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Primovist

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Document: Primovist solution for injection ENG SmPC change


1. NAME OF THE MEDICINAL PRODUCT


Primovist 0.25 mmol/ml,solution for injection


2. QUALITATIVE AND QUANTITATIVE COMPOSITION


Each ml contains 0.25 mmol gadoxetate disodium (Gd‑EOB‑DTPA disodium), equivalent to 181.43 mg gadoxetate disodium.


1 injection vial with 5.0 ml contains 907 mg gadoxetate disodium,

1 injection vial with 7.5 ml contains 1361 mg gadoxetate disodium,

1 injection vial with 10.0 ml contains 1814 mg gadoxetate disodium.


Excipients with known effect: 11.7 mg sodium/ml


For the full list of excipients, see section 6.1.


3. PHARMACEUTICAL form


Solution for injection
Clear, colourless to pale yellow liquid free from visible particles.


4. Clinical particulars


4.1 Therapeutic indications


Primovist is indicated for the detection of focal liver lesions and provides information on the character of lesions in T1-weighted magnetic resonance imaging (MRI).

This medicinal product is for diagnostic use by intravenous administration only.


4.2 Posology and method of administration


Method of administration

Primovist is a ready-to-use aqueous solution to be administered undiluted as an intravenous bolus injection at a flow rate of about 2 ml/sec. After the injection of the contrast medium the intravenous cannula/ line should be flushed using sterile 9 mg/ml (0.9 %) saline solution.

For detailed imaging information refer to section 5.1.

For additional instructions see section 6.6.


Posology

The recommended dose of Primovist is:


Adults:

0.1 ml per kg body weight Primovist.


Repeated use:

No clinical information is available about repeated use of Primovist.


Additional information on special populations


Impaired renal function

Use of Primovist should be avoided in patients with severe renal impairment (GFR < 30 ml/min/1.73m2)and in patients in the perioperative liver transplantation period unless the diagnostic information is essential and not available with non-contrast enhanced MRI (see section 4.4). If use of Primovist cannot be avoided, the dose should not exceed 0.025 mmol/kg body weight. More than one dose should not be used during a scan. Because of the lack of information on repeated administration, Primovist injections should not be repeated unless the interval between injections is at least 7 days.


Patients with hepatic impairment

No dosage adjustment is necessary.


Paediatric population

The safety and efficacy of Primovist have not been established in patients under 18 years old. Currently available data are described in section 5.1.


Elderly population (aged 65 years and above)

No dosage adjustment is considered necessary. Caution should be exercised in elderly patients (see section 4.4).


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


The usual safety precautions for MRI must be observed, e.g. exclusion of cardiac pacemakers and ferromagnetic implants.

Diagnostic procedures that involve the use of contrast agents should be carried out under the direction of a physician with the prerequisite training and a thorough knowledge of the procedure to be performed.

After the injection, the patient should be kept under observation for at least 30 minutes, since experience with contrast media shows that the majority of undesirable effects occur within this time.


Impaired renal function


Prior to administration of Primovist, it is recommended that all patients are screened for renal dysfunction by obtaining laboratory tests.


There have been reports of nephrogenic systemic fibrosis (NSF) associated with use of some gadolinium-containing contrast agents in patients with acute or chronic severe renal impairment (GFR< 30ml/min/1.73 m2). Patients undergoing liver transplantation are at particular risk since the incidence of acute renal failure is high in this group. As there is a possibility that NSF may occur with Primovist, it should therefore be avoided in patients with severe renal impairment and in patients in the perioperative liver transplantation period unless the diagnostic information is essential and not available with non-contrast enhanced MRI.


Haemodialysis shortly after Primovist administration may be useful at removing Primovist from the body.

There is no evidence to support the initiation of haemodialysis for prevention or treatment of NSF in patients not already undergoing haemodialysis.


Elderly

As the renal clearance of gadoxetate may be impaired in the elderly, it is particularly important to screen patients aged 65 years and older for renal dysfunction.


Patients with cardiovascular disease

Caution should be exercised when Primovist is administered to patients with severe cardiovascular problems because only limited data are available so far.


Primovist should not be used in patients with uncorrected hypokalemia.

Primovist should be used with special care in patients

- with known congenital long QT syndrome or a family history of congenital long QT syndrome

- with known previous arrhythmias when on drugs that prolong cardiac repolarisation

- who are currently taking a drug that is known to prolong cardiac repolarisation e.g. a class III antiarrhythmic, (e.g. amiodarone, sotalol).

Primovist may cause transient QT-prolongation in individual patients. (see section 5.3).


Hypersensitivity

Allergy-like reactions, including shock, are known to be rare events after administration of gadolinium-based MRI contrast media. Most of these reactions occur within half an hour after administration of contrast media. However, as with other contrast media of this class, delayed reactions may occur after hours to days in rare cases. Medication for the treatment of hypersensitivity reactions as well as preparedness for institution of emergency measures are necessary.


The risk of hypersensitivity reactions is higher in case of:

- previous reaction to contrast media

- history of bronchial asthma

- history of allergic disorders.


In patients with an allergic disposition (especially with a history of the above mentioned conditions) the decision to use Primovist must be made after particularly careful evaluation of the risk-benefit ratio.


Hypersensitivity reactions can be more intense in patients on beta-blockers, particularly in the presence of bronchial asthma. It should be considered that patients on beta-blockers may be refractory to standard treatment of hypersensitivity reactions with beta-agonists.

If hypersensitivity reactions occur, injection of the contrast medium must be discontinued immediately.


Local intolerance

Intramuscular administration may cause local intolerance reactions including focal necrosis and must therefore be strictly avoided (see section 5.3).


Excipients

This medicinal product contains 11.7 mg sodium per ml, and the dosage is 0.1 ml/kg body weight. To be taken into consideration by patients on a controlled sodium diet.


4.5 Interaction with other medicinal products and other forms of interaction


As transport of gadoxetate to the liver may be mediated by OATP transporters it cannot be excluded that potent OATP inhibitors could cause drug interactions reducing the hepatic contrast effect. However, no clinical data have been presented to support that theory.

An interaction study in healthy subjects demonstrated that the co-administration of the erythromycin did not influence efficacy and pharmacokinetics of Primovist. No further clinical interaction studies with other medicinal products have been performed.


Interference from elevated bilirubin or ferritin levels in patients

Elevated levels of bilirubin or ferritin can reduce the hepatic contrast effect of Primovist (see section 5.1).


Interference with diagnostic tests

Serum iron determination using complexometric methods (e.g. Ferrocine complexation method) may result in false values for up to 24 hours after the examination with Primovist because of the free complexing agent contained in the contrast medium solution.


4.6 Pregnancy, lactation and fertility


Pregnancy

There are no data from the use of gadoxetate in pregnant women.. Animal studies have shown reproductive toxicity at repeated high doses (see section 5.3). Primovist should not be used during pregnancy unless the clinical condition of the woman requires use of gadoxetate.


Breast-feeding

Gadolinium containing contrast agents are excreted into breast milk in very small amounts (see section 5.3). At clinical doses, no effects on the infant are anticipated due to the small amount excreted in milk and poor absorption from the gut. Continuing or discontinuing breast feeding for a period of 24 hours after administration of Primovist, should be at the discretion of the doctor and lactating mother.


Fertility

Animal studies did not indicate impairment of fertility


4.7 Effects on ability to drive and use machines


Not relevant.


Undesirable effects


Summary of the safety profile


The overall safety profile of Primovist is based on data from more than 1,900 patients in clinical trials, and from post-marketing surveillance.


The most frequently observed adverse drug reactions (³ 0.5 %) in patients receiving Primovist are nausea, headache, feeling hot, blood pressure increased, back pain and dizziness.


The most serious adverse drug reaction in patients receiving Primovist is anaphylactoid shock.


Delayed allergoid reactions (hours later up to several days) have been rarely observed.


Most of the undesirable effects were transient and of mild to moderate intensity.


Tabulated list of adverse reactions


The adverse drug reactions observed with Primovist are represented in the table below. They are classified according to System Organ Class (MedDRA version 12.1). The most appropriate MedDRA term is used to describe a certain reaction and its synonyms and related conditions.

Adverse drug reactions from clinical trials are classified according to their frequencies. Frequency groupings are defined according to the following convention: common: 1/100 to < 1/10; uncommon: ≥ 1/1,000 to < 1/100; rare: ³ 1/10,000 to < 1/1,000. The adverse drug reactions identified only during post-marketing surveillance, and for which a frequency could not be estimated, are listed under ‘not known’.


Within each frequency grouping, undesirable effects are presented in order of decreasing seriousness.


Table 1: Adverse drug reactions reported in clinical trials or during post-marketing surveillance in patients treated with Primovist


System Organ Class (MedDra)


Common

Uncommon


Rare


Not known

Immune system disorders




Hypersensitivity /

anaphylactoid reaction (e.g. shock*, hypotension, pharyngolaryngeal edema, urticaria, face edema, rhinitis, conjunctivitis, abdominal pain, hypoesthesia, sneezing, cough, pallor)

Nervous system disorders

Headache

Vertigo

Dizziness

Dysgeusia

Paresthesia

Parosmia

Tremor

Akathisia


Restlessness



Cardiac disorders



Bundle branch block

Palpitation

Tachycardia


Vascular disorders


Blood pressure increased

Flushing



Respiratory, thoracic and mediastinal disorders


Respiratory disorders

(Dyspnea*, Respiratory distress)



Gastrointestinal disorders

Nausea

Vomiting

Dry mouth

Oral discomfort

Salivary hypersecretion



Skin and subcutaneous tissue disorders


Rash

Pruritus**


Maculopapular rash

Hyperhidrosis


Musculoskeletal and connective tissue

disorders


Back pain



General disorders and administration site conditions


Chest pain

Injection site reaction

(various kinds)***

Feeling hot

Chills

Fatigue

Feeling abnormal


Discomfort

Malaise



* Life-threatening and/or fatal cases have been reported. These reports originated from post-marketing experience.

**Pruritus (generalized pruritus, eye pruritus)

***Injection site reactions (various kinds) comprise the following terms: Injection site extravasation, injection site burning, injection site coldness, injection site irritation, injection site pain


Description of selected adverse reactions


Laboratory changes such as elevated serum iron, elevated bilirubin, increases in liver transaminases, decrease of hemoglobin, elevation of amylase, leucocyturia, hyperglycemia, elevated urine albumin, hyponatremia, elevated inorganic phosphate, decrease of serum protein, leucocytosis, hypokalemia, elevated LDH were reported in clinical trials. ECGs were regularly monitored during clinical studies and transient QT prolongation was observed in some patients without any associated adverse clinical events.


Cases of nephrogenic systemic fibrosis (NSF) have been reported with other gadolinium-containing contrast agents (see 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 listed in Appendix V*.


[*For the printed material, please refer to the guidance of the annotated QRD template.]


4.9 Overdose


No cases of overdose have been reported and no symptoms could be characterised.

Single doses of Primovist as high as 0.4 ml/kg (0.1 mmol/kg) body weight were tolerated well.

In a limited number of patients, a dose of 2.0 ml/kg (0.5 mmol/kg) body weight was tested in clinical trials, more frequent occurrences of adverse events but no new undesirable effects were found in these patients.

In the event of excessive inadvertent overdose, the patient should be carefully observed including cardiac monitoring. In this case induction of QT prolongations is possible (see section 5.3).

Primovist can be removed by hemodialysis. However there is no evidence that haemodialysis is suitable for prevention of nephrogenic systemic fibrosis (NSF).


5. PHARMACOLOGICAL PROPERTIES


5.1 Pharmacodynamic properties


Pharmacotherapeutic group: paramagnetic contrast media, ATC code: V08 C A10


Mechanism of action

Primovist is a paramagnetic contrast agent for magnetic resonance imaging.


The contrast-enhancing effect is mediated by gadoxetate (Gd EOB DTPA), an ionic complex consisting of gadolinium (III) and the ligand ethoxybenzyl-diethylenetriamine-pentaacetic acid (EOB-DTPA) .

When T1-weighted scanning sequences are used in proton magnetic resonance imaging, the gadolinium ion-induced shortening of the spin-lattice relaxation time of excited atomic nuclei leads to an increase of the signal intensity and, hence, to an increase of the image contrast of certain tissues.


Pharmacodynamic effects

Gadoxetate disodium leads to a distinct shortening of the relaxation times even at low concentrations. At pH 7, a magnetic field strength of 0.47 T and 40°C the relaxivity (r1) ‑ determined from the influence on the spin‑lattice relaxation time (T1) of protons in plasma ‑ is about 8.18 l/mmol/sec and the relaxivity (r2) ‑ determined from the influence on the spin-spin relaxation time (T2) ‑ is about 8.56 l/mmol/.sec. At 1.5 T and 37°C the respective relaxivities in plasma are r1 = 6.9 l/mmol/sec and r2 = 8.7 l/mmol/sec. The relaxivity displays a slight inverse dependency on the strength of the magnetic field.


EOB-DTPA forms a stable complex with the paramagnetic gadolinium ion with extremely high thermodynamic stability (log KGdl = 23.46). Gd-EOB-DTPA is a highly water-soluble, hydrophilic compound with a partition coefficient between n‑butanol and buffer at pH 7.6 of about 0.011.

Due to its lipophilic ethoxybenzyl moiety gadoxetate disodium exhibits a biphasic mode of action: first, distribution in the extracellular space after bolus injection and subsequently selective uptake by hepatocytes. The relaxivity r1 in liver tissue is 16.6 l/mmol/sec (at 0.47T) resulting in increased signal intensity of liver tissue. Subsequently gadoxetate disodium is excreted into the bile.

Lesions with no or minimal hepatocyte function (cysts, metastases, the majority of hepatocellular carcinoma) will not accumulate Primovist. Well-differentiated hepatocellular carcinoma may contain functioning hepatocytes and can show some enhancement in the hepatocyte imaging phase. Additional clinical information is therefore needed to support a correct diagnosis.

The substance does not display any significant inhibitory interaction with enzymes at clinically relevant concentrations.


Imaging

After bolus injection of Primovist, dynamic imaging during arterial, portovenous and equilibrium phases utilizes the different temporal enhancement pattern of different liver lesions as basis for the radiological lesion characterization.

The enhancement of liver parenchyma during the hepatocyte phase assists in the identification of the number, segmental distribution, visualization, and delineation of liver lesions, thus improving lesion detection. The differential enhancement/washout pattern of liver lesions contributes to the information from the dynamic phase.

The delayed (hepatocyte) phase can be investigated at 20 minutes post injection with an imaging window lasting at least 120 minutes. The diagnostic and technical efficacy results of the clinical studies show a minimal improvement at 20 minutes post injection over those at 10 minutes post injection.

The imaging window is reduced to 60 minutes in patients requiring hemodialysis and in patients with elevated bilirubin values (> 3 mg/dl).

Hepatic excretion of Primovist results in enhancement of biliary structures.


The physico-chemical characteristics of the ready-to-use solution of Primovist are as follows:


Osmolality at 37 °C (mOsm/kg H2O)

688

Viscosity at 37 °C (mPa·s)

1.19

Density at 37 °C (g/ ml)

1.0881

pH

7.4


Paediatric population

An observational study was performed in 52 paediatric patients (aged > 2 months and < 18 years). Patients were referred for Primovist enhanced liver MRI to evaluate suspected or known focal liver lesions. Additional diagnostic information was obtained when combined unenhanced and enhanced liver MR images were compared with unenhanced MR images alone. Serious adverse events were reported, however none were assessed by the investigator to be related to Primovist. Due to the retrospective nature and small sample size of this study, no definitive conclusion can be made regarding efficacy and safety in this population.


5.2 Pharmacokinetic properties


Distribution

After intravenous administration the concentration time profile of Gd-EOB-DTPA was characterised by a bi-exponential decline.

Gd-EOB-DTPA distributes in the extracellular space (distribution volume at steady state about 0.21 l/kg).

The substance elicits only minor protein binding (less than 10%).

The compound diffuses through the placental barrier only to a small extent.


Biotransformation

Gadoxetate disodium is not metabolized.


Elimination

Gd-EOB-DTPA is equallyeliminated via the renal and hepatobiliary routes. The half–life of Gd-EOB-DTPA was approximately 1.0 hour.The pharmacokinetics was dose-linear up to the dose of 0.4 ml/kg (100 micromol/kg).

A total serum clearance (Cltot) of about 250 ml/min was recorded, whereas the renal clearance (Clr) corresponds to about 120 ml/min.


Characteristics in special patient populations


Elderly population (aged 65 years and above)

In accordance with the physiological changes in renal function with age, the plasma clearance of gadoxetate disodium was reducedfrom 210 ml/min in non-elderly subjects to 163 ml/min in elderly subjects aged 65 years and above. Terminal half-life and systemic exposure were higher in the elderly (2.3 h and 197 µmol*h/l, compared to 1.6 h and 153 µmol*h/l, respectively).The renal excretion was complete after 24 h in all subjects with no difference between elderly and non-elderly healthy subjects.


Renal and/or hepatic impairment

In patients with mild and moderate hepatic impairment, a slight to moderate increase in plasma concentration, half-life and urinary excretion, as well as decrease in hepatobiliary excretion have been observed in comparison to subjects withnormal liver function. However, no clinically relevant differences in hepatic signal enhancement were observed.

In patients with severe hepatic impairment, especially in patients with abnormally high ( > 3 mg/dl) serum bilirubin levels, the AUC was increased to 259 µmol*h/l compared to 160 µmol*h/l in the control group. The elimination half-life was increased to 2.6 h compared to 1.8 h in the control group. The hepatobiliary excretion substantially decreased to 5.7% of the administered dose and the hepatic signal enhancement is reduced in these patients.

In patients with end-stage renal failure the AUC increased 6-fold to about 903 µmol*h/l and the terminal half-life was prolonged to about 20 h. Hemodialysis increased the clearance of gadoxetate disodium (see section 4.4). In an average dialysis session of about 3-hour duration, about 30% of the gadoxetate disodium dose was removed by hemodialysis starting 1 hour post injection. In addition to clearance by hemodialysis, a significant fraction of the administered gadoxetate dose is biliary excreted in these patients as shown by a mean recovery of about 50% in feces within 4 days (range 24.6 to 74.0%, n=6 patients).


5.3 Preclinical safety data


Preclinical data reveal no special hazard for humans based on conventional studies of acute and subchronic toxicity, genotoxicity and contact-sensitising potential.


Cardiac safety

In telemetered conscious dogs a small and transient QT prolongation was observed at the highest dose tested of 0.5 mmol/kg, which represents 20 times the human dose. At high concentrations, Gd-EOB-DTPA blocked the HERG channel and prolonged the action potential duration in isolated guinea pig papillary muscles. This indicates a possibility that Primovist might induce QT prolongation when overdosed.


No findings have been observed in safety pharmacology studies in other organ systems.


Reproduction toxicology and lactation

In a rabbit embryotoxicity study, an increased number of postimplantational losses and increased abortion rate were observed after repeated administration of 2.0 mmol/kg of Gd-EOB-DTPA, representing 25.9 times (based on body surface area) or approx. 80 times (based on body weight) the recommended human dose.

In lactating rats, less than 0.5% of the intravenously administered dose (0.1 mmol/kg) of radioactively labelled gadoxetate was excreted into the breast milk. Absorption after oral administration was very low in rats with 0.4%.


Local tolerance

Local intolerance reactions were only observed after intramuscular administration of Gd-EOB-DTPA.


Carcinogenicity

No carcinogenicity studies were performed.


6. PHARMACEUTICAL PARTICULARS


6.1 List of excipients


Caloxetate trisodium

Hydrochloric acid (for pH adjustment)

Sodium hydroxide (for pH adjustment)

Trometamol

Water for injections


6.2 Incompatibilities


In the absence of compatibility studies, this medicinal product must not be mixed with other medicinal products.


6.3 Shelf life


5 years.


The product should be used immediately after opening.


6.4 Special precautions for storage


This medicinal product does not require any special storage precautions.


Nature and contents of container


6 and 10 ml colourless PhEur type I glass vials with chlorobutyl elastomer stopper and bordered

cap.


Package sizes:

1, 5 and 10 x 5 ml (in 6 ml glass vial)

1, 5 and 10 x 7.5 ml (in 10 ml glass vial)

1, 5 and 10 x 10 ml (in 10 ml glass vial)


Not all pack sizes may be marketed.


6.6 Special precautions for disposal and other handling


Inspection

This medicinal product is a clear, colorless to pale yellow solution. It should be visually inspected before use.

Primovist should not be used in case of severe discoloration, the occurrence of particulate matter or a defective container.


Handling

This medicinal product is a ready-to-use solution for single use only. Vials containing contrast media are not intended for the withdrawal of multiple doses.

The rubber stopper should never be pierced more than once.

This medicinal product should only be drawn into the syringe immediately before use.


Disposal

Any unused medicinal product or waste material should be disposed of in accordance with local requirements.


The peel-off tracking label on the vial should be stuck onto the patient record to enable accurate recording of the gadolinium contrast agent used. The dose used should also be recorded. If electronic patient records are used, the name of the product, the batch number and the dose should be entered into the patient record.


7. MARKETING AUTHORISATION HOLDER


<[To be completed nationally]>


8. MARKETING AUTHORISATION NUMBER(S)


<[To be completed nationally]>



9. DATE OF FIRST AUTHORISATION/RENEWAL OF THE AUTHORISATION


Date of first authorisation: <[To be completed nationally; {DD month YYYY}]>

Date of last renewal: <[To be completed nationally; {DD month YYYY}]>



10. DATE OF REVISION OF THE TEXT


2016-05-23


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