Consumer medicine information

Ofev

Nintedanib

BRAND INFORMATION

Brand name

Ofev

Active ingredient

Nintedanib

Schedule

SUMMARY CMI

Ofev^®

Consumer Medicine Information (CMI) summary

The full CMI on the next page has more details. If you are worried about using this medicine, speak to your doctor or pharmacist.

1. Why am I using Ofev?

Ofev capsules contain the active ingredient nintedanib.

Ofev is used to treat some chronic lung conditions and/or is used in combination with another medicine to treat patients with a type of lung cancer called non-small cell lung cancer (NSCLC).

For more information, see Section 1. Why am I using Ofev? in the full CMI.

2. What should I know before I take Ofev?

Do not use if you have ever had an allergic reaction to nintedanib or any of the ingredients listed at the end of the CMI.

Talk to your doctor if you have any other medical conditions, take any other medicines, or are pregnant or plan to become pregnant or are breastfeeding.

For more information, see Section 2. What should I know before I take Ofev? in the full CMI.

3. What if I am taking other medicines?

Some medicines may interfere with Ofev and affect how it works.

A list of these medicines is in Section 3. What if I am taking other medicines? in the full CMI.

4. How do I take Ofev?

Take one dose in the morning and one dose in the evening with food. Your doctor will tell you what dose to take.

More instructions can be found in Section 4. How do I take Ofev? in the full CMI.

5. What should I know while taking Ofev?

Things you should do	Remind any healthcare provider that you see that you are taking Ofev. Use effective contraception when taking Ofev and for at least 3 months after you stop using it.
Things you should not do	Do not breastfeed while taking Ofev.
Driving or using machines	Be careful driving or operating machinery until you know how Ofev affects you.
Looking after your medicine	Store it in a cool dry place (below 25°C), away from moisture, heat, or sunlight.

For more information, see Section 5. What should I know while taking Ofev? in the full CMI.

6. Are there any side effects?

Ofev can have side effects, depending on the condition being treated and how your body reacts.

Some side effects may need immediate medical attention, including severe allergic reactions, major bleeding, infections with fever and/or chills, problems with your circulation, heart, kidney, liver, and pancreas.

Common side effects may include diarrhoea, nausea, stomach pain, vomiting, decreased appetite, headache, weight loss, and high blood pressure.

For more information, including what to do if you have any side effects, see Section 6. Are there any side effects? in the full CMI.

FULL CMI

Ofev^®

Active ingredient: nintedanib (as esilate) (nin-TED-a-nib)

Consumer Medicine Information (CMI)

This leaflet provides important information about using Ofev. You should also speak to your doctor or pharmacist if you would like further information or if you have any concerns or questions about using Ofev.

Where to find information in this leaflet:

1. Why am I using Ofev?
2. What should I know before I take Ofev?
3. What if I am taking other medicines?
4. How do I take Ofev?
5. What should I know while taking Ofev?
6. Are there any side effects?
7. Product details

1. Why am I using Ofev?

Ofev contains the active ingredient nintedanib. Ofev belongs to the group of medicines called tyrosine kinase inhibitors and is used to treat various conditions.

Idiopathic pulmonary fibrosis (IPF)

IPF is a condition in which lung tissue becomes thickened, stiffened and scarred over time, causing shortness of breath.

Ofev helps to reduce further scarring and stiffening of the lungs.

Other chronic fibrosing interstitial lung diseases (ILDs) with a progressive phenotype

Besides IPF, there are other conditions in which the tissue in your lungs becomes thickened, stiff, and scarred over time (lung fibrosis) and keeps worsening (progressive phenotype). Examples of these conditions are:

hypersensitivity pneumonitis
autoimmune ILDs (e.g. rheumatoid arthritis associated ILD)
idiopathic nonspecific interstitial pneumonia
unclassifiable idiopathic interstitial pneumonia, and
other ILDs.

Ofev helps to reduce further scarring and stiffening of the lungs.

Systemic sclerosis associated interstitial lung disease (SSc-ILD)

This is also known as scleroderma associated ILD. It is a rare chronic autoimmune disease that affects connective tissue in many parts of the body. Systemic sclerosis (SSc) causes scarring and stiffening of the skin and other internal organs. When the lungs are affected, it is called Interstitial Lung Disease (ILD), and so the condition is called SSc-ILD. This condition reduces the ability to transfer oxygen into the bloodstream, and breathing capacity is reduced.

Ofev helps to reduce further scarring and stiffening of the lungs.

Non-small cell lung cancer (NSCLC)

Ofev is used in combination with docetaxel to treat a type of NSCLC in adults who have previous treatment with another medicine but the tumour has started to grow back or has spread to other parts of the body.

Ofev stops the activity of a group of proteins which are involved in growing new blood vessels that cancer cells need to supply them with food and oxygen. By blocking the activity of these proteins, Ofev can help stop the growth and spread of the cancer.

If you are taking Ofev in combination with docetaxel, please read the docetaxel leaflet also.

2. What should I know before I take Ofev?

Warnings

Do not use Ofev if you are:

allergic to nintedanib, lecithin, peanut or soya, or any of the ingredients listed at the end of this leaflet.

Always check the ingredients to make sure you can use this medicine.

Check with your doctor if you have or have had any of the following conditions:

liver problems
blood clots
problems with your kidneys, or if increased protein has been found in your urine
bleeding problems, particularly recent bleeding in the lung
heart problems (such as a heart attack)
swelling and weakening of part of a blood vessel (aneurysm) or a tear in a blood vessel
hole in the wall of your gut (gastrointestinal perforation)
ulcer in the stomach or duodenum
diverticular disease (a common condition where small pouches or pockets form in the wall of the large intestine)
previous surgery in your stomach (abdominal) area or other recent surgery
cancer that has spread to the brain.

Check with your doctor if you take:

blood-thinning medicines (such as warfarin, heparin, or low dose aspirin) to prevent blood clotting
medicines used to relieve pain, swelling and redness (the symptoms of inflammation), including those to treat arthritis (anti-inflammatory medicines or NSAIDs)
medicines such as prednisone and cortisone ("corticosteroids"), which reduce the activity of the immune system
medicines used to treat constipation or bowel movements, or other medicines/dietary supplements that can cause diarrhoea
any other medicine(s) for another condition(s).

During treatment, you may be at risk of developing certain side effects. It is important you understand these risks and how to monitor for them. See additional information under Section 6. Are there any side effects?

Pregnancy and breastfeeding

Do not take Ofev if you are pregnant or plan to become pregnant.

Ofev may affect your developing baby if you take it during pregnancy.

If you are a woman of child-bearing age, your doctor may ask you to take a pregnancy test to confirm that you are not pregnant before starting treatment with Ofev.

Do not breastfeed if you are taking Ofev. Talk to your doctor if you are breastfeeding or intend to breastfeed. The active ingredient in Ofev may pass into breast milk and there is a possibility that your baby might be affected.

Contraception

You must avoid becoming pregnant while taking Ofev and use effective contraception when starting/taking Ofev, and for at least 3 months after you stop using it.

Vomiting, diarrhoea, or other gastrointestinal conditions can affect the absorption of oral hormonal contraceptives, such as birth control pills, and may reduce their effectiveness. If you are experiencing these symptoms, talk to your doctor or pharmacist to discuss alternative methods of contraception.

Children and adolescents

Ofev is not approved for use in children or adolescents under 18 years of age.

3. What if I am taking other medicines?

Tell your doctor or pharmacist if you are taking any other medicines, including any medicines, vitamins, or supplements that you buy without a prescription from your pharmacy, supermarket, or health food shop.

Some medicines that may increase the effect of Ofev include:

ketoconazole (a medicine used to treat fungal infections)
erythromycin (a medicine used to treat bacterial infections).

Some medicines that may reduce the effect of Ofev include:

rifampicin (a medicine used to treat tuberculosis: a bacterial infection that usually attacks the lungs)
carbamazepine or phenytoin (medicines used to treat seizures or convulsions)
herbal medicines derived from St John's Wort (used to treat mental health problems).

Check with your doctor or pharmacist if you are not sure about what medicines, vitamins or supplements you are taking and if these affect Ofev. You may need different amounts of your medicines, or you may need to take different medicines.

4. How do I take Ofev?

How much to take

Your doctor will decide how many Ofev capsules you should take.
Take Ofev exactly as your healthcare provider tells you to take it. The instructions may differ from the information contained in this leaflet.
Use Ofev until your doctor tells you to stop.

NSCLC

The recommended starting dose of Ofev is two 100 mg capsules taken twice daily, about 12 hours apart (a total of 400 mg Ofev/day) on Days 2 to 21 of a standard 21-day docetaxel treatment cycle.

Your doctor may decrease your dose by 100 mg steps/day if you do not tolerate the dose prescribed.

IPF, Other chronic fibrosing ILD with a progressive phenotype, or SSc-ILD

The recommended starting dose of Ofev is one 150 mg capsule taken twice daily, about 12 hours apart (a total of 300 mg Ofev/day).

If you have problems with your liver or do not tolerate the dose prescribed, your doctor may decrease your dose to one 100 mg capsule twice daily (a total dose of 200 mg/day).

If you get severe side effects, your doctor may interrupt your treatment and then re-start your treatment at a lower dose or may tell you to discontinue taking Ofev completely.

When to take Ofev

Take one Ofev dose in the morning and another dose in the evening, about 12 hours apart, as prescribed by your doctor.

How to take Ofev

Take Ofev capsules with food.

Ofev may be taken with a small amount (teaspoon full) of cold or room temperature soft food, such as apple sauce or chocolate pudding.

Swallow the capsule(s) whole with a full glass of water. Do not chew, crush, or open the capsules.

If you or someone else accidently comes into contact with the contents of an Ofev capsule, immediately wash hands well.

If you forget to take Ofev

Ofev should be taken regularly at the same times each day.

If you miss a dose at the usual time and it is almost time for your next dose, skip the dose you missed and take your next dose when you are meant to. If you are not sure what to do, ask your doctor or pharmacist.

Do not take a double dose to make up for the dose you missed.

If you take too much Ofev

If you think that you have taken too much Ofev, you may need urgent medical attention.

You should immediately:

phone the Poisons Information Centre
(by calling 13 11 26), or
contact your doctor, or
go to the Emergency Department at your nearest hospital.

You should do this even if there are no signs of discomfort or poisoning.

5. What should I know while using Ofev?

Things you should do

Keep all of your doctor's appointments so that your progress can be checked. Your doctor may want to run tests from time to time to check your progress and detect any unwanted side effects, especially in your blood or urine or due to liver function.

Remind any doctor, dentist or pharmacist you visit that you are using Ofev.

If you go into hospital, tell the medical staff that you are taking this medicine.

Call your doctor straight away if you:

have diarrhoea (see "Diarrhoea" below)
show signs of swelling of the face, lips, tongue and/or throat, and difficulty in breathing
have headache, visual disturbances, seizure, lethargy, confusion, and other neurologic disturbances
become pregnant or think you may be pregnant during treatment.

Diarrhoea

This is a very common side effect of Ofev and may become serious and life-threatening if untreated.

If you experience the early signs of diarrhoea, speak to your doctor and take anti-diarrhoeal medicine exactly as your doctor tells you.

Drink plenty of fluids to avoid dehydration and becoming unwell.

Things you should not do

Do not lower the Ofev dose without checking with your doctor first.

If you have lung cancer, do not take Ofev on Day 1 of the treatment cycle. That is, on the same day of docetaxel administration.

Driving or using machines

Be careful before you drive or use any machines or tools until you know how Ofev affects you.

No studies of the effects of Ofev on the ability to drive and operate machinery have been performed.

You should not drive or operate machinery if you feel sick.

Drinking alcohol

There are no known effects between Ofev and alcohol.

Looking after your medicine

Keep Ofev capsules in the blister until it is time to take it. Follow the instructions in the carton on how to take care of your medicine properly.

Keep Ofev in a cool, dry place where the temperature stays below 25°C.

Store it away from moisture, heat, or sunlight; for example, do not store it:

in the bathroom or near a sink, or
in the car or on windowsills.

Keep it where young children cannot reach it.

Getting rid of any unwanted medicine

If you no longer need to use this medicine or it is out of date, take it to any pharmacy for safe disposal.

Do not use this medicine after the expiry date.

6. Are there any side effects?

All medicines can have side effects. If you do experience any side effects, most of them are minor and temporary. However, some side effects may need medical attention.

See the information below and, if you need to, ask your doctor or pharmacist if you have any further questions about side effects.

Less serious side effects

Less serious side effects

What to do

Blood pressure:

High blood pressure (may not be noted until checked by your doctor)

Gut and digestion:

Diarrhoea
Throwing up (vomiting)
Nausea
Stomach (abdominal) pain or discomfort
Sore/red mouth
Ulcers in the mouth
Inflammation of the mucous membranes lining the gut

Metabolism:

Decreased appetite
Weight loss

Infection:

Abscesses

Skin and hair:

Rash or itching
Hair loss

Brain and nervous system:

Lethargy
Headache

Urine:

Signs of increased protein in urine such as foamy urine, swelling, including in your hands, arms, legs, or feet, or sudden weight gain.

Speak to your doctor if you have any of these less serious side effects and they worry you.

Serious side effects

Serious side effects

What to do

Signs of a severe allergic reaction:

Swollen face, tongue, lips, or throat
Difficulty swallowing or breathing
Rash, itching.

Signs of a heart attack may include:

Chest pressure, pain, or discomfort, typically on the left side of the body
Dull pain, chest tightness or discomfort that becomes more severe and does not go away
Pain/discomfort in the jaw, neck, back, arm, or shoulder
Fast heartbeat
Sudden shortness of breath
Nausea
Vomiting
Suddenly feeling light-headed, or unusually tired
Fainting
Sweating
Similar feelings to heartburn.

Signs of a stroke:

Trouble speaking, understanding, walking, or seeing in 1 or both eyes
Confusion
Headache which is sudden and severe, and followed by vomiting and dizziness
Numbness of the face, arm or leg (on 1 side of your body).

Signs of a blood clot:

Pain, swelling, reddening, warmth of a limb
If a clot travels to the lungs, you may have chest pain and difficulty breathing.

Signs of neurological disturbances

visual disturbances
seizure
confusion
lethargy
other neurologic disturbances

Signs of severe diarrhoea:

More than 4 bowel movements in one day
Diarrhoea that lasts more than 2 days after taking anti-diarrhoeal medication
Black, tarry or bloody poo (stools)
Unusual thirst
Dry mouth or skin
Fever (increase in body temperature).

Signs of inflammation of the pancreas:

Tenderness and severe upper stomach pain, often with nausea and vomiting

Signs of infection or infection in the blood:

Fever, chills, fast breathing, or a fast heartbeat

Signs of kidney failure:

Passing little or no urine
Headache
Dizziness
Tiredness
Swelling in your legs and feet or around your eyes
Drowsiness
Feeling sick (nausea)
Throwing up (vomiting)
Breathlessness
Loss of appetite
Weakness.

Signs of liver problems:

Yellowing of the skin and whites of the eyes ("jaundice")
Dark or tea-coloured urine
Feeling tired
Loss of appetite
Upper right stomach pain, discomfort and swelling
Bleeding or bruising more easily than normal.

Signs of a low platelets in your blood:

Bleeding or bruising more easily than normal
Any major bleeding.

Signs of bowel inflammation/ poor blood supply to the colon:

Severe pain or cramping in your stomach
Urgent need to pass stool
Red blood in your stool
Diarrhoea
Nausea
Swollen belly.

Signs of a possible hole in the gut wall:

Severe pain or tenderness in your stomach area
Fever and chills
Feeling sick
Throwing up
Your belly feels full and tight ("bloating")
Bloody stool.

Call your doctor straight away or go straight to the Emergency Department at your nearest hospital if you notice any of these serious side effects.

Tell your doctor or pharmacist if you notice anything else that may be making you feel unwell.

Other side effects not listed here may occur in some people.

Reporting side effects

After you have received medical advice for any side affects you experience, you can report side effects to the Therapeutic Goods Administration online at www.tga.gov.au/reporting-problems. By reporting side effects, you can help provide more information on the safety of this medicine.

Always make sure you speak to your doctor or pharmacist before you decide to stop taking any of your medicines.

7. Product details

This medicine is only available with a doctor's prescription.

What Ofev contains

Active ingredient (main ingredient)	nintedanib esilate
Other ingredients (inactive ingredients)	gelatin glycerol 85% hard fat iron oxide red CI77491 iron oxide yellow CI77492 medium chain triglycerides titanium dioxide
Potential allergens	lecithin (inside the capsule)

Do not take this medicine if you are allergic to any of these ingredients.

What Ofev looks like

Ofev is supplied as soft gelatin capsules in two different strengths:

Ofev 100 mg
Peach-coloured, opaque, oblong, marked in dark grey with the Boehringer Ingelheim company logo and with "100"; AUST R 226065.
Ofev 150 mg
Brown-coloured, opaque, oblong, marked in dark grey with the Boehringer Ingelheim company logo and with "150"; AUST R 226068.

All Ofev capsules contain a bright yellow viscous suspension.

Ofev is packed in blister cartons each containing 60 capsules.

Who distributes Ofev

Boehringer Ingelheim Pty Limited
ABN 52 000 452 308
78 Waterloo Road
North Ryde NSW 2113
Website: www.boehringer-ingelheim.com.au

^®Registered trademark

This leaflet was prepared in September 2024

Published by MIMS November 2024

BRAND INFORMATION

Brand name

Ofev

Active ingredient

Nintedanib

Schedule

1 Name of Medicine

Nintedanib esilate.

2 Qualitative and Quantitative Composition

100 mg soft capsule.

One Ofev 100 mg soft gelatin capsule for oral administration contains 100 mg nintedanib (as nintedanib esilate).

150 mg soft capsule.

One Ofev 150 mg soft gelatin capsule for oral administration contains 150 mg nintedanib (as nintedanib esilate).

Excipient with known effect.

Soya lecithin.

Ofev 100 mg and Ofev 150 mg soft capsules respectively contain 1.2 mg and 1.8 mg of soya lecithin. See Section 4.4 Special Warnings and Precautions for Use.
For the full list of excipients, see Section 6.1 List of Excipients.

3 Pharmaceutical Form

100 mg soft capsules.

Peach-coloured, opaque, oblong, soft gelatin capsules marked in dark grey with the Boehringer Ingelheim company logo and "100". The capsules contain a bright yellow viscous suspension.

150 mg soft capsules.

Brown-coloured, opaque, oblong, soft gelatin capsules marked in dark grey with the Boehringer Ingelheim company logo and "150". The capsules contain a bright yellow viscous suspension.

4 Clinical Particulars

4.1 Therapeutic Indications

Non-small cell lung cancer (NSCLC).

Ofev is indicated in combination with docetaxel for the treatment of patients with locally advanced, metastatic or recurrent non-small cell lung cancer (NSCLC) of adenocarcinoma tumour histology after failure of first line chemotherapy.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Ofev monotherapy is indicated for:
the treatment of idiopathic pulmonary fibrosis (IPF);
the treatment of other chronic fibrosing interstitial lung diseases (ILDs) with a progressive phenotype;
slowing the rate of decline in pulmonary function in patients with systemic sclerosis-associated interstitial lung disease (SSc-ILD).

4.2 Dose and Method of Administration

Method of administration.

Ofev capsules should be taken orally, preferably with food, swallowed whole with water, and should not be chewed. Ofev capsules may be taken with a small amount (teaspoonful) of cold or room temperature soft food, such as apple sauce or chocolate pudding, and must be swallowed unchewed immediately, to ensure the capsule stays intact.
If a dose is missed, administration should resume at the next scheduled time at the recommended dose. If a dose is missed, the patient should not be given an additional dose.
The capsule should not be opened or crushed. If contact with the content of the capsule occurs, hands should be washed immediately and thoroughly.

Adult dose.

NSCLC.

Treatment with Ofev should be initiated and supervised by a physician experienced in the use of anticancer therapies.
The recommended dose of Ofev is 200 mg twice daily administered approximately 12 hours apart, on days 2 to 21 of a standard 21-day docetaxel treatment cycle.
Ofev must not be taken on the same day of docetaxel chemotherapy administration (= day 1).
The recommended maximum daily dose of 400 mg should not be exceeded.
Patients may continue therapy with Ofev after discontinuation of docetaxel for as long as clinical benefit is observed or until unacceptable toxicity occurs.
For dosage, method of administration and dose modifications of docetaxel, please refer to the corresponding product information for docetaxel.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Treatment should be initiated by physicians experienced in the diagnosis and treatment of conditions for which Ofev is indicated.
The recommended dose of Ofev is 150 mg twice daily administered approximately 12 hours apart.
The recommended maximum daily dose of 300 mg should not be exceeded.

Dose adjustments.

NSCLC.

As initial measure for the management of adverse reactions (see Table 1 and Table 2) treatment with Ofev should be temporarily interrupted until the specific adverse reaction has resolved to levels that allow continuation of therapy (to grade 1 or baseline). Ofev treatment may be resumed at a reduced dose. Dose adjustments in 100 mg steps per day (i.e. a 50 mg reduction per dosing) based on individual safety and tolerability are recommended as described in Table 1 and Table 2.
In case of further persistence of the adverse reaction(s), i.e. if a patient does not tolerate 100 mg twice daily, treatment with Ofev should be permanently discontinued.
In case of specific elevations of aspartate aminotransferase (AST)/ alanine aminotransferase (ALT) values to > 3 x upper limit normal (ULN) in conjunction with an increase of total bilirubin to ≥ 2 x ULN and ALP < 2 x ULN (see Table 2) treatment with Ofev should be interrupted. Unless there is an alternative cause established, Ofev should be permanently discontinued (see Section 4.4 Special Warnings and Precautions for Use, Hepatic function).

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

In addition to symptomatic treatment if applicable, the management of adverse reactions of Ofev could include dose reduction and temporary interruption until the specific adverse reaction has resolved to levels that allow continuation of therapy. Ofev treatment may be resumed at the full dose (150 mg twice daily) or a reduced dose (100 mg twice daily). If a patient does not tolerate 100 mg twice daily, treatment with Ofev should permanently be discontinued (see Section 4.4 Special Warnings and Precautions for Use; Section 4.8 Adverse Effects (Undesirable Effects)).
In case of interruptions due to transaminase (AST or ALT) elevations > 3x upper limit of normal (ULN), once transaminases have returned to baseline values, treatment with Ofev may be reintroduced at a reduced dose (100 mg twice daily) which subsequently may be increased to the full dose (150 mg twice daily) (see Section 4.4 Special Warnings and Precautions for Use; Section 4.8 Adverse Effects (Undesirable Effects)).

Special populations.

Paediatric population. The safety and efficacy of Ofev in the paediatric population has not been established.
Elderly patients (≥ 65 years). No overall differences in safety and efficacy were observed for elderly patients compared to patients aged below 65 years. No adjustment of the initial dosing in elderly patients (see Section 5.2 Pharmacokinetic Properties).
Race. Based on population PK analyses, no a priori dose adjustments of Ofev are necessary (see Section 4.4 Special Warnings and Precautions for Use, Special populations; Section 5.2 Pharmacokinetic Properties). Safety data for Black patients are limited.
Body weight. Based on population PK analyses, no a priori dose adjustments of Ofev are necessary in adult patients (see Section 5.2 Pharmacokinetic Properties).
Renal impairment. Less than 1% of a single dose of nintedanib is excreted via the kidney (see Section 5.2 Pharmacokinetic Properties). Adjustment of the starting dose in patients with mild to moderate renal impairment is not required. The safety, efficacy, and pharmacokinetics of nintedanib have not been studied in patients with severe renal impairment (< 30 mL/min CrCL).
Hepatic impairment. Nintedanib is predominantly eliminated via biliary/faecal excretion (> 90%). Exposure increased in patients with hepatic impairment (Child Pugh A, Child Pugh B; see Section 5.2 Pharmacokinetic Properties).
The safety and efficacy of nintedanib have not been investigated in patients with hepatic impairment classified as Child Pugh B and C. Treatment of patients with moderate (Child Pugh B) and severe (Child Pugh C) hepatic impairment with Ofev is not recommended (see Section 5.2 Pharmacokinetic Properties).

NSCLC.

No adjustment of the starting dose is needed for patients with mild hepatic impairment based on clinical data (Child Pugh A, see Section 4.4 Special Warnings and Precautions for Use).

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

In adult patients with mild hepatic impairment (Child Pugh A), the recommended dose of Ofev is 100 mg twice daily approximately 12 hours apart. If adverse reactions occur, treatment interruption or treatment discontinuation should be considered.

4.3 Contraindications

Ofev is contraindicated in patients with known hypersensitivity to nintedanib, peanut or soya, or to any of the excipients listed, see Section 6.1 List of Excipients.
Ofev is contraindicated during pregnancy (see Section 4.6 Fertility, Pregnancy and Lactation).

NSCLC.

For contraindications related to docetaxel please refer to the corresponding product information for docetaxel.

4.4 Special Warnings and Precautions for Use

Gastrointestinal (GI) disorders.

NSCLC.

Diarrhoea.

Diarrhoea was the most frequently reported GI event (see Section 4.8 Adverse Effects (Undesirable Effects)). In the clinical trial LUME-Lung 1 (see Section 5.1 Pharmacodynamic Properties, Clinical trials), the majority of patients had mild to moderate diarrhoea. 6.3% of the patients had diarrhoea of grade ≥ 3 in combination treatment compared to 3.6% treated with docetaxel alone. Dehydration was reported in 1.9% of patients in the combination arm and in none of the patients treated with docetaxel alone. Diarrhoea should be treated at first signs with adequate hydration and anti-diarrhoeal medicinal products, e.g. loperamide, and may require dose interruption, dose reduction or discontinuation of therapy with Ofev (see Section 4.2 Dose and Method of Administration).

Nausea and vomiting.

Nausea and vomiting, mostly of mild to moderate severity, were frequently reported GI adverse events (see Section 4.8 Adverse Effects (Undesirable Effects)). If symptoms persist despite appropriate supportive care (including anti-emetic therapy), dose reduction, treatment interruption or discontinuation of therapy with Ofev (see Section 4.2 Dose and Method of Administration) may be required.
Diarrhoea and vomiting may lead to dehydration with or without electrolyte disturbances which may progress to renal function impairment. In the event of dehydration, administration of electrolytes and fluids is required. Plasma levels of electrolytes should be monitored, if relevant gastrointestinal adverse events occur.
IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Diarrhoea.

In the clinical trials (see Section 5.1 Pharmacodynamic Properties, Clinical trials), diarrhoea was the most frequent GI event reported. In most patients, the event was mild to moderate intensity and occurred within the first 3 months of treatment. In the INPULSIS trials in patients with IPF, diarrhoea was reported in 62.4% versus 18.4% of patients treated with Ofev and placebo, respectively. Overall, adverse events led to dose reduction of Ofev in 15.8% of patients and to discontinuation of Ofev in 19.3% of patients. Diarrhoea led to dose reduction of Ofev in 10.7% of the patients and to discontinuation of Ofev in 4.4% of the patients. In the INBUILD trial in patients with other chronic fibrosing ILDs with a progressive phenotype, diarrhoea was reported in 66.9% versus 23.9% of patients treated with Ofev and placebo, respectively. Diarrhoea led to dose reduction of Ofev in 16.0% of the patients and to discontinuation of Ofev in 5.7% of the patients. In the SENSCIS trial in patients with SSc-ILD, diarrhoea was reported in 75.7% versus 31.6% of patients treated with Ofev and placebo, respectively. Overall, adverse events led to dose reduction of Ofev in 34.0% of patients and to discontinuation of Ofev in 16.0% of patients. Diarrhoea led to dose reduction of Ofev in 22.2% of the patients and to discontinuation of Ofev in 6.9% of the patients (see Section 4.8 Adverse Effects (Undesirable Effects)).
Diarrhoea should be treated at first signs with adequate hydration and anti-diarrhoeal medicinal products, e.g. loperamide, and may require dose reduction or treatment interruption. Ofev treatment may be resumed at a reduced dose (100 mg twice daily) or at the full dose (150 mg twice daily). In case of persisting severe diarrhoea despite symptomatic treatment, therapy with Ofev should be discontinued (see Section 4.2 Dose and Method of Administration).

Nausea and vomiting.

Nausea and vomiting were frequently reported GI adverse events (see Section 4.8 Adverse Effects (Undesirable Effects)). In most patients with nausea and vomiting, the event was of mild to moderate intensity. In the INPULSIS trials, nausea led to discontinuation of Ofev in 2.0% of patients and vomiting led to discontinuation in 0.8% of the patients. In the INBUILD trial, the frequency of nausea and vomiting leading to Ofev discontinuation were 0.3% and 0.9%, respectively. In the SENSCIS trial, the frequency of nausea and vomiting leading to Ofev discontinuation were 2.1% and 1.4%, respectively.
If symptoms persist despite appropriate supportive care (including anti-emetic therapy), dose reduction or treatment interruption may be required. The treatment may be resumed at a reduced dose (100 mg twice daily) or at the full dose (150 mg twice daily). In case of persisting severe symptoms therapy with Ofev should be discontinued (see Section 4.2 Dose and Method of Administration).
Diarrhoea and vomiting may lead to dehydration with or without electrolyte disturbances which may progress to renal function impairment.

GI perforations and ischaemic colitis.

Due to the mechanism of action nintedanib patients might have an increased risk of gastrointestinal perforations and ischaemic colitis. Cases of GI perforations and cases of ischaemic colitis, some of which were fatal, have been reported in the post-marketing period. Particular caution should be exercised when treating patients with previous abdominal surgery, previous history of peptic ulceration, diverticular disease or receiving concomitant corticosteroids or NSAIDs. Ofev should only be initiated at least 4 weeks after abdominal surgery. Therapy with Ofev should be permanently discontinued in patients who develop GI perforation or ischaemic colitis. Exceptionally, Ofev can be reintroduced after complete resolution of ischaemic colitis and careful assessment of patient's condition and other risk factors.

NSCLC.

The frequency of GI perforation was comparable between the treatment arms in the LUME-Lung 1 study. Particular caution should be exercised when treating patients with previous abdominal surgery or a recent history of a hollow organ perforation.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

In the clinical trials no increased risk of gastrointestinal perforation was observed in Ofev treated patients. Particular caution should be exercised when treating patients with previous abdominal surgery, a recent history of a hollow organ perforation, previous history of peptic ulceration, diverticular disease or receiving concomitant corticosteroids or NSAIDs.

Renal function.

Cases of renal impairment/failure, in some cases with fatal outcome, have been reported with nintedanib use (see Section 4.8 Adverse Effects (Undesirable Effects)).
Patients should be monitored during nintedanib therapy, with particular attention to those patients exhibiting risk factors for renal impairment/failure. In case of renal impairment/failure, therapy adjustment should be considered (see Section 4.2, Dose adjustments).

Neutropenia and sepsis.

NSCLC.

A higher frequency of neutropenia of CTCAE grade ≥ 3 was observed in patients treated with Ofev in combination with docetaxel as compared to treatment with docetaxel alone. Subsequent complications such as sepsis or febrile neutropenia have been observed. Febrile neutropenia was reported in 7.5% of patients in the combination arm compared to 4.5% of patients during treatment with docetaxel alone. Fatal sepsis was reported in 0.9% of patients treated with Ofev in combination with docetaxel. Fatal sepsis was not reported during treatment with docetaxel alone.
Blood counts should be monitored during therapy, in particular during the combination treatment with docetaxel. Frequent monitoring of complete blood counts should be performed at the beginning of each treatment cycle and around the nadir for patients receiving treatment with nintedanib in combination with docetaxel, and as clinically indicated after the administration of the last combination cycle.

Hepatic function.

Use in patients with hepatic impairment. Subjects with baseline AST, ALT or bilirubin levels > 1.5 times the upper limit of normal were excluded from the pivotal studies. Based on increased exposure, the risk for adverse events may be increased in patients with mild hepatic impairment (Child Pugh A; see Section 4.2 Dose and Method of Administration; Section 5.2 Pharmacokinetic Properties). The safety and efficacy of Ofev has not been studied in patients with moderate (Child Pugh B) or severe (Child Pugh C) hepatic impairment. Therefore, treatment with Ofev is not recommended in such patients (see Section 5.2 Pharmacokinetic Properties).
Liver enzyme elevations and hyperbilirubinaemia. Cases of drug-induced liver injury have been observed with nintedanib treatment.

NSCLC.

In the post-marketing period, severe liver injury with fatal outcome has been reported. Administration of nintedanib was associated with an elevation of liver enzymes (ALT, AST, ALP, gamma-glutamyltransferase (GGT)) and bilirubin. These increases were reversible upon dose reduction or interruption in the majority of cases. Liver related adverse events of grade ≥ 3 were reported in 15.3% of patients treated with the combination of Ofev and docetaxel compared to 1.8% of patients treated with docetaxel alone.
Transaminase, ALP and bilirubin levels should be investigated before the initiation of the combination treatment with Ofev plus docetaxel. The values should be monitored as clinically indicated or periodically during treatment, i.e. in the combination phase with docetaxel at the beginning of each treatment cycle and monthly in case Ofev is continued as monotherapy after discontinuation of docetaxel.
If relevant liver enzyme elevations are measured, interruption, dose reduction or discontinuation of the therapy with Ofev may be required (see Section 4.2 Dose and Method of Administration, Table 2). Alternative causes of the liver enzyme elevations should be investigated and respective action should be taken as necessary.
In case of specific changes in liver values (AST/ALT > 3 x ULN in conjunction with bilirubin ≥ 2 x ULN and ALP < 2 x ULN) treatment with Ofev should be interrupted. Unless there is an alternative cause established, Ofev should be permanently discontinued (see Section 4.2 Dose and Method of Administration, Table 2).
Female and Asian patients have a higher risk of elevations in liver enzymes. Nintedanib exposure increased linearly with patient age and was inversely correlated to weight which may also result in a higher risk of developing liver enzyme elevations (see Section 5.2 Pharmacokinetic Properties). Close monitoring is recommended in patients with these risk factors.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Adult patients with mild hepatic impairment (Child Pugh A) should be treated with a reduced dose of Ofev (see Section 4.2 Dose and Method of Administration; Section 5.2 Pharmacokinetic Properties).
In the post-marketing period, non-serious and serious cases of drug-induced liver injury, including severe liver injury with fatal outcome, have been reported. Administration of nintedanib was associated with elevations of liver enzymes (ALT, AST, ALP, gamma-glutamyl-transferase (GGT)) and bilirubin. In the INPULSIS trials, liver enzyme elevations were reported in 13.6% versus 2.6% of nintedanib patients treated with Ofev and placebo, respectively. In the SENSCIS trial, liver enzyme elevations were reported in 13.2% versus 3.1% of patients treated with Ofev and placebo, respectively. Elevations of liver enzymes were reversible and not associated with clinically manifest liver disease. The majority of hepatic events occur within the first three months of treatment. Therefore, hepatic transaminase and bilirubin levels should be investigated before the initiation of treatment with Ofev, at regular intervals during the first three months of treatment and periodically thereafter (e.g. at each patient visit) or as clinically indicated.
Elevations of liver enzymes (ALT, AST, ALP, gamma-glutamyl-transferase (GGT)) and bilirubin were reversible upon dose reduction or interruption in the majority of cases. If transaminase (AST or ALT) elevations > 3 x upper limit of normal (ULN) are measured, dose reduction or interruption of the therapy with Ofev is recommended and the patient should be monitored closely. Once transaminases have returned to baseline values, treatment with Ofev may be re-increased to the full dose (150 mg twice daily) or reintroduced at a reduced dose (100 mg twice daily) which subsequently may be increased to the full dose (see Section 4.2 Dose and Method of Administration). If any liver test elevations are associated with clinical signs or symptoms of liver injury, e.g. jaundice, treatment with Ofev should be permanently discontinued. Alternative causes of the liver enzyme elevations should be investigated.
Adult patients with low body weight (< 65 kg), Asian and female patients have a higher risk of elevations in liver enzymes. Nintedanib exposure increased linearly with patient age, which may also result in a higher risk of developing liver enzyme elevations (see Section 5.2 Pharmacokinetic Properties). Close monitoring is recommended in patients with these risk factors.

Haemorrhage.

NSCLC. VEGFR inhibition might be associated with an increased risk of bleeding. In the clinical trial LUME-Lung 1 with Ofev, the frequency of bleeding in both treatment arms was comparable. Mild to moderate epistaxis represented the most frequent bleeding event. There were no imbalances of respiratory or fatal bleedings and no intracerebral bleeding was reported. The majority of fatal bleeding events were tumour-associated.
In the post-marketing period non-serious and serious bleeding events, some of which were fatal, have been observed. In patients who experience grade 3/4 bleeding events, the benefits and risks of continuing treatment with Ofev should be carefully weighed and discontinuation of Ofev may be considered. If treatment with Ofev is resumed, a reduced daily dose is recommended (see Section 4.2 Dose and Method of Administration, Table 1).
Patients with recent pulmonary bleeding (> 2.5 mL of red blood) as well as patients with centrally located tumours with radiographic evidence of local invasion of major blood vessels or radiographic evidence of cavitary or necrotic tumours have been excluded from clinical trials. Therefore, it is not recommended to treat these patients with Ofev.
Brain metastasis.

Stable brain metastasis.

No increased frequency of cerebral bleeding in patients with adequately pre-treated brain metastases which were stable for ≥ 4 weeks before start of treatment with Ofev was observed. However, such patients should be closely monitored for signs and symptoms of cerebral bleeding.

Active brain metastasis.

Patients with active brain metastasis were excluded from clinical trials and are not recommended for treatment with Ofev.
Therapeutic anticoagulation. There are no data available for patients with inherited predisposition to bleeding or for patients receiving a full dose of anticoagulative treatment prior to start of treatment with Ofev. In patients on chronic low dose therapy with low molecular weight heparins or acetylsalicylic acid, no increased frequency of bleeding was observed. Patients who developed thromboembolic events during treatment and who required anticoagulant treatment were allowed to continue Ofev and did not show an increased frequency of bleeding events. Patients taking concomitant anticoagulation, such as warfarin should be monitored regularly for changes in prothrombin time, INR, or clinical bleeding episodes.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

VEGFR inhibition might be associated with an increased risk of bleeding. In the clinical trials in adult patients treated with Ofev, the frequency of patients who experienced bleeding adverse events was slightly higher in patients treated with Ofev or comparable between the treatment arms (Ofev 10.3% versus placebo 7.8% for INPULSIS; Ofev 11.1% versus placebo 12.7% for INBUILD; Ofev 11.1% versus placebo 8.3% for SENSCIS). Non-serious epistaxis was the most frequent bleeding event reported. Serious bleeding events occurred with low frequencies in the 2 treatment groups (Ofev 1.3% versus placebo 1.4% for INPULSIS; Ofev 0.9% versus placebo 1.5% for INBUILD; Ofev 1.4% versus placebo 0.7% for SENSCIS).
Patients at known risk for bleeding including patients with inherited predisposition to bleeding or patients receiving a full dose of anticoagulative treatment were not included in clinical trials. Cases of haemorrhage have been reported in postmarketing period (including patients with or without anticoagulant therapy or other drugs that could cause bleeding). Therefore, these patients should only be treated with Ofev if the anticipated benefit outweighs the potential risk. In the post-marketing period non-serious and serious bleeding events, some of which were fatal, have been observed.

Arterial thromboembolic events.

Use caution when treating patients with a higher cardiovascular risk including known coronary artery disease. Treatment interruption should be considered in patients who develop signs or symptoms of acute myocardial ischaemia.

NSCLC.

The frequency of arterial thromboembolic events was comparable between the two treatment arms in the phase III study 1199.13 (LUME-Lung 1). Patients with a recent history of myocardial infarction or stroke were excluded from this study. However, an increased frequency of arterial thromboembolic events was observed in patients with IPF when treated with nintedanib monotherapy.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Patients with a recent history of myocardial infarction or stroke were excluded from the clinical trials.
In the clinical trials in adult patients, arterial thromboembolic events were infrequently reported (Ofev 2.5% versus placebo 0.7% for INPULSIS; Ofev 0.9% versus placebo 0.9% for INBUILD; Ofev 0.7% versus placebo 0.7% for SENSCIS). In the INPULSIS trials, a higher percentage of patients experienced myocardial infarctions in the Ofev group (1.6%) compared to the placebo group (0.5%), while adverse events reflecting ischaemic heart disease were balanced between the Ofev and placebo groups. In the INBUILD and the SENSCIS trial myocardial infarction was observed with low frequency: Ofev 0.9% versus placebo 0.9% for INBUILD; Ofev 0% versus placebo 0.7% for SENSCIS.

Aneurysms and artery dissections.

The use of VEGF pathway inhibitors in patients with or without hypertension may promote the formation of aneurysms and/or artery dissections. Before initiating nintedanib, this risk should be carefully considered in patients with risk factors such as hypertension or history of aneurysm.

Venous thromboembolism.

NSCLC.

Patients treated with Ofev have an increased risk of venous thromboembolism including deep vein thrombosis. Patients should be closely monitored for thromboembolic events. Ofev should be discontinued in patients with life-threatening venous thromboembolic reactions.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

In the clinical trials, no increased risk of venous thromboembolism was observed in Ofev treated patients. Due to the mechanism of action of nintedanib patients might have an increased risk of thromboembolic events.

Nephrotic range proteinuria.

Very few cases of nephrotic range proteinuria have been reported post-marketing. Histological findings in individual cases were consistent with glomerular microangiopathy with or without renal thrombi. Reversal of symptoms has been observed after Ofev was discontinued. Treatment interruption should be considered in patients who develop signs or symptoms of nephrotic syndrome.

Posterior reversible encephalopathy syndrome (PRES).

Very few cases of posterior reversible encephalopathy syndrome (PRES) have been reported post-marketing.
PRES is a neurological disorder which can present with headache, visual disturbances, seizure, lethargy, confusion and other neurologic disturbances. Mild to severe hypertension may be present. Magnetic resonance imaging is necessary to confirm the diagnosis of PRES.
If PRES is suspected, nintedanib treatment must be discontinued. The safety of reinitiating nintedanib therapy in patients previously experiencing PRES is not known.

Pulmonary hypertension.

Other chronic fibrosing ILDs with a progressive phenotype and SSc-ILD.

Data on the use of Ofev in patients with pulmonary hypertension is limited. Patients with significant pulmonary hypertension (cardiac index ≤ 2 L/min/m², or parenteral epoprostenol/treprostinil, or significant right heart failure) were excluded from the INBUILD and SENSCIS trials. Ofev should not be used in patients with severe pulmonary hypertension. Close monitoring is recommended in patients with mild to moderate pulmonary hypertension.

Wound healing complication.

Based on the mechanism of action nintedanib may impair wound healing. No increased frequency of impaired wound healing was observed in the clinical trials. No dedicated studies investigating the effect of nintedanib on wound healing were performed. Treatment with Ofev should therefore only be initiated, or in case of perioperative interruption, resumed based on clinical judgement of adequate wound healing.

Effect on QT interval.

QT/QTc measurements were recorded and analysed from a dedicated study comparing nintedanib monotherapy against sunitinib monotherapy in patients with renal cell carcinoma. In this study, single oral doses of 200 mg nintedanib as well as multiple oral doses of 200 mg nintedanib administered twice daily for 15 days did not prolong the QTcF interval.

NSCLC.

No thorough QT-trial of nintedanib administered in combination with docetaxel was conducted.

Soya lecithin.

Ofev soft capsules contain soya lecithin (see Section 4.3 Contraindications; Section 6.1 List of Excipients).

Special populations.

Body mass.

In study 1199.13 (LUME-Lung 1), there was a higher frequency of serious adverse events in patients treated with Ofev plus docetaxel with a body weight of less than 50 kg compared to patients with a weight ≥ 50 kg; however, the number of patients with a body weight of less than 50 kg was small. Therefore, close monitoring is recommended in patients weighing < 50 kg.

Use in the elderly.

See Section 4.2 Dose and Method of Administration, Special populations, Elderly patients (≥ 65 years); Section 5.2 Pharmacokinetic Properties, Intrinsic and extrinsic factors; special populations, Age.

Paediatric use.

The safety and efficacy of Ofev in the paediatric population has not been established. See Section 4.2 Dose and Method of Administration, Special populations, Paediatric population; Section 5.2 Pharmacokinetic Properties, Paediatric population.

Docetaxel.

NSCLC - For precautions related to docetaxel, please refer to the corresponding product information for docetaxel.

Effects on laboratory tests.

Blood alkaline phosphatase, alanine aminotransferase, aspartate aminotransferase, gamma-glutamyltransferase, and bilirubin may be increased. See Section 4.8 Adverse Effects (Undesirable Effects).

4.5 Interactions with Other Medicines and Other Forms of Interactions

P-glycoprotein (P-gp).

Nintedanib is a substrate of P-gp (see Section 5.2 Pharmacokinetic Properties). Co-administration with the potent P-gp inhibitor ketoconazole increased exposure to nintedanib 1.61-fold based on AUC and 1.83-fold based on C_max in a dedicated drug-drug interaction study.
In a drug-drug interaction study with the potent P-gp inducer rifampicin, exposure to nintedanib decreased by 50% based on AUC and by 40% based on C_max upon co-administration with rifampicin compared to administration of nintedanib alone.
If co-administered with Ofev, potent P-gp inhibitors (e.g. ketoconazole or erythromycin) may increase exposure to nintedanib. In such cases, patients should be monitored closely for tolerability of nintedanib. Management of adverse reactions may require interruption, dose reduction, or discontinuation of therapy with Ofev (see Section 4.2 Dose and Method of Administration).
Potent P-gp inducers (e.g. rifampicin, carbamazepine, phenytoin, and St. John's wort) may decrease exposure to nintedanib. Selection of an alternate concomitant medication with no or minimal P-gp induction potential should be considered.

Food.

Ofev is recommended to be taken with food (see Section 4.2 Dose and Method of Administration; Section 5.2 Pharmacokinetic Properties).

Cytochrome (CYP)-enzymes.

Only a minor extent of the biotransformation of nintedanib consisted of CYP pathways. Nintedanib and its metabolites, the free acid moiety BIBF 1202 and its glucuronide BIBF 1202 glucuronide, did not inhibit or induce CYP enzymes in preclinical studies (see Section 5.2 Pharmacokinetic Properties). The likelihood of drug-drug interactions with nintedanib based on CYP metabolism is therefore considered to be low.

Co-administration with other drugs.

Oral hormonal contraceptives.

Co-administration of nintedanib with an oral hormonal contraceptive containing ethinylestradiol and levonorgestrel did not alter the pharmacokinetics of ethinylestradiol and levonorgestrel to a relevant extent in patients with SSc-ILD (see Section 5.2 Pharmacokinetic Properties).
NSCLC.

Docetaxel.

Co-administration of nintedanib with docetaxel (75 mg/m²) did not alter the pharmacokinetics of either drug to a relevant extent.
IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Pirfenidone.

For co-administration of nintedanib with pirfenidone (see Section 5.1 Pharmacodynamic Properties; Section 5.2 Pharmacokinetic Properties).

Bosentan.

Co-administration of nintedanib with bosentan did not alter the pharmacokinetics of nintedanib (see Section 5.2 Pharmacokinetic Properties).

4.6 Fertility, Pregnancy and Lactation

Effects on fertility.

Based on preclinical investigations, there is no evidence for impairment of male fertility. A study of male fertility and early embryonic development up to implantation in rats at 100 mg/kg/day did not reveal effects on the male reproductive tract and male fertility. In the same species, nintedanib reduced female fertility at 100 mg/kg/day (slightly above the clinical exposure on an AUC basis), and increased early resorptions at ≥ 20 mg/kg/day (below clinical exposure based on AUC). Ovarian follicles and corpora lutea (increased luteinised follicles and increased number and decreased size of corpora lutea) were adversely affected in mice and rats at subclinical exposures.

NSCLC.

Docetaxel - please refer to the corresponding fertility information in the product information for docetaxel.
(Category D)
There is no information on the use of Ofev in pregnant women, but pre-clinical studies in animals have shown reproductive toxicity of this drug.
As nintedanib may cause fetal harm also in humans, it must not be used during pregnancy (see Section 4.3 Contraindications) and pregnancy testing must be conducted prior to treatment with Ofev and during treatment as appropriate. Female patients should be advised to notify their doctor or pharmacist if they become pregnant during therapy with Ofev. If the patient becomes pregnant while receiving Ofev treatment must be discontinued and the patient should be apprised of the potential hazard to the fetus.

Women of childbearing potential/ contraception.

Women of childbearing potential should be advised to avoid becoming pregnant while receiving treatment with Ofev and to use highly effective contraceptive methods at initiation of therapy, during therapy, and at least 3 months after the last dose of Ofev. Co-administration of nintedanib has no relevant effect on the plasma exposure of ethinylestradiol and levonorgestrel in patients with SSc-ILD (see Section 5.2 Pharmacokinetic Properties). The efficacy of oral hormonal contraceptives may be compromised by vomiting and/or diarrhoea or other conditions where the absorption may be affected. Women taking oral hormonal contraceptives experiencing these conditions should be advised to use an alternative highly effective contraceptive measure.

NSCLC.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

In rats, embryo-fetal lethality and teratogenic effects were observed at an exposure significantly lower (below the level of quantification, at 2.5 mg/kg/day) than at the maximal recommended human dose (MRHD) of 150 mg twice daily.
In rabbits, embryo-fetal lethality and teratogenic effects were observed at 15 mg/kg/day with an exposure approximately 5 times higher than at the MHRD but equivocal effects on the embryo-fetal development of the axial skeleton and the heart were noted already at an exposure below that at the MRHD of 150 mg twice daily.
Fetal abnormalities included brachydactyly, major artery anomalies (missing, additional, altered position or size), abnormal heart shape, missing urogenital organs (kidneys, ureter, uterus, ductus deferens, ovaries), vertebral anomalies (missing, fused, displaced, cleft, asymmetrical ossification), and rib anomalies (flat, thickened, additional, fused).
There is no information on the excretion of nintedanib and its metabolites in human milk. Pre-clinical studies showed that small amounts of nintedanib and/or its metabolites (≤ 0.5% of the administered dose) were secreted into milk of lactating rats.
Decreased postnatal viability during the first 4 postnatal days was observed in rats dosed with 10 mg/kg/day nintedanib from gestation day 6 to postnatal day 20 (exposure less than the clinical exposure based on AUC).
Because of the potential for serious adverse effects in breastfeeding infants, breastfeeding should be discontinued during treatment with Ofev.

NSCLC.

Docetaxel - please refer to the corresponding pregnancy information in the product information for docetaxel.

4.7 Effects on Ability to Drive and Use Machines

No studies of the effects on the ability to drive and use machines have been performed.
Patients should be advised to be cautious when driving or using machines during treatment with Ofev.

4.8 Adverse Effects (Undesirable Effects)

Reporting suspected adverse effects.

Reporting suspected adverse reactions after registration 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 at http://www.tga.gov.au/reporting-problems.

Summary of the safety profile in adult patients.

NSCLC.

The safety data provided below are based on the global, double-blind randomised pivotal phase III trial 1199.13 (LUME-Lung 1) comparing treatment with Ofev plus docetaxel against placebo plus docetaxel in patients with locally advanced, or metastatic, or recurrent NSCLC after first-line chemotherapy. Adverse events (AEs) in all patients occurring in at least 10% of patients in either treatment arm in the pivotal trial LUME-Lung 1 are summarised in Table 3.

Tabulated list of adverse reactions.

NSCLC.

Table 4 summarises the frequencies of adverse drug reactions (ADRs) by System Organ Class (SOC) that were reported in the pivotal study LUME-Lung 1 for patients with NSCLC of adenocarcinoma tumour histology (n = 320) and based on data observed during the nintedanib post-marketing period. The following terms are used to rank the ADRs by frequency: very common (≥ 1/10), common (≥ 1/100 < 1/10), uncommon (≥ 1/1,000 < 1/100). Within each frequency grouping adverse reactions are presented in order of decreased seriousness. The most frequently reported adverse reactions specific for Ofev were diarrhoea, increased liver enzyme values (ALT and AST) and vomiting.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Ofev has been studied in clinical trials including 1529 patients suffering from IPF, 663 patients with other chronic fibrosing interstitial lung diseases (ILDs) with a progressive phenotype, and 576 patients with SSc-ILD.
The safety data provided in the following are based on:
Two phase III, randomised, double-blind, placebo-controlled trials comparing treatment with Ofev 150 mg twice daily to placebo for 52 weeks (INPULSIS-1 and INPULSIS-2) in 1061 patients with IPF.
One phase III randomised, double-blind, placebo-controlled trial comparing treatment with Ofev 150 mg twice daily to placebo for at least 52 weeks in 663 patients with other chronic fibrosing ILDs with a progressive phenotype (INBUILD).
One phase III randomised, double-blind, placebo-controlled trial comparing treatment with Ofev 150 mg twice daily to placebo for at least 52 weeks in 576 patients with SSc-ILD (SENSCIS).
In clinical trials, the most frequently reported adverse reactions associated with the use of Ofev included diarrhoea, nausea and vomiting, abdominal pain, decreased appetite, weight decreased and hepatic enzymes increased.
The safety profile of Ofev in a long term extension trial in patients with IPF, treated up to 5.7 years, was consistent with that observed in the phase III trials (see Section 5.1 Pharmacodynamic Properties, Clinical trials).
Adverse events occurring in at least 5% of patients in either treatment arm in the pivotal trials INPULSIS-1 and INPULSIS-2 are summarised in Table 5.

Adverse events occurring in at least 5% of patients in either treatment arm in the pivotal trial SENSCIS are summarised in Table 6.

Adverse events occurring in at least 5% of patients in either treatment arm in the pivotal trial INBUILD are summarised in Table 7.

Tabulated list of adverse reactions.

IPF, other chronic fibrosing ILDs with a progressive phenotype and SSc-ILD.

Table 8 summarises the frequencies of ADRs by MedDRA SOC that were reported in the nintedanib group pooled from the two placebo-controlled Phase III clinical trials of 52 weeks duration in 638 IPF patients, the placebo-controlled Phase III clinical trial of 52 weeks duration in 663 patients with other chronic fibrosing ILDs with a progressive phenotype, the placebo-controlled Phase III clinical trial of 52 weeks duration in 288 SSc-ILD patients and data observed during the post-marketing experience.
Frequency categories are defined using the following convention: 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), not known (cannot be estimated from the available data).

For the management of selected adverse reactions please also see Section 4.4 Special Warnings and Precautions for Use.

Post marketing experience.

GI disorders.

Colitis - frequency uncommon.

Renal and urinary disorders.

Renal failure - frequency unknown.

Vascular disorders.

Cases of aneurysms and artery dissections, sometimes fatal, have been reported with VEGFR pathway inhibitors.

4.9 Overdose

For information on the management of overdose, contact the Poison Information Centre on 13 11 26 (Australia).
There is no specific antidote or treatment for Ofev overdose. The highest single dose of nintedanib administered in phase I studies was 450 mg once daily.

NSCLC.

Two patients in the oncology programme had an overdose of maximum 600 mg twice daily (b.i.d) up to eight days. Observed adverse events were consistent with the known safety profile of nintedanib, i.e. increased liver enzymes and gastrointestinal symptoms. Both patients recovered from these adverse reactions.

IPF.

In the INPULSIS trials, one patient was inadvertently exposed to a dose of 600 mg daily for a total of 21 days. A non-serious adverse event (nasopharyngitis) occurred and resolved during the period of incorrect dosing, with no onset of other reported events.
In case of overdose, treatment should be interrupted and general supportive measures initiated as appropriate.

5 Pharmacological Properties

5.1 Pharmacodynamic Properties

Pharmacotherapeutic group: Antineoplastic agents - Protein kinase inhibitors.
ATC code: L01EX09.

Mechanism of action.

NSCLC.

Nintedanib is a triple angiokinase inhibitor blocking vascular endothelial growth factor receptors (VEGFR 1-3), platelet-derived growth factor receptors (PDGFR α and β) and fibroblast growth factor receptors (FGFR 1-3) kinase activity. Nintedanib binds competitively to the adenosine triphosphate (ATP) binding pocket of these receptors and blocks the intracellular signalling which is crucial for the proliferation and survival of endothelial as well as perivascular cells (pericytes and vascular smooth muscle cells). In addition, Fms-like tyrosine-protein kinase-3 (Flt-3), lymphocyte-specific tyrosine-protein kinase (Lck), tyrosine-protein kinase Lyn (Lyn) and proto-oncogene tyrosine-protein kinase Src (Src) are inhibited.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Nintedanib is a small molecule tyrosine kinase inhibitor including the receptors platelet-derived growth factor receptor (PDGFR) α and β, fibroblast growth factor receptor (FGFR) 1-3, and vascular endothelial growth factor receptor (VEGFR) 1-3. In addition, nintedanib inhibits Lck, Lyn, Src, and CSF1R kinases. Nintedanib binds competitively to the ATP binding pocket of these kinases and blocks the intracellular signalling cascades, which have been demonstrated to be involved in the pathogenesis of fibrotic tissue remodelling in interstitial lung diseases.

Pharmacodynamic effects.

NSCLC.

Tumour angiogenesis is an essential feature contributing to tumour growth, progression and metastasis formation and is predominantly triggered by the release of pro-angiogenic factors secreted by the tumour cell (i.e. VEGF and bFGF) to attract host endothelial as well as perivascular cells to facilitate oxygen and nutrient supply through the host vascular system. In preclinical disease models nintedanib, as single agent, effectively interfered with the formation and maintenance of the tumour vascular system resulting in tumour growth inhibition and tumour stasis. Treatment of tumour xenografts with nintedanib led to a reduction in tumour microvessel density.
Dynamic contrast enhanced magnetic resonance imaging (DCE-MRI) measurements showed an anti-angiogenic effect of nintedanib in humans. It was not clearly dose dependent, but most responses were seen at doses of ≥ 200 mg. Logistic regression revealed a statistically significant association of the anti-angiogenic effect to nintedanib exposure. DCE-MRI effects were seen 24-48 hours after the first intake of the medicinal product and were preserved or even increased after continuous treatment over several weeks. No correlation of the DCE-MRI response and subsequent clinically significant reduction in target lesion size was found, but DCE-MRI response was associated with disease stabilisation.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

In in vitro studies using human cells nintedanib has been shown to inhibit processes assumed to be involved in the initiation of the fibrotic pathogenesis, the release of pro-fibrotic mediators from peripheral blood monocytic cells and macrophage polarisation to alternatively activated macrophages. Nintedanib has been demonstrated to inhibit fundamental processes in organ fibrosis, proliferation and migration of fibroblasts and transformation to the active myofibroblast phenotype and secretion of extracellular matrix. In animal studies in multiple models of IPF, SSc/SSc-ILD, RA-ILD and other organ fibrosis, nintedanib has shown anti-inflammatory effects and anti-fibrotic effects in the lung, skin, heart, kidney, and liver. Nintedanib also exerted vascular activity. It reduced dermal microvascular endothelial cell apoptosis and attenuated pulmonary vascular remodelling by reducing the proliferation of vascular smooth muscle cells, the thickness of pulmonary vessel walls and percentage of occluded pulmonary vessels.

Clinical trials in adults.

NSCLC.

Efficacy in the pivotal phase III trial LUME-Lung 1. The efficacy and safety of Ofev was investigated in 1314 patients with locally advanced, metastatic or recurrent NSCLC after one prior line of chemotherapy. The trial included 658 patients (50.1%) with adenocarcinoma, 555 patients (42.2%) with squamous cell carcinoma, and 101 patients (7.7%) with other tumour histologies.
Patients were randomised (1:1) to receive Ofev 200 mg orally twice daily in combination with 75 mg/m² of i.v. docetaxel every 21 days (n = 655) or placebo orally twice daily in combination with 75 mg/m² of docetaxel every 21 days (n = 659). Ofev was not given on day 1 of each cycle, i.e. the day when docetaxel was given. Randomisation was stratified according to Eastern Cooperative Oncology Group (ECOG) performance status (0 vs. 1), bevacizumab pre-treatment (yes vs. no), brain metastasis (yes vs. no) and tumour histology (squamous vs. non-squamous tumour histology).
Patient characteristics were balanced between treatment arms within the overall population and within the adenocarcinoma patients. In the overall population 72.7% of the patients were male. The majority of patients were non-Asian (81.6%), the median age was 60.0 years, the baseline ECOG performance status was 0 (28.6%) or 1 (71.3%); one patient had a baseline ECOG performance status of 2. 5.8% of the patients had stable brain metastasis at study entry and 3.8% had prior bevacizumab treatment.
The disease stage was determined at the time of diagnosis using Union Internationale Contre le Cancer (UICC)/ American Joint Committee on Cancer (AJCC) Edition 6 or Edition 7. In the overall population, 16.0% of the patients had disease stage < IIIB/IV, 22.4% had disease stage IIIB and 61.6% had disease stage IV. 9.2% of the patients entered the study with locally recurrent disease stage as had been evaluated at baseline. For patients with tumour of adenocarcinoma histology, 15.8% had disease stage < IIIB/IV, 15.2% had disease stage IIIB and 69.0% had disease stage IV. 5.8% of the adenocarcinoma patients entered the study with locally recurrent disease stage as had been evaluated at baseline. 'Locally recurrent' was defined as local re-occurrence of the tumour without metastases at study entry.
The primary endpoint was progression-free survival (PFS) as assessed by an independent review committee (IRC) based on the intent-to-treat (ITT) population and tested by histology. Overall survival (OS) was the key secondary endpoint. Other efficacy outcomes included objective response, disease control, change in tumour size and health-related quality of life.
As shown in Table 9, the addition of Ofev to docetaxel led to a statistically significant reduction in the risk of progression or death by 21% for the overall population (HR 0.79; 95% CI: 0.68 - 0.92; p = 0.0019) as determined by the IRC. This result was confirmed in the follow-up PFS analysis (HR 0.85; 95% CI: 0.75 - 0.96; p = 0.0070) which included all events collected at the time of the final OS analysis. OS analysis in the overall population did not reach statistical significance (HR 0.94; 95% CI: 0.83-1.05). Of note, pre-planned analyses according to histology showed statistically significant difference in OS between treatment arms in the adenocarcinoma population only.
The addition of Ofev to docetaxel led to a statistically significant reduction in the risk of progression or death by 23% for the adenocarcinoma population (HR 0.77; 95% CI: 0.62 - 0.96). In line with these observations, related study endpoints such as disease control and change in tumour size showed significant improvements.

A statistically significant improvement in OS favouring treatment with Ofev plus docetaxel was demonstrated in patients with adenocarcinoma with a 17% reduction in the risk of death (HR 0.83, p = 0.0359) and a median OS improvement of 2.3 months (10.3 vs. 12.6 months, see Figure 1).

A pre-specified evaluation was performed in the population of adenocarcinoma patients considered to have entered the study with a particularly poor treatment prognosis, namely, patients who progressed during or shortly after 1^st line therapy prior to study entry. This population included those adenocarcinoma patients identified at baseline as having progressed and entered the study less than 9 months since start of their first-line therapy. Treatment of these patients with Ofev in combination with docetaxel reduced the risk of death by 25%, compared with placebo plus docetaxel (HR 0.75; 95% CI: 0.60 - 0.92; p = 0.0073). Median OS improved by 3 months (Ofev: 10.9 months; placebo: 7.9 months).
In a post hoc analysis in adenocarcinoma patients having progressed and entered the study ≥ 9 months since start of their first-line therapy the difference did not reach statistical significance (HR for OS: 0.89, 95% CI: 0.66 - 1.19).
The proportion of adenocarcinoma patients with stage < IIIB/IV at diagnosis was small and balanced across treatment arms (placebo: 54 patients (16.1%); Ofev: 50 patients, (15.5%)). The HR for these patients for PFS and OS was 1.24 (95% CI: 0.68, 2.28) and 1.09 (95% CI: 0.70, 1.70), respectively. However, the sample size was small, there was no significant interaction and the CI was wide and included the HR for OS of the overall adenocarcinoma population.

Quality of life.

Treatment with Ofev did not significantly change the time to deterioration of the pre-specified symptoms cough, dyspnoea and pain. Patients receiving Ofev plus docetaxel reported a statistically significant, small deterioration in the symptom assessment of diarrhoea used in the European Organization for Research and Treatment of Cancer core questionnaire (EORTC QLQ-C30). This finding did not compromise patients' self-reported Global health status/Quality of life. Patients receiving Ofev plus docetaxel reported statistically significant improvements in other individual lung cancer symptoms (e.g. pain in chest and pain in arm and shoulder).

IPF.

The clinical efficacy of Ofev has been studied in patients with IPF in two phase III, randomised, double-blind, placebo-controlled studies with identical design (INPULSIS-1 and INPULSIS-2). The studies enrolled subjects with forced vital capacity (FVC) ≥ 50% of predicted and diffusing capacity of the lungs for carbon monoxide (DL_CO) corrected for haemoglobin 30-79% of predicted at baseline. Patients were randomised in a 3:2 ratio to treatment with Ofev 150 mg or placebo twice daily for 52 weeks.
The primary endpoint was the annual rate of decline in Forced Vital Capacity (FVC). The key secondary endpoints were change from baseline in Saint George's Respiratory Questionnaire (SGRQ) total score at 52 weeks and time to first acute IPF exacerbation.

Annual rate of decline in FVC.

The annual rate of decline of FVC (in mL) was significantly reduced in patients receiving Ofev compared to patients receiving placebo. The treatment effect was consistent in both trials. See Table 10 for individual and pooled study results.

The robustness of the effect of Ofev in reducing the annual rate of decline in FVC was confirmed in all pre-specified sensitivity analyses.
In addition, similar effects were observed on other lung function endpoints, e.g. change from baseline in FVC at week 52 and FVC responder analyses providing further substantiation of the effects of Ofev on slowing disease progression. See Figure 2 for the evolution of change from baseline over time in both treatment groups, based on the pooled analysis of studies (INPULSIS-1 and INPULSIS-2).

FVC responder analysis.

In both INPULSIS trials, the proportion of FVC responders, defined as patients with an absolute decline in FVC % predicted no greater than 5% (a threshold indicative of the increasing risk of mortality in IPF), was significantly higher in the Ofev group as compared to placebo. Similar results were observed in analyses using a conservative threshold of 10%. See Table 11 for individual and pooled study results.

Time to progression (≥ 10% absolute decline of FVC % predicted or death).

In both INPULSIS trials, the risk of progression was statistically significantly reduced for patients treated with Ofev compared with placebo. In the pooled analysis, the HR was 0.60 indicating a 40% reduction in the risk of progression for patients treated with Ofev compared with placebo, see Table 12.

Change from baseline in SGRQ total score at week 52.

SGRQ total score measuring health related quality of life (HRQoL) was analysed at 52 weeks. In INPULSIS-2, patients receiving placebo had a larger increase from baseline SGRQ total score as compared to patients receiving Ofev 150 mg bid. The deterioration of HRQoL was smaller in the nintedanib group; the difference between the treatment groups was modest, but statistically significant (-2.69; 95% CI: -4.95, -0.43; p = 0.0197). The clinical significance of this finding is unknown.
In INPULSIS-1, the increase from baseline in SGRQ total score at week 52 was comparable between Ofev and placebo (difference between treatment groups: -0.05; 95% CI: -2.50, 2.40; p = 0.9657). In the pooled analysis of the INPULSIS trials, the estimated mean change from baseline to week 52 in SGRQ total score was smaller in the Ofev group (3.53) than in the placebo group (4.96), with a difference between the treatment groups of -1.43 (95% CI: -3.09, 0.23; p = 0.0923). Overall, the effect of Ofev on health-related quality of life as measured by the SGRQ total score is modest, indicating less worsening compared to placebo. The clinical significance of this finding is unknown.

Time to first acute IPF exacerbation.

In the INPULSIS-2 trial, the risk of first acute IPF exacerbation over 52 weeks was significantly reduced in patients receiving Ofev compared to placebo, in the INPULSIS-1 trial there was no difference in between the treatment groups. In the pooled analysis of the INPULSIS trials, a numerically lower risk of first acute exacerbation was observed in patients receiving Ofev compared to placebo. See Table 13 for individual and pooled study results.

All adverse events of acute IPF exacerbation reported by the investigator were adjudicated by a blinded adjudication committee. A pre-specified sensitivity analysis of the time to first 'confirmed' or 'suspected' adjudicated acute IPF exacerbation was performed on the pooled data. The frequency of patients with at least 1 adjudicated exacerbation occurring within 52 weeks was lower in the Ofev group (1.9% of patients) than in the placebo group (5.7% of patients). Time to event analysis of the adjudicated exacerbation events using pooled data yielded an HR of 0.32 (95% CI: 0.16, 0.65; p = 0.0010). This indicates that the risk of having a first acute IPF exacerbation was statistically significantly lower in the Ofev group than in the placebo group at any time point.

Survival analysis.

The INPULSIS trials were not statistically powered for overall mortality. In a pre-specified pooled analysis, overall mortality over 52 weeks was numerically lower in the Ofev group (5.5%) compared with the placebo group (7.8%). The difference did not reach statistical significance. The analysis of time to death resulted in a HR of 0.70 (95% CI: 0.43, 1.12; p = 0.1399). The results of all survival endpoints (such as on-treatment mortality and respiratory mortality) showed a consistent numerical difference in favour of Ofev (see Table 14).

Supportive evidence from the phase II trial (1199.30) Ofev 150 mg twice daily results.

Additional evidence of efficacy is provided by the randomised, double-blind, placebo-controlled, dose finding phase II trial including a Ofev 150 mg bid dose group.
The primary endpoint, rate of decline in FVC over 52 weeks was lower in the Ofev arm (-0.060 L/year, N = 84) than the placebo arm (-0.190 L/year, N = 83). The estimated difference between the treatment groups was 0.131 L/year (95% CI: 0.027, 0.235). Although the difference between the treatments was not significant according to the primary analysis, it reached statistical significance (p = 0.0136) using a pre-specified sensitivity analysis.
The estimated mean change from baseline in SGRQ total score at 52 weeks was 5.46 for placebo, indicating worsening of the health-related quality of life and -0.66 for Ofev, indicating stable health-related quality of life. The estimated mean difference for Ofev compared with placebo was -6.12 (95% CI: -10.57, -1.67; p = 0.0071).
The number of patients with acute IPF exacerbations over 52 weeks was lower in the Ofev group (2.3%, N = 86) compared to placebo (13.8%, N = 87). The estimated hazard ratio of Ofev versus placebo was 0.16 (95% CI: 0.04, 0.71; p = 0.0054).

Long-term treatment with Ofev in patients with IPF (INPULSIS-ON).

An open-label extension trial of Ofev included 734 patients with IPF. Some patients were treated with Ofev for more than 5 years. 734 of 807 (91%) patients who completed the 52 week treatment period in an INPULSIS trial received open-label Ofev treatment in the extension trial INPULSIS-ON. Median exposure time for patients treated with Ofev in both the INPULSIS and INPULSIS-ON trials was 44.7 months (range 11.9-68.3). The adjusted annual rate of decline in FVC over 192 weeks was -135.1 (SE 5.8) mL/year in all patients treated and was consistent with the annual rate of FVC decline in patients treated with Ofev in the INPULSIS phase III trials (-113.6 mL per year). The adverse event profile of Ofev in INPULSIS-ON was similar to that in the INPULSIS phase III trials.

IPF patients with advanced lung function impairment (INSTAGE).

INSTAGE was a multicentre, multinational, prospective, randomised, double-blind, parallel group clinical trial in IPF patients with advanced lung function impairment (DLCO ≤ 35% predicted) for 24 weeks. 136 patients were treated with Ofev monotherapy. Primary endpoint result showed a reduction of St Georges Respiratory Questionnaire (SGRQ) total score by -0.77 units (95% CI -2.76, 1.22) at week W12, based on adjusted mean change from baseline. A post hoc comparison demonstrated that the decline in FVC in these patients was consistent with the decline in FVC in patients with less advanced disease and treated with Ofev in the INPULSIS phase III trials.

Additional data from the phase IV INJOURNEY trial with Ofev 150 mg twice daily and add-on pirfenidone.

Concomitant treatment with nintedanib and pirfenidone has been investigated in an exploratory open-label, randomised trial of nintedanib 150 mg twice daily with add-on pirfenidone titrated to 801 mg three times a day (n = 53) compared to nintedanib 150 mg twice daily alone (n = 52) in 105 randomised patients for 12 weeks. The primary endpoint was the percentage of patients with gastrointestinal adverse events from baseline to week 12. Analyses were descriptive and exploratory. Gastrointestinal adverse events were frequent and in line with the established safety profile of each component. Diarrhoea, nausea and vomiting were the most frequent adverse events reported in 20 (37.7%) versus 16 (31.4%), in 22 (41.5%) versus 6 (11.8%) and in 15 (28.3%) versus 6 (11.8%) patients, treated with pirfenidone added to nintedanib versus nintedanib alone, respectively.

Other chronic fibrosing interstitial lung diseases (ILDs) with a progressive phenotype.

The clinical efficacy of Ofev has been studied in patients with chronic fibrosing ILDs with a progressive phenotype in a double-blind, randomised, placebo-controlled phase III trial (INBUILD). Patients with IPF were excluded. Patients with a clinical diagnosis of chronic fibrosing ILD were selected if they had relevant fibrosis (> 10% fibrotic features) on high resolution computed tomography (HRCT) and presented with clinical signs of progression (defined as FVC decline ≥ 10%, FVC decline ≥ 5% and < 10% with worsening symptoms or imaging, or worsening symptoms and worsening imaging all in the 24 months prior to screening). Patients were required to have an FVC greater than or equal to 45% of predicted and a DLCO 30% to less than 80% of predicted. Patients were required to have progressed despite management deemed appropriate in clinical practice for the patient's relevant ILD. A total of 663 patients were randomised in a 1:1 ratio to receive either Ofev 150 mg bid or matching placebo for at least 52 weeks. The median Ofev exposure over the whole trial was 17.4 months and the mean Ofev exposure over the whole trial was 15.6 months. Randomisation was stratified based on HRCT fibrotic pattern as assessed by central readers. 412 patients with HRCT with usual interstitial pneumonia (UIP)-like fibrotic pattern and 251 patients with other HRCT fibrotic patterns were randomised. There were 2 co-primary populations defined for the analyses in this trial: all patients (the overall population) and patients with HRCT with UIP-like fibrotic pattern. Patients with other HRCT fibrotic patterns represented the 'complementary' population.
The primary endpoint was the annual rate of decline in Forced Vital Capacity (FVC) (in mL) over 52 weeks. Main secondary endpoints were absolute change from baseline in King's Brief Interstitial Lung Disease Questionnaire (K-BILD) total score at week 52, time to first acute ILD exacerbation or death over 52 weeks, and time to death over 52 weeks.
Patients had a mean (standard deviation [SD, Min-Max]) age of 65.8 (9.8, 27-87) years and a mean FVC percent predicted of 69.0% (15.6, 42-137). The underlying clinical ILD diagnoses in groups represented in the trial were hypersensitivity pneumonitis (26.1%), autoimmune ILDs (25.6%), idiopathic nonspecific interstitial pneumonia (18.9%), unclassifiable idiopathic interstitial pneumonia (17.2%), and other ILDs (12.2%).

Annual rate of decline in FVC.

The annual rate of decline in FVC (in mL) over 52 weeks was significantly reduced by 107.0 mL in patients receiving Ofev compared to patients receiving placebo (Table 15) corresponding to a relative treatment effect of 57.0%.

Similar results were observed in the co-primary population of patients with HRCT with UIP-like fibrotic pattern: the annual rate of decline in FVC was -211.1 mL/year in the placebo group (n=206) and -82.9 mL/year in the Ofev group (n=206). The difference between the treatment groups was 128.2 mL/year (95% CI: 70.8, 185.6; p < 0.0001). Further, the treatment effect of annual rate of decline in FVC (mL) over 52 weeks was consistent in the complementary population of patients with other HRCT fibrotic patterns. See Figure 3.

The effect of Ofev in reducing the annual rate of decline in FVC was confirmed in all pre-specified sensitivity analyses and consistent results were observed in all pre-specified subgroups (e.g. gender, age group, race, baseline FVC % predicted, and original underlying clinical ILD diagnosis in groups). The trial was not designed or powered to provide evidence for a benefit of nintedanib in specific diagnostic subgroups.
Figure 4 shows the evolution of change in FVC from baseline over time in the treatment groups.

The adjusted mean absolute change from baseline to week 52 in FVC % predicted was lower in the nintedanib group (-2.62%) than in the placebo group (-5.86%). The adjusted mean difference between the treatment groups was 3.24 (95% CI: 2.09, 4.40).

FVC responder analysis.

The proportion of FVC responders, defined as patients with a relative decline in FVC % predicted no greater than 5%, was higher in the Ofev group as compared to placebo. Similar results were observed in analyses using a threshold of 10% (Table 16).

Time to first acute ILD exacerbation or death.

The proportion of patients with at least one event of first acute ILD exacerbation or death over 52 weeks was 7.8% in the Ofev group and 9.7% in the placebo group. When analysing data over the whole trial, the risk of first acute ILD exacerbation or death further decreased in the Ofev group compared with the placebo group: the HR was 0.67 (95% CI: 0.46, 0.98; see Figure 5).

Survival analysis.

The proportion of patients who died over 52 weeks was 4.8% in the Ofev group compared to 5.1% in the placebo group. In the analysis of data over the whole trial, the risk of death was lower in the Ofev group compared to the placebo group. The HR was 0.78 (95% CI: 0.50, 1.21).

Time to progression (≥ 10% absolute decline of FVC % predicted) or death.

In the INBUILD trial, the risk of progression (≥ 10% absolute decline of FVC % predicted) or death was reduced for patients treated with Ofev. The proportion of patients who died or progressed over 52 weeks was 25.6% in the Ofev group compared to 37.5% in the placebo group. In the analysis of data over the whole trial, the risk of death or progression was lower in the Ofev group compared to the placebo group. The HR was 0.66 (95% CI: 0.53, 0.83).

Quality of life.

In the INBUILD trial health related quality of life at 52 weeks was measured using the:
Absolute change from baseline in King's Brief Interstitial Lung Disease Questionnaire (K-BILD) total score (range from 0-100, higher scores indicate a better health status).
Absolute change from baseline in Living with Pulmonary Fibrosis (L-PF) Symptoms dyspnoea domain score (range from 0-100, the higher the score the greater the impairment).
Absolute change from baseline in Living with Pulmonary Fibrosis (L-PF) Symptoms cough domain score (range from 0-100, the higher the score the greater the impairment).
The adjusted mean change from baseline in K-BILD total score at week 52 was -0.79 units in the placebo group and 0.55 in the Ofev group. The difference between the treatment groups was 1.34 (95% CI: -0.31, 2.98).
The adjusted mean absolute change from baseline in Living with Pulmonary Fibrosis (L-PF) Symptoms dyspnoea domain score at week 52 was 4.28 in the Ofev group compared with 7.81 in the placebo group. The adjusted mean difference between the groups in favour of Ofev was -3.53 (95% CI: -6.14, -0.92). The adjusted mean absolute change from baseline in L-PF Symptoms cough domain score at week 52 was -1.84 in the Ofev group compared with 4.25 in the placebo group. The adjusted mean difference between the groups in favour of Ofev was -6.09 (95% CI: -9.65, -2.53).

SSc-ILD.

The clinical efficacy of Ofev has been studied in patients with SSc-ILD in a double-blind, randomised, placebo-controlled phase III trial (SENSCIS). Patients were diagnosed with SSc-ILD based upon the 2013 American College of Rheumatology/ European League Against Rheumatism classification criteria for SSc and a chest high resolution computed tomography (HRCT) scan conducted within the previous 12 months. A total of 580 patients were randomised in a 1:1 ratio to receive either Ofev 150 mg bid or matching placebo for at least 52 weeks, of which 576 patients were treated. Randomisation was stratified by Antitopoisomerase Antibody status (ATA). Individual patients stayed on blinded trial treatment for up to 100 weeks (median Ofev exposure 15.4 months; mean Ofev exposure 14.5 months).
The primary endpoint was the annual rate of decline in forced vital capacity (FVC) over 52 weeks. Key secondary endpoints were absolute change from baseline in the modified Rodnan Skin Score (mRSS) at week 52 and absolute change from baseline in the Saint George's Respiratory Questionnaire (SGRQ) total score at week 52.
In the overall population, 75.2% of the patients were female. The mean (standard deviation [SD, Min-Max]) age was 54.0 (12.2, 20-79) years. Overall, 51.9% of patients had diffuse cutaneous systemic sclerosis (SSc) and 48.1% had limited cutaneous SSc. The mean (SD) time since first onset of a non-Raynaud symptom was 3.49 (1.7) years. 49.0% of patients were on stable therapy with mycophenolate at baseline (46.5% mycophenolate mofetil, 1.9% mycophenolate sodium, 0.5% mycophenolic acid). The safety profile in patients with or without mycophenolate at baseline was comparable.

Annual rate of decline in FVC.

The annual rate of decline of FVC (in mL) over 52 weeks was significantly reduced by 41.0 mL in patients receiving Ofev compared to patients receiving placebo (Table 17) corresponding to a relative treatment effect of 43.8%.

The effect of Ofev in reducing the annual rate of decline in FVC was similar across pre-specified sensitivity analyses and no heterogeneity was detected in pre-specified subgroups (e.g. by age, gender, and mycophenolate use). The exploratory subgroup analysis of the annual rate of decline in FVC by mycophenolate use at baseline is presented in Table 18.

In addition, similar effects were observed on other lung function endpoints, e.g. absolute change from baseline in FVC in mL at week 52 (see Figure 6 and Table 19) and rate of decline in FVC in % predicted over 52 weeks (Table 20) providing further substantiation of the effects of Ofev on slowing progression of SSc-ILD. Furthermore, fewer patients in the Ofev group had an absolute FVC decline > 5% predicted (20.6% in the Ofev group vs. 28.5% in the placebo group, OR = 0.65, p = 0.0287). The relative FVC decline in mL > 10% was comparable between both groups (16.7% in the Ofev group vs. 18.1% in the placebo group, OR = 0.91, p = 0.6842). In these analyses, missing FVC values at week 52 were imputed with the patient's worst value on treatment.
An exploratory analysis of data up to 100 weeks (maximum treatment duration in SENSCIS) suggested that the on treatment effect of Ofev on slowing progression of SSc-ILD persisted beyond 52 weeks.

Change from baseline in modified Rodnan skin score (mRSS) at week 52.

The adjusted mean absolute change from baseline in mRSS at week 52 was comparable between the Ofev group (-2.17 (95% CI -2.69, -1.65)) and the placebo group (-1.96 (95% CI -2.48, -1.45)). The adjusted mean difference between the treatment groups was -0.21 (95% CI -0.94, 0.53; p = 0.5785).

Change from baseline in St. George's respiratory questionnaire (SGRQ) total score at week 52.

The adjusted mean absolute change from baseline in SGRQ total score at week 52 was comparable between the Ofev group (0.81 (95% CI -0.92, 2.55)) and the placebo group (-0.88 (95% CI -2.58, 0.82)). The adjusted mean difference between the treatment groups was 1.69 (95% CI -0.73, 4.12; p = 0.1711).

Survival analysis.

Mortality over the whole trial was comparable between the Ofev group (N = 10; 3.5%) and the placebo group (N = 9; 3.1%). The analysis of time to death over the whole trial resulted in a HR of 1.16 (95% CI 0.47, 2.84; p = 0.7535).

Paediatric population.

The safety and efficacy of Ofev in the paediatric population has not been established.

5.2 Pharmacokinetic Properties

The pharmacokinetics (PK) of nintedanib can be considered linear with respect to time (i.e. single-dose data can be extrapolated to multiple-dose data). Accumulation upon multiple administrations was 1.04-fold for C_max and 1.38-fold for AUC_T. Nintedanib trough concentrations remained stable for more than one year.

Absorption.

Nintedanib reached maximum plasma concentrations approximately 2 - 4 hours after oral administration as soft gelatin capsule under fed conditions (range 0.5 - 8 hours). The absolute bioavailability of a 100 mg dose was 4.69% (90% CI: 3.615 - 6.078) in healthy volunteers. Absorption and bioavailability are decreased by transporter effects and substantial first-pass metabolism.
Nintedanib exposure increased dose proportionally in the dose range of 50 mg to 450 mg once daily and 150 mg to 300 mg twice daily. Steady state plasma concentrations were achieved within one week of dosing at the latest.
After food intake, nintedanib exposure increased by approximately 20% compared to administration under fasted conditions (CI: 0.953 - 1.525) and absorption was delayed (median t_max fasted: 2.00 hours; fed: 3.98 hours).
In an in vitro study, mixing nintedanib capsules with a small amount of apple sauce or chocolate pudding for up to 15 minutes did not have any impact on the pharmaceutical quality. Therefore, taking the capsules with soft food would not be expected to alter the clinical effect when taken immediately.

Distribution.

Nintedanib follows at least bi-phasic disposition kinetics. After intravenous infusion, a high volume of distribution (V_ss: 1050 L, 45.0% gCV) was observed.
The in vitro protein binding of nintedanib in human plasma was high, with a bound fraction of 97.8%. Serum albumin is considered to be the major binding protein. Nintedanib is preferentially distributed in plasma with a blood to plasma ratio of 0.869.

Metabolism.

The prevalent metabolic reaction for nintedanib is hydrolytic cleavage by esterases resulting in the free acid moiety BIBF 1202. BIBF 1202 is subsequently glucuronidated by UGT enzymes, namely UGT1A1, UGT1A7, UGT1A8, and UGT1A10 to BIBF 1202 glucuronide.
Only a minor extent of the biotransformation of nintedanib consisted of CYP pathways, with CYP3A4 being the predominant enzyme involved. The major CYP-dependent metabolite could not be detected in plasma in the human ADME (absorption, distribution, metabolism and excretion) study. In vitro, CYP-dependent metabolism accounted for about 5% compared to about 25% ester cleavage.

Excretion.

Total plasma clearance after intravenous infusion was high (CL: 1390 mL/min, 28.8% gCV). Urinary excretion of the unchanged active substance within 48 hours was about 0.05% of the dose (31.5% gCV) after oral and about 1.4% of the dose (24.2% gCV) after intravenous administration; the renal clearance was 20 mL/min (32.6% gCV). The major route of elimination of drug related radioactivity after oral administration of [¹⁴C]-nintedanib was via faecal/biliary excretion (93.4% of dose, 2.61% gCV). The contribution of renal excretion to the total clearance was low (0.649% of dose, 26.3% gCV). The overall recovery was considered complete (above 90%) within 4 days after dosing. The terminal half-life of nintedanib was between 10 and 15 hours (gCV % approximately 50%).

Exposure-response relationship.

NSCLC.

In exploratory PK-adverse event analyses, higher exposure to nintedanib tended to be associated with liver enzyme elevations, but not with gastrointestinal adverse events.
PK-efficacy analyses were not performed for clinical endpoints. Logistic regression revealed a statistically significant association between nintedanib exposure and DCE-MRI response.

IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD.

Exposure-response analyses of patients with IPF, other chronic fibrosing ILDs with a progressive phenotype, and SSc-ILD indicated an E_max-like relationship between exposure and the annual rate of decline in FVC with an EC₅₀ of around 3 nanogram/mL (relative standard error: around 55%). For comparison, median observed nintedanib trough concentrations for 150 mg bid Ofev were about 10 nanogram/mL.
With respect to safety, there seemed to be a weak relationship between nintedanib plasma exposure and ALT and/or AST elevations. Actual administered dose might be the better predictor for the risk of developing diarrhoea of any intensity, even if plasma exposure as risk determining factor could not be ruled out (see Section 4.4 Special Warnings and Precautions for Use).

Intrinsic and extrinsic factors; special populations.

The PK properties of nintedanib were similar in healthy volunteers, patients with IPF, patients with other chronic fibrosing ILDs with a progressive phenotype, patients with SSc-ILD and cancer patients. Based on results of population PK analyses and descriptive investigations, exposure to nintedanib was not influenced by gender (body weight corrected), mild and moderate renal impairment (estimated by creatinine clearance), liver metastases, ECOG performance score, alcohol consumption, or P-gp genotype. Population PK analyses indicated moderate effects on exposure to nintedanib depending on the intrinsic and extrinsic factors age, body weight, and race which are described in the following. Based on the high inter-individual variability of exposure observed in the clinical trials these effects are not considered clinically relevant (see Section 4.4 Special Warnings and Precautions for Use).
Age. Exposure to nintedanib increased linearly with age. AUC_T,ss decreased by 16% for a 45-year old patient (5^th percentile) and increased by 13% for a 76-year old patient (95^th percentile) relative to a patient with the median age of 62 years. The age range covered by the analysis was 29 to 85 years; approximately 5% of the population was older than 75 years.

Paediatric population.

The safety and efficacy of Ofev in the paediatric population has not been established.
Body weight. An inverse correlation between bodyweight and exposure to nintedanib was observed. AUC_T,ss increased by 25% for a 50 kg patient (5^th percentile) and decreased by 19% for a 100 kg patient (95^th percentile) relative to a patient with the median weight of 71.5 kg.
Race. The population mean exposure to nintedanib was 33 - 50% higher in Chinese, Taiwanese, and Indian patients and 16% higher in Japanese patients while it was 16 - 22% lower in Koreans compared to Caucasians (body weight corrected).
Data from black individuals was very limited but in the same range as for Caucasians.
Hepatic impairment in adults. In a dedicated single dose phase I study and compared to healthy subjects, exposure to nintedanib based on C_max and AUC was 2.2-fold higher in volunteers with mild hepatic impairment (Child Pugh A; 90% CI: 1.3 - 3.7 for C_max and 1.2 - 3.8 for AUC, respectively). In volunteers with moderate hepatic impairment (Child Pugh B), exposure was 7.6-fold higher based on C_max (90% CI: 4.4 - 13.2) and 8.7-fold higher (90% CI: 5.7 - 13.1) based on AUC, respectively, compared to healthy volunteers. Subjects with severe hepatic impairment (Child Pugh C) have not been studied.
Concomitant treatment with pirfenidone.

IPF.

In a dedicated pharmacokinetic study, concomitant treatment of Ofev with pirfenidone was investigated in patients with IPF. Group 1 received a single dose of 150 mg Ofev before and after up-titration to 801 mg pirfenidone three times a day at steady state. Group 2 received steady state treatment of 801 mg pirfenidone three times a day and had a PK profiling before and after at least 7 days of co-treatment with 150 mg Ofev twice daily. In group 1, the adjusted geometric mean ratios (90% confidence interval (CI)) were 93% (57% - 151%) and 96% (70% - 131%) for C_max and AUC_0-tz of nintedanib, respectively (N = 12). In group 2, the adjusted geometric mean ratios (90% CI) were 97% (86% - 110%) and 95% (86% - 106%) for C_max,ss and AUC_T,ss of pirfenidone, respectively (N = 12).
Due to the wide confidence intervals of the PK parameters, statistically a pharmacokinetic drug-drug interaction cannot be ruled out but there is no evidence of a relevant pharmacokinetic drug-drug interaction between nintedanib and pirfenidone when administered in combination.
Concomitant treatment with bosentan. In a dedicated pharmacokinetic study, concomitant treatment of Ofev with bosentan was investigated in healthy volunteers. Subjects received a single dose of 150 mg Ofev before and after multiple dosing of 125 mg bosentan twice daily at steady state. The adjusted geometric mean ratios (90% confidence interval (CI)) were 103% (86% - 124%) and 99% (91% - 107%) for C_max and AUC_0-tz of nintedanib, respectively (n = 13), indicating that co-administration of nintedanib with bosentan did not alter the pharmacokinetics of nintedanib.
Concomitant treatment with oral hormonal contraceptives. In a dedicated pharmacokinetic study, 15 female patients with SSc-ILD received a single dose of a combination of 30 microgram ethinylestradiol and 150 microgram levonorgestrel before and after twice daily dosing of 150 mg nintedanib for at least 10 days. The adjusted geometric mean ratios (90% confidence interval (CI)) were 117% (108% - 127%; C_max) and 101% (93% - 111%; AUC_0-tz) for ethinylestradiol and 101% (90% - 113%; C_max) and 96% (91% - 102%; AUC_0-tz) for levonorgestrel, respectively, indicating that co-administration of nintedanib has no relevant effect on the plasma exposure of ethinylestradiol and levonorgestrel.

Drug-drug interaction potential.

Metabolism.

Drug-drug interactions between nintedanib and CYP substrates, CYP inhibitors, or CYP inducers are not expected, since nintedanib, BIBF 1202, and BIBF 1202 glucuronide did not inhibit or induce CYP enzymes preclinically nor was nintedanib metabolised by CYP enzymes to a relevant extent.

Transporters.

Nintedanib is a substrate of P-gp. For the interaction potential of nintedanib with this transporter, see Section 4.5 Interactions with Other Medicines and Other Forms of Interactions. Nintedanib was shown not to be a substrate or inhibitor of OATP-1B1, OATP-1B3, OATP-2B1, OCT-2 or MRP-2 in vitro. Nintedanib was also not a substrate of BCRP. Only a weak inhibitory potential on OCT-1, BCRP, and P-gp was observed in vitro which is considered to be of low clinical relevance. In vitro studies also showed that nintedanib was a substrate of OCT-1, which is of low clinical relevance.

5.3 Preclinical Safety Data

Genotoxicity.

Nintedanib was not genotoxic in the bacterial reverse mutation assay, in vitro mouse lymphoma cell forward mutation assay, and in vivo rat micronucleus assay.

Carcinogenicity.

There was no evidence of carcinogenicity in a 103-week study in mice at oral doses of nintedanib up to 30 mg/kg/day, or in a 104-week study in rats at oral doses up to 10 mg/kg/day, resulting in approximately 2.5 and 0.15 times the human exposure (AUC) at the maximum recommended human dose (MRHD) of 200 mg twice daily, respectively.

6 Pharmaceutical Particulars

6.1 List of Excipients

Each Ofev capsule also contains medium chain triglycerides, hard fat and lecithin.
The capsule shell contains gelatin, glycerol 85%, titanium dioxide, iron oxide red (CI 77491), iron oxide yellow (CI 77492).

6.2 Incompatibilities

Incompatibilities were either not assessed or not identified as part of the registration of this medicine.

6.3 Shelf Life

In Australia, information on the shelf life can be found on the public summary of the Australian Register of Therapeutic Goods (ARTG). The expiry date can be found on the packaging.

6.4 Special Precautions for Storage

Store below 25°C. Store in the original package in order to protect from moisture.

6.5 Nature and Contents of Container

Ofev 100 mg capsules are packaged in aluminium/aluminium blisters containing 10 capsules per blister. Ofev 100 mg are supplied in packs of 60 capsules.
Ofev 150 mg capsules are packaged in aluminium/aluminium blisters containing 10 capsules per blister. Ofev 150 mg are supplied in packs of 60 capsules.

6.6 Special Precautions for Disposal

In Australia, any unused medicine or waste material should be disposed of by taking to your local pharmacy.

6.7 Physicochemical Properties

Nintedanib esilate is a bright yellow powder. The octanol-water partition coefficient (log P_ow) for nintedanib esilate free base was determined to be 3.6, which demonstrates the lipophilic character of the molecule. Due to the ionisable groups in nintedanib esilate, the lipophilicity profile is strongly pH dependent. At physiological pH (pH = 7.4), the apparent partition coefficient (log D) was calculated to 3.0. The molecule is less lipophilic in the acidic pH range (log D ≤ 1 for pH < 5).
Nintedanib esilate is soluble in water. A saturated solution in water was found to have a concentration of 2.8 mg/mL and exhibited an intrinsic pH of 5.7. The solubility of nintedanib esilate is strongly pH dependent with an increased solubility at acidic pH, particularly for pH < 3. The highest solubility of nintedanib esilate in organic solvents is observed in methanol and N-methylpyrrolidone. The best solubility in pharmaceutically relevant co-solvents is observed in propylene glycol.

Chemical structure.

Chemical name: 1H-Indole-6-carboxylic acid, 2,3-dihydro-3-[[[4-[methyl[-(4-methyl-1-piperazinyl) acetyl]amino]phenyl]amino] phenylmethylene]-2-oxo-, methyl ester, (3Z)-, ethanesulfonate (1:1).
Molecular formula: C₃₁H₃₃N₅O₄.C₂H₆O₃S.
Molecular weight: 649.76.
Structural formula:

CAS number.

656247-18-6.

7 Medicine Schedule (Poisons Standard)

S4 - Prescription Only Medicine.

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Ofev

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Ofev 100 mg Capsules

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