Comparison of Preservatives Used in Various Therapeutic Applications
Considerations for use of preservatives in topical, oral, ophthalmic, transmucosal, injectable, inhalation, and otic applications
A variety of preservatives can be used in therapeutic applications such as topical, oral, transmucosal, inhalation, and otic, as well as injectables. These excipients help to increase the shelf life of products and prevent microbial growth. When selecting a preservative for formulation, a number of factors should be considered as each has its own advantages and disadvantages depending on the application.
This article outlines considerations when using the following excipients as preservatives:
Benzalkonium Chloride
Considerations for Use of Benzalkonium Chloride as a Preservative
Benzalkonium chloride is frequently used as a preservative due to its wide anti-microbial and broad pH range activity. Of the more than 700 formulations currently on the market that contain benzalkonium chloride, 60% of the formulations are ophthalmic, followed by transmucosal, otic, topical, and inhalation indications (Figure 1).1
Global Market Overview (Total Products: 769)
Figure 1.Benzalkonium chloride is used as a preservative in a variety of applications.
Benzalkonium chloride is not a single moiety; it is available as a combination of C12 and C14 carbon chains. For higher anti-microbial efficacy, the pharmacopeias recommend ≥ 40% w/w C12 and ≥ 20% w/w C14 homologues. High batch-to-batch consistency of benzalkonium chloride is essential for reproducible preservative efficacy activity and can vary among suppliers.
Summary of Benzalkonium Chloride Attributes
Table 1 summarizes several attributes of benzalkonium chloride.
Synergy with Other Preservatives
Benzalkonium chloride can be used in combination with EDTA and other preservatives including benzyl alcohol and boric acid. Benzalkonium chloride plus sodium dodecyl sulfate (SDS) has been shown to attenuate the irritation potential of SDS in transdermal patches.
Incompatibilities of Benzalkonium Chloride
Because benzalkonium chloride is cationic in nature, it is normally incompatible with other cationic surfactants and phospholipids. Benzalkonium chloride is adsorbed onto hydroxypropyl methylcellulose (HPMC) and thus presents challenges for preservative efficacy assays.
It is also incompatible with acidic active pharmaceutical ingredients (APIs) because it causes precipitation. Basic amino acids such as histidine, arginine, lysine, as well as tromethamine or meglumine, can be used with acidic APIs to form a complex with API and enable benzalkonium chloride to be used for preservative action.
Microbial Activity of Benzalkonium Chloride
Benzalkonium chloride offers microbial activity against yeast, bacteria, and mold. It is ineffective against some strains of pseudomonas aeruginosa but a combination of benzalkonium chloride with EDTA can increase efficacy.
Safety
Benzalkonium chloride should not be used in inhalation products such as those for asthma as it can induce bronchospasms.
Compatibility of Benzalkonium Chloride with Membrane Filters
Many preservatives bind or are adsorbed by membrane filters which causes a loss of the appropriate amount of preservatives in the final product. Benzalkonium chloride has this tendency which affects the preservative assay, yield of the process, and increases the flush volume. To avoid this problem, a polyethylenesulfone (PES) filter should be used. As shown in Figure 2, test results with a 0.01 % benzalkonium chloride solution showed the lowest binding and lowest preservative loss in the final product. For most competitive membranes, product losses were more than double that of the Millipore Express® SHF membrane.
Figure 2.Benzalkonium chloride concentration in filtrate when using PES filters.
Pharmacopeia Compliance
Impurities in benzalkonium chloride such as benzyl chloride can react with the API. Use of a compendial grade of benzalkonium chloride where the limit of impurities is less than 0.05 % reduces the risk of interactions with the API.
Benzyl Alcohol
Considerations for Use of Benzyl Alcohol as a Preservative
Benzyl alcohol is a preservative used in more than 500 formulations including injections, topical, oral, and otic applications (Figure 3).1 It is also used as a stabilizer and because of its anesthetic properties, it is sometimes used to reduce pain on injection.9 While this preservative has numerous applications, it should not be used in neonates and used with caution in children older than four weeks.10
Global Market Overview (Total Products: 574)
Figure 3.Benzyl alcohol is used as a preservative in a variety of applications.
Summary of Benzyl Alcohol Attributes
Table 2 summarizes several attributes of benzyl chloride.
Synergy with Other Preservatives
Benzyl alcohol can be used with parabens, potassium sorbate, BHT, EDTA, and benzyl benzoate. It can also be used as a solvent or cosolvent system for poorly soluble drugs.
Incompatibilities of Benzyl Alcohol
Benzyl alcohol is incompatible with methylcellulose and can be adsorbed by the rubber closures used in drug containers. Given this risk, rubber closures and stoppers should be coated with fluorinated polymers if benzyl alcohol is used in the formulation. Similarly, plastic containers are also not recommended for this preservative unless they are polypropylene containers or coated with fluorinated polymers.
Microbial Activity of Benzyl Alcohol
When used as a preservative, benzyl alcohol is more active against gram-positive bacteria compared to gram-negative. It is also active against yeast and molds.
Suitable API Chemistry
Benzyl alcohol is suitable for small and peptide-based products. It is incompatible with large molecules as it may induce aggregation; given this risk, it is instead used as a diluent so as there will be minimal duration of contact.
Safety
Benzyl alcohol should not be used in formulations intended for neonates and should be used with caution in children older than four weeks.
Benzaldehyde is an Impurity in Benzyl Alcohol
Benzaldehyde is present as an impurity in benzyl alcohol (Figure 4). It interacts with benzyl alcohol as well as active pharmaceutical ingredients (APIs), resulting in accelerated oxidation of benzyl alcohol and degradation of the API15. For sensitive APIs and formulations, special grades of benzyl alcohol with reduced, controlled, and/or specified low benzaldehyde impurity levels are available.
Figure 4.Benzaldehyde is an impurity found in benzyl alcohol.
Methylparaben and Propylparaben
Considerations for Use of Parabens as Preservatives
Methylparaben or methyl 4-hydroxybenzoate is commonly used as a preservative in combination with propyl-paraben or propyl 4-hydroxybenzoate due to their synergistic activity. Paraben salts, such as methylparaben sodium salt, have better water solubility and as such, may be preferred in formulations.
These preservatives have been used in nearly 800 formulations including oral preparations, topical, injection, transmucosal, and ophthalmic applications (Figure 5).1
Global Market Overview (Total Products: 790)
Figure 5.Parabens are used as preservatives in a variety of applications.
Summary of Paraben Attributes
Table 3 summarizes several attributes of methylparaben and propylparaben.
Synergy with other Preservatives
Methylparaben and propylparaben are typically used in combination; both also have synergy with EDTA.
Incompatibilities of Parabens
When parabens are in the presence of glycerin and boric acid, the pH shifts to the acidic range, and this promotes the transesterification reaction of parabens with glycerin. Formation of transesterification reaction products between methylparaben and selected sugars (glucose, fructose, sucrose, lactose, maltose, cellobiose) occurs only under mild reaction conditions (e.g., pH 7.4 at 50 ˚C).
Parabens can interact with cyclodextrins and polysorbate 80 resulting in a reduction in efficacy. These preservatives are also incompatible with sorbitol, maltitol, and lactitol and may show discoloration in the presence of iron. Reaction with residual reducing sugars may lead to a Maillard reaction. At pH levels of 8.0 and above, parabens are unstable due to the formation of phenolate anion.
Microbial Activity of Parabens
When used as preservatives, methylparaben, and propylparaben are more active against gram-positive bacteria compared to gram-negative. They are also active against yeast and molds.
Safety
While parabens are among the most used preservatives, concerns exist regarding their safety and tolerability. Parabens can cause skin irritation and the European Medicines Agency (EMA) has published guidelines recommending caution when using them due to oestrogenic activity. In addition to the risk of oestrogenic activity in neonates, parabens have the potential for bilirubin binding activity which can result in long-term accumulation.
Benzoic Acid and Sodium Benzonate
Considerations for Use of Benzoic Acid and Sodium Benzoate as Preservatives
Benzoic acid and sodium benzoates are used for low-risk pharmaceutical and food applications. Of the two, sodium benzoate has much higher water solubility (550-630 g/L at 20 °C versus 2.9 g/L at 20 °C) and as a result, is used in a significantly larger number of products (Figure 6), including a high percentage of oral liquid preparations.1
Global Market Overview
(Total Products Sodium Benzoate: 509)
(Total Products Benzoic Acid: 129)
Figure 6.Benzoic acid and sodium benzoate are used as preservatives in a variety of applications.
Summary of Benzoic Acid and Sodium Benzoate Attributes
Table 4 summarizes several attributes of benzoic acid and sodium benzoate.
Synergy with other Preservatives
Sodium benzoate and benzoic acids have synergy with other excipients such as propylene glycol and sorbic acid. These preservatives are active at an acidic pH; for oral liquid preparations for which the pH should be acidic, benzoic acid and sodium benzoate are good choices.
Incompatibilities of Benzoic Acid and Sodium Benzoate
The preservative activity of benzoic acid and sodium benzoate may be reduced with interaction with kaolin due to alkalis or heavy metals.
Microbial Activity of Sodium Benzoate and Benzoic Acid
When used as preservatives, sodium benzoate and benzoic acid more active against gram positive bacteria compared to gram negative. They are also active against yeast and molds.
Formulation Challenge of Benzoic Acid and Sodium Benzoate
Benzoic acid is less soluble in water compared to sodium benzoate and therefore used in non-aqueous or oily formulations.
Therapeutic Use of Sodium Benzoate
Sodium benzoate is used for the treatment of patients with urea cycle enzymopathies (i.e., hyper-ammonaemia due to inborn errors of urea synthesis) to facilitate an alternative pathway of nitrogen excretion.
Safety
These preservatives may also cause skin or eye irritation and are therefore not used in ophthalmic applications. For topical applications, a minimal concentration should be used. Benzoic acid and sodium benzoates are toxic to neonates; when used in parenteral dosage forms, these preservatives may lead to jaundice, metabolic acidosis, and neurotoxicity in neonates.
References
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