DESCRIPTION


          
          
            
              
                
                Propranolol 
                
                
                
                  
                    Propranolol
                  
                
                
                  
                  
                    
                  
                
                
                  
                    
                    
                  
                  
                    
                    PROPRANOLOL HYDROCHLORIDE
                    
                      
                        
                        PROPRANOLOL


      
        
          
          
          DESCRIPTION
          
            Propranolol hydrochloride is a synthetic beta-adrenergic receptor blocking agent 
chemically described as (+)-1-(isopropylamino)-3-(1-naphthyloxy)-2-propanol 
hydrochloride. Its structural formula is:
            
            C₁₆H₂₁NO₂•HCl
            Propranolol hydrochloride is a stable, white, crystalline solid which is 
readily soluble in water and ethanol. Its molecular weight is 295.80.
            Propranolol hydrochloride injection is available as a sterile injectable 
solution for intravenous administration. Each mL contains 1 mg of propranolol 
hydrochloride in Water for Injection. The pH is adjusted with citric acid.
            
            
          
          
          
            
              image of chemical structure
              
                
              
            
          
        

      
      
        
          
          
          CLINICAL PHARMACOLOGY
          
            GeneralPropranolol is a nonselective beta-adrenergic receptor blocking 
agent possessing no other autonomic nervous system activity. It specifically 
competes with beta-adrenergic receptor stimulating agents for available receptor 
sites. When access to beta-receptor sites is blocked by propranolol, 
chronotropic, inotropic, and vasodilator responses to beta-adrenergic 
stimulation are decreased proportionately. At doses greater than required for 
beta blockade, propranolol also exerts a quinidine-like or anesthetic-like 
membrane action, which affects the cardiac action potential. The significance of 
the membrane action in the treatment of arrhythmias is uncertain.
            
            
            Mechanism of ActionThe effects of propranolol are due to selective blockade of 
beta-adrenergic receptors, leaving alpha-adrenergic responses intact. There are 
two well-characterized subtypes of beta receptors (beta ₁ 
and beta₂); propranolol interacts with both subtypes 
equally. Beta₁-adrenergic receptors are found primarily 
in the heart. Blockade of cardiac beta₁-adrenergic 
receptors leads to a decrease in the activity of both normal and ectopic 
pacemaker cells and a decrease in A-V nodal conduction velocity. All of these 
actions can contribute to antiarrhythmic activity and control of ventricular 
rate during arrhythmias. Blockade of cardiac beta₁-adrenergic receptors also decreases the myocardial force of 
contraction and may provoke cardiac decompensation in patients with minimal 
cardiac reserve.
            Beta₂-adrenergic receptors are found predominantly in 
smooth muscle—vascular, bronchial, gastrointestinal and genitourinary. Blockade 
of these receptors results in constriction. Clinically, propranolol may 
exacerbate respiratory symptoms in patients with obstructive pulmonary diseases 
such as asthma and emphysema (see CONTRAINDICATIONS and WARNINGS).
            Propranolol’s beta blocking effects are attributable to its S(-) 
enantiomer.
            
            
            Pharmacokinetics And Drug Metabolism
            
            DistributionPropranolol has a distribution half-life (T_½ alpha) of 5-10 minutes and a volume of distribution of about 
4 to 5 L/kg. Approximately 90% of circulating propranolol is bound to plasma 
proteins. The binding is enantiomer-selective. The S-isomer is preferentially 
bound to alpha₁ glycoprotein and the R-isomer is 
preferentially bound to albumin.
            
            
            Metabolism and EliminationThe elimination half-life (T_½ beta) is 
between 2 and 5.5 hours. Propranolol is extensively metabolized with most 
metabolites appearing in the urine. The major metabolites include propranolol 
glucuronide, naphthyloxylactic acid, and glucuronic acid and sulfate conjugates 
of 4-hydroxy propranolol. Following single-dose intravenous administration, 
side-chain oxidative products account for approximately 40% of the metabolites, 
direct conjugation products account for approximately 45-50% of metabolites, and 
ring oxidative products account for approximately 10-15% of metabolites. Of 
these, only the primary ring oxidative product (4-hydroxypropranolol) possesses 
beta-adrenergic receptor blocking activity.
            
              In vitro studies have indicated that the aromatic 
hydroxylation of propranolol is catalyzed mainly by polymorphic CYP2D6. 
Side-chain oxidation is mediated mainly by CYP1A2 and to some extent by CYP2D6. 
4-hydroxy propranolol is a weak inhibitor of CYP2D6.
            
            
            PharmacodynamicsAs propranolol concentration increases, so does its beta-blocking 
effect, as evidenced by a reduction in exercise-induced tachycardia (n=6 normal 
volunteers).
            
            
            Special Populations
            
            PediatricThe pharmacokinetics of propranolol have not been investigated in 
patients under 18 years of age. Propranolol injection is not recommended for 
treatment of cardiac arrhythmias in pediatric patients.
            
            
            GeriatricElevated propranolol plasma concentrations, a longer mean 
elimination half-life (254 vs. 152 minutes), and decreased systemic clearance (8 
vs. 13 mL/kg/min) have been observed in elderly subjects when compared to young 
subjects. However, the apparent volume of distribution seems to be similar in 
elderly and young subjects. These findings suggest that dose adjustment of 
propranolol injection may be required for elderly patients (see PRECAUTIONS).
            
            
            GenderIntravenously administered propranolol was evaluated in 5 women 
and 6 men. When adjusted for weight, there were no gender-related differences in 
elimination half-life, volume of distribution, protein binding, or systemic 
clearance.
            
            
            ObesityIn a study of intravenously administered propranolol, obese 
subjects had a higher AUC (161 versus 109 hr•µg/L) and lower total clearance 
than did non-obese subjects. Propranolol plasma protein binding was similar in 
both groups.
            
            
            Renal InsufficiencyThe pharmacokinetics of propranolol and its metabolites were 
evaluated in 15 subjects with varying degrees of renal function after 
propranolol administration via the intravenous and oral routes. When compared 
with normal subjects, an increase in fecal excretion of propranolol conjugates 
was observed in patients with increased renal impairment. Propranolol was also 
evaluated in 5 patients with chronic renal failure, 6 patients on regular 
dialysis, and 5 healthy subjects, following a single oral dose of 40 mg of 
propranolol. The peak plasma concentrations (C_max) of 
propranolol in the chronic renal failure group were 2- to 3-fold higher (161 
ng/mL) than those observed in the dialysis patients (47 ng/mL) and in the 
healthy subjects (26 ng/mL). Propranolol plasma clearance was also reduced in 
the patients with chronic renal failure.
            Chronic renal failure has been associated with a decrease in drug metabolism 
via downregulation of hepatic cytochrome P450 activity.
            
            
            Hepatic InsufficiencyPropranolol is extensively metabolized by the liver. In a study 
conducted in 6 normal subjects and 20 patients with chronic liver disease, 
including hepatic cirrhosis, 40 mg of R-propranolol was administered 
intravenously. Compared to normal subjects, patients with chronic liver disease 
had decreased clearance of propranolol, increased volume of distribution, 
decreased protein-binding, and considerable variation in half-life. Caution 
should be exercised when propranolol is used in this population. Consideration 
should be given to lowering the dose of intravenous propranolol in patients with 
hepatic insufficiency (see PRECAUTIONS).
            
            
            Thyroid DysfunctionNo pharmacokinetic changes were observed in hyperthyroid or 
hypothyroid patients when compared to their corresponding euthyroid state. 
Dosage adjustment does not seem necessary in either patient population based on 
pharmacokinetic findings.
            
            
            Drug Interactions
            
            Interactions with Substrates, Inhibitors or Inducers 
of Cytochrome P-450 EnzymesBecause propranolol’s metabolism involves multiple pathways in 
the cytochrome P-450 system (CYP2D6, 1A2, 2C19), administration of propranolol 
with drugs that are metabolized by, or affect the activity (induction or 
inhibition) of one or more of these pathways may lead to clinically relevant 
drug interactions (see PRECAUTIONS, Drug 
Interactions).
            
            
            Substrates or Inhibitors of CYP2D6Blood levels of propranolol may be increased by administration of 
propranolol with substrates or inhibitors of CYP2D6, such as amiodarone, 
cimetidine, delavirdine, fluoxetine, paroxetine, quinidine, and ritonavir. No 
interactions were observed with either ranitidine or lansoprazole.
            
            
            Substrates or Inhibitors of CYP1A2Blood levels of propranolol may be increased by administration of 
propranolol with substrates or inhibitors of CYP1A2, such as imipramine, 
cimetidine, ciprofloxacin, fluvoxamine, isoniazid, ritonavir, theophylline, 
zileuton, zolmitriptan, and rizatriptan.
            
            
            Substrates or Inhibitors of CYP2C19Blood levels of propranolol may be increased by administration of 
propranolol with substrates or inhibitors of CYP2C19, such as fluconazole, 
cimetidine, fluoxetine, fluvoxamine, teniposide, and tolbutamide. No interaction 
was observed with omeprazole.
            
            
            Inducers of Hepatic Drug MetabolismBlood levels of propranolol may be decreased by administration of 
propranolol with inducers such as rifampin and ethanol. Cigarette smoking also 
induces hepatic metabolism and has been shown to increase up to 100% the 
clearance of propranolol, resulting in decreased plasma concentrations.
            
            
            Cardiovascular Drugs
            
            AntiarrhythmicsThe AUC of propafenone is increased by more than 200% with 
co-administration of propranolol.
            The metabolism of propranolol is reduced by co-administration of quinidine, 
leading to a 2- to 3-fold increased blood concentrations and greater 
beta-blockade.
            The metabolism of lidocaine is inhibited by co-administration of propranolol, 
resulting in a 25% increase in lidocaine concentrations.
            
            
            Calcium Channel BlockersThe mean C_max and AUC of propranolol are 
increased respectively, by 50% and 30% by co-administration of nisoldipine and 
by 80% and 47%, by co-administration of nicardipine.
            The mean values of C_max and AUC of nifedipine are 
increased by 64% and 79%, respectively, by co-administration of propranolol.
            Propranolol does not affect the pharmacokinetics of verapamil and 
norverapamil. Verapamil does not affect the pharmacokinetics of 
propranolol.
            
            
            Non-Cardiovascular Drugs
            
            Migraine DrugsAdministration of zolmitriptan or rizatriptan with propranolol 
resulted in increased concentrations of zolmitriptan (AUC increased by 56% and 
C_max by 37%) or rizatriptan (the AUC and C_max were increased by 67% and 75%, respectively).
            
            
            TheophyllineCo-administration of theophylline with propranolol decreases 
theophylline clearance by 33% to 52%.
            
            
            BenzodiazepinesPropranolol can inhibit the metabolism of diazepam, resulting in 
increased concentrations of diazepam and its metabolites. Diazepam does not 
alter the pharmacokinetics of propranolol.
            The pharmacokinetics of oxazepam, triazolam, lorazepam, and alprazolam are 
not affected by co-administration of propranolol.
            
            
            Neuroleptic DrugsCo-administration of propranolol at doses greater than or equal 
to 160 mg/day resulted in increased thioridazine plasma concentrations ranging 
from 50% to 370% and increased thioridazine metabolites concentrations ranging 
from 33% to 210%.
            Co-administration of chlorpromazine with propranolol resulted in increased 
plasma levels of both drugs (70% increase in propranolol concentrations).
            
            
            Anti-Ulcer DrugsCo-administration of propranolol with cimetidine, a non-specific 
CYP450 inhibitor, increased propranolol concentrations by about 40%. 
Co-administration with aluminum hydroxide gel (1200 mg) resulted in a 50% 
decrease in propranolol concentrations.
            Co-administration of metoclopramide with propranolol did not have a 
significant effect on propranolol’s pharmacokinetics.
            
            
            Lipid Lowering DrugsCo-administration of cholesteramine or colestipol with 
propranolol resulted in up to 50% decrease in propranolol concentrations.
            Co-administration of propranolol with lovastatin or pravastatin decreased 20% 
to 25% the AUC of both, but did not alter their pharmacodynamics. Propranolol 
did not have an effect on the pharmacokinetics of fluvastatin.
            
            
            WarfarinConcomitant administration of propranolol and warfarin has been 
shown to increase warfarin bioavailability and increase prothrombin time.
          
          
        

      
      
        
          
          
          CLINICAL STUDIES
          
            In a series of 225 patients with supraventricular (n=145), 
ventricular (n=69), or both (n=11) arrythmias resistant to digitalis, 
intravenous propranolol hydrochloride was administered in single doses, 
averaging 1 to 5 mg. Approximately one-quarter of the patients with 
supraventricular arrhythmias (generally those with sinus or atrial tachycardia) 
reverted to normal sinus rhythm. About one-half had symptoms ameliorated either 
by a decrease in ventricular rate or an attenuation of frequency or severity of 
paroxysmal attacks.
            Approximately one-half of patients with ventricular arrhythmias (generally 
those with frequent PVCs) reverted to normal sinus rhythm or responded with a 
reduction in ventricular rate.
            Similar findings were seen in a series of 25 Bantu patients with atrial 
fibrillation (n=16), sinus tachycardia (n=5), and multifocal ventricular 
extrasystoles (n=9).
            In another series, 7 of 8 patients with digitalis-related tachyarrhythmia had 
ventricular rate decreases after intravenous propranolol. Similarly limited 
clinical experience has shown that intravenous propranolol will slow the 
ventricular rate in patients with Wolff-Parkinson-White syndrome or with 
tachycardia associated with thyrotoxicosis.
            Onset of activity is usually within five minutes.
          
          
        

      
      
        
          
          
          INDICATIONS AND USAGE
          
            Cardiac ArrhythmiasIntravenous administration is usually reserved for 
life-threatening arrhythmias or those occurring under anesthesia.
            
              Supraventricular arrhythmias
Intravenous propranolol is indicated for the 
short-term treatment of supraventricular tachycardia, including 
Wolff-Parkinson-White syndrome and thyrotoxicosis, to decrease ventricular rate. 
Use in patients with atrial flutter or atrial fibrillation should be reserved 
for arrythmias unresponsive to standard therapy or when more prolonged control 
is required. Reversion to normal sinus rhythm has occasionally been observed, 
predominantly in patients with sinus or atrial tachycardia. 
              Ventricular tachycardias
With the exception of those induced by 
catecholamines or digitalis, propranolol is not the drug of first choice. In 
critical situations when cardioversion techniques or other drugs are not 
indicated or are not effective, propranolol may be considered. If, after 
consideration of the risks involved, propranolol is used, it should be given 
intravenously in low dosage and very slowly, as the failing heart requires some 
sympathetic drive for maintenance of myocardial tone. (See DOSAGE AND 
ADMINISTRATION). Some patients may respond with complete reversion to normal 
sinus rhythm, but reduction in ventricular rate is more likely. Ventricular 
arrhythmias do not respond to propranolol as predictably as do the 
supraventricular arrhythmias.  Intravenous propranolol is indicated for the 
treatment of persistent premature ventricular extrasystoles that impair the 
well-being of the patient and do not respond to conventional measures. 
              Tachyarrhythmias of digitalis intoxication
Intravenous propranolol is 
indicated to control ventricular rate in life-threatening digitalis-induced 
arrhythmias. Severe bradycardia may occur. (See OVERDOSAGE). 
              Resistant tachyarrhythmias due to excessive catecholamine action during 
anesthesia 
Intravenous propranolol is indicated to abolish tachyarrhythmias 
due to excessive catecholamine action during anesthesia when other measures 
fail. These arrhythmias may arise because of release of endogenous 
catecholamines or administration of catecholamines. All general inhalation 
anesthetics produce some degree of myocardial depression. Therefore, when 
propranolol is used to treat arrhythmias during anesthesia, it should be used 
with extreme caution, usually with constant monitoring of the ECG and central 
venous pressure. (See WARNINGS).
            
          
          
        

      
      
        
          
          
          CONTRAINDICATIONS
          
            Propranolol is contraindicated in 1) cardiogenic shock; 2) sinus bradycardia and 
greater than first-degree block; 3) bronchial asthma; and 4) in patients with 
known hypersensitivity to propranolol hydrochloride.
          
          
        

      
      
        
          
          
          WARNINGS
          
            Cardiac FailureSympathetic stimulation may be a vital component supporting 
circulatory function in patients with congestive heart failure, and its 
inhibition by beta blockade may precipitate more severe failure. Although 
beta-blockers should be avoided in overt congestive heart failure, some have 
been shown to be highly beneficial when used with close follow-up in patients 
with a history of failure who are well compensated and are receiving additional 
therapies, including diuretics as needed. Beta-adrenergic blocking agents do not 
abolish the inotropic action of digitalis on heart muscle.
            
            
            Nonallergic Bronchospasm (e.g., Chronic Bronchitis, 
Emphysema)In general, patients with bronchospastic lung disease should not 
receive beta blockers. Propranolol should be administered with caution in this 
setting since it may block bronchodilation produced by endogenous and exogenous 
catecholamine stimulation of beta-receptors.
            
            
            Major SurgeryThe necessity or desirability of withdrawal of beta-blocking 
therapy prior to major surgery is controversial. It should be noted, however, 
that the impaired ability of the heart to respond to reflex adrenergic stimuli 
in propranolol-treated patients might augment the risks of general anesthesia 
and surgical procedures.
            Propranolol is a competitive inhibitor of beta-receptor agonists, and its 
effects can be reversed by administration of such agents, e.g., dobutamine or 
isoproterenol. However, such patients may be subject to protracted severe 
hypotension.
            
            
            Diabetes and HypoglycemiaBeta-adrenergic blockade may prevent the appearance of certain 
premonitory signs and symptoms (pulse rate and pressure changes) of acute 
hypoglycemia, especially in labile insulin-dependent diabetics. In these 
patients, it may be more difficult to adjust the dosage of insulin.
            Propranolol therapy, particularly in infants and children, diabetic or not, 
has been associated with hypoglycemia especially during fasting, as in 
preparation for surgery. Hypoglycemia has been reported after prolonged physical 
exertion and in patients with renal insufficiency.
            
            
            ThyrotoxicosisBeta-adrenergic blockade may mask certain clinical signs of 
hyperthyroidism. Therefore, abrupt withdrawal of propranolol may be followed by 
an exacerbation of symptoms of hyperthyroidism, including thyroid storm. 
Propranolol may change thyroid-function tests, increasing T₄ and reverse T₃, and decreasing T₃.
            
            
            Wolff-Parkinson-White SyndromeBeta-adrenergic blockade in patients with Wolff-Parkinson-White 
syndrome and tachycardia has been associated with severe bradycardia requiring 
treatment with a pacemaker. In one case this resulted after an initial 5 mg dose 
of intravenous propranolol.
          
          
        

      
      
        
          
          
          PRECAUTIONS
          
            GeneralPropranolol should be used with caution in patients with impaired 
hepatic or renal function. Propranolol is not indicated for the treatment of 
hypertensive emergencies.
            Beta-adrenergic receptor blockade can cause reduction of intraocular 
pressure. Patients should be told that propranolol might interfere with the 
glaucoma screening test. Withdrawal may lead to a return of elevated intraocular 
pressure.
            Risk of anaphylactic reaction. While taking beta blockers, patients with a 
history of severe anaphylactic reaction to a variety of allergens may be more 
reactive to repeated challenge, either accidental, diagnostic, or therapeutic. 
Such patients may be unresponsive to the usual doses of epinephrine used to 
treat allergic reaction.
            
            
            Angina PectorisThere have been reports of exacerbation of angina and, in some 
cases, myocardial infarction, following abrupt discontinuance of propranolol 
therapy. Therefore, when discontinuance of propranolol is planned, the dosage 
should be gradually reduced over at least a few weeks, and the patient should be 
cautioned against interruption or cessation of therapy without a physician’s 
advice. If propranolol therapy is interrupted and exacerbation of angina occurs, 
it is usually advisable to reinstitute propranolol therapy and take other 
measures appropriate for the management of angina pectoris. Since coronary 
artery disease may be unrecognized, it may be prudent to follow the above advice 
in patients considered at risk of having occult atherosclerotic heart disease 
who are given propranolol for other indications.
            
            
            Clinical Laboratory TestsIn patients with hypertension, use of propranolol has been 
associated with elevated levels of serum potassium, serum transaminases and 
alkaline phosphatase. In severe heart failure, the use of propranolol has been 
associated with increases in Blood Urea Nitrogen.
            
            
            Drug InteractionsCaution should be exercised when propranolol is administered with 
drugs that have an effect on CYP2D6, 1A2, or 2C19 metabolic pathways. 
Co-administration of such drugs with propranolol may lead to clinically relevant 
drug interactions and changes in its efficacy and/or toxicity (see CLINICAL PHARMACOLOGY, Drug 
Interactions).
            
            
            Cardiovascular Drugs
            
            AntiarrhythmicsPropafenone has negative inotropic and beta-blocking properties 
that can be additive to those of propranolol.
            Quinidine increases the concentration of propranolol and produces a greater 
degree of clinical beta-blockade and may cause postural hypotension.
            Disopyramide is a Type I antiarrhythmic drug with potent negative inotropic 
and chronotropic effects and has been associated with severe bradycardia, 
asystole and heart failure when administered with propranolol.
            Amiodarone is an antiarrhythmic agent with negative chronotropic properties 
that may be additive to those seen with propranolol.
            The clearance of lidocaine is reduced when administered with propranolol. 
Lidocaine toxicity has been reported following coadministration with 
propranolol.
            Caution should be exercised when administering propranolol with drugs that 
slow A-V nodal conduction, e.g. digitalis, lidocaine and calcium channel 
blockers.
            
            
            Calcium Channel BlockersCaution should be exercised when patients receiving a 
beta-blocker are administered a calcium-channel-blocking drug with negative 
inotropic and/or chronotropic effects. Both agents may depress myocardial 
contractility or atrioventricular conduction.
            There have been reports of significant bradycardia, heart failure, and 
cardiovascular collapse with concurrent use of verapamil and beta-blockers.
            Co-administration of propranolol and diltiazem in patients with cardiac 
disease has been associated with bradycardia, hypotension, high degree heart 
block, and heart failure.
            
            
            ACE InhibitorsWhen combined with beta-blockers, ACE inhibitors can cause 
hypotension, particularly in the setting of acute myocardial infarction.
            ACE inhibitors have been reported to increase bronchial hyperreactivity when 
administered with propranolol.
            The antihypertensive effects of clonidine may be antagonized by 
beta-blockers. Propranolol should be administered cautiously to patients 
withdrawing from clonidine.
            
            
            Alpha-blockersPrazosin has been associated with prolongation of first dose 
hypotension in the presence of beta-blockers.
            Postural hypotension has been reported in patients taking both beta-blockers 
and terazosin or doxazosin.
            
            
            ReserpinePatients receiving catecholamine-depleting drugs, such as 
reserpine, with propranolol should be closely observed for excess reduction of 
resting sympathetic nervous activity, which may result in hypotension, marked 
bradycardia, vertigo, syncopal attacks, or orthostatic hypotension. 
Administration of reserpine with propranolol may also potentiate 
depression.
            
            
            Inotropic AgentsPatients on long-term therapy with propranolol may experience 
uncontrolled hypertension if administered epinephrine as a consequence of 
unopposed alpha-receptor stimulation. Epinephrine is therefore not indicated in 
the treatment of propranolol overdose (see OVERDOSAGE).
            
            
            Isoproterenol and DobutaminePropranolol is a competitive inhibitor of beta-receptor agonists, 
and its effects can be reversed by administration of such agents, e.g., 
dobutamine or isoproterenol. Also, propranolol may reduce sensitivity to 
dobutamine stress echocardiography in patients undergoing evaluation for 
myocardial ischemia.
            
            
            Non-Cardiovascular Drugs
            
            Non-Steroidal Anti-Inflammatory DrugsNonsteroidal anti-inflammatory drugs (NSAIDS) have been reported 
to blunt the antihypertensive effect of beta-adrenoreceptor blocking agents.
            Administration of indomethacin with propranolol may reduce the efficacy of 
propranolol in reducing blood pressure and heart rate.
            
            
            AntidepressantsThe hypotensive effects of MAO inhibitors or tricyclic 
antidepressants may be exacerbated when administered with beta-blockers by 
interfering with the beta blocking activity of propranolol.
            
            
            Anesthetic AgentsMethoxyflurane and trichloroethylene may depress myocardial 
contractility when administered with propranolol.
            
            
            WarfarinAdministration of propranolol with warfarin increases the 
concentration of warfarin. Therefore, the prothrombin time should be 
monitored.
            
            
            Neuroleptic DrugsHypotension and cardiac arrest have been reported with the 
concomitant use of propranolol and haloperidol.
            
            
            ThyroxineThyroxine may result in a lower than expected T₃ concentration when used concomitantly with propranolol.
            
            
            Carcinogenesis and Mutagenesis and Impairment of 
FertilityIn dietary administration studies in which mice and rats were 
treated with propranolol hydrochloride for up to 18 months at doses of up to 150 
mg/kg/day, there was no evidence of drug-related tumorigenesis. On a body 
surface area basis, this dose in the mouse and rat is, respectively, about equal 
to and about twice the maximum recommended human oral daily dose (MRHD) of 640 
mg propranolol hydrochloride. In a study in which both male and female rats were 
exposed to propranolol hydrochloride in their diets at concentrations of up to 
0.05% (about 50 mg/kg body weight and less than the MRHD), from 60 days prior to 
mating and throughout pregnancy and lactation for two generations, there were no 
effects on fertility. Based on differing results from Ames Tests performed by 
different laboratories, there is equivocal evidence for a genotoxic effect of 
propranolol hydrochloride in bacteria ( S. 
typhimurium strain TA 1538).
            
            
            Pregnancy
            
            Pregnancy Category CIn a series of reproductive and developmental toxicology studies, 
propranolol hydrochloride was given to rats by gavage or in the diet throughout 
pregnancy and lactation. At doses of 150 mg/kg/day, but not at doses of 80 
mg/kg/day (equivalent to the MRHD on a body surface area basis), treatment was 
associated with embryotoxicity (reduced litter size and increased resorption 
rates) as well as neonatal toxicity (deaths). Propranolol hydrochloride also was 
administered (in the feed) to rabbits (throughout pregnancy and lactation) at 
doses as high as 150 mg/kg/day (about 5 times the maximum recommended human oral 
daily dose). No evidence of embryo or neonatal toxicity was noted.
            There are no adequate and well-controlled studies in pregnant women. 
Intrauterine growth retardation has been reported for neonates whose mothers 
received propranolol hydrochloride during pregnancy. Neonates whose mothers 
received propranolol hydrochloride at parturition have exhibited bradycardia, 
hypoglycemia, and respiratory depression. Adequate facilities for monitoring 
such infants at birth should be available. Propranolol should be used during 
pregnancy only if the potential benefit justifies the potential risk to the 
fetus.
            
            
            Nursing MothersPropranolol is excreted in human milk. Caution should be 
exercised when propranolol is administered to a nursing woman.
            
            
            Pediatric UseSafety and effectiveness of propranolol in pediatric patients 
have not been established.
            
            
            Geriatric UseClinical studies of intravenous propranolol did not include 
sufficient numbers of subjects aged 65 and over to determine whether they 
respond differently from younger subjects. Elderly subjects have decreased 
clearance and a longer mean elimination half-life. These findings suggest that 
dose adjustment of propranolol injection may be required for elderly patients 
(see CLINICAL PHARMACOLOGY, 
Special Populations, Geriatric). In general, dose selection for an elderly 
patient should be cautious, usually starting at the low end of the dosing range, 
reflecting the greater frequency of the decreased hepatic, renal or cardiac 
function, and of concomitant disease or other drug therapy.
            
            
            Hepatic InsufficiencyPropranolol is extensively metabolized by the liver. Compared to 
normal subjects, patients with chronic liver disease have decreased clearance of 
propranolol, increased volume of distribution, decreased protein-binding and 
considerable variation in half life. Consideration should be given to lowering 
the dose of intravenously administered propranolol in patients with hepatic 
insufficiency.
          
          
        

      
      
        
          
          
          ADVERSE REACTIONS
          
            In a series of 225 patients, there were 6 deaths (see CLINICAL STUDIES). 
Cardiovascular events (hypotension, congestive heart failure, bradycardia, and 
heart block) were the most common. The only other event reported by more than 
one patient was nausea.
            Other adverse events for intravenous propranolol, reported during 
post-marketing surveillance include cardiac arrest, dyspnea, and cutaneous 
ulcers.
            The following adverse events have been reported with use of formulations of 
sustained- or immediate-release oral propranolol and may be expected with 
intravenous propranolol.
            
            
            CardiovascularBradycardia; congestive heart failure; intensification of AV 
block; hypotension; paresthesia of hands; thrombocytopenic purpura; arterial 
insufficiency, usually of the Raynaud type.
            
            
            Central Nervous SystemLight-headedness; mental depression manifested by insomnia, 
lassitude, weakness, fatigue; reversible mental depression progressing to 
catatonia; visual disturbances; hallucinations; vivid dreams; an acute 
reversible syndrome characterized by disorientation for time and place, 
short-term memory loss, emotional lability, slightly clouded sensorium, and 
decreased performance on neuropsychometrics. For immediate-release formulations, 
fatigue, lethargy, and vivid dreams appear dose related.
            
            
            GastrointestinalNausea, vomiting, epigastric distress, abdominal cramping, 
diarrhea, constipation, mesenteric arterial thrombosis, ischemic colitis.
            
            
            AllergicPharyngitis and agranulocytosis; erythematous rash, fever 
combined with aching and sore throat; laryngospasm, and respiratory 
distress.
            
            
            RespiratoryBronchospasm.
            
            
            HematologicAgranulocytosis, nonthrombocytopenic purpura, thrombocytopenic 
purpura.
            
            
            AutoimmuneIn extremely rare instances, systemic lupus erythematosus has 
been reported.
            
            
            MiscellaneousAlopecia, LE-like reactions, psoriaform rashes, dry eyes, male 
impotence, and Peyronie’s disease have been reported rarely. Oculomucocutaneous 
reactions involving the skin, serous membranes and conjunctivae reported for a 
beta-blocker (practolol) have not been associated with propranolol.
          
          
        

      
      
        
          
          
          OVERDOSAGE
          
            Propranolol is not significantly dialyzable. In the event of 
overdose or exaggerated response, the following measures should be employed:
            Hypotension and bradycardia have been reported following propranolol overdose 
and should be treated appropriately. Glucagon can exert potent inotropic and 
chronotropic effects and may be particularly useful for the treatment of 
hypotension or depressed myocardial function after a propranolol overdose. 
Glucagon should be administered as 50-150 mcg/kg intravenously followed by 
continuous drip of 1-5 mg/hour for positive chronotropic effect. Isoproterenol, 
dopamine, or phosphodiesterase inhibitors may also be useful. Epinephrine, 
however, may provoke uncontrolled hypertension. Bradycardia can be treated with 
atropine or isoproterenol. Serious bradycardia may require temporary cardiac 
pacing.
            The electrocardiogram, pulse, blood pressure, neurobehavioral status and 
intake and output balance must be monitored. Isoproterenol and aminophylline may 
be useful for bronchospasm.
          
          
        

      
      
        
          
          
          DOSAGE AND ADMINISTRATION
          
            Parenteral drug products should be inspected visually for 
particulate matter and discoloration prior to administration, whenever solution 
and container permit.
            The usual dose is 1 to 3 mg administered under careful monitoring, such as 
electrocardiography and central venous pressure. The rate of administration 
should not exceed 1 mg (1 mL) per minute to diminish the possibility of lowering 
blood pressure and causing cardiac standstill. Sufficient time should be allowed 
for the drug to reach the site of action even when a slow circulation is 
present. If necessary, a second dose may be given after two minutes. Thereafter, 
additional drug should not be given in less than four hours. Additional 
propranolol hydrochloride should not be given when the desired alteration in 
rate or rhythm is achieved.
            Transfer to oral therapy as soon as possible.
          
          
        

      
      
        
          
          
          HOW SUPPLIED
          
            Each mL contains 1 mg of propranolol hydrochloride in Water for 
Injection. The pH is adjusted with citric acid. Supplied as: 1 mL vials in boxes 
of 10 (NDC 54868-3873-0).
            
              

            
            
              Store at controlled room temperature 20° to 25°C (68° to 
77°F). Protect from freezing or excessive heat.
            
            Manufactured by:

              HIKMA FARMACEUTICA (PORTUGAL), 
S.A.

              Estrada do Rio da Mo n^os8, 8A e 8B - 
Fervenca
2705-906 Terrugem - SNT
PORTUGAL
            Distributed by:

              West-Ward Pharmaceutical 
Corp.

              465 Industrial Way West
EATONTOWN NJ 07724
USA
            Iss. Aug. 2007
            

            
              

            
            

            Relabeling of "Additional Barcode" by:
Physicians Total Care, Inc.
Tulsa, OK     74146

            
          
          
        

      
      
        
          
          
          PRINCIPAL DISPLAY PANEL
          
            Propranolol Hydrochloride Injection, USP
1 mg/mL
            
              
            
          
          
          
            
              image of package label