Roger
Roger Uses, Dosage, Side Effects, Food Interaction and all others data.
Roger acts by competing for cholinergic receptors at the motor end-plate. This action is antagonized by acetylcholinesterase inhibitors, such as neostigmine and edrophonium. Roger acts by competitively binding to nicotinic cholinergic receptors. The binding of vecuronium decreases the opportunity for acetylcholine to bind to the nicotinic receptor at the postjunctional membrane of the myoneural junction. As a result, depolarization is prevented, calcium ions are not released and muscle contraction does not occur. Evidence also suggests that nondepolarizing agents can affect ACh release. It has been hypothesized that nondepolarzing agents bind to postjunctional ("curare") receptors and may therefore interfere with the sodium and potassium flux, which is responsible for depolarization and repolarization of the membranes involved in muscle contraction.
Neuromuscular blocking agents are drugs that cause skeletal muscle relaxation primarily by causing a decreased response to the neurotransmitter acetylcholine (ACh) at the myoneural (neuromuscular) junction of skeletal muscle. At that site, ACh normally produces electrical depolarization of the postjunctional membrane of motor end-plate, which leads to conduction of muscle action potential and subsequently induces skeletal muscle contraction. Neuromuscular agents are classified as depolarizing or nondepolarizing. Roger is a nondepolarizing neuromuscular blocking agent with a rapid to intermediate onset depending on dose and intermediate duration. Roger, like vecuronium is longer acting in infants than in children. However, unlike vecuronium, rocuronium retains the characteristics of an intermediate-acting NMBD in infants.
Trade Name | Roger |
Availability | Prescription only |
Generic | Rocuronium |
Rocuronium Other Names | Rocuronio, Rocuronium |
Related Drugs | fentanyl, lidocaine, ketamine, hyoscyamine, propofol, glycopyrrolate |
Type | Injection |
Formula | C32H53N2O4 |
Weight | Average: 529.7742 Monoisotopic: 529.400533194 |
Protein binding | Approximately 30% bound to human plasma proteins. |
Groups | Approved |
Therapeutic Class | Non depolarizing muscle relaxants |
Manufacturer | |
Available Country | India |
Last Updated: | September 19, 2023 at 7:00 am |
Uses
Roger is used -
- As an adjunct to general anesthesia to facilitate tracheal intubation during routine induction, and during rapid sequence induction when suxamethonium is contraused
- To provide skeletal muscle relaxation during surgery
- As an adjunct in the intensive care unit (ICU) to facilitate intubation and mechanical ventilation
Roger is also used to associated treatment for these conditions: Muscle fasciculation caused by succinylcholine, Curarization therapy, Neuromuscular blocking therapy, Facilitation of small bowel intubation therapy
How Roger works
Roger acts by competing for cholinergic receptors at the motor end-plate. This action is antagonized by acetylcholinesterase inhibitors, such as neostigmine and edrophonium. Roger acts by competitively binding to nicotinic cholinergic receptors. The binding of vecuronium decreases the opportunity for acetylcholine to bind to the nicotinic receptor at the postjunctional membrane of the myoneural junction. As a result, depolarization is prevented, calcium ions are not released and muscle contraction does not occur. Evidence also suggests that nondepolarizing agents can affect ACh release. It has been hypothesized that nondepolarzing agents bind to postjunctional ("curare") receptors and may therefore interfere with the sodium and potassium flux, which is responsible for depolarization and repolarization of the membranes involved in muscle contraction.
Dosage
Roger dosage
Dosage: Like other neuromuscular blocking agents, Roger should only be administered by, or under supervision of, experienced clinicians who are familiar with the action and use of these agents. The dosage of Roger should be individualized in each patient. The method of anesthesia and the expected duration of surgery, the method of sedation and the expected duration of mechanical ventilation, the possible interaction with other medicines that are administered concomitantly and the condition of the patient should be taken into account when determining the dose. The use of an appropriate neuromuscular monitoring technique is recommended for the evaluation of neuromuscular block and recovery. Inhalational anesthetics do potentiate the neuromuscular blocking effects of Roger. This potentiation, however, becomes clinically relevant in the course of anesthesia, when the volatile agents have reached the tissue concentrations required for this interaction. Consequently, adjustments with Roger should be made by administering smaller maintenance doses at less frequent intervals or by using lower infusion rates of Roger during long lasting procedures (longer than 1 hour) under inhalational anesthesia. In adult patients the following dosage recommendations may serve as a general guideline for tracheal intubation and muscle relaxation for short to long lasting surgical procedures, and for use in the intensive care unit.
Surgical Procedures:Tracheal Intubation: The standard intubating dose during routine anesthesia is 0.6mg Roger Bromide per kg body weight, after which adequate intubation conditions are established within 60 seconds in nearly all patients. A dose of 1.0mg Roger Bromide per kg body weight is recommended for facilitating tracheal intubation conditions during rapid sequence induction of anesthesia, after which adequate intubation conditions are also established within 60 seconds in nearly all patients. If a dose of 0.6mg Roger Bromide per kg body weight is used for rapid sequence induction of anesthesia, it is recommended to intubate the patient 90 seconds after administration of Roger Bromide. In patients undergoing Caesarean section it is recommended to only use a dose of 0.6mg Roger Bromide per kg body weight, since a 1.0mg/kg dose has not been investigated in this patient group.
Maintenance Dosing:The recommended maintenance dose is 0.15mg Roger Bromide per kg body weight; in the case of long-term inhalational anesthesia this should be reduced to 0.075-0.1mg Roger Bromide per kg body weight. The maintenance doses should best be given when twitch height has recovered to 25% of control twitch height, or when 2-3 responses to train of four stimulation are present.
Continuous Infusion:If Roger Bromide is administered by continuous infusion, it is recommended to give a loading dose of 0.6mg Roger Bromide per kg body weight and, when neuromuscular block starts to recover, to start administration by infusion. The infusion rate should be adjusted to maintain twitch response at 10% of control twitch height, or to maintain 1 to 2 responses to train of four stimulation. In adults under intravenous anesthesia, the infusion rate required to maintain neuromuscular block at this level ranges from 0.3-0.6mg/kg/hr and under inhalational anesthesia the infusion rate ranges from 0.3-0.4mg/kg/hr. Continuous monitoring of neuromuscular block is recommended since infusion rate requirements vary from patient to patient and with the anaesthetic method used.
Dosing in Paediatric Patients:Children (1-14 years) and infants (1-12 months) under halothane anesthesia manifest similar sensitivity to Roger Bromide as adults. Onset of action is faster in infants and children than in adults. Clinical duration is shorter in children than in adults. For continuous infusion in paediatrics, the infusion rates, with exception of children, are the same as for adults. For children higher infusion rates might be necessary. For children the same initial infusion rates as for adults are recommended and this should be adjusted to maintain twitch response at 10% of control twitch height or to maintain 1 or 2 responses to train of four stimulation during the procedure. There are insufficient data to support dose recommendations for the use of Roger Bromide in neonates (0-1 month). The experience with Roger Bromide in rapid sequence induction in paediatric patients is limited. Roger Bromide is therefore not recommended for facilitating tracheal intubation conditions during rapid sequence induction in paediatric patients.
Dosing in Geriatric patients and patients with Hepatic and/or Biliary tract disease and/or Renal Failure:The standard intubation dose for geriatric patients and patients with hepatic and/or biliary tract disease and/or renal failure during routine anesthesia is 0.6mg Roger Bromide per kg body weight. A dose of 0.6mg per kg body weight should be considered for rapid sequence induction of anesthesia in patients in which a prolonged duration of action is expected. Regardless of the anesthetic technique used, the recommended maintenance dose for these patients is 0.075-0.1mg Roger Bromide per kg body weight, and the recommended infusion rate is 0.3-0.4mg/kg/hr.
Dosing in Overweight and Obese Patients:When used in overweight or obese patients (defined as patients with a body weight of 30% or more above ideal body weight) doses should be reduced taking into account ideal body weight.
Intensive Care Procedures (Tracheal Intubation): For tracheal intubation, the same doses should be used as described above under surgical procedures.
Maintenance Dosing:The use of an initial loading dose of 0.6mg Roger Bromide per kg body weight is recommended, followed by a continuous infusion as soon as twitch height recovers to 10% or upon reappearance of 1 to 2 twitches to train of four stimulation. Dosage should always be titrated to effect in the individual patient. The recommended initial infusion rate for the maintenance of a neuromuscular block of 80-90% (1 to 2 twitches to TOF stimulation) in adult patients is 0.3-0.6mg/kg/hr during the first hour of administration, which will need to be decreased during the following 6-12 hours, according to the individual response. Thereafter, individual dose requirements remain relatively constant. A large between patient variability in hourly infusion rates has been found in controlled clinical studies, with mean hourly infusion rates ranging from 0.2-0.5mg/kg/hr depending on nature and extent of organ failure(s), concomitant medication and individual patient characteristics. To provide optimal individual patient control, monitoring of neuromuscular transmission is strongly recommended. Administration up to 7 days has been investigated.
Special Populations:Roger Bromide is not recommended for the facilitation of mechanical ventilation in the intensive care in paediatric and geriatric patients due to a lack of data on safety and efficacy.
Side Effects
In clinical trials, the most common adverse reactions (2%) are transient hypotension and hypertension. Other are:
- Anaphylaxis
- Residual paralysis
- Myopathy
- Increased pulmonary vascular resistance
Although very rare, severe anaphylactic reactions to neuromuscular blocking agents, including Roger Bromide, have been reported. Anaphylactic/anaphylactoid reactions are: bronchospasm, cardiovascular changes (e.g. hypotension, tachycardia, circulatory collapse - shock), and cutaneous changes (e.g. angioedema, urticaria). These reactions have, in some cases, been fatal. Due to the possible severity of these reactions, one should always assume they may occur and take the necessary precautions.
Since neuromuscular blocking agents are known to be capable of inducing histamine release both locally at the site of injection and systemically, the possible occurrence of itching and erythematosus reactions at the site of injection and/or generalized histaminoid (anaphylactoid) reactions (see also under Anaphylactic Reactions above) should always be taken into consideration when administering these agents. In clinical studies only a slight increase in mean plasma histamine levels has been observed following rapid bolus administration of 0.3 0.9mg/kg Roger Bromide.
Prolonged neuromuscular block: The most frequent adverse reaction to nondepolarizing blocking agents as a class consists of an extension of the agent's pharmacological action beyond the time period needed. This may vary from skeletal muscle weakness to profound and prolonged skeletal muscle paralysis resulting in respiratory insufficiency or apnoea.
Myopathy: Myopathy has been reported after the use of various neuromuscular blocking agents in the ICU in combination with corticosteroids.
Local injection site reactions: During rapid sequence induction of anesthesia, pain on injection has been reported, especially when the patient has not yet completely lost consciousness and particularly when propofol is used as the induction agent. In clinical studies, pain on injection has been noted in 16% of the patients who underwent rapid sequence induction of anesthesia with propofol and in less than 0.5% of the patients who underwent rapid sequence induction of anesthesia with fentanyl and thiopental.
Toxicity
No cases of significant accidental or intentional overdose have been reported. Overdosage with neuromuscular blocking agents may result in neuromuscular block beyond the time needed for surgery and anesthesia.
Precaution
Instructions for use/handling: Compatibility studies with the following infusion fluids have been performed. In nominal concentrations of 0.5mg/mL and 2.0mg/mL, Roger Bromide has been shown to be compatible with: 0.9% NaCl, 5% dextrose, 5% dextrose in saline, sterile water for injections, Lactated Ringers and Haemaccel. Administration should be commenced immediately after mixing, and should be completed within 24 hours. Unused solutions should be discarded.
For use/handling: If Roger Bromide is administered via the same infusion line that is also used for other medicines, it is important that this infusion line is adequately flushed (e.g. with 0.9% NaCl) between administration of Roger Bromide and medicines for which incompatibility with Roger Bromide has been demonstrated or for which compatibility with Roger Bromide has not been established.
Interaction
The following agents have been shown to influence the magnitude and/or duration of action of non-depolarizing neuromuscular blocking agents:
Effect of other agents on Roger Bromide-
Increased Effect: Halogenated volatile anesthetics potentiate the neuromuscular block of Roger Bromide. The effect only becomes apparent with maintenance dosing. Reversal of the block with anti-cholinesterase inhibitors could also be inhibited. Long-term concomitant use of corticosteroids and Roger Bromide in the ICU may result in prolonged duration of neuromuscular block or myopathy.Other drugs:
- Antibiotics: aminoglycoside, lincosamide and polypeptide antibiotics, acylamino-penicillin antibiotics.
- Diuretics, quinidine and its isomer quinine, magnesium salts, calcium channel blocking agents, lithium salts, local anaesthetics (lidocaine i.v., bupivacaine epidural) and acute administration of phenytoin
- Recurarization has been reported after post-operative administration of: aminoglycoside, lincosamide, polypeptide and acylamino-penicillin antibiotics, quinidine, quinine and magnesium.
Decreased Effect: Prior chronic administration of phenytoin or carbamazepine. Protease inhibitors (gabexate, ulinastatin)
Variable Effect: Administration of other non-depolarizing neuromuscular blocking agents in combination with Roger Bromide may produce attenuation or potentiation of the neuromuscular block, depending on the order of administration and the neuromuscular blocking agent used. Suxamethonium given after the administration of Roger Bromide may produce potentiation or attenuation of the neuromuscular blocking effect of Roger Bromide.
Effect of Roger Bromide on other drugs: Roger Bromide combined with lidocaine may result in a quicker onset of action of lidocaine.
Food Interaction
No interactions found.Roger Drug Interaction
Moderate: lorazepam, diltiazem, furosemide, metoclopramide, methylprednisolone, midazolamUnknown: aspirin, epinephrine, ipratropium, diphenhydramine, glucose, hydromorphone, insulin glargine, morphine, naloxone, acetaminophen, ketorolac, valproic acid, phytonadione, ondansetron
Roger Disease Interaction
Major: burns, electrolyte imbalance, histamine release, liver disease, myasthenia gravis, paresis, pulmonary impairModerate: cachexia, seizures, malignant hyperthermia
Volume of Distribution
- 0.3 L/kg [3 to <12 mos]
- 0.26 L/kg [1 to <3 yrs]
- 0.21 L/kg [3 to <8 yrs]
Elimination Route
Poorly absorbed from the GI tract.
Half Life
The rapid distribution half-life is 1-2 minutes and the slower distribution half-life is 14-18 minutes. Renal impairment has no net effect on half-life, however, half-life is almost doubled in patients with impaired liver function.
Clearance
- 0.25 L/kg/hr [Adults (Ages 27 to 58 years)]
- 0.21 L/kg/hr [Geriatrics (>=65 yrs)]
- 0.16 L/kg/hr [Normal ewnal and hepatice function]
- 0.13 L/kg/hr [Renal transplant patients]
- 0.13 L/kg/hr [Hepatic dysfunction patients]
- 0.35 +/- 0.08 L/kg/hr [Pediatric Patients 3 to <12 mos]
- 0.32 +/- 0.07 L/kg/hr [Pediatric Patients 1 to 3 yrs]
- 0.44 +/- 0.16 L/kg/hr [Pediatric Patients 3 to 8 yrs]
Elimination Route
Studies of distribution, metabolism, and excretion in cats and dogs indicate that rocuronium is eliminated primarily by the liver.
Pregnancy & Breastfeeding use
Pregnancy: For Roger Bromide, no clinical data on exposed pregnancies are available. Animal studies do not indicate direct or indirect harmful effects with respect to pregnancy, embryonal/foetal development, parturition or postnatal development. Caution should be exercised when prescribing Roger Bromide to pregnant women.
Caesarean section: In patients undergoing Caesarean section, Roger Bromide can be used as part of a rapid sequence induction technique, provided no intubation difficulties are anticipated and a sufficient dose of anesthetic agent is administered or following suxamethonium facilitated intubation. Roger Bromide, administered in doses of 0.6mg/kg, has been shown to be safe in parturient undergoing Caesarean section. Roger Bromide does not affect Apgar score, foetal muscle tone nor cardio-respiratory adaptation. From umbilical cord blood sampling it is apparent that only limited placental transfer of Roger Bromide occurs which does not lead to the observation of clinical adverse effects in the newborn.
Lactation: It is unknown whether Roger Bromide is excreted in human breast milk. Animal studies have shown insignificant levels of Roger Bromide in breast milk. Animal studies do not indicate direct or indirect harmful effects with respect to pregnancy, embryonal/foetal development, parturition or postnatal development. Roger Bromide should be given to lactating women only when the attending physician decides that the benefits outweigh the risks.
Contraindication
Hypersensitivity to Roger or to the Bromide ion or to any of the excipients.
Acute Overdose
In the event of overdosage and prolonged neuromuscular block, the patient should continue to receive ventilatory support and sedation. In this situation there are two options for the reversal of neuromuscular block:
Sugammadex can be used for reversal of intense (profound) and deep block. The dose of sugammadex to be administered depends of the level of neuromuscular block.
An acetylcholinesterase inhibitor (e.g. neostigmine, edrophonium, pyridostigmine), with appropriate vagolytic (e.g atropine) can be used at reappearance of T2 or at the first signs of clinical recovery and should be administered in adequate doses. When administration of an acetylcholinesterase inhibiting agent fails to reverse the neuromuscular effects of Roger Bromide, ventilation must be continued until spontaneous breathing is restored. Repeated dosage of an acetylcholinesterase inhibitor can be dangerous.
Storage Condition
Roger Bromide should be stored in the refrigerator at 2-8° C and not be frozen.
Innovators Monograph
You find simplified version here Roger
Roger contains Rocuronium see full prescribing information from innovator Roger Monograph, Roger MSDS, Roger FDA label
FAQ
What is Roger used for?
Roger is used with general anesthesia medicines for rapid sequence intubation and routine tracheal intubation.Roger is also used to help relax the muscles during surgery or mechanical ventilation.
How safe is Roger?
Roger is as safe and efficacious as vecuronium.
How does Roger work?
Roger works by blocking the signals between your nerves and your muscles.
What are the common side effects of Roger?
Common side effects of Roger are include:
- nausea,
- vomiting,
- swelling or discomfort at the injection site,
- sleepiness or lightheadedness,
- mild itching or skin rash, or.
- high or low blood pressure (hypertension or hypotension).
Is Roger safe during pregnancy?
Roger and the steroidal non-depolarizing muscle relaxant like vecuronium is mostly excreted with bile by hepatic metabolism and classified as the FDA pregnancy category B, and is widely used in general anesthesia of pregnant women.
Is Roger safe during breastfeeding?
Limited information on the use of Roger during breastfeeding indicates that no adverse infant effects occur. Because it is short acting, highly polar and poorly absorbed orally, it is not likely to reach the breastmilk in high concentration or to reach the bloodstream of the infant.
Is Roger a sedative?
Roger is vital to ensure that the patients who receive a muscle relaxant like Roger are adequately sedated to prevent the risk of awareness.
Is rocuronium a paralytic?
Roger a nondepolarizing paralytic agent, has pharmacokinetic characteristics that provide optimal intubation conditions in almost the same time as succinylcholine, as long as the dose administered is at least 1 mg/kg. For this reason, it has been proposed as an alternative paralytic agent when RSI is indicated.
How often can I take Roger?
Rapid sequence tracheal intubation– 0.6–1.2 mg/kg; Maintenance dosing– 0.1–0.2 mg/kg, repeat doses as needed; Continuous infusion– 10–12 mcg/kg/min.
How long can Roger be given?
After administration of 0.45 mg Roger bromide per kg body weight, acceptable intubation conditions are reached after 90 seconds.
Does Roger stop breathing?
Roger relaxes your throat so a breathing tube can be more easily inserted before the surgery.
Can Roger stop my heart?
Roger has been shown to be very cardiac stable and has no effects on heart rate or blood pressure.
Is Roger reversible?
Roger can't be reversed until after significant spontaneous recovery has occurred.
How long does Roger stay in my system?
Roger is metabolized in the liver with a half-life of 1.4—2.4 hours.
Who should not take Roger?
Tell your doctor if you have ever had a severe allergic reaction to any type of anesthesia.
What happens if I miss a dose?
Since Roger is usually given just for anesthesia, you are not likely to be on a dosing schedule.
What happens if I overdose of Roger?
Since Roger is given by a healthcare professional in a medical setting, an overdose is unlikely to occur.
Does Roger affect blood pressure?
The changes in heart rate and blood pressure were associated with the Roger infusion and were normalized after recovery from anaesthesia.
Does Roger cause urinary retention?
Administration of a muscle relaxant for anesthesia was additionally associated with urinary retention .
Does Roger affect heart rate?
Roger bolus affected the heart rate statistically significant in the first 5 minutes after the administration.