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NA | caffeine citrate [Exela Pharma Sciences, LLC] | BioPortfolio

12:40 EST 27th January 2019 | BioPortfolio
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Both caffeine citrate injection for intravenous administration and caffeine citrate oral solution are clear, colorless, sterile, non-pyrogenic, preservative-free, aqueous solutions adjusted to pH 4.7. Each mL contains 20 mg caffeine citrate (equivalent to 10 mg of caffeine base) prepared in solution by the addition of 10 mg caffeine anhydrous, USP to 5 mg citric acid monohydrate, USP, 8.3 mg sodium citrate dihydrate, USP and Water for Injection, USP.

Caffeine, a central nervous system stimulant, is an odorless white crystalline powder or granule, with a bitter taste. It is sparingly soluble in water and ethanol at room temperature. The chemical name of caffeine is 3,7-dihydro-1,3,7-trimethyl-1H-purine-2,6-dione. In the presence of citric acid it forms caffeine citrate salt in solution. The structural formula and molecular weight of caffeine citrate follows.

Caffeine is structurally related to other methylxanthines, theophylline, and theo­bromine. It is a bronchial smooth muscle relaxant, a CNS stimulant, a cardiac muscle stimulant, and a diuretic.

Although the mechanism of action of caffeine in apnea of prematurity is not known, several mechanisms have been hypothesized. These include: (1) stimu­lation of the respiratory center, (2) increased minute ventilation, (3) decreased threshold to hypercapnia, (4) increased response to hypercapnia, (5) increased skeletal muscle tone, (6) decreased diaphragmatic fatigue, (7) increased meta­bolic rate, and (8) increased oxygen consumption.

Most of these effects have been attributed to antagonism of adenosine recep­tors, both Aand Asubtypes, by caffeine, which has been demonstrated in receptor binding assays and observed at concentrations approximating those achieved therapeutically.

Absorption: After oral administration of 10 mg caffeine base/kg to preterm neonates, the peak plasma level (C) for caffeine ranged from 6 to 10 mg/L and the mean time to reach peak concentration (T) ranged from 30 minutes to 2 hours. The T was not affected by formula feeding. The absolute bioavail­ability, however, was not fully examined in preterm neonates.

Distribution: Caffeine is rapidly distributed into the brain. Caffeine levels in the cerebrospinal fluid of preterm neonates approximate their plasma levels. The mean volume of distribution of caffeine in infants (0.8 to 0.9 L/kg) is slightly high­er than that in adults (0.6 L/kg). Plasma protein binding data are not available for neonates or infants. In adults, the mean plasma protein binding in vitro is reported to be approximately 36%.

Metabolism: Hepatic cytochrome P450 1A2 (CYP1A2) is involved in caffeine biotransformation. Caffeine metabolism in preterm neonates is limited due to their immature hepatic enzyme systems.

Interconversion between caffeine and theophylline has been reported in preterm neonates; caffeine levels are approximately 25% of theophylline levels after theophylline administration and approximately 3-8% of caffeine adminis­tered would be expected to convert to theophylline.

Elimination: In young infants, the elimination of caffeine is much slower than that in adults due to immature hepatic and/or renal function. Mean half-life (T) and fraction excreted unchanged in urine (A) of caffeine in infants have been shown to be inversely related to gestational/postconceptual age. In neonates, the Tis approximately 3-4 days and the Ais approximately 86% (within 6 days). By 9 months of age, the metabolism of caffeine approximates that seen in adults (T= 5 hours and A= 1%).

Special Populations: Studies examining the pharmacokinetics of caffeine in neonates with hepatic or renal insufficiency have not been conducted. Caffeine citrate should be administered with caution in preterm neonates with impaired renal or hepatic function. Serum concentrations of caffeine should be monitored and dose administration of caffeine citrate should be adjusted to avoid toxicity in this population.

One multicenter, randomized, double-blind trial compared caffeine citrate to placebo in eighty-five (85) preterm infants (gestational age 28 to <33 weeks) with apnea of prematurity. Apnea of prematurity was defined as having at least 6 apnea episodes of greater than 20 seconds duration in a 24-hour period with no other identifiable cause of apnea. A 1 mL/kg (20 mg/kg caffeine citrate providing 10 mg/kg as caffeine base) loading dose of caffeine citrate was administered intravenously, followed by a 0.25 mL/kg (5 mg/kg caffeine citrate providing 2.5 mg/kg of caffeine base) daily maintenance dose administered either intravenously or orally (generally through a feeding tube). The duration of treatment in this study was limited to 10 to 12 days. The protocol allowed infants to be “rescued” with open-label caffeine citrate treatment if their apnea remained uncontrolled during the double-blind phase of the trial.

The percentage of patients without apnea on day 2 of treatment (24 to 48 hours after the loading dose) was significantly greater with caffeine citrate than placebo. The following table summarizes the clinically relevant endpoints evaluated in this study:

In this 10 to 12 day trial, the mean number of days with zero apnea events was 3 in the caffeine citrate group and 1.2 in the placebo group. The mean number of days with a 50% reduction from baseline in apnea events was 6.8 in the caffeine citrate group and 4.6 in the placebo group.

Caffeine Citrate Placebo p-value
Number of patients evaluated Of 85 patients who received drug, 3 were not included in the efficacy analysis because they had <6 apnea episodes/24 hours at baseline. 45 37
% of patients with zero apnea events on day 2 26.7 8.1 0.03
Apnea rate on day 2 (per 24 hrs.) 4.9 7.2 0.134
% of patients with 50% reduction in apnea events from baseline on day 2 76 57 0.07

Caffeine citrate injection and caffeine citrate oral solution are indicated for the short term treatment of apnea of prematurity in infants between 28 and <33 weeks gestational age.

Caffeine citrate injection and caffeine citrate oral solution are contraindicated in patients who have demonstrated hypersensitivity to any of its components.

During the double-blind, placebo-controlled clinical trial, 6 cases of necro­tizing enterocolitis developed among the 85 infants studied (caffeine=46, placebo=39), with 3 cases resulting in death. Five of the six patients with necrotizing enterocolitis were randomized to or had been exposed to caffeine citrate.

Reports in the published literature have raised a question regarding the possi­ble association between the use of methylxanthines and development of necro­tizing enterocolitis, although a causal relationship between methylxanthine use and necrotizing enterocolitis has not been established. Therefore, as with all preterm infants, patients being treated with caffeine citrate should be carefully moni­tored for the development of necrotizing enterocolitis.

Apnea of prematurity is a diagnosis of exclusion. Other causes of apnea (e.g., central nervous system disorders, primary lung disease, anemia, sepsis, metabolic disturbances, cardiovascular abnormalities, or obstructive apnea) should be ruled out or properly treated prior to initiation of caffeine citrate.

Caffeine is a central nervous system stimulant and in cases of caffeine over­dose, seizures have been reported. Caffeine citrate should be used with caution in infants with seizure disorders.

The duration of treatment of apnea of prematurity in the placebo-controlled trial was limited to 10 to 12 days. The safety and efficacy of caffeine citrate for longer periods of treatment have not been established. Safety and efficacy of caffeine citrate for use in the prophylactic treatment of sudden infant death syndrome (SIDS) or prior to extubation in mechanically ventilated infants have also not been established.

Although no cases of cardiac toxicity were reported in the placebo-controlled trial, caffeine has been shown to increase heart rate, left ventricular output, and stroke volume in published studies. Therefore, caffeine citrate should be used with caution in infants with cardiovascular disease.

Caffeine citrate should be administered with caution in infants with impaired renal or hepatic function. Serum concentrations of caffeine should be monitored and dose administration of caffeine citrate should be adjusted to avoid toxicity in this pop­ulation. (See CLINICAL PHARMACOLOGY, Elimination, Special Populations.)

Parents/caregivers of patients receiving caffeine citrate oral solution should receive the following instructions:

Prior to initiation of caffeine citrate, baseline serum levels of caffeine should be meas­ured in infants previously treated with theophylline, since preterm infants metabolize theophylline to caffeine. Likewise, baseline serum levels of caffeine should be measured in infants born to mothers who consumed caffeine prior to delivery, since caffeine readily crosses the placenta.

In the placebo-controlled clinical trial, caffeine levels ranged from 8 to 40 mg/L. A therapeutic plasma concentration range of caffeine could not be determined from the placebo-controlled clinical trial. Serious toxicity has been reported in the literature when serum caffeine levels exceed 50 mg/L. Serum concentra­tions of caffeine may need to be monitored periodically throughout treatment to avoid toxicity.

In clinical studies reported in the literature, cases of hypoglycemia and hyper­glycemia have been observed. Therefore, serum glucose may need to be peri­odically monitored in infants receiving caffeine citrate.

Cytochrome P450 1A2 (CYP1A2) is known to be the major enzyme involved in the metabolism of caffeine. Therefore, caffeine has the potential to interact with drugs that are substrates for CYP1A2, inhibit CYP1A2, or induce CYP1A2.

Few data exist on drug interactions with caffeine in preterm neonates. Based on adult data, lower doses of caffeine may be needed following coadministra­tion of drugs which are reported to decrease caffeine elimination (e.g., cimeti­dine and ketoconazole) and higher caffeine doses may be needed following coadministration of drugs that increase caffeine elimination (e.g., phenobarbi­tal and phenytoin).

Caffeine administered concurrently with ketoprofen reduced the urine volume in four healthy volunteers. The clinical significance of this interaction in preterm neonates is not known.

Interconversion between caffeine and theophylline has been reported in preterm neonates. The concurrent use of these drugs is not recommended.

In a 2-year study in Sprague-Dawley rats, caffeine (as caffeine base) adminis­tered in drinking water was not carcinogenic in male rats at doses up to 102 mg/kg or in female rats at doses up to 170 mg/kg (approximately 2 and 4 times, respectively, the maximum recommended intravenous loading dose for infants on a mg/mbasis). In an 18-month study in C57BL/6 mice, no evidence of tumorigenicity was seen at dietary doses up to 55 mg/kg (less than the max­imum recommended intravenous loading dose for infants on a mg/mbasis).

Caffeine (as caffeine base) increased the sister chromatid exchange (SCE) SCE/cell metaphase (exposure time dependent) in an in vivo mouse metaphase analysis. Caffeine also potentiated the genotoxicity of known mutagens and enhanced the micronuclei formation (5-fold) in folate-deficient mice. However, caffeine did not increase chromosomal aberrations in in vitro Chinese hamster ovary cell (CHO) and human lymphocyte assays and was not mutagenic in an in vitro CHO/hypoxanthine guanine phosphoribosyltransferase (HGPRT) gene mutation assay, except at cytotoxic concentrations. In addition, caffeine was not clastogenic in an in vivo mouse micronucleus assay.

Caffeine (as caffeine base) administered to male rats at 50 mg/kg/day subcu­taneously (approximately equal to the maximum recommended intravenous loading dose for infants on a mg/mbasis) for 4 days prior to mating with untreated females, caused decreased male reproductive performance in addi­tion to causing embryotoxicity. In addition, long-term exposure to high oral doses of caffeine (3 g over 7 weeks) was toxic to rat testes as manifested by spermatogenic cell degeneration.

Concern for the teratogenicity of caffeine is not relevant when administered to infants. In studies performed in adult animals, caffeine (as caffeine base) administered to pregnant mice as sustained release pellets at 50 mg/kg (less than the maximum recommended intravenous loading dose for infants on a mg/mbasis), during the period of organogenesis, caused a low incidence of cleft palate and exencephaly in the fetuses. There are no adequate and well-controlled studies in pregnant women.

Overall, the reported number of adverse events in the double-blind period of the controlled trial was similar for the caffeine citrate and placebo groups. The following table shows adverse events that occurred in the double-blind period of the controlled trial and that were more frequent in caffeine citrate treated patients than placebo.

In addition to the cases above, three cases of necrotizing enterocolitis were diagnosed in patients receiving caffeine citrate during the open-label phase of the study.

Three of the infants who developed necrotizing enterocolitis during the trial died. All had been exposed to caffeine. Two were randomized to caffeine, and one placebo patient was “rescued” with open-label caffeine for uncontrolled apnea.

Adverse events described in the published literature include: central nervous system stimulation (i.e., irritability, restlessness, jitteriness), cardiovascular effects (i.e., tachycardia, increased left ventricular output, and increased stroke volume), gastrointestinal effects (i.e., increased gastric aspirate, gastrointesti­nal intolerance), alterations in serum glucose (hypoglycemia and hyper­glycemia) and renal effects (increased urine flow rate, increased creatinine clearance, and increased sodium and calcium excretion). Published long-term follow-up studies have not shown caffeine to adversely affect neurological development or growth parameters.

ADVERSE EVENTS THAT OCCURRED MORE FREQUENTLY IN CAFFEINE CITRATE TREATED PATIENTS THAN PLACEBO DURING DOUBLE-BLINDED THERAPY
Adverse Event (AE) Caffeine Citrate N=46 n(%) Placebo N=39 n(%)
BODY AS A WHOLE Accidental Injury Feeding Intolerance Sepsis 1 (2.2) 4 (8.7) 2 (4.3) 0 (0.0) 2 (5.1) 0 (0.0)
CARDIOVASCULAR SYSTEM Hemorrhage 1 (2.2) 0 (0.0)
DIGESTIVE SYSTEM Necrotizing Enterocolitis Gastritis Gastrointestinal Hemorrhage 2 (4.3) 1 (2.2) 1 (2.2)
1 (2.6) 0 (0.0) 0 (0.0)
HEMIC AND LYMPHATIC SYSTEM Disseminated Intravascular Coagulation 1 (2.2) 0 (0.0)
METABOLIC AND NUTRITIVE DISORDERS Acidosis Healing Abnormal 1 (2.2) 1 (2.2)

0 (0.0)
0 (0.0)
NERVOUS SYSTEM Cerebral Hemorrhage 1 (2.2) 0 (0.0)
RESPIRATORY SYSTEM Dyspnea Lung Edema 1 (2.2) 1 (2.2)
0 (0.0) 0 (0.0)
SKIN AND APPENDAGES Dry Skin Rash Skin Breakdown 1 (2.2) 4 (8.7) 1 (2.2)
0 (0.0) 3 (7.7) 0 (0.0)
SPECIAL SENSES Retinopathy of Prematurity 1 (2.2) 0 (0.0)
UROGENITAL SYSTEM Kidney Failure 1 (2.2) 0 (0.0)

Following overdose, serum caffeine levels have ranged from approximately 24 mg/L (a post marketing spontaneous case report in which an infant exhibited irritability, poor feeding and insomnia) to 350 mg/L. Serious toxicity has been associated with serum levels greater than 50 mg/L (see PRECAUTIONS-Laboratory Tests and DOSAGE AND ADMINISTRATION). Signs and symptoms reported in the literature after caffeine overdose in preterm infants include fever, tachypnea, jitteriness, insomnia, fine tremor of the extremities, hypertonia, opisthotonos, tonic-clonic movements, nonpurposeful jaw and lip movements, vomiting, hyperglycemia, elevated blood urea nitrogen, and ele­vated total leukocyte concentration. Seizures have also been reported in cases of overdose. One case of caffeine overdose complicated by development of intraventricular hemorrhage and long-term neurological sequelae has been reported. Another case of caffeine citrate overdose (from New Zealand) of an estimated 600 mg caffeine citrate (approximately 322 mg/kg) administered over 40 minutes was complicated by tachycardia, ST depression, respiratory distress, heart failure, gastric distention, acidosis and a severe extravasation burn with tissue necrosis at the peripheral intravenous injection site. No deaths associated with caffeine overdose have been reported in preterm infants.

Treatment of caffeine overdose is primarily symptomatic and supportive. Caffeine levels have been shown to decrease after exchange transfusions. Convulsions may be treated with intravenous administration of diazepam or a barbiturate such as pentobarbital sodium.

Prior to initiation of caffeine citrate, baseline serum levels of caffeine should be measured in infants previously treated with theophylline, since preterm infants metabolize theophylline to caffeine. Likewise, baseline serum levels of caffeine should be measured in infants born to mothers who con­sumed caffeine prior to delivery, since caffeine readily crosses the placenta.

The recommended loading dose and maintenance doses of caffeine citrate follow.

NOTE THAT THE DOSE OF CAFFEINE BASE IS ONE-HALF THE DOSE WHEN EXPRESSED AS CAFFEINE CITRATE (e.g., 20 mg of caffeine citrate is equiva­lent to 10 mg of caffeine base).

Serum concentrations of caffeine may need to be monitored periodically throughout treatment to avoid toxicity. Serious toxicity has been associated with serum levels greater than 50 mg/L.

Caffeine citrate injection and caffeine citrate oral solution should be inspected visually for particulate matter and discoloration prior to administration. Vials containing discolored solution or visible particulate matter should be discarded.

Drug Compatibility

To test for drug compatibility with common intravenous solutions or medica­tions, 20 mL of caffeine citrate injection were combined with 20 mL of a solution or medication, with the exception of an Intralipidadmixture, which was combined as 80 mL/80 mL. The physical appearance of the com­bined solutions was evaluated for precipitation. The admixtures were mixed for 10 minutes and then assayed for caffeine. The admixtures were then continu­ally mixed for 24 hours, with further sampling for caffeine assays at 2, 4, 8, and 24 hours.

Based on this testing, caffeine citrate injection, 60 mg/3 mL is chemically stable for 24 hours at room temperature when combined with the following test products.

Dose of Caffeine Citrate Volume Dose of Caffeine Citrate mg/kg Route Frequency
Loading Dose 1 mL/kg 20 mg/kg Intravenoususing a syringe infusion pump (over 30 minutes) One Time
Maintenance Dose 0.25 mL/kg 5 mg/kg Intravenous (over 10 minutes) or Orally Every 24 hours beginning 24 hours after the loading dose

Both caffeine citrate Injection and caffeine citrate oral solution are available as clear, colorless, sterile, nonpyrogenic, preservative-free, aqueous solutions in 3 mL colorless glass vials. The vials of caffeine citrate injection are sealed with a teflon-faced gray rubber stopper and an aluminum overseal with a white flip-off polypropylene disk inset. The vials of caffeine citrate oral solution are sealed with a teflon-faced gray rubber stopper and a peel-off aluminum overseal with a blue flip-off polypropylene disk inset.

Both the injection and oral solution vials contain 3 mL solution at a concentration of 20 mg/mL caffeine citrate (60 mg/vial) equivalent to 10 mg/mL caffeine base (30 mg/vial).

Caffeine citrate injection, USP NDC 51754-0502-1 3 mL vial, individually packaged in a carton.

Preservative free. For single use only. Discard unused portion.

ATTENTION PHARMACIST: Detach "Instructions for Use" from the package insert and dispense with caffeine citrate oral solution prescription. Manufactured by: Exela Pharma SciencesLenoir, NC 28645 USA

N+ and NOVAPLUS are registeredtrademarks of Novation, LLC.

This leaflet tells you about caffeine citrate oral solution and how to give it to your baby. Read the following information before giving this medicine to your baby. Completely discuss caffeine citrate with your baby’s doctor. Continue to discuss any questions you have about this medicine at your baby’s checkups.

After you remove your baby’s dose, throw away the open bottle (vial) and all medicine left in it. Use each vial of caffeine citrate oral solution for only one dose. There will be extra medicine left in the vial after one dose is removed. Leftover medicine should not be used because caffeine citrate oral solution does not contain preservatives. Once the vial is open, any medicine that is not used right away may not be safe to use for the next dose.

The main ingredient of caffeine citrate oral solution is caffeine citrate. Caffeine citrate oral solution is a clear, colorless, medicine to treat apnea of prematurity—short periods when premature babies stop breathing. Apnea of prematurity is due to the baby’s breathing centers not being fully developed.

Give caffeine citrate oral solution to your baby once a day, at about the same time each day. Your baby’s doctor will prescribe the right amount of caffeine citrate oral solution based on your baby’s weight and age. Carefully follow the doctor’s dosing instructions.

Measure the dose of caffeine citrate oral solution carefully. Your baby’s doctor, nurse, or pharmacist will give you a suitable syringe or supply of syringes to measure small but accurate doses of caffeine citrate oral solution.

Never change (increase or decrease) your baby’s dose without speaking to your baby’s doctor.

If your baby continues to have periods of apnea, call your baby’s doctor right away.

Caffeine citrate oral solution can be swallowed by mouth or given through a feeding tube. Based on your baby’s own situation, your baby’s doctor or other healthcare professional should teach you how to give caffeine citrate oral solution correctly.

Caffeine citrate oral solution should be clear and colorless. Before giving caffeine citrate oral solution, look for small particles, cloudiness, or discoloration in the medicine. Do not use vials that contain cloudy or discolored medicine, or any visible particles

Caffeine citrate oral solution does NOT contain any preservatives. Do not open the vial until it is time for your baby to receive the dose of medicine. Use each vial only once. After you remove your baby’s dose, throw away the vial and all medicine left in the opened vial.

Ten (10) vials of caffeine citrate oral solution are packaged in a child-resistant container. Caffeine citrate oral solution vials are NOT CHILD-RESISTANT. Always store vials of caffeine citrate oral solution in the childresistant container. Follow the instructions below to open the child-resistant container, to open a vial of caffeine citrate oral solution, and to remove a dose of medicine from the vial.

To open the child-resistant container that holds the vials of caffeine citrate oral solution:

(Instructions with pictures are also printed on the top of the container.)

To open a vial of caffeine citrate oral solution:

To remove the prescribed dose from the vial:

You will need a small syringe to measure the exact amount of medicine that your baby’s doctor prescribed. Your baby’s doctor, nurse or pharmacist will give you this small syringe. Note that a milliliter (mL) is the same as a cubic centimeter (cc).

What are possible side effects of caffeine citrate?

Your baby may or may not develop side effects from taking caffeine citrate. Each baby is different. If your baby develops one or more of the following symptoms, speak with your baby’s doctor right away:

The following symptoms may be caused by serious bowel or stomach problems. Call your baby’s doctor right away if your baby develops:

This is not a complete list of side effects reported with caffeine citrate oral solution. If you have a concern about your baby, speak with your baby’s doctor. If you want more information about caffeine citrate oral solution, speak with your baby’s doctor or pharmacist.

Manufactured by:Exela Pharma SciencesLenoir, NC 28645 USA

N+ and NOVAPLUS are registeredtrademarks of Novation, LLC.

NDC 51754-0502-1Caffeine Citrate Injection, USP 60 mg/3 mL (20 mg/mL) For Intravenous Use Only 3 mL Vial Rx only

Manufacturer

Exela Pharma Sciences, LLC

Active Ingredients

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