Overdose has been reported during the use of Foscarnet Richet, the highest being some 20 times the recommended dose. Some of the cases were relative overdoses, in that the dose of drug used had not been promptly adjusted for a patient experiencing reduced renal function.
There are cases where it has been reported that no clinical sequelae were consequent on the overdose.
The pattern of adverse events reported in association with an overdose of Foscarnet Richet is in accordance with the known adverse event profile of the drug.
Haemodialysis increases Foscarnet Richet elimination and may be of benefit in relevant cases.
Foscarnet is not compatible with dextrose 30% solution, amphotericin B, aciclovir sodium, ganciclovir, pentamidine isethionate, trimethoprim-sulfamethoxazole and vancomycin hydrochloride. Neither is foscarnet compatible with solutions containing calcium. It is recommended that other drugs should not be infused concomitantly in the same line.
The majority of patients who receive Foscarnet Richet are severely immuno-compromised and suffering from serious viral infections. Patients' physical status, the severity of the underlying disease, other infections and concurrent therapies contribute to adverse events observed during use of Foscarnet Richet.
The undesirable effects reported with Foscarnet Richet during clinical trials and post-marketing surveillance are shown in the table below. They are listed by System-Organ Class (SOC) and in order of frequency, 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).
Please note that in these clinical trials, hydration and attention to electrolyte balance was not consistently given; the frequency of some adverse events will be lower when current recommendations are followed.
Table 2 Frequency of adverse events
| SOC | Frequency | Event |
| Blood and lymphatic system disorders | Very common | Granulocytopenia, anaemia |
| Common | Leukopenia, thrombocytopenia, neutropenia | |
| Uncommon | Pancytopenia | |
| Immune system disorders | Common | Sepsis |
| Not known | Hypersensitivity (including anaphylactic reactions), anaphylactoid reactions | |
| Endocrine disorders | Not known | Diabetes insipidus |
| Metabolism and nutrition disorders | Very common | Decreased appetite, hypokalaemia, hypomagnesaemia, hypocalcaemia |
| Common | Hyperphosphataemia, hyponatraemia, hypophosphataemia, blood alkaline phosphatase increased, blood lactate dehydrogenase increased, hypercalcaemia, dehydration | |
| Uncommon | Acidosis | |
| Not known | Hypernatraemia | |
| Psychiatric disorders | Common | Aggression, agitation, anxiety, confusional state, depression, nervousness |
| Nervous system disorders | Very common | Dizziness, headache, paraesthesia |
| Common | Coordination abnormal, convulsion, hypoaesthesia, muscle contractions involuntary, neuropathy peripheral, tremor | |
| Cardiac disorders | Common | Palpitations, tachycardia |
| Not known | Electrocardiogram QT prolonged, ventricular arrhythmia, torsade de pointes | |
| Vascular disorders | Common | Hypertension, hypotension, thrombophlebitisa |
| Gastrointestinal disorders | Very common | Diarrhoea, nausea, vomiting |
| Common | Abdominal pain, constipation, dyspepsia, pancreatitis, gastrointestinal haemorrhage | |
| Not known | Oesophageal ulceration | |
| Hepatobiliary disorders | Common | Hepatic function abnormal |
| Skin and subcutaneous disorders | Very common | Rash |
| Common | Pruritus | |
| Uncommon | Urticaria, angioedema | |
| Not known | Erythema multiforme, toxic epidermal necrolysis, Stevens Johnson syndromeb | |
| Musculoskeletal and connective tissue disorders | Common | Myalgia |
| Not known | Muscular weakness, myopathy, myositis, rhabdomyolysis | |
| Renal and urinary disorders | Common | Renal impairment, renal failure acute, dysuria, polyuria, proteinuria |
| Uncommon | Glomerulonephritis, nephrotic syndrome | |
| Not known | Renal pain, renal tubular acidosis, crystal nephropathy, haematuria | |
| Reproductive system and breast disorders | Common | Genital discomfort and ulcerationc |
| General disorders and administration site conditions | Very common | Asthenia, chills, fatigue, pyrexia |
| Common | Malaise, oedema, chest paind, injection site pain, injection site inflammation | |
| Not known | Extravasation | |
| Investigations | Very common | Blood creatinine increased, haemoglobin decreased |
| Common | Creatinine renal clearance decreased, electrocardiogram abnormal, gamma-glutamyltransferase increased, alanine aminotransferase increased, aspartate aminotransferase increased, lipase increased | |
| Uncommon | Amylase increased, blood creatine phosphokinase increased |
a Thrombophlebitis in peripheral veins following infusion of undiluted foscarnet solution has been observed.
b Cases of vesiculobullous eruptions including erythema multiforme, toxic epidermal necrolysis, and Stevens Johnson syndrome have been reported. In most cases, patients were taking other medications that have been associated with toxic epidermal necrolysis or Stevens Johnson syndrome.
c Foscarnet is excreted in high concentrations in the urine and may be associated with significant irritation and ulceration in the genital area, particularly after prolonged therapy.
d Transient chest pain has been reported as part of infusion reactions to foscarnet.
Reporting of suspected adverse reactions
Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal product. Healthcare professionals are asked to report any suspected adverse reactions via the Yellow Card Scheme. Website: www.mhra.gov.uk/yellowcard.
The most pronounced effects noted during general toxicity studies performed with foscarnet are perturbation of some serum electrolytes, and kidney and bone changes.
An observed reduction of serum electrolytes such as calcium and magnesium can be explained by the property of foscarnet to form chelate with divalent metal ions. The reduction of ionised calcium and magnesium is, most probably the explanation to seizures/convulsions seen during and shortly after the infusion of high doses of foscarnet. This reduction may also have a bearing on heart function (e.g. ECG) although the toxicological studies performed did not disclose any such effects. The rate of infusion of foscarnet is critical to disturbances in the homeostasis of some serum divalent cations.
The mechanism behind the kidney changes e.g. tubular atrophy, mainly confined to juxtamedullary nephrons, is less clear. The changes were noted in all species investigated. It is known that other complex binders of divalent cations (EDTA and biphosphonates) can cause changes of the kidney similar to those of foscarnet. It has been shown that hydration, to induce diuresis, significantly reduces kidney changes during foscarnet treatment.
The bone changes were characterised as increased osteoclast activity and bone resorption. Roughly 20% of the administered drug is taken up into bone and cartilage and deposition is greater in young and growing animals. This effect has only been seen in the dog. The reason to these changes may be that foscarnet, due to the structural similarity to phosphate is incorporated into the hydroxyapatite. Autoradiographic studies showed that foscarnet has a pronounced affinity to bone tissue. Recovery studies revealed that the bone changes were reversible. Foscarnet sodium has been demonstrated to adversely affect development of tooth enamel in mice and rats. The effects of this deposition on skeletal development have not been studied.
Mutagenicity studies showed that foscarnet has a genotoxic potential. The possible explanation for the observed effect in the mutagenicity studies is an inhibition of the DNA polymerase in the cell line used. Foscarnet therapeutically acts by inhibition of the herpes virus specific DNA polymerase. The human cellular polymerase is about 100 times less sensitive to foscarnet. The carcinogenicity studies performed did not disclose any oncogenic potential. The information gained from teratogenicity and fertility studies did not reveal any adverse events upon the reproductive process. However, the results are of limited value since the dose levels used in these studies are below or at most similar (75-150 mg/kg sc) to those used in man for treatment of CMV retinitis.
Foscarnet Richet is indicated for induction and maintenance therapy of cytomegalovirus (CMV) retinitis in patients with AIDS.
Foscarnet Richet is also indicated for the treatment of mucocutaneous Herpes Simplex Virus (HSV) infections, clinically unresponsive to aciclovir in immunocompromised patients. The safety and efficacy of Foscarnet Richet for the treatment of other HSV infections (e.g. retinitis, encephalitis); congenital or neonatal disease; or HSV in immunocompetent individuals has not been established.
The diagnosis of aciclovir unresponsiveness can be made either clinically by treatment with intravenous aciclovir (5-10 mg/kg t.i.d) for 10 days without response or by in vitro testing.
Foscarnet Richet is not recommended for treatment of CMV infections other than retinitis or HSV or for use in non-AIDS or non-immunocompromised patients.
Pharmacotherapeutic group: Antivirals for systemic use; direct acting antivirals; phosphonic acid derivatives, ATC code: J05AD01
Foscarnet is an antiviral agent with a broad spectrum inhibiting all known human viruses of the herpes group: herpes simplex virus type 1 and 2; human herpes virus 6; varicella zoster virus; Epstein-Barr virus and cytomegalovirus (CMV) and some retroviruses, including human immunodeficiency virus (HIV) at concentrations not affecting normal cell growth. Foscarnet also inhibits the viral DNA polymerase from hepatitis B virus.
Foscarnet exerts its antiviral activity by a direct inhibition of viral specific DNA polymerase a reverse transcriptase at concentrations that do not affect cellular DNA polymerases. Foscarnet does not require activation (phosphorylation) by thymidine kinase or other kinases and therefore is active in vitro against HSV mutants deficient in thymidine kinase. CMV strains resistant to ganciclovir may be sensitive to foscarnet. Sensitivity test results expressed as concentration of the drug required to inhibit growth of virus by 50% in cell culture (IC50) vary greatly depending on the assay method used and cell type employed. A number of sensitive viruses and their IC50 are listed below.
Table 3 Foscarnet inhibition of virus multiplication cell culture
|
| |
| Virus | IC50(μm) |
| CMV | 50-800 * |
| HSV-1, HSV-2 | 10-130 |
| VZV | 48-90 |
| EBV | <500** |
| HHV-6 | 49 |
| Ganciclovir resistant CMV | 190 |
| HSV - TK Minus Mutant | 67 |
| HSV - DNA Polymerase Mutant | 5-443 |
| HIV-1 | 11-32 |
| Zidovudine resistant HIV-1 | 10-32 |
* Mean = 269 micrograms
** 97% of viral antigen synthesis inhibited at 500 micrograms
If no clinical response to foscarnet is observed, viral isolates should be tested for sensitivity to foscarnet since naturally resistant mutants may exist or emerge under selective pressure both in vitro and in vivo.
The mean foscarnet 50% inhibition value for more than one hundred clinical CMV isolates was approximately 270 micrograms/L, while a reversible inhibition of normal cell growth was observed at about 1000 micrograms/L.
There is no evidence of an increased myelotoxicity when foscarnet is used in combination with zidovudine (AZT).
Foscarnet is eliminated by the kidneys mainly through glomerular filtration. The plasma clearance after intravenous administration to man varies between 130-160 ml/min and the renal clearance is about 130 ml/min. The half-life is in the order of 2-4 hours in patients with normal renal function.
The mean volume of distribution of foscarnet at steady state varies between 0.4-0.6 L/kg. There is no metabolic conversion of foscarnet and the binding to human plasma proteins is low (<20%). Foscarnet is distributed to the cerebrospinal fluid and concentrations ranging from 10 to 70% of the concurrent plasma concentrations have been observed in HIV-infected patients.
Foscarnet Richet should be used with caution in patients with reduced renal function. Since renal function impairment may occur at any time during Foscarnet Richet administration, serum creatinine should be monitored every second day during induction therapy and once weekly during maintenance therapy and appropriate dose adjustments should be performed according to renal function. Adequate hydration should be maintained in all patients. The renal function of patients with renal disease or receiving concomitant treatment with other nephrotoxic medicinal products must be closely monitored.
Due to the sodium content of Foscarnet Richet (240 micromoles (5.5 mg) of sodium per ml), its use should be avoided when a saline load cannot be tolerated (e.g. in cardiomyopathy). This should also be taken into consideration by patients on a controlled sodium diet.
Due to Foscarnet Richet's propensity to chelate bivalent metal ions, such as calcium, Foscarnet Richet administration may be associated with an acute decrease of ionised serum calcium proportional to the rate of Foscarnet Richet infusion, which may not be reflected in total serum calcium levels. The electrolytes, especially calcium and magnesium, should be assessed prior to and during Foscarnet Richet therapy and deficiencies corrected.
Foscarnet has been associated with cases of prolongation of QT interval and more rarely with cases of torsade de pointes. Patients with known existing prolongation of cardiac conduction intervals, particularly QTc, patients with significant electrolyte disturbances (hypokalaemia, hypomagnesaemia), bradycardia, as well as patients with underlying cardiac diseases such as congestive heart failure or who are taking medications known to prolong the QT interval should be carefully monitored due to increased risk of ventricular arrhythmia. Patients should be advised to promptly report any cardiac symptoms.
Foscarnet Richet is deposited in teeth, bone and cartilage.
Seizures, related to alterations in plasma minerals and electrolytes, have been associated with Foscarnet Richet treatment. Cases of status epilepticus have been reported. Therefore, patients must be carefully monitored for such changes and their potential sequelae. Mineral and electrolyte supplementation may be required.
Foscarnet Richet is excreted in high concentrations in the urine and may be associated with significant genital irritation and/or ulceration. To prevent irritation and ulceration, close attention to personal hygiene is recommended and cleaning of the genital area after each micturition is recommended.
Should patients experience extremity paraesthesia or nausea, it is recommended to reduce the speed of infusion.
When diuretics are indicated, thiazides are recommended.
Development of resistance: If the administration of Foscarnet Richet does not lead to a therapeutic response or leads to a worsened condition after an initial response, this may result from a reduced sensitivity of viruses towards foscarnet. In this case, termination of Foscarnet Richet therapy and a change to an appropriate other medicinal product should be considered.
Foscarnet Richet has moderate influence on the ability to drive and use machines. Due to the disease itself and possible undesirable effects of Foscarnet Richet , the ability to drive and use machines can be impaired. The physician is advised to discuss this issue with the patient, and based upon the condition of the disease and the tolerance of medication, give a recommendation in the individual case.
Method of administration: Foscarnet should be administered by the intravenous route only, either by a central venous line or in a peripheral vein.
When peripheral veins are used, the solution of foscarnet 24 mg/ml must be diluted. Individually dispensed doses of foscarnet should be aseptically transferred and diluted with equal parts of 0.9% sodium chloride (9 mg/ml) or 5% dextrose (50 mg/ml) by the hospital pharmacy. The diluted solutions should be used as soon as possible after preparation but can be stored for up to 24 hours if kept refrigerated.
The solution of foscarnet 24 mg/ml may be given without dilution via a central vein.
Adults: Induction therapy for CMV retinitis: Foscarnet Richet is administered over 2-3 weeks depending on the clinical response, as intermittent infusions every 8 hours at a dose of 60 mg/kg in patients with normal renal function. Dosage must be individualised for patient's renal function (see dosing chart below). The infusion time should not be shorter than 1 hour.
Maintenance therapy: For maintenance therapy, following induction therapy of CMV retinitis, Foscarnet Richet is administered seven days a week as long as therapy is considered appropriate. In patients with normal renal function, it is recommended to initiate therapy at 60 mg/kg. Increase to a dose of 90-120 mg/kg may then be considered in patients tolerating the initial dose level and/or those with progressive retinitis. A number of patients have received 90 mg/kg over a 2 hour period as a starting dose for maintenance therapy. Dosage must be reduced in patients with renal insufficiency (see dosage chart at end of dosage section).
Patients who experience progression of retinitis while receiving maintenance therapy may be re-treated with the induction regimen.
Induction therapy of mucocutaneous HSV infections unresponsive to aciclovir: Foscarnet Richet is administered for 2-3 weeks or until healing of lesions, as intermittent infusions at a dose of 40 mg/kg over one hour every 8 hours in patients with normal renal function. Dosage must be individualised for patients renal function (see dosing chart below). The infusion time should not be shorter than 1 hour.
Efficacy of Foscarnet Richet maintenance therapy following induction therapy of aciclovir unresponsive HSV infections has not been established.
Caution: Do not administer Foscarnet Richet by rapid intravenous injection.
Table 1 Foscarnet Richet Dosing Chart
Induction Therapy
| Creatinine Clearance (ml/kg/min) | CMV Every 8 Hours (mg/kg) | HSV Every 8 Hours (mg/kg) |
| > 1.6 | 60 | 40 |
| 1.6-1.4 | 55 | 37 |
| 1.4-1.2 | 49 | 33 |
| 1.2-1.0 | 42 | 28 |
| 1.0-0.8 | 35 | 24 |
| 0.8-0.6 | 28 | 19 |
| 0.6-0.4 | 21 | 14 |
| < 0.4 | Treatment not recommended | |
CMV Maintenance Therapy
| Creatinine Clearance (ml/kg/min) | One Infusion Dose (mg/kg/day in not less than one hour) |
| > 1.6 | 60* |
| 1.6-1.4 | 55 |
| 1.4-1.2 | 49 |
| 1.2-1.0 | 42 |
| 1.0-0.8 | 35 |
| 0.8-0.6 | 28 |
| 0.6-0.4 | 21 |
| < 0.4 | Treatment not recommended |
*A number of patients have received 90 mg/kg as a starting dose for maintenance therapy.
Foscarnet Richet is not recommended in patients undergoing haemodialysis since dosage guidelines have not been established.
Hydration: Renal toxicity of Foscarnet Richet can be reduced by adequate hydration of the patient. It is recommended to establish diuresis by hydration with 0.5-1.0 litre of normal saline at each infusion. In compliant patients, oral hydration with similar hydration regimens has been used. Clinically dehydrated patients should have their condition corrected before initiating Foscarnet Richet therapy.
Elderly: As for adults.
Paediatric population: The safety and efficacy of foscarnet in children have not been established. 3.
Renal or hepatic insufficiency: The dose must be reduced in patients with renal insufficiency according to the creatinine clearance level as described in the table above. Dose adjustment is not required in patients with hepatic insufficiency.
Individually dispensed doses of foscarnet can be aseptically transferred to plastic infusion bags by the hospital pharmacy. The physico-chemical stability of foscarnet and dilutions thereof in equal parts with 0.9% sodium chloride (9 mg/ml) or 5% dextrose (50 mg/ml) in PVC bags is 7 days. However, diluted solutions should be refrigerated and storage restricted to 24 hours.
Each bottle of Foscarnet Richet should only be used to treat one patient with a single infusion.
Accidental skin and eye contact with the foscarnet sodium solution may cause local irritation and burning sensation. If accidental contact occurs, the exposed area should be rinsed with water.
Any unused medicinal product or waste material should be disposed of in accordance with local requirements.
