Consumer medicine information

Thymoglobuline

Antithymocyte globulin (rabbit)

BRAND INFORMATION

Brand name

Thymoglobuline

Active ingredient

Antithymocyte globulin (rabbit)

Schedule

SUMMARY CMI

Thymoglobuline^®

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 Thymoglobuline?

Thymoglobuline contains the active ingredient rabbit anti-human thymocyte immunoglobulin. Thymoglobuline is used to treat and prevent kidney transplant rejection and to treat aplastic anaemia.

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

2. What should I know before I use Thymoglobuline?

Do not use if you have ever had an allergic reaction to Thymoglobuline 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 use Thymoglobuline? in the full CMI.

3. What if I am taking other medicines?

Some medicines may interfere with Thymoglobuline 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 use Thymoglobuline?

Thymoglobuline will be given by a drip directly into one of your veins (intravenous infusion) in hospital by a doctor or nurse.
The infusion will last about 6 hours for the first dose and 4 hours for doses after that.

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

5. What should I know while using Thymoglobuline?

Things you must do	Keep follow-up appointments with your doctor or clinic. Have any blood tests when your doctor says to. Your doctor may wish to test your body's response to Thymoglobuline to make sure that the medicine is working properly.
Driving or using machines	Thymoglobuline should not normally interfere with your ability to drive or operate machinery but make sure you know how Thymoglobuline affects you before you drive a car, operate machinery, or do anything that may be dangerous if you are dizzy, lightheaded, tired or drowsy.
Drinking alcohol	Tell your doctor that you drink alcohol
Looking after your medicine	Thymoglobuline is stored in the pharmacy or on the hospital ward and kept in the refrigerator, between 2°C and 8°C.

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

6. Are there any side effects?

Common side effects: generally feeling unwell, headaches soreness, aching muscles, muscle tenderness or weakness (not caused by exercise), nausea and vomiting, fever or chills, diarrhoea, dizziness or light-headedness, flushing or redness of the skin, Infections.

Serious side effects: shortness of breath, wheezing or difficulty breathing, swelling of the face, lips, tongue or other parts of the body, local reaction around the infusion site such as redness, itchiness, tenderness, pain, discomfort, warmth, burning or stinging, swelling or the formation of hard lumps or scars.

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

Thymoglobuline^®

Active ingredient(s): rabbit anti-human thymocyte immunoglobulin

Consumer Medicine Information (CMI)

This leaflet provides important information about using Thymoglobuline. 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 Thymoglobuline.

Where to find information in this leaflet:

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

1. Why am I using Thymoglobuline?

Thymoglobuline contains the active ingredient rabbit anti-human thymocyte immunoglobulin. Thymoglobuline is an immunosuppressant or an anti-rejection medicine. It helps to suppress your immune system so that it does not attack healthy cells or tissues by mistake.

Thymoglobuline is used to treat and prevent kidney transplant rejection, and to treat aplastic anaemia.

Thymoglobuline works by lowering certain cells within your body's immune system which are likely to attack your transplanted organ or your bone marrow cells.

2. What should I know before I use Thymoglobuline?

Warnings

Do not use Thymoglobuline if:

you are allergic to rabbit anti-human thymocyte immunoglobulin, other rabbit proteins, or any of the ingredients listed at the end of this leaflet.
you have an active or chronic infection.

Check with your doctor if you:

have any other medical conditions such as blood/bleeding related problems not related to aplastic anaemia, lowered immunity due to diseases such as HIV/AIDS or cancer.
take any medicines for any other condition.

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

Check with your doctor if you are pregnant or intend to become pregnant. Thymoglobuline is not recommended for use during pregnancy.

Talk to your doctor if you are breastfeeding or intend to breastfeed. It is not known whether Thymoglobuline passes into breastmilk. Breastfeeding is not recommended whilst receiving Thymoglobuline treatment.

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 may interfere with Thymoglobuline and affect how it works.

This is because some medicines can affect the way Thymoglobuline works or Thymoglobuline can affect how other medicines work. These include medicines which suppress your body's immune system such as: cyclosporin, tacrolimus, mycophenolate mofetil, azathioprine, and corticosteroids.

Taking these medicines in combination with Thymoglobuline may increase the risk of over-suppressing your body's immune system. You may need different amounts of these medicines, or you may need to take different medicines. Your doctor will determine which medicines and calculate the doses most suitable for you.

You may receive some of the medicines in the list above as part of your ongoing treatment after your kidney transplant.

Talk to your doctor before getting vaccinations while you are receiving Thymoglobuline.

Check with your doctor or pharmacist if you are not sure about what medicines, vitamins or supplements you are taking and if these affect Thymoglobuline.

4. How do I use Thymoglobuline?

How much to take / use

For organ transplant: the amount of Thymoglobuline you receive will depend upon the organ you have received, your weight and whether you are taking other immunosuppressant medicine. Your doctor will calculate the dose most suitable for you.
For aplastic anaemia: the amount of Thymoglobuline you receive will depend upon your weight and other medications you may be taking for your condition(s). Your doctor will calculate the dose most suitable for you.

When to take / use Thymoglobuline

Thymoglobuline will be given by a drip directly into one of your veins (intravenous infusion) in hospital by a doctor or nurse.
The infusion will last about 6 hours for the first dose and 4 hours for doses after that.
For organ transplant: 3 to 9 days after transplantation to prevent rejection, or 7 to 14 days after transplantation to treat rejection.
For aplastic anaemia: daily infusion for 5 days to treat aplastic anaemia.
Approximately an hour before receiving Thymoglobuline, you may be given some medications such as an antihistamine, a corticosteroid and anti-pyretic (anti-fever) medicine. This will help reduce your chance of developing certain adverse reactions to Thymoglobuline.

If you receive too much Thymoglobuline

As Thymoglobuline is given to you under the supervision of your doctor, it is very unlikely that you will receive too much. However, if you experience any unexpected or worrying side effects after being given Thymoglobuline 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 Thymoglobuline?

Things you must do

Keep follow-up appointments with your doctor or clinic.
Have any blood tests when your doctor says to. Your doctor may wish to test your body's response to Thymoglobuline to make sure that the medicine is working properly.

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

Driving or using machines

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

Thymoglobuline should not normally interfere with your ability to drive or operate machinery but make sure you know how Thymoglobuline affects you before you drive a car, operate machinery, or do anything that may be dangerous if you are dizzy, lightheaded, tired or drowsy.

Drinking alcohol

Tell your doctor if you drink alcohol.

Looking after your medicine

Thymoglobuline is stored in the pharmacy or on the hospital ward and kept in the refrigerator, between 2°C and 8°C.

Thymoglobuline should not be frozen.

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.

Sometimes the effects of Thymoglobuline may not occur until months after it is used. These delayed effects may include an increased risk of infections.

Less serious side effects

Less serious side effects	What to do
Generally feeling unwell Headaches Soreness, aching muscles, muscle tenderness or weakness (not caused by exercise) Nausea and vomiting Fever or chills Diarrhoea Dizziness or light-headedness Flushing or redness of the skin Infections	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
Shortness of breath, wheezing or difficulty breathing Swelling of the face, lips, tongue or other parts of the body Local reaction around the infusion site such as redness, itchiness, tenderness, pain, discomfort, warmth, burning or stinging, swelling or the formation of hard lumps or scars	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 effects 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 Thymoglobuline contains

Active ingredient (main ingredient)	Rabbit anti-human thymocyte immunoglobulin
Other ingredients (inactive ingredients)	Glycine Sodium chloride Mannitol

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

What Thymoglobuline looks like

Thymoglobuline is a creamy white freeze-dried powder supplied in a 10 ml glass vial (AUST R 139787).

Who distributes Thymoglobuline

sanofi-aventis australia pty ltd
12-24 Talavera Road
Macquarie Park NSW 2113
Freecall: 1800 818 806
Email: [email protected]

This leaflet was prepared in July 2024.

Published by MIMS September 2024

BRAND INFORMATION

Brand name

Thymoglobuline

Active ingredient

Antithymocyte globulin (rabbit)

Schedule

1 Name of Medicine

Antithymocyte globulin (rabbit), rATG.

2 Qualitative and Quantitative Composition

Each vial contains rabbit antithymocyte immunoglobulin (rATG) 25 mg.
Solution reconstituted with 5 mL water for injection contains a nominal rabbit anti-human thymocyte immunoglobulin (rATG) concentration of 5 mg/mL. The reconstituted solution must be diluted with 0.9% sodium chloride injection (USP/EP) or 5% glucose solution prior to intravenous administration.
For the full list of excipients, see Section 6.1 List of Excipients.

3 Pharmaceutical Form

Powder for solution for infusion.
Thymoglobuline is a sterile creamy white lyophilised powder.

4 Clinical Particulars

4.1 Therapeutic Indications

Thymoglobuline (rabbit antihuman thymocyte immunoglobulin) is indicated for the prophylaxis of graft rejection in renal transplantation; treatment of steroid resistant or moderate to severe renal transplant rejection; and treatment of refractory or relapsing aplastic anaemia.

4.2 Dose and Method of Administration

Preparation and administration instructions: use aseptic techniques.

Thymoglobuline must always be used under strict medical supervision and prescribed by physicians with experience in using immunosuppressive agents. The dosage depends on the indication, the administration regimen and the combination with other immunosuppressive agents. The following dosage may be used as a reference. Treatment can be discontinued without gradual tapering of the dose.
The recommended route of administration is intravenous infusion using a high flow vein; however, it may be administered through a peripheral vein. When Thymoglobuline is administered through a peripheral vein, concomitant use of heparin and hydrocortisone in an infusion solution of 0.9% sodium chloride may minimise the potential for superficial thrombophlebitis and deep vein thrombosis. The combination of Thymoglobuline, heparin and hydrocortisone in a dextrose infusion solution has been noted to precipitate and is not recommended (see Section 4.5 Interactions with Other Medicines and Other Forms of Interactions).
Administration of antiviral prophylactic therapy is recommended. Premedication with corticosteroids, antipyretic agents and/or antihistamine 1 hour prior to the infusion is recommended and may reduce the incidence and intensity of side effects during the infusion. (See Section 4.4 Special Warnings and Precautions for Use, General.) Medical personnel should monitor patients for adverse events during and after infusion. Monitoring T cell counts (absolute and/or subsets) to assess the level of T cell depletion is recommended. Total white blood cell and platelet counts should be monitored.

Renal transplantation.

Prophylaxis of graft rejection in renal transplantation.

1 to 1.5 mg/kg/day for 3 to 9 days after transplantation corresponding to a cumulative dose of 3 to 13.5 mg/kg.

Treatment of steroid resistant or moderate to severe renal transplant rejection.

1.5 mg/kg/day for 7 to 14 days after transplantation of a kidney, corresponding to a cumulative dose of 10.5 to 21 mg/kg.
Dose modifications.

Obese patients.

For obese patients dosing should be based on ideal weight rather than actual weight.

Paediatric and elderly patients.

The dosage recommendations in the paediatric population (infants, children and adolescents) and elderly patients are the same as for adults.

Renal and hepatic impairment.

In view of the PK and metabolism no dose adjustment is necessary in patients with hepatic and/or renal impairment.

Aplastic anaemia.

Treatment of relapsing or refractory aplastic anaemia.

2.5 to 3.75 mg/kg/day for 5 consecutive days, corresponding to a cumulative dose of 12.5 to 18.75 mg/kg.
Dose modifications.

Paediatric and elderly patients.

The dosage recommendations in the paediatric population (infants, children and adolescents) and elderly patients are the same as for adults.

Renal and hepatic impairment.

In view of the PK and metabolism no dose adjustment is necessary in patients with hepatic and/or renal impairment.

Preparation and administration instructions: use aseptic technique.

Thymoglobuline is usually administered in the context of a therapeutic regimen combining multiple immunosuppressive agents. It is recommended to administer premedication with intravenous corticosteroids and antihistamines prior to infusion of rabbit antihuman thymocyte immunoglobulin. Antipyretic agents (e.g. paracetamol) may also increase the tolerability of the initial infusion.
Thymoglobuline is for intravenous infusion, is supplied as a sterile lyophilised powder for injection. Each Thymoglobuline vial is intended for single use administration only. The nominal content of the 10 mL vial is 25 mg of the active substance rabbit antihuman thymocyte immunoglobulin.
A volume of 5 mL water for injection is required to reconstitute the finalised product in the 10 mL vial to give a nominal rabbit antihuman thymocyte immunoglobulin concentration of 5 mg/mL. The reconstituted Thymoglobuline solution is further diluted with 0.9% sodium chloride injection (USP/EP) or 5% glucose solution prior to intravenous administration.
1. Determine the number of vials to be reconstituted based on the individual patient's weight and the recommended dose.
Remove the required number of vials from the refrigerator and allow them to reach room temperature prior to reconstitution (approximately 30 minutes).
2. Reconstitute each vial by slowly injecting 5 mL of sterile water for injection to the inside wall of each vial. Each reconstituted vial will yield 5 mg/mL or 25 mg of Thymoglobuline. Avoid forceful impact of the water for injection on the powder and avoid foaming. This is done by slow drop wise addition of the water for injection down the inside of the vial and not directly onto the lyophilised cake. Tilt and roll each vial gently. Do not invert, swirl or shake.
3. Perform an immediate visual inspection on the reconstituted vials for particulate matter and discolouration. The solution is clear or slightly opalescent. Inspect solution for particulate matter after reconstitution. Should some particulate matter remain, continue to gently rotate the vial until no particulate matter remains. If upon inspection particulate matter remains or if the solution is discoloured do not use.
4. Withdraw the calculated volume of Thymoglobuline from the appropriate number of vials and transfer the contents of the calculated number of Thymoglobuline vials into the bag of infusion solution (0.9% sodium chloride or 5% glucose solution). Recommended volume: per 1 vial of Thymoglobuline use 50 mL of infusion solution (total volume usually between 50 to 500 mL).
5. Gently invert or massage the infusion bag to mix. Do not shake. To reduce microbial hazard, use as soon as practicable after dilution. If storage is necessary, hold at 2°C-8°C for no more than 24 hours. Protect from light.
6. Set the flow rate to deliver the dose over a minimum of 6 hours for the first dose and over at least 4 hours for subsequent doses.
To minimise inadvertent administration of particulate matter from reconstitution it is recommended that Thymoglobuline is administrated through a 0.22 micrometre in-line filter. Thymoglobuline should not be infused in the same intravenous line with other products.
Infuse slowly into a high-flow vein; Thymoglobuline may also be administered through a peripheral vein (see Section 4.2 Dose and Method of Administration, Preparation and administration instructions: use aseptic techniques). Adjust the infusion rate so that the total duration of infusion is not less than 4 hours. See Section 4.4 Special Warnings and Precautions for Use; Section 4.8 Adverse Effects (Undesirable Effects) for advice about the management of any adverse events associated with infusion.

4.3 Contraindications

Thymoglobuline is contraindicated in patients with hypersensitivity to rabbit proteins or to any of the excipients listed (see Section 6.1).
Thymoglobuline is also contraindicated for patients with acute or chronic infections, which would contraindicate any additional immunosuppression.

4.4 Special Warnings and Precautions for Use

General.

Appropriate dosing for Thymoglobuline is different from dosing for other antithymocyte globulin (ATG) products, as protein composition and concentrations vary depending on the source of ATG used. Physicians should therefore exercise care to ensure that the dose prescribed is appropriate for the ATG product being administered.
Thymoglobuline should be used under strict medical supervision in a hospital setting. Patients should be carefully monitored during the infusion. Infusion associated reactions (IARs) may occur following administration of Thymoglobuline and may occur as soon as the first or second infusion during a single course of Thymoglobuline treatment. Close compliance with the recommended dosage and infusion time may reduce the incidence and severity of IARs. Additionally, reducing the infusion rate may minimise many of these IARs. Premedication with antipyretics, corticosteroids and/or antihistamines may decrease both the incidence and severity of these adverse reactions. Rapid infusion rates have been associated with case reports consistent with cytokine release syndrome. In rare instances, severe cytokine release syndrome can be fatal.

Immune mediated reactions.

In rare instances, serious immune mediated reactions have been reported with the use of Thymoglobuline and consist of anaphylaxis or severe cytokine release syndrome. Very rarely, fatal anaphylaxis has been reported (see Section 4.8 Adverse Effects (Undesirable Effects)). If an anaphylactic reaction occurs, the infusion should be terminated immediately and appropriate emergency treatment should be initiated. Any further administration of Thymoglobuline to a patient who has had a history of anaphylaxis to Thymoglobuline is not recommended.
Severe, acute IARs are consistent with cytokine release syndrome which is attributed to the release of cytokines by activated monocytes and lymphocytes. In rare instances, these reported reactions are associated with serious cardiorespiratory events and/or death (see Section 4.4 Special Warnings and Precautions for Use; Section 4.8 Adverse Effects (Undesirable Effects)).

Infection.

Thymoglobuline is routinely used in combination with other immunosuppressive agents. Infections (bacterial, fungal, viral and protozoal), reactivation of infection (particularly CMV) and sepsis have been reported after Thymoglobuline administration in combination with multiple immunosuppressive agents. In rare cases these infections have been fatal. Careful patient monitoring and appropriate anti-infective prophylaxis are recommended.

Haematological effects.

Thrombocytopenia and/or leukopenia (including lymphopenia and neutropenia) have been identified and are reversible following dose adjustments. When thrombocytopenia and/or leukopenia are not part of the underlying disease or associated with the condition for which Thymoglobuline is being administered, the following dose reductions are suggested.
A reduction in dosage must be considered if the platelet count is between 50,000 and 75,000 cells/mm³ or if the white cell count is between 2,000 and 3,000 cells/mm³.
Stopping Thymoglobuline treatment should be considered if persistent and severe thrombocytopenia (< 50,000 cells/mm³) occurs or leukopenia (< 2,000 cells/mm³) develops.
White blood cell and platelet counts should be monitored during and after Thymoglobuline therapy.

Malignancy.

Use of immunosuppressive agents, including Thymoglobuline, may increase the incidence of malignancies including lymphoma or lymphoproliferative disorders (which may be virally mediated). These events have sometimes been associated with fatal outcome, lymphoma or post-transplant lymphoproliferative disease (PTLD) (see Section 4.8 Adverse Effects (Undesirable Effects)).

Immunisations.

The safety of immunisation with attenuated live vaccines following Thymoglobuline therapy has not been studied; therefore, immunisation with attenuated live vaccines is not recommended for patients who have recently received Thymoglobuline.

Use in the elderly.

For renal transplantation, studies obtained from the literature did not include sufficient numbers of patients aged 65 and over to determine whether they respond differently from younger patients.
In the treatment of aplastic anaemia, a retrospective analysis by the European Bone Marrow Transplant demonstrated that ATG treatment in older patients was effective and maintains a positive benefit/ risk balance, though greater care should be taken in its administration and in the monitoring of the patients. The response rate was not significantly different in 664 patients < 60 and 127 patients > 60.

Paediatric use.

The safety and effectiveness of Thymoglobuline in paediatric patients has not been established in controlled trials. However, the dose, efficacy and adverse event profile are not thought to be different from adults based on limited clinical trials.

Effects on laboratory tests.

In the French postmarketing study (00PTF01) 240 patients were followed up daily for 2 weeks, on day 30 and at 1 year for routine biological tests, to make clinical assessment of patient and graft functioning and note any adverse events. Table 1 details the percentage of patients with haematological events.

The incidence of severe neutropenia was 2%, and that of severe thrombocytopenia was 3%. These haematological events led to reduction of Thymoglobuline dosage, discontinuation of Thymoglobuline or/and switch to Lymphoglobuline. Thymoglobuline dosage adaptation was carried out by monitoring of lymphocyte counts with consequent dosage adjustment. There were 12 patients (0.5%) who switched from Thymoglobuline to Lymphoglobuline. In half the cases, the reason for the switch was known and was mostly rash and/or fever. In most of the remaining 6 patients, there was either a neutropenia (< 1.5 x 10⁹/L) or a thrombocytopenia (< 80 x 10⁹/L) noted on the switch day or preceding day, which was likely to be the cause of the switch. Thymoglobuline has shown to have potential risk of transient alterations in various coagulation analyses.

4.5 Interactions with Other Medicines and Other Forms of Interactions

No drug interaction studies have been performed. Interactions with food and drink are unlikely.
Thymoglobuline has not been shown to interfere with any routine clinical laboratory tests which use immunoglobulins. Thymoglobuline may interfere with rabbit antibody based immunoassays and with cross match or panel reactive antibody cytotoxicity assays. Thymoglobuline may interfere with ELISA tests.

4.6 Fertility, Pregnancy and Lactation

Effects on fertility.

Studies to assess the effect on fertility of Thymoglobuline have not been conducted.
(Category C)
Thymoglobuline should not be used during pregnancy. It is not known whether Thymoglobuline can cause fetal harm or affect reproduction capacity.
Thymoglobuline has not been studied in labour or delivery.
Animal reproduction studies have not been conducted with Thymoglobuline. Drugs of this class are known to cross the foetoplacental barrier, and Thymoglobuline may cause immunosuppressive effects in the foetus, or other unknown effects.
Thymoglobuline has not been studied in nursing women. It is not known whether this drug is excreted in human milk. Because other immunoglobulins are excreted in human milk, breastfeeding should be discontinued during Thymoglobuline therapy.

4.7 Effects on Ability to Drive and Use Machines

Given the possible adverse events that can occur during the period of Thymoglobuline infusion, in particular cytokine release syndrome (CRS), it is recommended that patients should not drive or operate machinery during the course of Thymoglobuline therapy.

4.8 Adverse Effects (Undesirable Effects)

In the French postmarketing study (00PTF01) the number of patients suffering from adverse events associated with Thymoglobuline administration is thought to be related to its use. All such adverse reactions were transient, resolved spontaneously and had no clinical consequences. These IARs given in Table 2 were assumed to be temporally related to the infusion or due to Thymoglobuline administration unless another cause was given by the investigator.
From the phase III US study (n = 163) there were no clinical significant differences between the safety profiles of Thymoglobuline compared to Atgam for the treatment of acute rejection episodes after kidney transplantation. Thymoglobuline adverse events were in general more manageable or reversible compared to Atgam. During the 1 year follow-up both groups reported 3 malignancies each and included two PTLDs for each treatment group. The results are summarised in Table 3.
Infections occurring in both treatment groups during the 3 month follow-up are summarised in Table 4. No significant differences were seen between the Thymoglobuline and Atgam treatment groups for all types of infections and the incidence of CMV infection was also equivalent in both groups. (Viral prophylaxis was by the centre's discretion during antibody treatment, but all centres used ganciclovir infusion during treatment.)

Immunogenicity.

It is expected that the introduction of a xenoprotein, such as Thymoglobuline will induce an immune response, even in the immunosuppressed patient. A study was conducted by Regan to quantify the degree of sensitisation following Thymoglobuline therapy. Serum samples were obtained from 163 patients participating in a multicentre double blind randomised phase III trial comparing Thymoglobuline and Atgam where 80 of the patients received Thymoglobuline in the treatment of biopsy proven acute rejection of a first or second renal allograft. Antibodies were detected in 68% of the patients treated with Thymoglobuline. It is reported that of the 9 patients for whom full time course serum samples were available and developed a specific antibody response, seven developed a response by day 7 and the remaining 2 at the next time point.

Adverse events due to immunosuppression.

Infections, reactivation of infection, febrile neutropenia and sepsis have been reported after Thymoglobuline administration in combination with multiple immunosuppressive agents. In rare cases, these infections have been fatal (see Section 4.4 Special Warnings and Precautions for Use). In rare instances, malignancies including but not limited to lymphoproliferative and other lymphomas (which may be virally mediated) as well as solid tumours have been reported. These events have sometimes been associated with fatal outcome (see Section 4.4 Special Warnings and Precautions for Use). These adverse events were always associated with a combination of multiple immunosuppressive agents.

Postmarketing experience.

Infections and infestations.

Infections (including reactivation of infections), sepsis.

Neoplasms benign, malignant and unspecified.

Lymphomas (which may be virally mediated), lymphoproliferative disorder, neoplasms malignant (solid tumours).

Blood and lymphatic system disorders.

Coagulopathy, febrile neutropenia, disseminated intravascular coagulopathy.

Immune system disorder.

Cytokine release syndrome (CRS), postmarketing reports of severe CRS have been associated with cardiorespiratory dysfunction (including hypotension, acute respiratory distress syndrome, pulmonary oedema, myocardial infarction, tachycardia and/or death).
Anaphylactic reactions (including very rare instances of fatal anaphylactic reactions).
Serum sickness, including reactions such as fever, rash, urticaria, arthralgia and/or myalgia. Serum sickness tends to occur 5-15 days after onset of Thymoglobuline therapy. Symptoms are usually self-limited or resolve rapidly with corticosteroid treatment.

Hepatobiliary disorders.

Transaminases increased, transient reversible elevations in transaminases without any clinical signs or symptoms have also been reported during Thymoglobuline administration. Hepatocellular injury, hepatotoxicity, hepatic failure.

General disorders and administration site conditions.

Infusion associated reactions (IARs), clinical manifestations of IARs have included some of the following signs and symptoms: fever, chills/ rigors, dyspnoea, nausea/ vomiting, diarrhoea, hypotension or hypertension, malaise, rash, urticarial, decreased oxygen saturation and/or headache.

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 www.tga.gov.au/reporting-problems.

4.9 Overdose

Inadvertent overdoses of Thymoglobuline may induce leucopoenia (including lymphopenia and neutropenia) and thrombocytopenia.
For information on the management of overdose, contact the Poisons Information Centre on 13 11 26 (Australia).

5 Pharmacological Properties

5.1 Pharmacodynamic Properties

Pharmacotherapeutic group: immunosuppressive agents, ATC code: L04AA04.

Mechanism of action.

Rabbit antihuman thymocyte immunoglobulin is an immunosuppressive agent (mostly acting on T lymphocytes). Lymphocyte depletion probably constitutes the primary mechanism of the immunosuppression induced by rabbit antihuman thymocyte immunoglobulin. This depletion is both peripheral and central; peripheral lymphocyte depletion can be detected as early as 24 hours after the first infusion. Lymphocyte counts generally start to rise as soon as Thymoglobuline is discontinued.
Lymphocyte depletion was shown to occur in vitro by a number of different mechanisms (e.g. apoptosis, complement dependent lysis and antibody dependent cytotoxicity). In vivo apoptosis of lymph node lymphocytes was observed in monkeys treated with Thymoglobuline.
In addition to the T cell depletion, Thymoglobuline also has effects on dendritic cells (causing apoptosis) and on B and NK cells. Antiproliferative activity against B cells and certain lymphoblastoid cell lines has also been demonstrated in vitro. This effect may be partially protective against the development of post-transplant lymphoproliferative disease (PTLD).
Thymoglobuline also has activity against a number of cell surface epitopes (e.g. CD3, CD7, CD8, CD20, CD32 and CD28), binding to them and causing down modulation. The epitopes targeted include those involved in the immune response, in apoptosis and in signal transduction, and include epitopes for many haematopoietic cell types. In particular, Thymoglobuline has activity against both leucocyte and endothelial cell adhesion molecules (e.g. CD11a, CD18, CD44, CD54 and LPAM 1) which in animal studies has shown to reduce tethering of leucocytes to the endothelium.
Effector cells are thus unable to migrate through the endothelium to the graft. This effect may also, in theory, reduce ischaemia/ reperfusion injury by allowing better flow through the microcirculation. The combination of T depletion and down modulation of adhesion molecules results in interference with multiple pathways by which rejection occurs.
The exact mechanism of action of ATGs in the treatment of aplastic anaemia is unknown. Aplastic anaemia is caused by an autoimmune process resulting in destruction of trilineage cells in the bone marrow, but sparing some CD34+ stem cells. If the autoimmune process can be halted, the stem cells can regenerate all three blood lineages. The mechanism of action of Thymoglobuline may be through depleting T cells and by preventing their activation as well as by eliminating clonal expansion of cytotoxic T cells in patients with aplastic anaemia.

Clinical trials.

Renal transplantation.

Prophylaxis of graft rejection in renal transplantation.

US phase II study: prophylaxis.

The safety and efficacy of Thymoglobuline for the prophylaxis of acute organ rejection in adult patients receiving their first kidney transplant was assessed in a randomised, prospective, controlled single centre trial. The comparator was an approved lymphocyte immune globulin antithymocyte globulin (equine). 72 consecutive patients were enrolled in the trial and randomised 2:1 to receive, in addition to standard maintenance immunosuppressive therapy (with cyclosporine, azathioprine or mycophenolate mofetil, and steroids), Thymoglobuline (n = 48) 1.5 mg/kg/day or Atgam (n = 24) 15 mg/kg/day.
Patient demographics and concomitant immunosuppressive use were not statistically significant between the two groups. The first dose of Thymoglobuline was administered intravenously (IV) during the transplant surgery and then once daily IV during the following 6 days for a total of 7 days of therapy. Patients were observed for at least 1 year of follow-up with a mean follow-up of 17.2 months (range 12-23 months). Endpoints were the incidence and severity of rejection, cytomegalovirus (CMV) disease, serious adverse events, graft and patient survival, delayed graft function and length of stay of the initial hospitalisation. Based on intent to treat analysis of the data, the overall incidence of biopsy proven acute rejection in the Thymoglobuline group was 4% versus 25% in the Atgam group (p = 0.014) at 1 year. Event free survival at one year, defined as no rejection, no death and no graft loss, was achieved by 94% of Thymoglobuline patients as compared to 63% of Atgam patients (p = 0.0005).
The summary efficacy results from the comparator trials between Thymoglobuline and Atgam was found to be statistically significant with respect to the number of rejections, the number of steroid resistant rejections, and graft survival. A higher graft survival and lower rejection rate was seen in the Thymoglobuline treatment arm compared to patients treated with Atgam. The patient survival of 85% at 5 years in the Hardinger analysis is comparable to the data published for the EU population of 83.1-84.4% [European Renal Association Annual Report 2002]. When combined with equivalent triple immunosuppression therapies, no statistically significant difference was seen in the primary endpoints between Thymoglobuline and the other 3 study drugs investigated: basiliximab, ATG-Fresenius and OKT3.
Patient survival at 12 months reported by Mourad and Lebranchu was comparable to levels reported for the EU population [European Renal Association Annual Report 2002]. Patient survival at 5 years was reported by Hardinger et al. (2004) and again is comparable to the EU population and lower.
Treatment of steroid resistant or moderate to severe renal transplant rejection. A review of the published literature demonstrates the efficacy of Thymoglobuline for the treatment of rejection in renal transplantation.
4 pivotal studies were identified (Midtvedt 2003, Mariat 1998, Gaber 1998 and Alamartine 1994) all of which were comparator controlled. No controlled studies without a comparator were identified. Treatment for renal rejection endpoints included graft function (drop in serum creatinine levels), acute rejection episodes, graft survival and finally patient survival. Efficacy results from the 4 comparator controlled clinical trials are discussed. The most recent study from 1996 to 1999 (Midtvedt 2003) involved sensitised patients treated where no difference in efficacy was seen between Thymoglobuline and OKT3 on the basis of serum creatinine levels, graft failure, graft function and total deaths. The study included an analysis of T cell levels in patients before and after therapy and it is noted that the number of serum T cells was lower in the Thymoglobuline patients after treatment than in the OKT3 patients (p < 0.05). The format of the Mariat study (1998) was similar, although patients were treated at an early period (1992-1995).

US phase III study: acute renal graft rejection.

A controlled, double blind, multicentre, randomised clinical trial comparing Thymoglobuline and Atgam was conducted at 25 US transplant centres in renal transplant patients (n = 163) with steroid resistant grade I (mild), with biopsy proven Banff grade II (moderate) or grade III (severe). This clinical trial rejected the null hypothesis that Thymoglobuline was more than 20% less effective in reversing acute rejection than Atgam. The overall weighted estimate of the treatment difference (Thymoglobuline - Atgam success rate) was 11.1% with a lower 95% confidence bound of 0.07%. Therefore, Thymoglobuline was at least as effective as Atgam in reversing acute rejection episodes. In the study, patients were randomised to receive 7 to 14 days of Thymoglobuline (1.5 mg/kg/day) or Atgam (15 mg/kg/day). For the entire study, the two treatment groups were comparable with respect to donor and recipient characteristics.
During the trial, the FDA approved new maintenance immunosuppressive agents (tacrolimus and mycophenolate). Off protocol use of these agents occurred during the second half of the study in some patients without affecting the overall conclusions (Thymoglobuline 22/43, Atgam 20/37; p = 0.826). The results, however, are presented for the first and second halves of the study (Table 5). In Table 5, successful treatment is presented as those patients whose serum creatinine levels (14 days from the diagnosis of rejection) returned to baseline and whose graft was functioning on day 30 after the end of the therapy.

There were no significant differences between the two treatments with respect to (i) day 30 serum creatinine levels relative to baseline, (ii) improvement rate in post-treatment histology, (iii) one year postrejection Kaplan-Meier patient survival (Thymoglobuline 93%, n = 82 and Atgam 96%, n = 80), (iv) day 30 and (v) one year postrejection graft survival (Thymoglobuline 83%, n = 82; Atgam 75%, n = 80).
There was, however, a significant difference (p = 0.039) in recurrent rejection rate between the two treatment groups. In patients treated with Thymoglobuline there were 6 biopsy proven recurrent rejections versus 12 biopsy proven rejections in the Atgam group.
Thymoglobuline was reported by Alamartine (1994) as providing inferior graft survival than OKT3 (p = 0.05). Graft survival rates in the Thymoglobuline treatment arm in the study were poorer than those seen in the more recent study by Mariat (1998).

Treatment of refractory or relapsing aplastic anaemia.

The patient population studied in the Di Bona (1999) study was a group of patients with severe disease and a poor prognosis. Thirty adults and children (17 males, 13 females, median age 21 years, range 2-67 years), suffering from severe or very severe aplastic anaemia, who did not respond to a first course of equine ALG and remained transfusion dependent were studied. All the patients had been given the same initial therapy that consisted of Lymphoglobuline (same dose for all patients), cyclosporine and G-CSF, given over 90 days.
Thymoglobuline (3.5 mg/kg/day from day 1 to day 5) was combined with a standard dose of cyclosporine (5 mg/kg/day), and 24/30 patients received G-CSF (5 microgram/kg/day for 3 months). The response defined as transfusion independence, was achieved in 77% (23/30) patients, after a median time of 95 days. This response rate is quite remarkable, considering that these patients failed to respond to the first course of Lymphoglobuline. The response rate of patients to retreatment with Thymoglobuline was similar to the response rate of patients initially treated by Lymphoglobuline. The range of response time (14-377 days) was wide. Transfusion independence was observed in 90% of the patients in the first year after treatment. However, the blood cell count often remained subnormal. Only 30% of the patients (9/30) achieved a complete response after a median time of 61 days (range 14-196) defined by a neutrophil count ≥ 2.0 x 10⁹/L, haemoglobin ≥ 11 g/dL and platelets ≥ 100 x 10⁹/L. Fourteen other patients (47%) achieved a partial remission, and their response was significantly delayed, in comparison with complete responders occurring after a median period of 150 days (range 23-377 days, p = 0.04). Response was sustained in these patients. No relapses have been reported. However, at the last observation, only 30% (7/23) of the responders were not receiving any drug, after a mean period of 27 months (range 9-34 months) since the last transfusion. Most patients continued cyclosporine with or without tailored dosage of G-CSF. This long lasting treatment may explain the absence of relapses. The actuarial survival was 93%: 100% for responders and 71% for nonresponders, based on the median follow-up time of 2.5 years. This survival rate compares well with figures reported by Frickhofen (2003); the actuarial survival of all patients treated with Lymphoglobuline at 41 months was 64% when combined with cyclosporine.

5.2 Pharmacokinetic Properties

Following the first infusion of 1.25 mg/kg of Thymoglobuline (in kidney transplant recipients), total serum rabbit IgG levels of between 10 and 40 microgram/mL are obtained. The serum levels decline steadily until the following infusion with an estimated elimination half-life of 2-3 days. There has been shown to be a relationship between dose given and total Thymoglobuline levels.
The trough rabbit IgG levels increase progressively reaching 23 to 170 microgram/mL at the end of an 11 day course of treatment. A gradual decline is subsequently observed following discontinuation of treatment with rabbit antihuman thymocyte immunoglobulin. However, total rabbit IgG remains detectable in 81% of patients at 2 months. Active Thymoglobuline (that is IgG which is available to bind to human lymphocytes and which causes the desired immunological effects) has a less noticeable relationship with dose given, and disappears from the circulation faster, with only 12% of patients having detectable active Thymoglobuline levels at day 90.
The incidence of sensitisation to rabbit IgG peaked in approximately 70% of subjects, at days 21-30. However, in most cases, immunisation develops within the first 15 days of treatment initiation. Patients presenting with immunisation show a faster decline in total but not active rabbit IgG levels.
However, since there are many idiotypic specificities in the polyclonal antibody (pAb) preparation, the clinical relevance of these data is uncertain.

5.3 Preclinical Safety Data

Genotoxicity.

Studies to assess the mutagenic potential of Thymoglobuline have not been conducted.

Carcinogenicity.

Studies to assess the carcinogenic potential of Thymoglobuline have not been conducted.

6 Pharmaceutical Particulars

6.1 List of Excipients

Glycine 50 mg, mannitol 50 mg and sodium chloride 10 mg.

6.2 Incompatibilities

Based on a single compatibility study, the combination of Thymoglobuline, heparin and hydrocortisone in a dextrose infusion solution has been noted to precipitate and is not recommended. In the absence of additional pharmaceutical incompatibility data, Thymoglobuline should not be mixed with other medicinal products in the same infusion.

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 Thymoglobuline under refrigeration at 2°C-8°C. Do not freeze or shake. Do not use Thymoglobuline after the expiration date on the vial.
This product contains no preservatives. The diluted solution should be used immediately in order to prevent microbial contamination. If not used immediately, the diluted solution should be stored refrigerated at 2°C-8°C. Storage after dilution should not exceed 24 hours from the time of preparation to the completion of administration unless reconstitution or dilution has taken place in controlled and validated aseptic conditions.

6.5 Nature and Contents of Container

Supplied in a 10 mL Type 1 glass vial. The vials are closed with a siliconised stopper with Teflon coating on the non-product contact side and an aluminium seal with plastic flip off cap.

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

Thymoglobuline is a purified, pasteurised, gamma immune globulin obtained by immunisation of rabbits with human thymocyte suspensions derived from human paediatric thymus fragments that are surgical waste during cardiac surgery. The manufacture of Thymoglobuline involves a series of intricate processes. Gamma immune globulin or immunoglobulins are heavy plasma proteins, often with added sugar chains on N-terminal. The variable regions of the heavy and light chains may express sites for N-linked glycosylation. For normal polyclonal IgG ~ 10-20% of molecules bear N-linked oligosaccharides in variable region. In the SDS-polyacrylamide gel electrophoresis, under non-reducing condition the molecular weight of the bands obtained from Thymoglobuline were calculated to be about 155,000 Daltons. The basic unit of each antibody is a monomer. The monomer is a "Y"-shape molecule that consists of four polypeptide chains: two identical heavy chains and two identical light chains connected by disulfide bonds. Together this gives six to eight constant domains and four variable domains. Each half of the forked end of the "Y" is called a Fab fragment. It is composed of one constant and one variable domain of each the heavy and the light chain, which together shape the antigen binding site at the amino terminal end of the monomer. The two variable domains bind their specific antigens.

7 Medicine Schedule (Poisons Standard)

Prescription Only Medicine (Schedule 4).

Service Unavailable

Consumer medicine information

Thymoglobuline

Antithymocyte globulin (rabbit)

Keep track of your medicines

BRAND INFORMATION