1) 325 mg acetaminophen with 5 mg, 7.5 mg or 10 mg hydrocodone
2) 400 mg acetaminophen with 5 mg, 7.5 mg or 10 mg hydrocodone
3) 500 mg acetaminophen with 2.5 mg, 5 mg, 7.5 mg or 10 mg hydrocodone
4) 650 mg acetaminophen with 7.5 mg or 10 mg hydrocodone
5) 660 mg acetaminophen with 10 mg hydrocodone
6) 750 mg acetaminophen with 7.5 mg or 10 mg hydrocodone

1) 163 mg acetaminophen and 5 mg hydrocodone per 7.5 mL
2) 167 mg acetaminophen and 2.5 mg hydrocodone per 5 mL
3) 325 mg acetaminophen and 7.5 mg hydrocodone per 15 mL
4) 325 mg acetaminophen and 10 mg hydrocodone per 15 mL
5) 500 mg acetaminophen and 7.5 mg hydrocodone per 15 mL

1) 200 mg ibuprofen with 2.5 mg, 5 mg, 7.5 mg or 10 mg hydrocodone

1) TUSSIONEX(R): A Pennkinetic system is an extended-release drug delivery system. It contains a combination of an ion-exchange polymer matrix with a diffusion rate-limiting permeable coating. This system controls the release of hydrocodone. The ion-exchange polymer system is also used to prolong the release of chlorpheniramine (Prod Info Tussionex(R) Pennkinetic(R) oral extended-release suspension, 2011).

a) IMMEDIATE RELEASE: Observation for at least 4 hours, to ensure that peak plasma levels have been reached and there has been sufficient time for symptoms to develop. Patients who are treated with naloxone should be observed for 4 to 6 hours after the last dose, for recurrent CNS depression or acute lung injury.
b) EXTENDED RELEASE: Observe for at least 7 to 12 hours (at therapeutic doses, Tmax for extended-release hydrocodone is 5 hours; for combination chlorpheniramine products: Tmax is 3.4 hours). Peak concentrations are expected to be delayed after overdose, and symptoms may be delayed or prolonged. Patients who develop even moderate opioid effects or who require naloxone after ingestion of an extended-release product should be admitted.

a) CHRONIC ABUSE: Bilateral hearing loss, developing over several weeks, has been reported following chronic abuse (months to years) of hydrocodone/acetaminophen and propoxyphene. This is a rare adverse effect, and the mechanism is unclear. In 2 patients, vestibular function appeared to be spared, despite profound hearing loss. Audiometric testing suggested that the sensory end organ was the site of damage. Cochlear implantation was required in one patient to restore functional hearing (Oh et al, 2000).
b) HYDROCODONE/ACETAMINOPHEN: Five patients (age range, 28 to 57 years) with a history of chronic hydrocodone use (dose range, 10 to 300 mg/daily for months to years), developed rapidly progressive sensorineural hearing loss without vestibular symptoms. Initially, 3 patients had asymmetric hearing loss, but their symptoms progressed to profound loss within a few months. Three patients had hepatitis C. Although interferon therapy for hepatitis C has been associated with sudden hearing loss, only one patient was treated with interferon. Despite steroid therapy, no improvement in hearing were observed. All patients underwent successful cochlear implantation (Ho et al, 2007).

a) Hypotension may develop with severe overdose (Prod Info hydrocodone bitartrate and acetaminophen oral solution, 2008).

a) Respiratory depression is typical after overdose, and may progress to respiratory failure (Prod Info hydrocodone bitartrate and acetaminophen oral solution, 2008).

a) CNS depression is typical after overdose and may progress to coma (Prod Info hydrocodone bitartrate and acetaminophen oral solution, 2008).

a) Nausea and vomiting are common adverse effects with therapeutic use (Prod Info hydrocodone bitartrate and acetaminophen oral solution, 2008).

a) Constipation is a common adverse effect with therapeutic use (Prod Info hydrocodone bitartrate and acetaminophen oral solution, 2008).

a) Administration of hydrocodone at 15 times the adult human dose of 100 mg/day on a mg/m(2) basis in animals during organogenesis resulted in increased malformations, including umbilical hernia and irregularly shaped bones. Fetal skeletal maturation delays, including reduced ossification of hyoid bodies and xiphoid bones, were reported following hydrocodone doses 15 times the adult human dose (Prod Info ZOHYDRO(R) ER extended-release capsules, 2015).
b) During animal studies, there was no evidence of embryotoxicity or teratogenicity in animals following administration of oral hydrocodone at doses approximately 0.1- and 0.3-fold the recommended human dose of 120 mg/day during organogenesis. Reduced fetal body weights and delayed ossification were also reported. Decreased offspring viability, offspring survival indices, litter size, and offspring body weight were reported following administration of oral hydrocodone 30 mg/kg/day during gestation and lactation in pregnant animals (Prod Info HYSINGLA ER oral extended-release tablets, 2014)
c) When administered at 700 times the human dose, hydrocodone was teratogenic in animals (Prod Info TussiCaps(R) extended-release capsules, 2014; Prod Info Tussionex(R) Pennkinetic(R) oral extended-release suspension, 2014).

a) Animal reproduction studies have not yet been conducted with the guaifenesin/hydrocodone bitartrate/pseudoephedrine hydrochloride combination product. In animal studies with the individual ingredients, teratogenic effects were reported with hydrocodone at doses approximately 35 times the maximum recommended human daily dose (MRHDD). Increased resorptions and decreased fetal weights have been reported with administration of codeine, an opiate related to hydrocodone, at doses approximately 50 times the MRHDD (Prod Info HYCOFENIX oral solution, 2015).

a) No human studies regarding the use of ibuprofen/hydrocodone bitartrate during pregnancy have been published. Studies conducted in animals did not result in any teratogenic effects at 10 times the maximum human dose based on body weight. Additional animal studies showed an increase in the percentage of major and minor abnormalities, such as nonossified metacarpals, at 5.7 times the maximum human dose based on body weight (Prod Info REPREXAIN(TM) oral film coated tablets, 2014).

1) ACETAMINOPHEN/HYDROCODONE (Prod Info NORCO(R) 10/325 oral tablets, 2014)
2) CHLORPHENIRAMINE/HYDROCODONE (Prod Info TussiCaps(R) extended-release capsules, 2014; Prod Info VITUZ(R) oral solution, 2013; Prod Info Tussionex(R) Pennkinetic(R) oral extended-release suspension, 2014)
3) CHLORPHENIRAMINE/HYDROCODONE/PSEUDOEPHEDRINE (Prod Info hydrocodone bitartrate chlorpheniramine maleate pseudoephedrine HCl oral solution, 2014)
4) HYDROCODONE (Prod Info ZOHYDRO(R) ER extended-release capsules, 2015; Prod Info HYSINGLA ER oral extended-release tablets, 2014)
5) HYDROCODONE BITARTRATE/GUAIFENESIN (Prod Info OBREDON oral solution, 2014)
6) HYDROCODONE/IBUPROFEN (Prod Info REPREXAIN(TM) oral film coated tablets, 2014)
7) HYDROCODONE/PSEUDOEPHEDRINE (Prod Info REZIRA(R) oral solution, 2014)
8) HYDROCODONE/GUAIFENESIN/PSEUDOEPHEDRINE (Prod Info HYCOFENIX oral solution, 2015)

a) Use during pregnancy only if the potential maternal benefit outweighs the potential fetal risk. If hydrocodone is used shortly before delivery, especially in high doses, monitor the infant for signs and symptoms of respiratory depression (Prod Info HYCOFENIX oral solution, 2015).

a) HYDROCODONE/IBUPROFEN

a) The larger the dose used and the closer to delivery, the greater the possibility of respiratory depression in the infant (Prod Info NORCO(R) 10/325 oral tablets, 2014; Prod Info Hydrocodone Bitartrate and Acetaminophen Oral Solution, 2008).

a) There are no adequate and well-controlled studies of hydrocodone use during pregnancy. Hydrocodone is known to cross the placental barrier and should not be used during labor and/or delivery, as opioids may temporarily reduce the strength, duration, and frequency of uterine contractions, which can prolong labor. The regular use of opioid analgesics during pregnancy has been associated with neonatal respiratory depression, physical dependence, and potentially life-threatening neonatal withdrawal syndrome. It is recommended that hydrocodone be used during pregnancy only if the potential maternal benefit outweighs the potential risk to the fetus. Advise the pregnant woman of the risk of neonatal withdrawal syndrome if prolonged treatment is required. Monitor and manage neonates for opioid withdrawal syndrome (ie, hyperactivity, abnormal sleep pattern, high-pitched cry, irritability, vomiting, diarrhea, tremors, rigidity, seizures, and lack of weight gain). The onset, duration, and severity of neonatal opioid syndrome varies based on the agent, its dose and duration, and its rate of elimination by the newborn (Prod Info ZOHYDRO(R) ER extended-release capsules, 2015; Prod Info HYSINGLA ER oral extended-release tablets, 2014; Prod Info OBREDON oral solution, 2014).

a) The results from the Collaborative Perinatal Project indicated that the frequency of congenital anomalies was no greater than expected among the infants of 60 women who were treated with hydrocodone anytime during pregnancy. Twelve of these pregnancies were exposed during the first four months of gestation (Heinonen et al, 1977). There was no significant increase in the incidence of congenital malformations among the infants born to women who contacted a teratology information service regarding first-trimester exposure to hydrocodone, there was no significant increase in the incidence of congenital malformations (Schick et al, 1996).

a) RABBITS, RATS: Hydrocodone bitartrate doses of greater than or equal to 25 mg/kg/day (2 times the adult human dose of 100 mg/kg/day on a mg/m(2) basis) were associated with reduced rabbit fetal weights. Lower rat pup weights and more stillborn and postpartum rat pup deaths occurred with exposure during gestation and lactation to hydrocodone bitartrate doses of 10 and 25 mg/kg/day (1 and 2.4 times the adult human dose of 100 mg/day on a mg/m(2) basis). With exposures of approximately 2.4 times the adult human dose, male pups weighed less, ate less, and gained less weight. Rat pups nursed less when exposed to doses approximately 2.4 times the human dose (Prod Info ZOHYDRO(R) ER extended-release capsules, 2015).
b) RATS, RABBITS: During animal studies, there was no evidence of embryotoxicity or teratogenicity in rats and rabbits following administration of oral hydrocodone at doses up to 30 mg/kg/day (approximately 0.1- and 0.3-fold the recommended human dose of 120 mg/day) during organogenesis. Reduced fetal body weights and delayed ossification were reported in rats at hydrocodone doses of 30 mg/kg/day. Reduced fetal body weights were reported in rabbits at hydrocodone doses of 30 mg/kg/day. Decreased pup viability, pup survival indices, litter size, and pup body weight were reported following administration of oral hydrocodone 30 mg/kg/day during gestation and lactation in pregnant rats .(Prod Info HYSINGLA ER oral extended-release tablets, 2014)

a) Lower rat pup weights and more stillborn and postpartum rat pup deaths occurred with exposure during gestation and lactation to hydrocodone bitartrate doses between 1 and 2.4 times the adult human dose. Rat pups nursed less when exposed to doses approximately 2.4 times the human dose (Prod Info ZOHYDRO(R) ER extended-release capsules, 2015).

a) RATS: Reduced pregnancy rates were seen in female rats dosed with oral hydrocodone bitartrate in doses approximately 2 to 10 times the adult human dose on a mg/m(2) basis for up to 28 days before cohabitation until gestation day 7. Embryonic development was normal in rats that became pregnant as doses approximately 2 times the adult human dose (Prod Info ZOHYDRO(R) ER extended-release capsules, 2015).
b) RATS: Reproductive organs in male rats weighed less following administration of oral hydrocodone bitartrate in doses approximately 2 to 10 times the adult human dose on a mg/m(2) basis for up to 28 days before cohabitation until 2 to 3 weeks after cohabitation (necropsy). Reproductive function was not affected (Prod Info ZOHYDRO(R) ER extended-release capsules, 2015).

1) Patients should be observed for return of respiratory depression and resedation after naloxone administration; more than one dose may be required (Watson et al, 1998). The duration of action for naloxone is approximately 20 to 90 minutes, depending on the dose, route and the opioid agonist ingested (Howland, 2006).

a) This dose can also be given intramuscularly or subcutaneously in the absence of intravenous access (Howland & Nelson, 2011; Prod Info naloxone HCl IV, IM, subcutaneous injection solution, 2008; Maio et al, 1987; Wanger et al, 1998).

a) Single doses of up to 24 milligrams have been given without adverse effect (Evans et al, 1973).

a) OPIOID DEPENDENT PATIENTS: The goal of naloxone therapy is to reverse respiratory depression without precipitating significant withdrawal. Starting doses of naloxone 0.04 mg IV, or 0.001 mg/kg, have been suggested as appropriate for opioid-dependent patients without severe respiratory depression (Howland & Nelson, 2011). If necessary the dose may be repeated or increased gradually until the desired response is achieved (adequate respirations, ability to protect airway, responds to stimulation but no evidence of withdrawal) (Howland & Nelson, 2011). In the presence of opioid dependence, withdrawal symptoms typically appear within minutes of naloxone administration and subside in about 2 hours. The severity and duration of the withdrawal syndrome are dependant upon the naloxone dose and the degree and type of dependence.(Prod Info naloxone HCl IV, IM, subcutaneous injection solution, 2008)
b) PRECAUTION should be taken in the presence of a mixed overdose of a sympathomimetic with an opioid. Administration of naloxone may provoke serious sympathomimetic toxicity by removing the protective opioid-mediated CNS depressant effects. Arrhythmogenic effects of naloxone may also be potentiated in the presence of severe hyperkalemia (McCann et al, 2002).

a) LESS THAN 5 YEARS OF AGE OR LESS THAN 20 KG: 0.1 mg/kg IV/intraosseous/IM/subcutaneously maximum dose 2 mg; may repeat dose every 2 to 5 minutes until symptoms improve (Kleinman et al, 2010; Hegenbarth & American Academy of Pediatrics Committee on Drugs, 2008)
b) 5 YEARS OF AGE OR OLDER OR GREATER THAN 20 KG: 2 mg IV/intraosseous/IM/subcutaneouslymay repeat dose every 2 to 5 minutes until symptoms improve (Kleinman et al, 2010; Hegenbarth & American Academy of Pediatrics Committee on Drugs, 2008; Krauss & Green, 2006). Although naloxone may be given via the endotracheal tube for pediatric resuscitation, optimal doses are unknown. Some experts have recommended using 2 to 3 times the IV dose (Kleinman et al, 2010)
c) AVOIDANCE OF OPIOID WITHDRAWAL: In cases of known or suspected chronic opioid therapy, a lower dose of 0.01 mg/kg may be considered and titrated to effect to avoid withdrawal: INITIAL DOSE: 0.01 mg/kg body weight given IV. If this does not result in clinical improvement, an additional dose of 0.1 mg/kg body weight may be given. It may be given by the IM or subQ route if the IV route is not available (Prod Info naloxone HCl IV, IM, subcutaneous injection solution, 2008)

a) The American Academy of Pediatrics recommends a neonatal dose of 0.1 mg/kg IV or intratracheally from birth until age 5 years or 20 kilograms of body weight (AAP, 1989; Kleinman et al, 2010).
b) Smaller doses (10 to 30 mcg/kg IV) have been successful in the setting of exposure via maternal administration of narcotics or administration to neonates in therapeutic doses for anesthesia (Wiener et al, 1977; Welles et al, 1984; Fischer & Cook, 1974; Brice et al, 1979).
c) POTENTIAL OF WITHDRAWAL: The risk of precipitating withdrawal in an addicted neonate should be considered. Withdrawal seizures have been provoked in infants from opioid-abusing mothers when the infants were given naloxone at birth to stimulate breathing (Gibbs et al, 1989).
d) In cases of inadvertent administration of an opioid overdose to a neonate, larger doses may be required. In one case of oral morphine intoxication, 0.16 milligram/kilogram/hour was required for 5 days (Tenenbein, 1984).

a) If intravenous access cannot be rapidly established, naloxone can be administered via subcutaneous or intramuscular injection, intranasally, or via inhaled nebulization in patients with spontaneous respirations.
b) INTRAMUSCULAR/SUBCUTANEOUS ROUTES: If an intravenous line cannot be secured due to hypoperfusion or lack of adequate veins then naloxone can be administered by other routes.
c) The intramuscular or subcutaneous routes are effective if hypoperfusion is not present (Prod Info naloxone HCl IV, IM, subcutaneous injection solution, 2008). The delay required to establish an IV, offsets the slower rate of subcutaneous absorption (Wanger et al, 1998).
d) Naloxone Evzio(TM) is a hand-held autoinjector intended for the emergency treatment of known or suspected opioid overdose. The autoinjector is equipped with an electronic voice instruction system to assist caregivers with administration. It is available as 0.4 mg/0.4 mL solution for injection in a pre-filled auto-injector (Prod Info EVZIO(TM) injection solution, 2014).
e) INTRANASAL ROUTE: Intranasal naloxone has been shown to be effective in opioid overdose; bioavailability appears similar to the intravenous route (Kelly & Koutsogiannis, 2002). Based on several case series of patients with suspected opiate overdose, the average response time of 3.4 minutes was observed using a formulation of 1 mg/mL/nostril by a mucosal atomization device (Kerr et al, 2009; Kelly & Koutsogiannis, 2002). However, a young adult who intentionally masticated two 25 mcg fentanyl patches and developed agonal respirations (6 breaths per minute), decreased mental status and mitotic pupils did not respond to intranasal naloxone (1 mg in each nostril) administered by paramedics. After 11 minutes, paramedics placed an IV and administered 1 mg of IV naloxone; respirations normalized and mental status improved. Upon admission, 2 additional doses of naloxone 0.4 mg IV were needed. The patient was monitored overnight and discharged the following day without sequelae. Its suggested that intranasal administration can lead to unpredictable absorption (Zuckerman et al, 2014).
f) NEBULIZED ROUTE: DOSE: A suggested dose is 2 mg naloxone with 3 mL of normal saline for suspected opioid overdose in patients with some spontaneous respirations (Weber et al, 2012).
g) ENDOTRACHEAL ROUTE: Endotracheal administration of naloxone can be effective(Tandberg & Abercrombie, 1982), optimum dose unknown but 2 to 3 times the intravenous dose had been recommended by some (Kleinman et al, 2010).

a) A continuous infusion of naloxone may be employed in circumstances of opioid overdose with long acting opioids (Howland & Nelson, 2011; Redfern, 1983).
b) The patient is given an initial dose of IV naloxone to achieve reversal of opioid effects and is then started on a continuous infusion to maintain this state of antagonism.
c) DOSE: Utilize two-thirds of the initial naloxone bolus on an hourly basis (Howland & Nelson, 2011; Mofenson & Caraccio, 1987). For an adult, prepare the dose by multiplying the effective bolus dose by 6.6, and add that amount to 1000 mL and administer at an IV infusion rate of 100 mL/hour (Howland & Nelson, 2011).
d) Dose and duration of action of naloxone therapy varies based on several factors; continuous monitoring should be used to prevent withdrawal induction (Howland & Nelson, 2011).
e) Observe patients for evidence of CNS or respiratory depression for at least 2 hours after discontinuing the infusion (Howland & Nelson, 2011).

a) In general, the smallest dose of naloxone required to reverse life threatening opioid effects should be used in pregnant women. Naloxone detoxification of opioid addicts during pregnancy may result in fetal distress, meconium staining and fetal death (Zuspan et al, 1975). When naloxone is used during pregnancy, opioid abstinence may be provoked in utero (Umans & Szeto, 1985).

a) Consider administration of activated charcoal after a potentially toxic ingestion (Chyka et al, 2005). Administer charcoal as an aqueous slurry; most effective when administered within one hour of ingestion.

a) Use a minimum of 240 milliliters of water per 30 grams charcoal (FDA, 1985). Optimum dose not established; usual dose is 25 to 100 grams in adults and adolescents; 25 to 50 grams in children aged 1 to 12 years (or 0.5 to 1 gram/kilogram body weight) ; and 0.5 to 1 gram/kilogram in infants up to 1 year old (Chyka et al, 2005).
b) ADVERSE EFFECTS/CONTRAINDICATIONS

a) Naloxone, a pure opioid antagonist, reverses coma and respiratory depression from all opioids. It has no agonist effects and can safely be employed in a mixed or unknown overdose where it can be diagnostic and therapeutic without risk to the patient.
b) Indicated in patients with mental status and respiratory depression possibly related to opioid overdose (Hoffman et al, 1991).
c) DOSE: The initial dose of naloxone should be low (0.04 to 0.4 mg) with a repeat dosing as needed or dose escalation to 2 mg as indicated due to the risk of opioid withdrawal in an opioid-tolerant individual; if delay in obtaining venous access, may administer subcutaneously, intramuscularly, intranasally, via nebulizer (in a patient with spontaneous respirations) or via an endotracheal tube (Vanden Hoek,TL,et al).
d) Recurrence of opioid toxicity has been reported to occur in approximately 1 out of 3 adult ED opioid overdose cases after a response to naloxone. Recurrences are more likely with long-acting opioids (Watson et al, 1998a)

a) INITIAL BOLUS DOSE: Because naloxone can produce opioid withdrawal in an opioid-dependent individual leading to severe agitation and hypertension, the initial dose of naloxone should be low (0.04 to 0.4 mg) with a repeat dosing as needed or dose escalation to 2 mg as indicated (Vanden Hoek,TL,et al).
b) Larger doses may be needed to reverse opioid effects. Generally, if no response is observed after 8 to 10 milligrams has been administered, the diagnosis of opioid-induced respiratory depression should be questioned (Howland & Nelson, 2011; Prod Info naloxone HCl IV, IM, subcutaneous injection solution, 2008). Very large doses of naloxone (10 milligrams or more) may be required to reverse the effects of a buprenorphine overdose (Gal, 1989; Jasinski et al, 1978).
c) REPEAT DOSE: The effective naloxone dose may have to be repeated every 20 to 90 minutes due to the much longer duration of action of the opioid agonist used(Howland & Nelson, 2011).
d) NALOXONE DOSE/CHILDREN
e) NALOXONE DOSE/NEONATE
f) NALOXONE/ALTERNATE ROUTES
g) NALOXONE/CONTINUOUS INFUSION METHOD
h) NALOXONE/PREGNANCY

a) To minimize barotrauma and other complications, use the lowest amount of PEEP possible while maintaining adequate oxygenation. Use of smaller tidal volumes (6 mL/kg) and lower plateau pressures (30 cm water or less) has been associated with decreased mortality and more rapid weaning from mechanical ventilation in patients with ARDS (Brower et al, 2000). More treatment information may be obtained from ARDS Clinical Network website, NIH NHLBI ARDS Clinical Network Mechanical Ventilation Protocol Summary, http://www.ardsnet.org/node/77791 (NHLBI ARDS Network, 2008)

a) ADULT DOSE: Initially 5 to 10 mg IV, OR 0.15 mg/kg IV up to 10 mg per dose up to a rate of 5 mg/minute; may be repeated every 5 to 20 minutes as needed (Brophy et al, 2012; Prod Info diazepam IM, IV injection, 2008; Manno, 2003).
b) PEDIATRIC DOSE: 0.1 to 0.5 mg/kg IV over 2 to 5 minutes; up to a maximum of 10 mg/dose. May repeat dose every 5 to 10 minutes as needed (Loddenkemper & Goodkin, 2011; Hegenbarth & American Academy of Pediatrics Committee on Drugs, 2008).
c) Monitor for hypotension, respiratory depression, and the need for endotracheal intubation. Consider a second agent if seizures persist or recur after repeated doses of diazepam .

a) DIAZEPAM may be given rectally or intramuscularly (Manno, 2003). RECTAL DOSE: CHILD: Greater than 12 years: 0.2 mg/kg; 6 to 11 years: 0.3 mg/kg; 2 to 5 years: 0.5 mg/kg (Brophy et al, 2012).
b) MIDAZOLAM has been used intramuscularly and intranasally, particularly in children when intravenous access has not been established. ADULT DOSE: 0.2 mg/kg IM, up to a maximum dose of 10 mg (Brophy et al, 2012). PEDIATRIC DOSE: INTRAMUSCULAR: 0.2 mg/kg IM, up to a maximum dose of 7 mg (Chamberlain et al, 1997) OR 10 mg IM (weight greater than 40 kg); 5 mg IM (weight 13 to 40 kg); INTRANASAL: 0.2 to 0.5 mg/kg up to a maximum of 10 mg/dose (Loddenkemper & Goodkin, 2011; Brophy et al, 2012). BUCCAL midazolam, 10 mg, has been used in adolescents and older children (5-years-old or more) to control seizures when intravenous access was not established (Scott et al, 1999).

a) MAXIMUM RATE: The rate of intravenous administration of lorazepam should not exceed 2 mg/min (Brophy et al, 2012; Prod Info lorazepam IM, IV injection, 2008).
b) ADULT DOSE: 2 to 4 mg IV initially; repeat every 5 to 10 minutes as needed, if seizures persist (Manno, 2003; Brophy et al, 2012).
c) PEDIATRIC DOSE: 0.05 to 0.1 mg/kg IV over 2 to 5 minutes, up to a maximum of 4 mg/dose; may repeat in 5 to 15 minutes as needed, if seizures continue (Brophy et al, 2012; Loddenkemper & Goodkin, 2011; Hegenbarth & American Academy of Pediatrics Committee on Drugs, 2008; Sreenath et al, 2009; Chin et al, 2008).

a) ADULT LOADING DOSE: 20 mg/kg IV at an infusion rate of 50 to 100 mg/minute IV. An additional 5 to 10 mg/kg dose may be given 10 minutes after loading infusion if seizures persist or recur (Brophy et al, 2012).
b) Patients receiving high doses will require endotracheal intubation and may require vasopressor support (Brophy et al, 2012).
c) PEDIATRIC LOADING DOSE: 20 mg/kg may be given as single or divided application (2 mg/kg/minute in children weighing less than 40 kg up to 100 mg/min in children weighing greater than 40 kg). A plasma concentration of about 20 mg/L will be achieved by this dose (Loddenkemper & Goodkin, 2011).
d) REPEAT PEDIATRIC DOSE: Repeat doses of 5 to 20 mg/kg may be given every 15 to 20 minutes if seizures persist, with cardiorespiratory monitoring (Loddenkemper & Goodkin, 2011).
e) MONITOR: For hypotension, respiratory depression, and the need for endotracheal intubation (Loddenkemper & Goodkin, 2011; Manno, 2003).
f) SERUM CONCENTRATION MONITORING: Monitor serum concentrations over the next 12 to 24 hours. Therapeutic serum concentrations of phenobarbital range from 10 to 40 mcg/mL, although the optimal plasma concentration for some individuals may vary outside this range (Hvidberg & Dam, 1976; Choonara & Rane, 1990; AMA Department of Drugs, 1992).

a) If seizures persist after phenobarbital, propofol or pentobarbital infusion, or neuromuscular paralysis with general anesthesia (isoflurane) and continuous EEG monitoring should be considered (Manno, 2003). Other anticonvulsants can be considered (eg, valproate sodium, levetiracetam, lacosamide, topiramate) if seizures persist or recur; however, there is very little data regarding their use in toxin induced seizures, controlled trials are not available to define the optimal dosage ranges for these agents in status epilepticus (Brophy et al, 2012):

a) Infuse 10 to 20 milliliters/kilogram of isotonic fluid and keep the patient supine. If hypotension persists, administer dopamine or norepinephrine. Consider central venous pressure monitoring to guide further fluid therapy.

a) DOSE: Begin at 5 micrograms per kilogram per minute progressing in 5 micrograms per kilogram per minute increments as needed (Prod Info dopamine hcl, 5% dextrose IV injection, 2004). If hypotension persists, dopamine may need to be discontinued and a more potent vasoconstrictor (eg, norepinephrine) should be considered (Prod Info dopamine hcl, 5% dextrose IV injection, 2004).
b) CAUTION: If ventricular dysrhythmias occur, decrease rate of administration (Prod Info dopamine hcl, 5% dextrose IV injection, 2004). Extravasation may cause local tissue necrosis, administration through a central venous catheter is preferred (Prod Info dopamine hcl, 5% dextrose IV injection, 2004).

a) PREPARATION: 4 milligrams (1 amp) added to 1000 milliliters of diluent provides a concentration of 4 micrograms/milliliter of norepinephrine base. Norepinephrine bitartrate should be mixed in dextrose solutions (dextrose 5% in water, dextrose 5% in saline) since dextrose-containing solutions protect against excessive oxidation and subsequent potency loss. Administration in saline alone is not recommended (Prod Info norepinephrine bitartrate injection, 2005).
b) DOSE

a) HYSINGLA ER: OPIOID-NAIVE PATIENTS: Initial, 20 mg orally every 24 hours. Gradually adjust in increments of 10 to 20 mg every 3 to 5 days until adequate response is achieved (Prod Info HYSINGLA ER oral extended-release tablets, 2014)
b) ZOHYDRO ER: OPIOID-NAIVE PATIENTS: Initial, 10 mg orally every 12 hours. Gradually titrate in increments of 10 mg every 12 hours every 3 to 7 days until adequate response is achieved (Prod Info Zohydro(TM) ER oral extended-release capsules, 2013).
c) Hydrocodone extended-release formulations should be swallowed whole and should not be crushed, chewed, or dissolved (Prod Info HYSINGLA ER oral extended-release tablets, 2014; Prod Info Zohydro(TM) ER oral extended-release capsules, 2013).

a) 11.25 mL (hydrocodone bitartrate 7.5 mg/acetaminophen 225 mg) orally every 4 to 6 hours as needed for pain; MAX 6 doses (67.5 mL) per day (hydrocodone 45 mg/acetaminophen 1350 mg) (Prod Info LORTAB(R) ELIXIR oral solution, 2014)

a) 15 mL (hydrocodone 7.5 mg/acetaminophen 325 mg) every 4 to 6 hours; MAX, 6 doses (90 mL) in 24 hours (Prod Info HYCET oral syrup, 2013; Prod Info hydrocodone bitartrate and acetaminophen oral solution, 2008)

a) Hydrocodone 5 mg/acetaminophen 300 mg: 1 or 2 tablets every 4 to 6 hours as needed; MAX, 8 tablets (40 mg hydrocodone) in 24 hours(Prod Info VICODIN HP(R) oral tablets, 2014)
b) Hydrocodone 7.5 mg/acetaminophen 300 mg: 1 tablet every 4 to 6 hours as needed; MAX, 6 tablets (45 mg hydrocodone) in 24 hours(Prod Info VICODIN HP(R) oral tablets, 2014)
c) Hydrocodone 10 mg/acetaminophen 300 mg: 1 tablet every 4 to 6 hours as needed; MAX 6 tablets (60 mg hydrocodone) in 24 hours(Prod Info VICODIN HP(R) oral tablets, 2014)

a) 5 mL (hydrocodone bitartrate 5 mg/chlorpheniramine maleate 4 mg) orally every 4 to 6 hours as needed; MAX, 4 doses (20 mL) in 24 hours (Prod Info VITUZ(R) oral solution, 2013).

a) 1 full-strength capsule (hydrocodone polistirex equivalent to 10 mg of hydrocodone bitartrate and chlorpheniramine polistirex equivalent to 8 mg of chlorpheniramine maleate) every 12 hours; MAX: 2 capsules in 24 hours (Prod Info TussiCaps(R) extended-release capsules, 2014)

a) 5 mL (equivalent to hydrocodone bitartrate 10 mg/chlorpheniramine maleate 8 mg) orally every 12 hours; MAX 2 doses (10 mL) orally in 24 hours (Prod Info hydrocodone polistirex chlorpheniramine polistirex oral extended-release suspension, 2014).

a) 5 mL (hydrocodone 5 mg/chlorpheniramine 4 mg/pseudoephedrine 60 mg) orally every 4 to 6 hours as needed; MAX, 4 doses (20 mL) in 24 hours (Prod Info hydrocodone bitartrate chlorpheniramine maleate pseudoephedrine HCl oral solution, 2014)

a) 10 mL orally every 4 to 6 hours; MAX: 6 doses (60 mL) in 24 hours (Prod Info OBREDON oral solution, 2014)

a) 5 mL (hydrocodone 5 mg/homatropine 1.5 mg) orally every 4 to 6 hours as needed; MAX, 6 doses (30 mL) in 24 hours (Prod Info hydrocodone bitartrate homatropine methylbromide oral syrup, 2014)

a) 1 tablet (hydrocodone 5 mg/homatropine 1.5 mg) orally every 4 to 6 hours, as needed; MAX, 6 tablets (hydrocodone 30 mg/homatropine 9 mg) in 24 hours (Prod Info hydrocodone bitartrate homatropine methylbromide oral tablets, 2014)

a) 1 tablet (hydrocodone 2.5 mg, 5 mg, or 10 mg/ibuprofen 200 mg) orally every 4 to 6 hours as needed, for up to 10 days; MAX, 5 tablets in 24 hours (Prod Info REPREXAIN(TM) oral film coated tablets, 2013).

a) 5 mL (hydrocodone bitartrate 5 mg/pseudoephedrine 60 mg) orally every 4 to 6 hours as needed; MAX, 4 doses (20 mL) in 24 hours (Prod Info REZIRA(TM) oral solution, 2011)

a) The safety and efficacy in children below the age of 2 years have not been established (Prod Info LORTAB(R) ELIXIR oral solution, 2014).
b) Usual dose: 0.2 mL/kg (hydrocodone bitartrate 0.135 mg/acetaminophen 4 mg per kg) of solution orally every 4 to 6 hours as needed for pain; dose based on weight is preferred dosing method (see doses below) (Prod Info LORTAB(R) ELIXIR oral solution, 2014):

a) The safety and efficacy in children below the age of 2 years have not been established (Prod Info HYCET oral syrup, 2013).
b) Usual dose: 0.27 mL/kg (hydrocodone bitartrate 0.135 mg/acetaminophen 5.85 mg/kg) of solution orally every 4 to 6 hours as needed for pain; dose based on weight is the preferred dosing method (see doses below) (Prod Info LORTAB(R) ELIXIR oral solution, 2014):

a) UNDER 6 YEARS: Contraindicated (Prod Info TussiCaps(R) extended-release capsules, 2014).
b) 6 TO 11 YEARS: 1 half-strength capsule (hydrocodone polistirex equivalent to 5 mg of hydrocodone bitartrate and chlorpheniramine polistirex equivalent to 4 mg of chlorpheniramine maleate) every 12 hours; MAX: 2 capsules in 24 hours (Prod Info TussiCaps(R) extended-release capsules, 2014)
c) 12 YEARS AND OLDER: 1 full-strength capsule (hydrocodone polistirex equivalent to 10 mg of hydrocodone bitartrate and chlorpheniramine polistirex equivalent to 8 mg of chlorpheniramine maleate) every 12 hours; MAX: 2 capsules in 24 hours (Prod Info TussiCaps(R) extended-release capsules, 2014)

a) UNDER 6 YEARS: The safety and efficacy have not been established (Prod Info hydrocodone polistirex chlorpheniramine polistirex oral extended-release suspension, 2014).
b) CHILDREN 6 TO 11 YEARS OLD: 2.5 mL (equivalent to hydrocodone bitartrate 5 mg/chlorpheniramine maleate 4 mg) orally every 12 hours; MAX 5 mL orally in 24 hours (Prod Info Tussionex(R) Pennkinetic(R) oral extended-release suspension, 2011)
c) CHILDREN 12 TO 17 YEARS OLD: 5 mL (equivalent to hydrocodone bitartrate 10 mg/chlorpheniramine maleate 8 mg) orally every 12 hours; MAX 10 mL orally in 24 hours (Prod Info Tussionex(R) Pennkinetic(R) oral extended-release suspension, 2011)

a) The safety and efficacy in children 5 years and younger have not been established (Prod Info hydrocodone bitartrate homatropine methylbromide oral syrup, 2014).
b) CHILDREN 6 TO 11 YEARS: 2.5 mL (hydrocodone 2.5 mg/homatropine 0.75 mg) orally every 4 to 6 hours, as needed; MAX, 3 doses (7.5 mL) in 24 hours (Prod Info hydrocodone bitartrate homatropine methylbromide oral syrup, 2014)
c) CHILDREN 12 TO 17 YEARS: 5 mL (hydrocodone 5 mg/homatropine 1.5 mg) orally every 4 to 6 hours, as needed; MAX, 6 doses (30 mL) in 24 hours (Prod Info hydrocodone bitartrate homatropine methylbromide oral tablets, 2014)

a) The safety and efficacy in children 5 years and younger have not been established (Prod Info hydrocodone bitartrate homatropine methylbromide oral tablets, 2014).
b) CHILDREN 6 TO 11 YEARS: 1/2 tablet (hydrocodone 2.5 mg/homatropine 0.75 mg) orally every 4 to 6 hours, as needed; MAX, 3 tablets in 24 hours (Prod Info hydrocodone bitartrate homatropine methylbromide oral tablets, 2014)
c) CHILDREN 12 TO 17 YEARS: 1 tablet (hydrocodone 5 mg/homatropine 1.5 mg) orally every 4 to 6 hours, as needed; MAX, 6 tablets in 24 hours (Prod Info hydrocodone bitartrate homatropine methylbromide oral tablets, 2014)

a) The safety and efficacy in children 15 years and younger have not been established (Prod Info REPREXAIN(TM) oral film coated tablets, 2013).
b) CHILDREN 16 YEARS OR OLDER: 1 tablet (hydrocodone 2.5 mg, 5 mg, or 10 mg/ibuprofen 200 mg) orally every 4 to 6 hours as needed; MAX 5 tablets in a 24-hour period; generally for less than 10 days (Prod Info REPREXAIN(TM) oral film coated tablets, 2013)

a) The safety and efficacy in children 17 years and younger have not been established (Prod Info REZIRA(TM) oral solution, 2011).