- Name of The Medicinal Product
Sevoflurane USP 250ml Taj Pharma
- Qualitative and Quantitative Composition
Contains Sevoflurane 250ml.
- Pharmaceutical form
Sevoflurane is a nonflammable volatile liquid. Sevoflurane is administered via inhalation of the vaporised liquid.
- Clinical particulars
4.1 Therapeutic indications
Sevoflurane is indicated for induction and maintenance of general anaesthesia in adult and paediatric patients for inpatient and outpatient surgery.
4.2 Posology and method of administration
Premedication should be selected according to the need of the individual patient, and at the discretion of the anaesthetist.
Sevoflurane should be delivered via a vaporiser specifically calibrated for use with sevoflurane so that the concentration delivered can be accurately controlled. MAC (minimum alveolar concentration) values for sevoflurane decrease with age and with the addition of nitrous oxide. The table below indicates average MAC values for different age groups.
|Table 1: MAC values for Adults and Paediatric patients according to age|
|Age of Patient (years)||Sevoflurane in Oxygen||Sevoflurane in 65% N2O/35% O2|
|0 – 1 months*||3.3%||2.0%**|
|1 – < 6 months||3.0%|
|6 months – < 3 years||2.8%|
|3 – 12||2.5%|
* Neonates are full term gestational age. MAC in premature infants has not been determined.
** In 1 – <3 year old paediatric patients, 60% N2O/40% O2 was used.
Dosage should be individualised and titrated to the desired effect according to the patient’s age and clinical status. A short acting barbiturate or other intravenous induction agent may be administered followed by inhalation of sevoflurane. Induction with sevoflurane may be achieved in oxygen or in combination with oxygen-nitrous oxide mixtures. In adults inspired concentrations of up to 5% sevoflurane usually produce surgical anaesthesia in less than 2 minutes. In children, inspired concentrations of up to 7% sevoflurane usually produce surgical anaesthesia in less than 2 minutes. Alternatively, for induction of anaesthesia in unpremedicated patients, inspired concentrations of up to 8% sevoflurane may be used.
Surgical levels of anaesthesia may be sustained with concentrations of 0.5 – 3% sevoflurane with or without the concomitant use of nitrous oxide.
Emergence times are generally short following sevoflurane anaesthesia. Therefore, patients may require early post-operative pain relief.
MAC decreases with increasing age. The average concentration of sevoflurane to achieve MAC in an 80 year old is approximately 50% of that required in a 20 year old.
Refer to Table 1 for MAC values for paediatric patients according to age.
Sevoflurane should not be used in patients with known or suspected sensitivity to sevoflurane or other halogenated anaesthetics (e.g. history of liver function disorder, fever or leucocytosis of unknown cause after anaesthesia with one of these agents).
Sevoflurane is also contraindicated in patients with known or suspected genetic susceptibility to malignant hyperthermia.
Sevoflurane is contraindicated in patients in whom general anaesthesia is contraindicated.
4.4 Special warnings and precautions for use
Sevoflurane may cause respiratory depression, which may be augmented by narcotic premedication or other agents causing respiratory depression. Respiration should be supervised and if necessary, assisted.
Sevoflurane should be administered only by persons trained in the administration of general anaesthesia. Facilities for maintenance of a patent airway, artificial ventilation, oxygen enrichment and circulatory resuscitation must be immediately available.
The concentration of sevoflurane being delivered from a vaporiser must be known exactly. As volatile anaesthetics differ in their physical properties, only vaporisers specifically calibrated for sevoflurane must be used. The administration of general anaesthesia must be individualised based on the patient’s response. Hypotension and respiratory depression increase as anaesthesia is deepened.
In susceptible individuals, potent inhalation anaesthetic agents may trigger a skeletal muscle hypermetabolic state leading to high oxygen demand and the clinical syndrome known as malignant hyperthermia. The clinical syndrome is signalled by hypercapnia, and may include muscle rigidity, tachycardia, tachypnoea, cyanosis, arrhythmias, and/or unstable blood pressure. Some of these nonspecific signs may also appear during light anaesthesia, acute hypoxia, hypercapnia and hypovolaemia.
In clinical trials, one case of malignant hyperthermia was reported. In addition, there have been postmarketing reports of malignant hyperthermia. Some of these reports have been fatal.
Treatment includes discontinuation of triggering agents (e.g. sevoflurane), administration of intravenous dantrolene sodium (consult prescribing information for intravenous dantrolene sodium for additional information on patient management), and application of supportive therapy. Such therapy includes vigorous efforts to restore body temperature to normal, respiratory and circulatory support as indicated, and management of electrolyte-fluid-acid-base abnormalities. Renal failure may appear later, and urine flow should be monitored and sustained if possible.
Use of inhaled anaesthetic agents has been associated with rare increases in serum potassium levels that have resulted in cardiac arrhythmias and death in paediatric patients during the postoperative period. Patients with latent as well as overt neuromuscular disease, particularly Duchenne muscular dystrophy, appear to be most vulnerable. Concomitant use of succinylcholine has been associated with most, but not all, of these cases. These patients also experienced significant elevations in serum creatine kinase levels and, in some cases, changes in urine consistent with myoglobinuria. Despite the similarity in presentation to malignant hyperthermia, none of these patients exhibited signs or symptoms of muscle rigidity or hypermetabolic state. Early and aggressive intervention to treat the hyperkalaemia and resistant arrhythmias is recommended, as is subsequent evaluation for latent neuromuscular disease.
Isolated reports of QT prolongation, very rarely associated with torsade de pointes (in exceptional cases, fatal), have been received. Caution should be exercised when administering sevoflurane to susceptible patients.
Isolated cases of ventricular arrhythmia were reported in paediatric patients with Pompe’s disease.
Caution should be exercised in administering general anaesthesia, including sevoflurane, to patients with mitochondrial disorders.
Very rare cases of mild, moderate and severe post-operative hepatic dysfunction or hepatitis with or without jaundice have been reported from postmarketing experiences.
Clinical judgment should be exercised when sevoflurane is used in patients with underlying hepatic conditions or under treatment with drugs known to cause hepatic dysfunction (see section 4.8).
Patients with repeated exposures to halogenated hydrocarbons, including sevoflurane, within a relatively short interval may have an increased risk of hepatic injury.
During the maintenance of anaesthesia, increasing the concentration of sevoflurane produces dose-dependent decreases in blood pressure. Excessive decrease in blood pressure may be related to depth of anaesthesia and in such instances may be corrected by decreasing the inspired concentration of sevoflurane. Particular care must be taken when selecting the dosage for patients who are hypovolaemic, hypotensive, or otherwise hemodynamically compromised, e.g., due to concomitant medications.
As with all anaesthetics, maintenance of haemodynamic stability is important to avoid myocardial ischaemia in patients with coronary artery disease.
Caution should be observed when using sevoflurane during obstetric anaesthesia because the relaxant effect on the uterus could increase the risk of uterine bleeding (see section 4.6).
The recovery from general anaesthesia should be assessed carefully before patients are discharged from the recovery room. Rapid emergence from anaesthesia is generally seen with sevoflurane so early relief of postoperative pain may be required. Although recovery of consciousness following sevoflurane administration generally occurs within minutes, the impact on intellectual function for two or three days following anaesthesia has not been studied. As with other anaesthetics, small changes in moods may persist for several days following administration (see section 4.7). Rapid emergence in children may be associated with agitation and lack of co-operation (in about 25% of cases).
Replacement of Desiccated CO2 Absorbents:
Rare cases of extreme heat, smoke, and/or spontaneous fire in the anaesthesia machine have been reported during sevoflurane use in conjunction with the use of desiccated CO2 absorbent, specifically those containing potassium hydroxide (e.g Baralyme). An unusually delayed rise or unexpected decline of inspired sevoflurane concentration compared to the vaporiser setting may be associated with excessive heating of the CO2 absorbent canister.
An exothermic reaction, enhanced sevoflurane degradation, and production of degradation products can occur when the CO2 absorbent becomes desiccated, such as after an extended period of dry gas flow through the CO2 absorbent canisters. Sevoflurane degradants (methanol, formaldehyde, carbon monoxide, and Compounds A, B, C, and D) were observed in the respiratory circuit of an experimental anaesthesia machine using desiccated CO2 absorbents and maximum sevoflurane concentrations (8%) for extended periods of time (≥ 2 hours). Concentrations of formaldehyde observed at the anaesthesia respiratory circuit (using sodium hydroxide containing absorbents) were consistent with levels known to cause mild respiratory irritation. The clinical relevance of the degradants observed under this extreme experimental model is unknown.
If a health care professional suspects that the CO2 absorbent has become desiccated, it must be replaced before subsequent use of volatile anaesthetics (such as sevoflurane). It must be taken into account that the colour indicator does not always change after desiccation has taken place. Therefore, the lack of significant colour change should not be taken as an assurance of adequate hydration. CO2 absorbents should be replaced routinely regardless of the state of the colour indicator.
Because of the small number of patients with renal insufficiency (baseline serum creatinine greater than 1.5mg/dL) studied, the safety of sevoflurane administration in this group has not been fully established. Therefore, sevoflurane should be used with caution in patients with renal insufficiency.
In some studies in rats, nephrotoxicity was seen in animals exposed to levels of Compound A (pentafluoroisopropenyl fluoromethyl ether (PIFE)) in excess of those usually seen in routine clinical practice. The mechanism of this renal toxicity in rats is unknown and its relevance to man has not been established. (See Section 5.3, Preclinical Safety Data for further details.)
Neurosurgery & Neuromuscular Impairment:
In patients at risk from elevation of intra-cranial pressure, sevoflurane should be administered cautiously in conjunction with techniques to lower intra-cranial pressure (e.g. hyperventilation).
Rare cases of seizures have been reported in association with sevoflurane use.
Use of sevoflurane has been associated with seizures occurring in children and young adults as well as older adults with and without predisposing risk factors. Clinical judgment is necessary before sevoflurane is used in patients at risk of seizures. In children the depth of anaesthesia should be limited. EEG may permit the optimization of sevoflurane dose and help avoid the development of seizure activity in patients with a predisposition for seizures (see section 4.4-Paediatric population).
The use of sevoflurane has been associated with seizures. Many have occurred in children and young adults starting from 2 months of age, most of whom had no predisposing risk factors. Clinical judgment should be exercised when using sevoflurane in patients who may be at risk for seizures (see section 4.4 – Seizures).
Dystonic movements in children have been observed (see section 4.8).
4.5 Interaction with other medicinal products and other forms of interaction
Beta-sympathomimetic agents like isoprenaline and alpha- and beta- sympathomimetic agents like adrenaline and noradrenaline should be used with caution during Sevoflurane narcosis, due to a potential risk of ventricular arrhythmia.
Non-selective MAO-inhibitors: Risk of crisis during the operation. It is generally recommended that treatment should be stopped 2 weeks prior to surgery.
Sevoflurane may lead to marked hypotension in patients treated with calcium antagonists, in particular dihydropyridine derivates.
Caution should be exercised when calcium antagonists are used concomitantly with inhalation anesthetics due to the risk of additive negative inotropic effect.
Concomitant use of succinylcholine with inhaled anesthetic agents has been associated with rare increases in serum potassium levels that have resulted in cardiac arrhythmias and death in pediatric patients during the post-operative period.
Sevoflurane has been shown to be safe and effective when administered concurrently with a wide variety of agents commonly encountered in surgical situations such as central nervous system agents, autonomic drugs, skeletal muscle relaxants, anti-infective agents including aminoglycosides, hormones and synthetic substitutes, blood derivatives and cardiovascular drugs, including epinephrine.
Sevoflurane is similar to isoflurane in the sensitisation of the myocardium to the arrhythmogenic effect of exogenously administered adrenaline.
There is a risk of acute hypertensive episode with the concomitant use of sevoflurane and indirect-acting sympathomimetics products (amphetamines, ephedrine).
Sevoflurane may increase the negative inotropic, chronotropic and dromotropic effects of beta blockers (by blocking cardiovascular compensatory mechanisms).
Impairment of atrioventricular conduction was observed when verapamil and sevoflurane were administered at the same time.
Inducers of CYP2E1
Medicinal products and compounds that increase the activity of cytochrome P450 isoenzyme CYP2E1, such as isoniazid and alcohol, may increase the metabolism of sevoflurane and lead to significant increases in plasma fluoride concentrations. Concomitant use of sevoflurane and isoniazid can potentiate the hepatotoxic effects of isoniazid.
St John’s Wort
Severe hypotension and delayed emergence from anaesthesia with halogenated inhalational anaesthetics have been reported in patients treated long-term with St John’s Wort.
Sevoflurane administration is compatible with barbiturates as commonly used in surgical practice.
Benzodiazepines and Opioids
Benzodiazepines and opioids are expected to decrease the MAC of sevoflurane in the same manner as with other inhalational anaesthetics. Sevoflurane administration is compatible with benzodiazepines and opioids as commonly used in surgical practice.
Opioids such as alfentanil and sufentanil, when combined with sevoflurane, may lead to a synergistic fall in heart rate, blood pressure and respiratory rate.
As with other halogenated volatile anaesthetics, the MAC of sevoflurane is decreased when administered in combination with nitrous oxide. The MAC equivalent is reduced approximately 50% in adult and approximately 25% in paediatric patients (see section 4.2 – Maintenance).
Neuromuscular Blocking Agents
As with other inhalational anaesthetic agents, sevoflurane affects both the intensity and duration of neuromuscular blockade by non-depolarising muscle relaxants. When used to supplement alfentanil-N2O anaesthesia, sevoflurane potentiates neuromuscular block induced with pancuronium, vecuronium or atracurium. The dosage adjustments for these muscle relaxants when administered with sevoflurane are similar to those required with isoflurane. The effect of sevoflurane on succinylcholine and the duration of depolarising neuromuscular blockade has not been studied.
Dosage reduction of neuromuscular blocking agents during induction of anaesthesia may result in delayed onset of conditions suitable for endotracheal intubation or inadequate muscle relaxation because potentiation of neuromuscular blocking agents is observed a few minutes after the beginning of sevoflurane administration.
Among non-depolarising agents, vecuronium, pancuronium and atracurium interactions have been studied. In the absence of specific guidelines: (1) for endotracheal intubation, do not reduce the dose of non-depolarising muscle relaxants; and, (2) during maintenance of anaesthesia, the dose of non-depolarising muscle relaxants is likely to be reduced compared to that during N2O/opioid anaesthesia. Administration of supplemental doses of muscle relaxants should be guided by the response to nerve stimulation.
As with other agents, lesser concentrations of sevoflurane may be required following use of an intravenous anaesthetic e.g. propofol.
Significant increases in plasma fluoride concentrations have been observed following the increased activity of CYP 2E1.
4.6 Fertility, pregnancy and lactation
Sevoflurane has a relaxant effect on the uterus, which can lead to increased uterine bleeding, as was reported in a study of its use during termination of pregnancy. Use during labour and delivery is limited to one small study in caesarean section.
In animal reproduction studies, reduced foetal weights were noted following exposure to 1 MAC sevoflurane for three hours a day during organogenesis (see section 5.3). There are no adequate and well-controlled studies in pregnant women; therefore, sevoflurane should be used during pregnancy only if clearly needed.
Labour and Delivery
In a clinical trial, the safety of sevoflurane was demonstrated for mothers and infants when used for anaesthesia during Caesarean section. The safety of sevoflurane in labour and vaginal delivery has not been demonstrated.
It is not known whether sevoflurane or its metabolites are excreted in human milk. Due to the absence of documented experience, women should be advised to skip breast-feeding for 48 hours after administration of sevoflurane and discard milk produced during this period.
A fertility study in rats has revealed no evidence of impaired fertility due to sevoflurane (see section 5.3).
4.7 Effects on ability to drive and use machines
As with other agents, patients should be advised that performance of activities requiring mental alertness, such as operating a motor vehicle or hazardous machinery, may be impaired for some time after general anaesthesia (see section 4.4).
Patients should not be allowed to drive for a suitable period after sevoflurane anaesthesia.
4.8 Undesirable effects
Summary of the safety profile
As with all potent inhaled anaesthetics, sevoflurane may cause dose-dependent cardio-respiratory depression. Most adverse reactions are mild to moderate in severity and are transient in duration. Nausea, vomiting and delirium are commonly observed in the post-operative period, at a similar incidence to those found with other inhalation anaesthetics. These effects are common sequelae of surgery and general anaesthesia which may be due to the inhalational anaesthetic, other agents administered intra-operatively or post-operatively and to the patient’s response to the surgical procedure.
The most commonly reported adverse reactions were as follows:
In adult patients: hypotension, nausea and vomiting;
In elderly patients: bradycardia, hypotension and nausea; and
In paediatric patients: agitation, cough, vomiting and nausea.
Tabulated summary of adverse reactions
All adverse reactions at least possibly relating to sevoflurane from clinical trials and post-marketing experience are presented in the following table by MedDRA System Organ Class, Preferred Term and frequency. The following frequency categories are used: Very common (≥1/10); common (≥1/100, <1/10); uncommon (≥1/1,000, <1/100); rare (≥1/10,000, <1/1,000); very rare (<1/10,000), including isolated reports. Post-marketing adverse reactions are reported voluntarily from a population with an unknown rate of exposure. Therefore, it is not possible to estimate the true incidence of adverse events and the frequency is “unknown”. The type, severity and frequency of adverse reactions in sevoflurane patients in clinical trials were comparable to adverse reactions in reference-drug patients.
Adverse Reaction Data Derived from Clinical Trials and Post-marketing Experience
|Summary of Most Frequent Adverse Drug Reactions in sevoflurane Clinical Trials and Post-marketing Experience|
|System Organ Class||Frequency||Adverse Reactions|
|Immune system disorders||Unknown||Anaphylactic reaction 1|
|Blood and lymphatic system disorders||Uncommon||Leukopenia|
|Psychiatric disorders||Very Common|
|Nervous system disorders||Common|
Convulsion 2, 3
|Cardiac disorders||Very Common|
Atrioventricular block complete
Cardiac arrest 4
QT prolongation associated with Torsade
|Vascular disorders||Very Common|
|Respiratory, thoracic and mediastinal disorders||Very Common|
|Gastrointestinal disorders||Very Common|
|Renal and urinary disorders||Uncommon|
Renal failure acute
|Hepato-biliary disorders||Unknown||Hepatitis 1, 2|
Hepatic failure 1, 2
Hepatic necrosis 1, 2
|Skin and subcutaneous tissue disorders||Unknown||Dermatitis contact 1|
Swelling face 1
|Musculoskeletal and connective tissue disorders||Unknown||Muscle twitching|
|General disorders and administration site conditions||Common|
Chest discomfort 1
Hyperthermia malignant 1, 2
|Blood glucose abnormal|
Liver function test abnormal 5
White blood cell count abnormal
Aspartate aminotransferase increased
Blood fluoride increased6
Alanine aminotransferase increased
Blood creatinine increased
Blood lactate dehydrogenase increased
|Injury, poisoning and procedural complications||Common||Hypothermia|
1 See section 4.8 – Description of selected adverse reactions.
2 See section 4.4.
3 See section 4.8 – Paediatric population.
4 There have been very rare post-marketing reports of cardiac arrest in the setting of sevoflurane use.
5 Occasional cases of transient changes in hepatic function tests were reported with sevoflurane and reference agents.
6 Transient increases in serum inorganic fluoride levels may occur during and after sevoflurane anaesthesia. See Description of selected adverse reactions below.
Description of selected adverse reactions
Transient increases in serum inorganic fluoride levels may occur during and after sevoflurane anaesthesia. Concentrations of inorganic fluoride generally peak within two hours of the end of sevoflurane anaesthesia and return within 48 hours to pre-operative levels. In clinical trials, elevated fluoride concentrations were not associated with impairment of renal function.
Rare reports of post-operative hepatitis exist. In addition, there have been rare post-marketing reports of hepatic failure and hepatic necrosis associated with the use of potent volatile anaesthetic agents, including sevoflurane. However, the actual incidence and relationship of sevoflurane to these events cannot be established with certainty (see section 4.4).
Rare reports of hypersensitivity (including contact dermatitis, rash, dyspnoea, wheezing, chest discomfort, swelling face, or anaphylactic reaction) have been received, particularly in association with long-term occupational exposure to inhaled anaesthetic agents, including sevoflurane.
In susceptible individuals, potent inhalation anaesthetic agents may trigger a skeletal muscle hypermetabolic state leading to high oxygen demand and the clinical syndrome known as malignant hyperthermia (see section 4.4).
The use of sevoflurane has been associated with seizures. Many of these have occurred in children and young adults starting from 2 months of age, most of whom had no predisposing risk factors. Clinical judgment should be exercised when using sevoflurane in patients who may be at risk for seizures (see section 4.4).
Reporting of suspected adverse reactions
Reporting suspected adverse reactions after authorisation of the medicinal product is important.
In the event of overdosage, the following action should be taken: Stop drug administration, establish a clear airway and initiate assisted or controlled ventilation with pure oxygen and maintain adequate cardiovascular function.
- Pharmacological properties
5.1 Pharmacodynamic properties
Pharmaco-therapeutic group: Anaesthetics, general.
Changes in the clinical effects of sevoflurane rapidly follow changes in the inspired concentration.
As with all other inhalation agents sevoflurane depresses cardiovascular function in a dose related fashion. In one volunteer study, increases in sevoflurane concentration resulted in decrease in mean arterial pressure, but there was no change in heart rate. Sevoflurane did not alter plasma noradrenaline concentrations in this study.
Nervous System Effects
No evidence of seizure was observed during the clinical development programme.
In patients with normal intracranial pressure (ICP), sevoflurane had minimal effect on ICP and preserved CO2 responsiveness. The safety of sevoflurane has not been investigated in patients with a raised ICP. In patients at risk for elevations of ICP, sevoflurane should be administered cautiously in conjunction with ICP-reducing manoeuvres such as hyperventilation.
Some published studies in children have observed cognitive deficits after repeated or prolonged exposures to anaesthetic agents early in life. These studies have substantial limitations, and it is not clear if the observed effects are due to the anaesthetic/sedation drug administration or other factors such as the surgery or underlying illness. In addition, more recent published registry studies did not confirm these findings.
Published animal studies of some anaesthetic/sedation drugs have reported adverse effects on brain development in early life (see section 5.3 – Preclinical safety data).
5.2 Pharmacokinetic properties
The low solubility of sevoflurane in blood should result in alveolar concentrations which rapidly increase upon induction and rapidly decrease upon cessation of the inhaled agent.
In humans <5% of the absorbed sevoflurane is metabolised. The rapid and extensive pulmonary elimination of sevoflurane minimises the amount of anaesthetic available for metabolism. Sevoflurane is defluorinated via cytochrome p450(CYP)2E1 resulting in the production of hexafluoroisopropanol (HFIP) with release of inorganic fluoride and carbon dioxide (or a one carbon fragment). HFIP is then rapidly conjugated with glucuronic acid and excreted in the urine.
The metabolism of sevoflurane may be increased by known inducers of CYP2E1 (e.g. isoniazid and alcohol), but it is not inducible by barbiturates.
Transient increases in serum inorganic fluoride levels may occur during and after sevoflurane anaesthesia. Generally, concentrations of inorganic fluoride peak within 2 hours of the end of sevoflurane anaesthesia and return within 48 hours to pre-operative levels.
5.3 Preclinical safety data
Animal studies have shown that hepatic and renal circulation are well maintained with sevoflurane.
Sevoflurane decreases the cerebral metabolic rate for oxygen (CMRO2) in a fashion analogous to that seen with isoflurane. An approximately 50% reduction of CMRO2 is observed at concentrations approaching 2.0 MAC. Animal studies have demonstrated that sevoflurane does not have a significant effect on cerebral blood flow.
In animals, sevoflurane significantly suppresses electroencephalographic (EEG) activity comparable to equipotent doses of isoflurane. There is no evidence that sevoflurane is associated with epileptiform activity during normocapnia or hypocapnia. In contrast to enflurane, attempts to elicit seizure-like EEG activity during hypocapnia with rhythmic auditory stimuli have been negative.
Compound A was minimally nephrotoxic at concentrations of 50-114 ppm for 3 hours in a range of studies in rats. The toxicity was characterised by sporadic single cell necrosis of the proximal tubule cells. The mechanism of this renal toxicity in rats is unknown and its relevance to man has not been established. Comparable human thresholds for Compound A-related nephrotoxicity would be predicted to be 150-200 ppm. The concentrations of Compound A found in routine clinical practice are on average 19 ppm in adults (maximum 32 ppm) with use of Soda lime as the CO2 absorbent.
Developmental toxicity studies have been performed in pregnant rats and rabbits at doses up to 1 MAC for three hours per day. Reduced foetal body weights concomitant with increased skeletal variations were noted in rats only at maternally toxic concentrations. No adverse foetal effects were observed in rabbits. In fertility studies in rats at doses up to 1 MAC no effects on male and female reproductive capabilities were observed.
Published studies in pregnant and juvenile animals suggest that the use of anaesthetic and sedation drugs that block NMDA receptors and/or potentiate GABA activity during the period of rapid brain growth or synaptogenesis may result in neuronal and oligodendrocyte cell loss in the developing brain and alterations in synaptic morphology and neurogenesis when used for longer than 3 hours. These studies included anaesthetic agents from a variety of drug classes. The clinical significance of these nonclinical findings is yet to be determined (see section 5.1).
- Pharmaceutical particulars
6.1 List of excipients
Water (as a Lewis Acid Inhibitor).
Sevoflurane is stable when stored under normal room lighting conditions. No discernible degradation of sevoflurane occurs in the presence of strong acids or heat. Sevoflurane is not corrosive to stainless steel, brass, aluminum nickel-plated brass, chrome-plated brass or copper beryllium alloy.
Chemical degradation can occur upon exposure of inhaled anaesthetics to CO2 absorbent within the anaesthesia machine. When used as directed with fresh absorbents, degradation of sevoflurane is minimal and degradants are undetectable or non-toxic. Sevoflurane degradation and subsequent degradant formation are enhanced by increasing absorbent temperature, desiccated CO2 absorbent (especially potassium hydroxide-containing, e.g. Baralyme®), increased sevoflurane concentration and decreased fresh gas flow. Sevoflurane can undergo alkaline degradation by two pathways. The first results from the loss of hydrogen fluoride with the formation of pentafluoroisopropanyl fluoromethyl ether (PIFE or more commonly known as Compound A). The second pathway for degradation of sevoflurane occurs only in the presence of desiccated CO2 absorbents and leads to the dissociation of sevoflurane into hexafluoroisopropanol (HFIP) and formaldehyde. HFIP is inactive, non-genotoxic, rapidly glucoronidated, cleared and has toxicity comparable to sevoflurane. Formaldehyde is present during normal metabolic processes. Upon exposure to a highly desiccated absorbent, formaldehyde can further degrade into methanol and formate. Formate can contribute to the formation of carbon monoxide in the presence of high temperature. Methanol can react with compound A to form the methoxy addition product Compound B. Compound B can undergo further HF elimination to form Compounds C,D and E. With highly desiccated absorbents, especially those containing potassium hydroxide (e.g Baralyme®) the fomation of formaldehyde, methanol, carbon monoxide, Compound A and perhaps some of its degradants, Compounds B,C and D may occur.
6.3 Shelf life
The recommended shelf life is 36 months.
6.4 Special precautions for storage
Do not store above 25°C. Do not refrigerate. Keep cap tightly closed.
6.5 Nature and contents of container
100ml and 250ml amber polyethylene napthalate (PEN) bottles.
Not all pack sizes may be marketed.
6.6 Special precautions for disposal and other handling
Sevoflurane should be administered via a vaporiser calibrated specifically for sevoflurane using a key filling system designed for sevoflurane specific vaporisers or other appropriate sevoflurane specific vaporiser filling systems.
Carbon dioxide absorbents should not be allowed to dry out when inhalational anaesthetics are being administered. Some halogenated anaesthetics have been reported to interact with dry carbon dioxide absorbent to form carbon monoxide. However, in order to minimise the risk of formation of carbon monoxide in re-breathing circuits and the possibility of elevated carboxyhaemoglobin levels, CO2 absorbents should not be allowed to dry out. There have been rare cases of excessive heat production, smoke and fire in the anaesthetic machine when sevoflurane has been used in conjunction with a desiccated (dried out) CO2 absorbent. If the CO2 absorbent is suspected to be desiccated it should be replaced.
Any unused medicinal product or waste material should be disposed of in accordance with local requirements.
- Manufactured in India by:
TAJ PHARMACEUTICALS LTD.
Unit No. 214.Old Bake House,
Maharashtra chambers of Commerce Lane,
Fort, Mumbai – 400001
Customer Service and Product Inquiries:
1-800-TRY-FIRST (1-800-222-434 & 1-800-222-825)
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Sevoflurane USP 250ml Taj Pharma
Package Leaflet: Information for The User
Read all of this leaflet carefully before you receive Sevoflurane.
- Keep this leaflet as you may need to read it again.
- This leaflet provides a summary of the information currently available on Sevoflurane.
- For further information or advice, ask your ward doctor or anaesthetist.
- Tell your ward doctor or anaesthetist if you experience any side effects.
In this leaflet:
- What is Sevoflurane and what does it do?
2. What should you know before receiving Sevoflurane?
3. How will you receive Sevoflurane?
4. What will happen after receiving Sevoflurane?
5. How should Sevoflurane be stored?
6. Further information about Sevoflurane.
- What is Sevoflurane and what does it do?
Sevoflurane belongs to a group of medicines called general anaesthetics. These work by temporarily reducing the activity of the body’s central nervous system. This causes a complete loss of sensation in the body, including loss of consciousness allowing surgery to be carried out without pain or distress.
Sevoflurane is a clear colourless liquid, that when put into a special anaesthetic machine (vaporiser) becomes a gas. This mixes with the oxygen you will be breathing in.
Once breathed in (inhaled), Sevoflurane will induce and maintain a deep, pain-free sleep (general anaesthesia) in adults and children.
- What should you know before receiving Sevoflurane?
TELL YOUR WARD DOCTOR, SURGEON OR ANAESTHETIST if:
- You have been told previously that you should not receive general anaesthesia.
- You have been told that you are sensitive or have an allergy to Sevoflurane or any other anaesthetic.
- You or any member of your family has had a condition called malignant hyperthermia (rapid increase in body temperature and severe muscle contractions) during an operation.
- You have liver problems or if you have previously had general anaesthetics, particularly if repeated over a short period of time. Some anaesthetics can occasionally cause problems in the liver, which can cause yellowing of the skin and eyes (jaundice).
- You are prone to or at risk for seizures (fits).
- You have ever had QT prolongation (prolongation of a specific time interval in an ECG) or torsade de pointes (a specific type of heart rhythm), which may also be associated with QT prolongation. Sevoflurane has sometimes been known to cause these.
- You have a mitochondrial disease.
In addition to the above, if Sevoflurane is to be administered to your child, please tell their ward doctor, surgeon or anaesthetist if they:
- have seizures or seizure disorder (fits), as Sevoflurane may increase the risk of seizures
- have Pompe’s disease (a metabolic disorder). Sevoflurane may produce abnormal heart rhythms, which may be severe in some cases
- have a severe muscle disorder such as Duchenne muscular dystrophy
- have a mitochondrial disorder, which is a disorder that people may be born with and may affect special cells of the heart, brain, and kidney.
As with all drugs, it is important that you tell your ward doctor or anaesthetist which medications you are taking. This is particularly important if you are taking the following drugs:
- Amphetamines (stimulants)
- Beta blockers, calcium antagonists or a drug called verapamil (used to treat high blood pressure and certain heart conditions)
- Isoniazid (an antibiotic used to treat tuberculosis)
- St John’s Wort (a herbal remedy used to help with depression)
- Decongestants (ephedrine).
- Non-selective monoamine oxidase (MAO) inhibitors (a type of antidepressants)
- Calcium antagonists
- Benzodiazepines and Opioids
- Sympathomimetic agents such as isoprenaline
PREGNANCY AND BREAST FEEDING
Tell your ward doctor, surgeon or anaesthetist if you are pregnant, could be pregnant or are breast feeding. It is not known whether Sevoflurane or its by-products are transferred into human milk. It is advisable to stop breast-feeding for 48 hours after Sevoflurane administration and discard any milk that is produced during this period.
DRIVING & USING MACHINERY
You should NOT drive or operate machinery after your operation or procedure, for which the anaesthetic has been administered, until your ward doctor advises that you may do so.
Your ability to drive or operate machinery may be impaired for some time.
- How will you receive Sevoflurane?
Sevoflurane will ALWAYS be administered to you by an anaesthetist. They will decide on the dose you will receive, depending on your age, weight and the type of operation you are having.
Sevoflurane will send you to sleep quickly and smoothly. It also has a pleasant smell.
Inducing sleep at the start of anaesthesia
To send you to sleep, you may be asked to breathe in Sevoflurane through a mask. However on most occasions you will be given an injection of another anaesthetic to make you go to sleep before receiving Sevoflurane.
Maintaining sleep during anaesthesia
Under the observation of the anaesthetist you will continue to breathe in Sevoflurane during the operation via a mask.
Waking-up after anaesthesia
Once the anaesthetist stops you from inhaling Sevoflurane you will wake up within a few minutes.
- What will happen after receiving Sevoflurane?
As with all anaesthetics, Sevoflurane can cause side effects.
These can occur both during and after your operation.
The frequency of side effects is classified as follows:
Very common: more than 1 out of 10 persons treated;
Common: less than 1 out of 10, but more than 1 out of 100 persons treated;
Uncommon: less than 1 out of 100, but more than 1 out of 1,000 persons treated;
Rare: less than 1 out of 1,000, but more than 1 out of 10,000 persons treated.
Very rare: less than 1 out of 10,000 persons treated.
Unknown: when an estimation of frequency is not possible.
The following side effects with Sevoflurane are serious and will be managed by your surgeon or anaesthetist, as necessary, during the operation. If you experience any of these side effects after your operation get medical help immediately.
Those occurring with unknown frequency:
- Allergic reactions with symptoms such as rash, swelling of the face, wheezing
- Rapid rise in body temperature (malignant hyperthermia)
- Wheezing and breathlessness
Those occurring very commonly:
- Slow heart rate (bradycardia)
Those occurring commonly
- Throat spasm
Those occurring uncommonly
- Heart disorders (AV block), which will be closely monitored by your anaesthetist during your operation and may be recognized by dizziness after your operation
The frequency of other side effects observed following the use of Sevoflurane are:
Very common frequency:
- decreased blood pressure (hypotension)
- drowsiness (somnolence)
- increased blood pressure (hypertension)
- fast heart rate (tachycardia)
- slow shallow breathing (respiratory depression)
- watering mouth (salivary hypersecretion)
- fever (pyrexia)
- low body temperature (hypothermia)
- abnormal sugar (glucose) level
- abnormal liver function test*
- white blood cell count abnormal
- blood fluoride increased **
- a decrease or increase in the number of certain white blood cells. A decrease in the number of white blood cells may be associated with dizziness, fatigue, weakness, mouth ulcers and a tendency towards infections.
- abnormal heart rhythm
- pauses in breathing
- inadequate amount of oxygen
- difficulty in passing urine
- glucose in the urine***
- abnormal kidney function test*
- convulsions (fits), particularly in children
- twitching and jerking movements
- fluid in the lungs
- inflammation or damage to the liver. People with liver disease may have abdominal pain or fullness, dark urine, pale or white-coloured stool, fatigue, general itching, yellowing of the eyes, nausea and vomiting
- kidney failure. People with kidney disease may have tiredness, swelling or puffiness in the face, abdomen, thighs or ankles, passing less urine or problems urinating and back pain
- skin rashes
- heart arrhythmia (irregular heartbeat or abnormal heart rhythm) known as QT prolongation
*If you have a blood test, you may be told that you have changes in your liver or kidney enzymes or other products found in the blood. These will not normally cause any symptoms.
**Levels of fluoride in the blood may be raised slightly during and immediately after anaesthesia, due to the body breaking down sevoflurane, but these levels are not believed to be harmful and soon return to normal.
*** If you have a urine test you may be told that you have glucose in your urine. You may not have any symptoms.
There have been very rare reports of cardiac arrest, a condition where the heart stops beating.
After surgery, some children may have irregular heart rhythms, which can potentially be life-threatening, due to changes in blood potassium levels.
Children with Pompe’s disease, a disease that they are born with, may have irregular heart rhythm during anaesthesia with Sevoflurane.
After receiving Sevoflurane
You will come round or wake up within a few minutes. Children in particular, may be restless on awakening. Tell your doctor or anaesthetist if you need additional pain relief.
If you have any other unusual or unexpected symptoms after receiving Sevoflurane anaesthesia, tell your ward doctor or anaesthetist immediately.
If you have any questions about Sevoflurane which are not answered by this leaflet, ask your ward doctor or anaesthetist.
Reporting side effects
If you get any side effects, talk to your doctor. This includes any possible side effects not listed in this leaflet.
- How should Sevoflurane be stored?
Sevoflurane should be stored in a tightly closed container NOT above 25°C. Do NOT use after the expiry date printed on the packaging.
- Further information about Sevoflurane
The active ingredient is sevoflurane. Water is also present to provide the Sevoflurane with protection from substances that can cause its breakdown (environmental Lewis acids).
- Manufactured in India by:
TAJ PHARMACEUTICALS LTD.
Unit No. 214.Old Bake House,
Maharashtra chambers of Commerce Lane,
Fort, Mumbai – 400001
Customer Service and Product Inquiries:
1-800-TRY-FIRST (1-800-222-434 & 1-800-222-825)
Monday through Saturday 9:00 a.m. to 7:00 p.m. EST