypersensibility, injection site induration, injection site swelling

* Gamma-glutamyltransferase

* Alanine amino transferase

** Aspartate amino transferase

* *** Alkaline phosphatase

Description of selected adverse reactions

Bone marrow toxicity

Bone marrow toxicity (myelo-/hematotoxicity) manifested with reversible / transient reductions in blood counts affecting all lineages (cytopenias in all combinations, i.e., pancytopenia, bicytopenias, isolated monocytopenias – anemia, neutropenia, lymphocytopenia, and thrombocytopenia). In spite of an observed significant selective B-cell depletion, no increase in the rate of infectious complications occurs after PRRT. Cases of irreversible hematological pathologies, i.e., premalignant and malignant blood neoplasms (i.e., myelodysplastic syndrome and acute myeloid leukemia, respectively) have been reported following Lutathera treatment.

Nephrotoxicity

Lutetium (177Lu) oxodotreotide is excreted by the kidney.

The long-term trend of progressive glomerular filtration function deterioration demonstrated in the clinical studies confirms that Lutathera-related nephropathy is a chronic kidney disease that develops progressively over months or years after exposure. An individual benefit-risk assessment is recommended prior to treatment with Lutathera in patients with mild and moderate renal impairment, for additional details see section 4.2 (Table 3) and section 4.4. The use of Lutathera is contraindicated in patients with severe kidney failure (see section 4.3).

Hormonal crises

Hormonal crises related to bioactive substances release (probably due to lysis of the neuroendocrine tumour cells) have rarely been observed and resolved after appropriate medical treatment (section 4.4).

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 via the national reporting system:

Yellow Card Scheme

Website: www.mhra.gov.uk/yellowcard or search for MHRA Yellow Card in the Google Play or Apple App Store.

4.9 Overdose

4.9 Overdose

Overdose is unlikely with Lutathera as this medicinal product is supplied as a “single dose” and “ready to use” product containing a predefined amount of radioactivity. In the case of overdose, an increase in the frequency of the adverse reactions related to radiotoxicity is expected.

In the event of administration of a radiation overdose with Lutathera, the absorbed dose to the patient should be reduced where possible by increasing the elimination of the radionuclide from the body by frequent micturition or by forced diuresis and frequent bladder voiding during the first 48 hours after infusion. It is helpful to estimate the effective dose that was applied.

The following checking should be carried out every week, for the next 10 weeks: Hematologic monitoring: white blood cells, platelets, and haemoglobin Blood chemistry monitoring: serum creatinine and glycaemia.

PHARMACOLOGICAL PROPERTIES

5.1 Pharmacodynamic properties

Pharmacotherapeutic group: Other therapeutic radiopharmace­uticals, ATC code: V10XX04

Mechanism of action

Lutetium (177Lu) oxodotreotide has a high affinity for subtype 2 somatostatin receptors (sst2). It binds to malignant cells which overexpress sst2 receptors.

Lutetium-177 (177Lu) is a [3– emitting radionuclide with a maximum penetration range in tissue of 2.2 mm (mean penetration range of 0.67 mm), which is sufficient to kill targeted tumour cells with a limited effect on neighbouring normal cells.

Pharmacodynamic effects

At the concentration used (about 10 jig/mL in total, for both free and radiolabeled forms), the peptide oxodotreotide does not exert any clinically relevant pharmacodynamic effect.

Clinical efficacy and safety

NETTER-1 phase III study was a multicentre stratified, open labelled, randomized, comparator-controlled, parallel-group study comparing treatment with Lutathera (4 doses of 7,400 MBq every 8 weeks) co-administered with amino acid solution plus best supportive care (BSC; octreotide long acting release [LAR] 30 mg every 4 weeks for symptoms control, replaced by short acting octreotide in the 4 weeks interval before Lutathera administration) to high dose octreotide LAR (60 mg every 4 weeks) in patients with inoperable, progressive, somatostatin receptor positive, midgut carcinoid tumours. The primary endpoint for the study was progression-free survival (PFS) evaluated by response evaluation criteria in solid tumours (RECIST 1.1), based on independent radiology assessment. Secondary endpoints included objective response rate (ORR), overall survival (OS), time to tumour progression (TTP), safety and tolerability of the medicinal product and quality of life (QoL).

Two hundred twenty-nine (229) patients have been randomized to receive either Lutathera (n=116) or high dose 60 mg octreotide LAR (n=113). Demographics as well as patients and disease characteristics were well balanced between groups with a median age of 64 years and 82.1% Caucasian in the general population.

At the time of final per-protocol PFS statistical analysis (cut-off date 24 July 2015), the number of centrally confirmed disease progressions or deaths was 21 events in the Lutathera arm and 70 events in the octreotide LAR arm (Table 6). PFS differed significantly (p<0.0001) between the treatment groups. The median PFS for Lutathera

was not reached at the time of analysis whereas the one of octreotide LAR was

8.5 months. The hazard ratio for Lutathera was 0.18 (95% CI: 0.11 – 0.29), indicating 82% reduction in the risk for a patient to progress or die under Lutathera compared to octreotide LAR.

Table 6. PFS observed in the NETTER-1 phase III study in patients with progressive midgut carcinoid tumour – cut-off date 24 July 2015 (full analyses set (FAS), N=229)

Treatment

Lutathera

Octreotide LAR

N

116

113

Patients with events

21

70

Censored patients

95

43

Median months (95%-CI)

Not reached

8.5 (5.8 ; 9.1)

p-value of Log-rank test

<0.0001

Hazard ratio (95%-CI)

0.177 (0.108 ; 0.289)

N: number of patients, CI: confidence interval.

The PFS Kaplan-Meier graph for the full analysis set (FAS) at the cut-off date 24 July 2015 is depicted in Figure 3.

Figure 3. PFS Kaplan Meier curves of patients with progressive midgut carcinoid tumour – cut-off date 24 July 2015 (NETTER-1 phase III study; FAS, N=229)

At the cut-off date for post-hoc statistical analysis (30 June 2016), the number of centrally confirmed disease progressions or deaths was 30 events in the Lutathera arm and 78 events in the octreotide LAR arm (Table 7). PFS differed significantly (p<0.0001) between the treatment groups. The median PFS for Lutathera was

28.4 months whereas the one of octreotide LAR was 8.5 months. The hazard ratio for Lutathera was 0.21 (95% CI: 0.14 – 0.33), indicating 79% reduction in the risk for a patient to progress or die under Lutathera compared to octreotide LAR.

Table 7. PFS observed in the NETTER-1 phase III study in patients with progressive midgut carcinoid tumour – cut-off date 30 June 2016 (full analyses set (FAS), N=231)

Treatment

Lutathera

Octreotide LAR

N

117

114

Patients with events

30

78

Censored patients

87

36

Median months (95%-CI)

28.4 (28.4; NE)

8.5 (5.8; 11.0)

p-value of Log-rank test

<0.0001

Hazard ratio (95%-CI)

0.214 (0.139 ; 0.331)

N: number of patients, CI: confidence interval.

The PFS Kaplan-Meier graph for the full analysis set (FAS) at the cut-off date 30 June 2016 is depicted in Figure 4.

Figure 4. PFS Kaplan Meier curves of patients with progressive midgut carcinoid tumour – cut-off date 30 June 2016 (NETTER-1 phase III study; FAS, N=231)

With respect to overall survival OS, at the time of interim analysis (24 July 2015), there were 17 deaths in the Lutathera arm and 31 in octreotide LAR 60 mg arm and the hazard ratio was 0.459 in favour of Lutathera, but did not reach the level of significance for interim analysis (HR 99.9915% CI: 0.140, 1.506). OS median was 27.4 months in octreotide LAR arm and was not reached in Lutathera arm. An update conducted about one year after (30 June 2016) showed similar trend with 28 deaths in the Lutathera arm and 43 in octreotide LAR 60 mg arm, an HR of 0.536, and a median OS of 27.4 months in octreotide LAR arm and still not reached in Lutathera arm. The final OS analysis is foreseen after 158 cumulative deaths.

Health Related Quality of Life (HRQOL) was assessed using the European Organisation for Research and Treatment of Cancer Quality of Life Questionnaire (EORTC QLQ-C30) (generic instrument) and its neuroendocrine tumour module (EORTC QLQ-GI.NET-21).

The results indicate an improvement in the overall global health-related quality of life up to week 84, for patients on Lutathera treatment as compared to patients on Octreotide LAR.

Erasmus phase I/II study was a monocentric single arm open-label study to evaluate the efficacy of Lutathera (7,400 MBq administered for 4 times every 8 weeks) co-administered with amino acid solution in patients with somatostatin receptor positive tumours. The mean age of patients enrolled in the study was 60 years. Most patients were Dutch (811) with the remaining (403) residents of various European and non-European countries. The main analysis has been conducted on 811 Dutch patients with different somatostatin receptor positive tumour types. The ORR (including complete response (CR) and partial response (PR) according to RECIST criteria) and duration of response (DoR) for the FAS Dutch population with gastroenteropan­creatic (GEP) and bronchial NETs (360 patients) as well as per tumour type are presented in Table 8.

Table 8. Best response, ORR and DoR observed in the Erasmus phase I/II study in Dutch patients with GEP and bronchial NETs – (FAS, N=360)

N

CR

PR

SD

ORR

DoR (months)

Tumour type

n

%

n

%

N

%

n

%

95%CI

Median

95%CI

All*

360

11

3%

151

42%

183 51%

162

45%

40%

50%

16.3

12.2

17.8

Bronchial

19

0

0%

7

37%

11

58%

7

37%

16%

62%

23.9

1.7

30.0

Pancreatic

133

7

5%

74

56%

47

35%

81

61%

52%

69%

16.3

12.1

21.8

Foregut

12

1

8%

6

50%

4

33%

7

58%

28%

85%

22.3

0.0

38.0

Midgut

183

3

2%

58

32%

115

63%

61

33%

27%

41%

15.3

10.5

17.7

Hindgut

13

0

0%

6

46%

6

46%

6

46%

19%

75%

17.8

6.2

29.9

CR = Complete response; PR = Partial response; SD = Stable disease; ORR = Objective response (CR+PR); DoR = Duration of response

* Includes Foregut, Midgut and Hindgut; **Foregut NETs other than bronchial and pancreatic

The overall median PFS and OS for the FAS Dutch population with GEP and bronchial NETs (360 patients) as well as per tumour type are presented in Table 9.

Table 9. PFS and OS observed in the Erasmus phase I/II study in Dutch patients with GEP and bronchial NET – (FAS, N=360)

PFS

OS

Time (months)

Time (months)

Median

95%CI

Median

95%CI

All*

360

28.5

24.8     31.4

61.2

54.8   67.4

Bronchial

19

18.4

10.4     25.5

50.6

31.3   85.4

Pancreatic

133

30.3

24.3     36.3

66.4

57.2   80.9

Foregut

12

43.9

10.9

21.3

Midgut

183

28.5

23.9     33.3

54.9

47.5   63.2

Hindgut

13

29.4

18.9     35.0

PFS = Progression free

surviva

; OS = Overall survival

* Includes Foregut, Midgut and Hindgut; **Foregut NETs other than bronchial and pancreatic

In the Erasmus phase I/II study 188 patients (52%) received and 172 (48%) did not receive concomitant octreotide LAR during Lutathera treatment. No statistically significant difference in PFS was observed between the subgroup of patients who did not receive octreotide LAR (25.4 months [95% CI 22.8–30.6]) versus the subgroup who did receive concomitant treatment with octreotide LAR (30.9 months [95% CI 25.6–34.8]) (p= 0.747).

Paediatric population

The European Medicines Agency has waived the obligation to submit the results of studies with Lutathera in all subsets of the paediatric population in the treatment of GEP-NETs (excluding neuroblastoma, neuroganglioblas­toma, phaeochromocytoma). See section 4.2.

5.2 Pharmacokinetic properties

Absorption

The medicinal product is administered intravenously and is immediately and completely bioavailable.

Organ uptake

At 4 hours after administration, the distribution pattern of lutetium (177Lu) oxodotreotide shows a rapid uptake in kidneys, tumour lesions, liver and spleen, and in some patients in the pituitary gland and in the thyroid. The co-administration of amino acid solution decreases the kidney uptake, enhancing the elimination of radioactivity (see section 4.4). Biodistribution studies show that lutetium (177Lu) oxodotreotide is rapidly cleared from the blood.

An analysis performed with human plasma to determine the extent of plasma protein binding of non-radioactive compound (lutetium (175Lu) oxodotreotide) showed that about 50% of the compound is bound to plasmatic proteins.

Transchelation of lutetium from lutetium (175Lu) oxodotreotide into serum proteins has not been observed.

Biotransformation

There is evidence, from the analysis of urine samples of 20 patients included in the NETTER-1 phase III Dosimetry, pharmacokinetic and ECG substudy, that lutetium (177Lu) oxodotreotide is poorly metabolized and is excreted mainly as intact compound by renal route.

The high performance liquid chromatography (HPLC) analyses performed on urine samples collected up to 48 hours post infusion showed lutetium (177Lu) oxodotreotide radiochemical purity close to 100% in most of the analysed samples (with lowest radiochemical purity value being greater than 92%), indicating that the compound is eliminated in urine mainly as intact compound.

This evidence confirms what has been previously observed in the Erasmus phase I/II study, in which HPLC analysis of a urine specimen collected 1 hour post administration of lutetium (177Lu) oxodotreotide from one patient receiving 1.85 MBq of lutetium (177Lu) oxodotreotide indicated that the main portion (91%) was excreted unchanged.

These finding are supported by in vitro metabolism data in human hepatocytes, in which no metabolic degradation of lutetium (175Lu) oxodotreotide was observed.

Elimination

Based on the data collected during the Erasmus phase I/II and Netter-1 phase III studies, lutetium (177Lu) oxodotreotide is primarily eliminated by renal excretion: about 60% of the medicinal product is eliminated in the urine within 24 hours, and about 65% within 48 hours following the administration.

Elderly:

The pharmacokinetics profile in elderly patients (> 75 years) has not been established. No data are available.

5.3 Preclinical safety data

5.3 Preclinical safety data

Toxicological studies with rats have demonstrated that a single intravenous injection of up to 4,550 MBq/kg was well tolerated and no deaths were observed. When testing the cold compound (non-radioactive lutetium (175Lu) oxodotreotide) as a single intravenous injection in rats and dogs at doses up to 20,000 ^g/kg (rats) and 3,200 ^g/kg (dogs), the compound was well tolerated in both species and no deaths were observed. Toxicity with four repeated administrations, once every 2 weeks, of 1,250 ^g/kg of the cold compound in rats and 80 ^g/kg in dogs was not observed. This medicinal product is not intended for regular or continuous administration.

Mutagenicity studies und long-term carcinogenicity studies have not been carried out. Non-clinical data on the cold compound (non-radioactive lutetium (175Lu) oxodotreotide) reveal no special hazard for humans based on conventional studies of safety pharmacology, repeated dose toxicity, genotoxicity.

6 PHARMACEUTICAL PARTICULARS

6.1 List of excipients

Acetic acid

Sodium acetate

Gentisic acid

Ascorbic acid

Pentetic acid

Sodium chloride

Sodium hydroxide

Water for injections

6.2 Incompatibilities

This medicinal product must not be mixed with other medicinal products except those mentioned in section 4.2.

6.3 Shelf life

72 hours from the date and time of calibration.

6.4 Special precautions for storage

Store below 25°C.

Store in the original package to protect from ionizing radiation (lead shielding).

Storage of radiopharmace­uticals should be in accordance with national regulation on radioactive materials.

6.5 Nature and contents of container

Clear colourless Type I glass vial, closed with a bromobutyl rubber stopper and aluminium seal.

Each vial contains a volume varying from 20.5 to 25.0 mL of solution corresponding to an activity of 7,400 MBq at date and time of infusion.

The vial is enclosed within a lead container for protective shielding.

6.6 Special precautions for disposal

6.6 Special precautions for disposal

For single use only.

General warning

Radiopharmace­uticals should be received, used and administered only by authorised persons in designated clinical settings. Their receipt, storage, use, transfer and disposal are subject to the regulations and/or appropriate licences of the competent official organisation.

Radiopharmace­uticals should be prepared in a manner which satisfies both radiation safety and pharmaceutical quality requirements. Appropriate aseptic precautions should be taken.

For instruction on preparation of the medicinal product before administration, see section 12.

If at any time in the preparation of this medicinal product the integrity of this container and vial is compromised it should not be used.

Administration procedures should be carried out in a way to minimise risk of contamination of the medicinal product and irradiation of the operators. Adequate shielding is mandatory.

It is necessary to wear waterproof gloves and suitable aseptic techniques when handling the medicinal product.

The administration of radiopharmace­uticals creates risks for other persons from external radiation or contamination from spill of urine, vomiting etc. Radiation protection precautions in accordance with national regulations must therefore be taken.

The surface dose rates and the accumulated dose depend on many factors. Measurements on the location and during work are critical and should be practiced for more precise and instructive determination of overall radiation dose to the staff. Healthcare personnel are advised to limit the time of close contact with patients injected with Lutathera. The use of television monitor systems to monitor the patients is recommended. Given the half-life of 177Lu it is specially recommended to avoid internal contamination. It is necessary to use protective high quality (latex/nitrile) gloves to avoid direct contact with the radiopharmaceutical (vial/syringe). For minimising radiation exposure, always use the principles of time, distance and shielding (reducing the manipulation of the vial and using the material already supplied par the manufacturer).

This preparation is likely to result in a relatively high radiation dose to most patients. The administration of 7,400 MBq may result in significant environmental hazard.

This may be of concern to the immediate family of those individuals undergoing treatment or the general public depending on the level of activity administered, hence radioprotection rules should be followed (section 4.4). Suitable precautions in accordance with national regulations should be taken concerning the activity eliminated by the patients in order to avoid any contaminations.

Any unused medicinal product or waste material should be disposed according to local requirements.

7 MARKETING AUTHORISATION HOLDER

Advanced Accelerator Applications

20 rue Diesel

01630 Saint Genis Pouilly

France

8 MARKETING AUTHORISATION NUMBER(S)

PLGB 35145/0003

9 DATE OF FIRST AUTHORISATION/RENEWAL OF THE AUTHORISATION

01/01/2021

10 DATE OF REVISION OF THE TEXT

01/01/2021

11 DOSIMETRY

The following conclusions on treatment with Lutathera were determined from radiation dosimetry evaluations performed in clinical studies:

The critical organ is the bone marrow, however, with the recommended Lutathera cumulative dose of 29,600 MBq (4 administrations of 7,400 MBq), no correlation between hematologic toxicity and the total radioactivity administered or bone marrow absorbed dose has been observed either in Erasmus phase I/II or in NETTER-1 phase III study.

Kidney is not a critical organ if a co-infusion of an appropriate amino acids solution is performed.

Overall, the results of the dosimetric analysis performed in the NETTER-1 phase III dosimetry substudy and in the Erasmus phase I/II study are in agreement and indicate that Lutathera dose regimen (4 administrations of 7,400 MBq) is safe.

Table 10. Absorbed dose estimates for lutetium (177Lu) oxodotreotide from NETTER-1 phase III study (Olinda output)

Organ

Organ absorbed dose (mGy/MBq) (n = 20)

Mean

SD

Adrenals

0.04

0.02

Brain

0.03

0.02

Breasts

0.03

0.01

Gallbladder Wall

0.04

0.02

Lower Large Intestine Wall

0.03

0.02

Small Intestine

0.03

0.02

Stomach Wall

0.03

0.02

Upper Large Intestine Wall

0.03

0.02

Heart Wall

0.03

0.02

Kidneys

0.65

0.29

Liver

0.49

0.62

Lungs

0.03

0.01

Muscle

0.03

0.02

Ovaries

0.03

0.01

Pancreas

0.04

0.02

Organ

Organ absorbed dose (mGy/MBq) (n = 20)

Mean

SD

Red Marrow

0.03

0.03

Osteogenic Cells

0.15

0.27

Skin

0.03

0.01

Spleen

0.85

0.80

Testes*

0.03

0.02

Thymus

0.03

0.02

Thyroid

0.03

0.02

Urinary Bladder Wall

0.45

0.18

Uterus

0.03

0.01

Total Body

0.05

0.03

*n=11 (male patients only)

**n=9 (female patients only)

Radiation dose to specific organs, which may not be the target organ of therapy, can be influenced significantly by pathophysiological changes induced by the disease process. This should be taken into consideration when using the following information.