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Sodium Phenylbutyrate

Prescription

Brand names: sodium phenylbutyrate

Dosage Form
Tablet
Route
ORAL

About This Medication

DESCRIPTION Sodium Phenylbutyrate Tablets, USP for oral administration contain sodium phenylbutyrate, USP. Sodium phenylbutyrate is a white to yellowish-white powder which is freely soluble in water and has a strong salty taste. Sodium phenylbutyrate also is freely soluble in methanol, sparingly soluble in ethanol and practically insoluble in methylene chloride, acetone and diethyl ether. It is known chemically as 4-phenylbutyric acid, sodium salt with a molecular weight of 186.18 g/mol and the molecular formula C 10 H 11 O 2 Na. Chemical Structure: Each tablet of sodium phenylbutyrate tablets, USP contains 500 mg of sodium phenylbutyrate, USP and the inactive ingredients calcium stearate, colloidal silicon dioxide, magnesium stearate and microcrystalline cellulose. FDA approved dissolution specifications differs from the USP. structure

Active Ingredients

Ingredient Strength
Sodium Phenylbutyrate -

Indications & Usage

INDICATIONS AND USAGE Sodium phenylbutyrate tablets are indicated as adjunctive therapy in the chronic management of patients with urea cycle disorders involving deficiencies of carbamylphosphate synthetase (CPS), ornithine transcarbamylase (OTC), or argininosuccinic acid synthetase (AS). It is indicated in all patients with neonatal-onset deficiency (complete enzymatic deficiency, presenting within the first 28 days of life). It is also indicated in patients with late-onset disease (partial enzymatic deficiency, presenting after the first month of life) who have a history of hyperammonemic encephalopathy. It is important that the diagnosis be made early and treatment initiated immediately to improve survival. Any episode of acute hyperammonemia should be treated as a life-threatening emergency. Sodium phenylbutyrate tablets must be combined with dietary protein restriction and, in some cases, essential amino acid supplementation (see Nutritional Supplementation subsection of the DOSAGE AND ADMINISTRATION section). Previously, neonatal-onset disease was almost universally fatal within the first year of life, even when treated with peritoneal dialysis and essential amino acids or their nitrogen-free analogs. However, with hemodialysis, use of alternative waste nitrogen excretion pathways (sodium phenylbutyrate, sodium benzoate, and sodium phenylacetate), dietary protein restriction, and, in some cases, essential amino acid supplementation, the survival rate in newborns diagnosed after birth but within the first month of life is almost 80%. Most deaths have occurred during an episode of acute hyperammonemic encephalopathy. Patients with neonatal-onset disease have a high incidence of mental retardation. Those who had IQ tests administered had an incidence of mental retardation as follows: ornithine transcarbamylase deficiency, 100% (14/14 patients tested); argininosuccinic acid synthetase deficiency, 88% (15/17 patients tested); and carbamylphosphate synthetase deficiency, 57% (4/7 patients tested). Retardation was severe in the majority of the retarded patients. In patients diagnosed during gestation and treated prior to any episode of hyperammonemic encephalopathy, survival is 100%, but even in these patients, most subsequently demonstrate cognitive impairment or other neurologic deficits. In late-onset deficiency patients, including females heterozygous for ornithine transcarbamylase deficiency, who recover from hyperammonemic encephalopathy and are then treated chronically with sodium phenylbutyrate and dietary protein restriction, the survival rate is 98%. The two deaths in this group of patients occurred during episodes of hyperammonemic encephalopathy. However, compliance with the therapeutic regimen has not been adequately documented to allow evaluation of the potential for sodium phenylbutyrate tablets and dietary protein restriction to prevent mental deterioration and recurrence of hyperammonemic encephalopathy if carefully adhered to. The majority of these patients tested (30/46 or 65%) have IQ’s in the average to low average/borderline mentally retarded range. Reversal of preexisting neurologic impairment is not likely to occur with treatment and neurologic deterioration may continue in some patients. Even on therapy, acute hyperammonemic encephalopathy recurred in the majority of patients for whom the drug is indicated. Sodium phenylbutyrate tablets may be required lifelong unless orthotopic liver transplantation is elected. (See CLINICAL PHARMACOLOGY , Pharmacodynamics subsection for the biochemical effects of sodium phenylbutyrate tablets).

Dosage & Administration

DOSAGE AND ADMINISTRATION For oral use only. The use of sodium phenylbutyrate tablets is indicated for children weighing more than 20 kg and for adults. The usual total daily dose of sodium phenylbutyrate tablets for patients with urea cycle disorders is 450 to 600 mg/kg/day in patients weighing less than 20 kg, or 9.9 to 13.0 g/m 2 /day in larger patients. The tablets is to be taken in equally divided amounts with each meal or feeding (i.e., three to six times per day). The safety or efficacy of doses in excess of 20 grams (40 tablets) per day has not been established.

Side Effects Overview

ADVERSE REACTIONS The assessment of clinical adverse events came from 206 patients treated with sodium phenylbutyrate. Adverse events (both clinical and laboratory) were not collected systematically in these patients, but were obtained from patient visit reports by the 65 co-investigators. Causality of adverse effects is sometimes difficult to determine in this patient population because they may result from either the underlying disease, the patient’s restricted diet, intercurrent illness, or sodium phenylbutyrate. Furthermore, the rates may be underestimated because they were reported primarily by parent or guardian and not the patient. Clinical Adverse Events In female patients, the most common clinical adverse event reported was amenorrhea/menstrual dysfunction (irregular menstrual cycles), which occurred in 23% of the menstruating patients. Decreased appetite occurred in 4% of all patients. Body odor (probably caused by the metabolite, phenylacetate) and bad taste or taste aversion were each reported in 3% of patients. Other adverse events reported in 2% or fewer patients were: Gastrointestinal : abdominal pain, gastritis, nausea and vomiting; constipation, rectal bleeding, peptic ulcer disease, and pancreatitis each occurred in one patient. Hematologic : aplastic anemia and ecchymoses each occurred in one patient. Cardiovascular : arrhythmia and edema each occurred in one patient. Renal : renal tubular acidosis Psychiatric : depression Skin : rash Miscellaneous : headache, syncope, and weight gain Neurotoxicity was reported in cancer patients receiving intravenous phenylacetate, 250 to 300 mg/kg/day for 14 days, repeated at 4-week intervals. Manifestations were predominately somnolence, fatigue, and lightheadedness; with less frequent -headache, dysgeusia, hypoacusis, disorientation, impaired memory, and exacerbation of a pre-existing neuropathy. These adverse events were mainly mild in severity. The acute onset and reversibility when the phenylacetate infusion was discontinued suggest a drug effect. Laboratory Adverse Events: In patients with urea cycle disorders, the frequency of laboratory adverse events by body system were: Metabolic : acidosis (14%), alkalosis and hyperchloremia (each 7%), hypophosphatemia (6%), hyperuricemia and hyperphosphatemia (each 2%), and hypernatremia and hypokalemia (each 1%). Nutritional : hypoalbuminemia (11%) and decreased total protein (3%). Hepatic : increased alkaline phosphatase (6%), increased liver transaminases (4%), and hyperbilirubinemia (1%). Hematologic : anemia (9%), leukopenia and leukocytosis (each 4%), thrombocytopenia (3%), and thrombocytosis (1%). The clinician is advised to routinely perform urinalysis, blood chemistry profiles, and hematologic tests.

Warnings & Precautions

Contraindications

Pharmacokinetics

PHARMACOKINETICS General: Pharmacokinetic studies have not been conducted in the primary patient population (neonates, infants, and children), but pharmacokinetic data were obtained from normal adult subjects. Absorption: Peak plasma levels of phenylbutyrate occur within 1 hour after a single dose of 5 grams of sodium phenylbutyrate tablet with a C max of 218 mcg/mL under fasting conditions. The effect of food on phenylbutyrate’s absorption is unknown. Disposition: The overall disposition of sodium phenylbutyrate and its metabolites has not been characterized fully. However, the drug is known to be metabolized to phenylacetate and subsequently to phenylacetylglutamine. Following oral administration of 5 grams (tablets), measurable plasma levels of phenylbutyrate and phenylacetate were detected 15 and 30 minutes after dosing, respectively, and phenylacetylglutamine was detected shortly thereafter. The pharmacokinetic parameters for phenylbutyrate for C max (mcg/mL), T max (hours), and elimination half-life (hours) were 218, 1.35, and 0.77, respectively, and for phenylacetate were 48.5, 3.74, and 1.15, respectively. The major sites for metabolism of sodium phenylbutyrate are the liver and kidney. Excretion: A majority of the administered compound (approximately 80 to 100%) was excreted by the kidneys within 24 hours as the conjugation product, phenylacetylglutamine. For each gram of sodium phenylbutyrate administered, it is estimated that between 0.12 to 0.15 grams of phenylacetylglutamine nitrogen are produced. Pharmacodynamics: In patients with urea cycle disorders, sodium phenylbutyrate decreased elevated plasma ammonia glutamine levels. It increases waste nitrogen excretion in the form of phenylacetylglutamine. Special Populations Gender: Significant gender differences were found in the pharmacokinetics of phenylbutyrate and phenylacetate, but not for phenylacetylglutamine. The pharmacokinetic parameters (AUC and C max ), for both plasma phenylbutyrate and phenylacetate were about 30 to 50 percent greater in females than in males. Hepatic insufficiency: In patients who did not have urea cycle disorders but had impaired hepatic function, the metabolism and excretion of sodium phenylbutyrate were not affected. However, this information was obtained from unvalidated, uncontrolled case studies.

Frequently Asked Questions

INDICATIONS AND USAGE Sodium phenylbutyrate tablets are indicated as adjunctive therapy in the chronic management of patients with urea cycle disorders involving deficiencies of carbamylphosphate synthetase (CPS), ornithine transcarbamylase (OTC), or argininosuccinic acid synthetase (AS). It is indicated in all patients with neonatal-onset deficiency (complete enzymatic deficiency, presenting within the first 28 days of life). It is also indicated in patients with late-onset disease (partial enzymatic deficiency, presenting after the first month of life) who have a history of hyperammonemic …

DOSAGE AND ADMINISTRATION For oral use only. The use of sodium phenylbutyrate tablets is indicated for children weighing more than 20 kg and for adults. The usual total daily dose of sodium phenylbutyrate tablets for patients with urea cycle disorders is 450 to 600 mg/kg/day in patients weighing less than 20 kg, or 9.9 to 13.0 g/m 2 /day in larger patients. The tablets is to be taken in equally divided amounts with each meal or feeding (i.e., three to …

WARNINGS Each sodium phenylbutyrate tablet contains 62 mg of sodium (9.2% w/w) (corresponding to 124 mg of sodium per gram of sodium phenylbutyrate [12.4% w/w]). Sodium phenylbutyrate should be used with great care, if at all, in patients with congestive heart failure or severe renal insufficiency, and in clinical states in which there is sodium retention with edema. Because sodium phenylbutyrate is metabolized in the liver and kidney, and phenylacetylglutamine is primarily excreted by the kidney, use caution when administering …

CONTRAINDICATIONS Sodium phenylbutyrate tablets should not be used to manage acute hyperammonemia, which is a medical emergency.

Sodium Phenylbutyrate is a prescription medication. You will need a valid prescription from a licensed healthcare provider.

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References & Data Sources

Medical Disclaimer

The information on this page is intended for educational purposes only and should not be used as a substitute for professional medical advice, diagnosis, or treatment.

Always seek the advice of your physician or other qualified health provider with any questions you may have regarding a medical condition or medication.

Data sources: DailyMed (NLM), openFDA, MFDS

Medical Disclaimer

This content is for educational and informational purposes only. It is not a substitute for professional medical advice, diagnosis, or treatment. Always consult a qualified healthcare provider before making medication decisions.

Data sources: ChEMBL, PubChem, DailyMed.