Broad spectrum preservation blends

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to broad spectrum preservative blends. In particular, the present invention relates to broad spectrum preservative blends that incorporate caprylyl glycol with either chloroxylenol or chlorphenesin or both.

2. Brief Description of Art

Preservatives are commonly used in personal care products. Preservatives are aimed at protecting such products from decay or spoilage, mainly caused by microorganisms. They typically possess anti-microbial activity.

Because preservative agents may cause adverse effects such as allergic responses and skin irritation, it is desirable to use them in the smallest amount possible in the cosmetics or other personal care products. Thus, a balance must be achieved by having an effective anti-microbial amount of the preservative or preservatives in the product, yet having that amount be as small as possible to avoid or reduce the chance of adverse effects. Also, it is desirable that the preservative or blend of preservatives be effective against the widest possible types of potentially harmful microorganisms that could cause decay or spoilage of personal care products. Furthermore, such preservatives should be chemically and physically compatible with the other ingredients in the personal care product.

2-Phenoxyethanol, chloroxylenol and chlorphenesin are all known preservatives for personal care products. Caprylyl glycol is a known moisturizer used in cosmetic preparations and is known to increase the antimicrobial activity of certain preservatives. For example, European Patent Application EP1206933 A1 teaches compositions containing blends of caprylyl glycol or an analog thereof, with a preservation agent. This reference states that the preservation agents may include phenoxyethanol or chloroxylenol. However, the preferred preservative in this reference is iodopropynyl butyl carbonate (IPBC). See paragraphs 20 and 21 on page 3 of this European Patent Application.

The present invention has found that particular triblends and tetrablends that incorporate caprylyl glycol with either (1) 2-phenoxyethanol and chloroxylenol; (2) 2-phenoxyethanol and chlorphenesin; (3) chloroxylenol and chlorphenesin; or (4) 2-phenoxyethanol, chloroxylenol and chlorphenesin exhibit higher broad spectrum antimicrobial preservative effects over the simple diblends disclosed in EP 1,026,933.

BRIEF SUMMARY OF THE INVENTION

Therefore, one aspect of the present invention is directed to a composition having effective broad spectrum preservation activity comprising a mixture of caprylyl glycol or one or more analogs thereof, or mixtures thereof, with a preservative comprising chloroxylenol and 2-phenoxyethanol.

Still another aspect of the present invention is directed to a composition having effective broad spectrum preservation activity comprising a mixture of caprylyl glycol or one or more analogs thereof, or mixtures thereof, with a preservative comprising chloroxylenol and chlorphenesin.

Still another aspect of the present invention is directed to a composition having effective broad spectrum preservation activity comprising a mixture of caprylyl glycol, or one or more analogs thereof, or mixtures thereof, with a preservative comprising chlorphenesin and 2-phenoxyethanol.

Yet another aspect of the present invention is directed to a composition having effective broad spectrum preservation activity comprising a mixture of caprylyl glycol, or one or more analogs thereof, or mixtures thereof, with a preservative comprising chloroxylenol, 2-phenoxylethanol, and chlorphenesin.

DETAILED DESCRIPTION OF THE INVENTION

As used herein, caprylyl glycol refers to 1,2-octanediol and can be structurally represented by the formula:

CH₃—(CH₂)₄—CH₂—CH(OH)—CH₂OH

Caprylyl glycol analogs comprise C_5-20alkanediols, in particular C_6-16alkanediols, more in particular C_6-12alkanediols. Preferred are the alkanediols mentioned herein wherein the hydroxyl groups are vicinally substituted. Examples of such alkanediols are 2,3-octanediol, 1,2-nonanediol, 1,2-decanediol, 1,2-dodecanediol, 1,2-heptanediol, 1,2-hexanediol, 3,4-octanediol and the like. Of particular interest are those vicinal alkanediols wherein one hydroxyl is substituted at an end carbon and the other on the carbon atom next thereto.

A particular group of caprylyl glycol analogs are those which have a 1,2-octanediol skeleton which is further substituted with 1, 2 or 3 C_1-4alkyl groups (or 1,2-octanediol substituted with 1, 2 or 3 C_1-4alkyl groups) such as, for example, 3-methyl-1,2-octanediol, 4-methyl-1,2-octanediol, 3,4-dimethyl octanediol, 3-ethyl-1,2-octanediol, 4-ethyl-1,2-octanediol and the like.

The caprylyl glycol analogs that can be used in the compositions or formulations of the invention preferably are devoid of any adverse effects on the skin such as allergic reactions and irritation.

The term ‘caprylyl glycol or one or more analogs thereof, or mixtures thereof’ is also meant to comprise mixtures of caprylyl glycol and one or more of its analogs, or mixtures of two or more caprylyl glycol analogs, in particular those analogs mentioned herein. The term ‘caprylyl glycol’ when used in isolation is also meant to comprise caprylyl analogs, in particular the analogs mentioned herein. The term ‘caprylyl glycol’ when used in isolation is also meant to comprise mixtures of caprylyl glycol and one or more caprylyl glycol analogs, or mixtures of two or more caprylyl glycol analogs, in particular those analogs mentioned herein.

“2-Phenoxyethanol” is also known as 1-hydroxy-2-phenoxyethane or ethylene glycol monophenyl ether.

Chloroxylenol is also known as 4-chloro-3,5-dimethyl phenol.

Chlorphenesin is also known as 3-(4-chlorophenoxy)-1,2-propanediol.

As used herein the terms ‘preservative’ and ‘preservative agent’ of the present invention are meant to comprise either (1) 2-phenoxyethanol and chloroxylenol; (2) 2-phenoxyethanol and chlorphenesin; (3) chloroxylenol and chlorphenesin; or (4) 2-phenoxyethanol, chloroxylenol and chlorphenesin, with or without optional ingredients.

The amount of caprylyl glycol or its analog in the formulations according to this invention may vary, but will be selected such that the combination thereof with the preservative has an effective preservative activity. Preferably, the caprylyl glycol component will constitute from about 5% to about 40% by weight, more preferably, about 10% to about 30% by weight, and most preferably, about 15% to about 25% by weight, based on the sum of the caprylyl glycol component plus preservative agents or agents in the mixture.

If the preservative agent includes both 2-phenoxyethanol with either or both chloroxylenol or chlorphenesin, then the weight ratio of the 2-phenoxyethanol to the chloroxylenol or the chlorphenesin or both is preferably from about 2:1 to about 9:1; more preferably, 2.5:1 to about 6:1, and most preferably, from about 3:1 to 5:1. If the preservative agent includes a mixture of chloroxylenol and chlorphenesin (with or without 2-phenoxyethanol), then the weight ratio of the chloroxylenol to the chlorphenesin is preferably from about 9:1 to about 1:9, more preferably, from about 5:1 to about 1:5, and most preferably, about 3:1 to about 1:3.

One most preferable commercial candidate is a composition comprising 20% by weight caprylyl glycol; 64% by weight 2-phenoxyethanol and 16% by weight chloroxylenol (i.e. 4:1 weight ratio of 2-phenoxyethanol to chloroxylenol). This candidate is referred to as Mikrokill™ PCC. A second preferable commercial candidate is a composition comprising 20% by weight caprylyl glycol; 64% by weight 2-phenoxyethanol and 16% by weight chlorphenesin. This candidate is referred to as Mikrokill™ COS (See MIC Experiments and Tables 5 and 6 below).

The term ‘effective preservation activity’ means that its activity is such that the composition or formulation is protected for a sustained period of time, in particular during the so-called ‘shelf life’ of the product. The ‘shelf-life’ of a product is determined according to methods generally known in the art.

The term “broad spectrum” as used in this specification and claims means a preservative having good preservation properties against a wide spectrum of microorganisms that commonly will decay or spoil personal care products such as cosmetics or non-personal care products.

The compositions of the present invention contain caprylyl glycol and/or an analog thereof and the above-noted preservatives, and optionally other components. These other optional components may be solvents or any of the other components mentioned hereinafter as components that can be added to the topical personal care formulations according to the invention.

The compositions of the present invention are generally prepared by mixing the caprylyl glycol and/or the analog thereof, and the preservative agent or agents. Solvent may be added after mixing, or the components are mixed while being present in a solvent. Other components may be added during the mixing or afterwards. The said caprylyl glycol and preservative may also be added to a premix of other components.

This invention further relates to topical formulations containing a composition as defined herein. Topical compositions comprise as well dermatological formulations (or topical pharmaceutical formulations), as cosmetic formulations. Said topical formulations may further contain other ingredients or additives used in dermatological or in cosmetic formulations, including other active ingredients.

The formulations according to the present invention are formulated into forms that are useful in personal care products, especially in emulsions.

The topical formulations according to the present invention may additionally contain further ingredients or additives such as solvents, surfactants, emulsifiers, consistency factors, conditioners, emollients, skin caring ingredients, moisturizers, thickeners, lubricants, fillers, anti-oxidants, other preservatives, active ingredients, in particular dermatologically active ingredients, fragrances and the like, as well as mixtures thereof. Active ingredients as mentioned herein comprise, for example, anti-inflammatories, anti-bacterials, anti-fungals and the like agents. Active ingredients suited for topical applications are particularly preferred.

Suitable surfactants comprise: alkyl sulfates e.g. sodium lauryl sulfate, ammonium lauryl sulfate; sodium cetearyl sulfate; alkyl sulfoacetates e.g. sodium lauryl sulfoacetate; alkyl ether sulfates e.g. sodium laureth sulfate; sodium trideceth sulfate; sodium oleth sulfate; ammonium laureth sulfate; alkyl ether sulfosuccinates e.g. disodium laureth sulfosuccinate; alkyl glycosides e.g. decyl glucoside; lauryl glucoside; alkyl isethionates amphoterics e.g. cocamidopropyl betaine; sodium cocoamphoacetate; sodium lauroamphoacetate; disodium lauroamphodiacetate; disodium cocoamphodiacetate; sodium lauroamphopripionate; disodium lauroamphodipropionate; potassium or ammonium salts of the aforementioned amphoterics; capryl/capramidopropyl betaine; undecylenamidopropyl betaine; lauromidopropyl betaine; and fatty alcohol polyglycol ethers.

Suitable emulsifiers are e.g. anionics as salts of fatty acids e.g. sodium stearate or sodium palmitate, organic soaps e.g. mono-, di- or triethanolaminoleate, sulfated or sulfonated compounds e.g. sodium lauryl sulfate or sodium cetyl sulfonate, saponines, lamepones; cationics as quaternary ammonium salts; nonionics as fatty alcohols, fatty acid ester with saturated or unsaturated fatty acids, polyoxyethylenesters or polyoxyethylenethers of fatty acids, polymers from ethylene oxide and propylene oxide or propylene glycol, amphotherics as phosphatides, proteins as gelatine, casein alkylamidobetaines, alkyl betaines and amphoglycinates, alkyl phosphates, alkylpolyoxyethylene phoaphates or the corresponding acids, silicone derivatives, e.g. alkyl dimethiconecoplyol.

Suitable consistency factors are e.g. fatty alcohols or their mixtures with fatty acid esters, e.g. acetylated lanolin alcohol, aluminum stearates, carbomer, cetyl alcohol, glyceryl oleate, glyceryl stearate, glyceryl stearate (and) PEG 100 stearate, magnesium stearate, magnesium sulfate, oleic acid, stearic acid, stearyl alcohol, myristyl myristate, isopropyl palmitate, beeswax and synthetic equivalents thereof, carbomers, and the like. Suitable conditioners are e.g. alkylamido ammonium lactate, cetrimonium chloride and distearoylethyl hydroxyethylmonium methosulfate and cetearyl alcohol, cetyl dimethicone, cetyl ricinoleate, dimethicone, laureth-23, laureth-4, polydecene, retinyl palmitate, quaternized protein hydrolysates, quaternized cellulose and starch derivatives, quaternized copolymers of acrylic or methacrylic acid or salts, quaternized silicone derivatives.

Suitable emollients are e.g. cetearyl isononanoate, cetearyl octanoate, decyl oleate, isooctyl stearate, coco caprylate/caprate, ethylhexyl hydroxystearate, ethylhexyl isononanoate, isopropyl isostearate, isopropyl myristate, oleyl oleate, hexyl laurate, paraffinum liquidum, PEG-75 lanolin, PEG-7 glyceryl cocoate, petrolatum, ozokerite cyclomethicone, dimethicone, dimethicone copolyol, dicaprylyl ether, butyrospermum parkii, buxus chinensis, canola, carnauba cera, copernicia cerifera, oenothera biennis, elaeis guineensis, prunus dulcis, squalane, zea mays, glycine soja, helianthus annuus, lanolin, hydrogenated castor oil, hydrogenated coconut oil, hydrogenated polyisobutene, sucrose cocoate, stearoxy dimethicone, lanolin alcohol, isohexadecane.

Suitable skin care ingredients are e.g. plant extracts, bisabolol, anti-inflammatory agents, urea, allantoin, panthenol and panthenol derivatives, phytantriol, vitamins A, E, C, D, ceramides of animal or plant origin, lecithins, and the like.

Suitable moisturizers are e.g. butylenes glycol, cetyl alcohol, dimethicone, dimyristyl tartrate, glucose glycereth-26, glycerin, glyceryl stearate, hydrolyzed milk protein, lactic acid, lactose and other sugars, laureth-8, lecithin, octoxyglycerin, PEG-12, PEG 135, PEG-150, PEG-20, PEG-8, pentylene glycol, hexylene glycol, phytantriol, poly quaternium-39 PPG-20 methyl glucose ether, propylene glycol, sodium hyaluronate, sodium lactate, sodium PCA, sorbitol, succinoglycan, synthetic beeswax, tri-C 14-15 alkyl citrate, starch.

Suitable thickeners are e.g. acrylates/steareth-20 methacrylate copolymer, carbomer, carboxymethyl starch, cera alba, dimethicone/vinyl dimethicone crosspolymer, propylene glycol alginate, hydroxyethylcellulose, hydroxypropyl methylcellulose, silica, silica dimethyl silylate, xanthan gum, hydrogenated butylenes/ethylene/styrene copolymer.

Suitable lubricants are e.g. adipic acid, fumaric acid and its salts, benzoic acid and its salts, glycerine triacetate, sodium or magnesium lauryl sulfate, magnesium stearate, solid polyethylenglycol, polyvinylpyrrolidone, boric acid, mono-laurate or mono-palmitate, myristyl alcohol, cetyl alcohol, cetylstearyl alcohol, talcum, calcium or magnesium salts of higher fatty acids, mono-, di- or triglycerides of higher fatty acids, polytetrafluorethylen.

Suitable antioxidants are e.g. sulfites, e.g. sodium sulfite, tocopherol or derivates thereof, ascorbic acid or derivates thereof, citric acid, propyl gallate, chitosan glycolate, cysteine, N-acetyl cysteine plus zinc sulfate, thiosulfates, e.g. sodium thiosulfate, polyphenoles and the like.

The compositions may further contain active ingredients, e.g. anti-microbials, anti-inflammatories, plant extracts, bisabolol, panthenol, tocopherol, actives for anti-stinging, anti-irritant or anti-dandruff applications, or anti-aging agents such as retinol, melibiose and the like. Other suitable actives are e.g. Medicago officinalis, Actinidia chinensis, allantoin, Aloe barbadensis, Anona cherimolia, Anthemis nobilis, Arachis hypogaea, Arnica Montana, Avena sativa, beta-carotene, bisabolol, Borago officinalis, butylenes glycol, Calendula officinalis, Camellia sinensis, camphor, Candida bombicola, capryloyl glycine, Carica papaya, Centaurea cyanus, cetylpyridinium chloride, Chamomilla recutita, Chenopodium quinoa, Chinchona succirubra, Chondrus crispus, Citrus aurantium dulcis, Citrus grandis, Citrus limonum, Cocos nucifera, Coffea Arabica, Crataegus monogina, Cucumis melo, dichlorophenyl imidazoldioxolan, Enteromorpha compressa, Equisetum arvense, ethoxydiglycol, ethyl panthenol, famesol, ferulic acid, Fragaria chiloensis, Gentiana lutea, Ginkgo biloba, glycerin, glyceryl laurate, Glycyrrhiza glabra, Hamamelis virginiana, heliotropine, hydrogenated palm glycerides, citrates, hydrolyzed castor oil, hydrolyzed wheat protein, Hypericum perforatum, Iris florentina, Juniperus communis, Lactis proteinum, lactose, Lawsonia inermis, linalool, Linum usitatissimum, lysine, magnesium aspartate, Magnifera indica, Malva sylvestris, mannitol, mel Melaleuca altemifolia, Mentha piperita, menthol, menthyl lactate, Mimosa tenuiflora, Nymphaea alba, olaflur, Oryza sativa, panthenol, paraffinum liquidum, PEG-20M, PEG-26 jojoba acid, PEG-26 jojoba alcohol, PEG-35 castor oil, PEG-40 hydrogenated castor oil, PEG-60 hydrogenated castor oil, PEG-8 caprylic/capric acid, Persea gratissima, petrolatum, potassium aspartate, potassium sorbate, propylene glycol, Prunus amygdalus dulcis, Prunus armeniaca, Prunus persica, retinyl palmitate, Ricinus communis, Rosa canina, Rosmarinus officinalis, Rubus idaeus, salicylic acid, Sambucus nigra, sarcosine, Serenoa serrulata, Simmondsia chinensis, sodium carboxymethyl betaglucan, sodium cocoyl amino acids, sodium hyaluronate, sodium palmitoyl praline, stearoxytrimethylsilane, stearyl alcohol, sulfurized TEA-ricinoleate, talc, Thymus vulgaris, Tilia cordata, tocopherol, tocopheryl acetate, trideceth-9, triticum vulgare, tyrosine, undecylenoyl glycine, urea, Vaccinium myrtillus, valine, zinc oxide, zinc sulfate.

The combination of caprylyl glycol and/or an analog thereof and a preservative can be used in emulsions (both oil-in-water and water-in-oil), in aqueous solutions, in PIT (phase inversion temperature) emulsions, in oily solutions, in foaming cosmetic formulations (foams), and in so-called multiple emulsions, e.g. in triple emulsions (such as water/oil/water emulsions).

The compositions of the invention can be formulated as creams, gels, liquids or lotions. They can be used in shampoos, hair conditioners, hair dyes, hair preparations, aftershave lotions, bath soaps and detergents, fragrance preparations, sun care products, indoor tanning products, body and hand preparations, personal cleansers, shaving preparations, tonics, dressings and other hair grooming aids, moisturizing preparations, skin care preparations, wipes and the like. These compositions can be also used in a variety of non-personal care products.

The topical formulations of the invention are prepared by adding other ingredients to a composition as defined herein, or addition to a mixture of ingredients a composition as defined herein. Alternatively, said formulations may also be made by mixing the ingredients individually or by group-wise mixing. Subsequently other specific ingredients, such as perfumes, may be added.

In a further aspect, this invention is concerned with synergistic effects between two agents, caprylyl glycol or an analog on the one hand, with the above-noted preservative blends on the other in terms of anti-microbiological activity, as well as anti-microbiological spectrum, that show a better efficacy than the two components alone. Hence in still a further aspect the present invention provides synergistic cosmetic compositions comprising caprylyl glycol and/or an analog and these preservative blends.

The use of caprylyl glycol or one or more analogs thereof, or mixtures thereof in combination with a preservative, in particular of 1,2-octanediol with 2-phenoxyethanol and chloroxylenol or 1,2-octanediol with 2-phenoxyethanol and chlorphenesin, in cosmetic formulations results in broad anti-microbial protection in the container. The anti-microbial protection is against bacteria, fungi, in particular against species such as, for example, Pseudomonas aeruginosa, Escherichia coli, Staphylococcus aureus, Candida albicans, Aspergillus niger and the like.

The combinations of the invention are particularly attractive for personal care products.

The present invention is further described in detail by means of the following Examples and Comparisons. All parts and percentages are by weight and all temperatures are degrees Celsius unless explicitly stated otherwise.

EXAMPLES

A. Challenge Test in Broth

Procedure: Preservatives and/or blends as shown in Table 2, were mixed into Tryptic Soy Broth at 0.5% volume to volume. A challenge protocol similar to the CTFA method was followed to assess efficacy against a broad spectrum of microorganisms. The four separate inocula were: Staphylococcus aureus (ATCC 6538), Pseudomonas aeruginosa (ATCC 9027) and Enterobacter gergoviae (cosmetic isolate), Candida albicans (ATCC 10231), and mixed molds Aspergillus niger (ATCC 6275) and a Penicillium sp. cosmetic isolate. Tubes containing 20 milliliters of broth were inoculated with approximately 1,500,000 bacteria per gram, 50,000 yeast cells per gram or 100,000 mold spores per gram. Individual challenges were prepared from overnight slants of bacteria and yeast cultures and from heavily sporulating mold cultures, 7 to 10 days old. All samples were plated quantitatively for viable organisms after 24 hours and 8 days.

Results: As shown by the results in Table 1, the addition of 20% caprylyl glycol to the 2-phenoxyethanol/chloroxylenol blend greatly improved activity against the gram negative bacteria.

Conclusions: Since gram negative bacteria are common contaminants of aqueous formulations, a preservative blend showing enhanced activity against this group of microorganisms is very desirable.

TABLE 1Efficacy Of Preservative Blends With And Without Caprylyl Glycol.Colony Forming Units per Milliliterof Broth (CFU/ml) after 8 DaysPreservative Blend (added atP. aeruginosaA. niger/0.5% v/v)E. gergoviaeS. aureusC. albicansPenicillium sp.Control - none8.0 × 10⁹1.1 × 10⁹ND7.6 × 10⁵2-Phenoxyethanol9.1 × 10⁷3.2 × 10⁸ 4.0 × 10³ 5.8 × 10²4:1 ratio of 2-Phenoxyethanol:2.5 × 10⁴2.0 × 10¹<1 × 10¹ <1 × 10¹ Chloroxylenol20% Caprylyl Glycol in 2-1.8 × 10⁸ >4 × 10⁶ <1 × 10¹4.3 × 10²Phenoxyethanol20% Caprylyl Glycol in 4:1 <1 × 10¹ <1 × 10³* <1 × 10¹ <1 × 10¹ ratio of 2-Phenoxyethanol:Chloroxylenol
*= none detected at the lowest dilution tested

ND = Not Determined

TABLE 2

Concentration Of Each Blend Ingredient In Tryptic Soy

Broth With 0.5% Addition Of Preservative Blend.

Preservative
Phenoxy-

Blend
ethanol
Chloroxylenol
Caprylyl Glycol

Control - none
None
None
None

2-Phenoxyethanol
0.50%
None
None

Emercide 1199
0.40%
0.10%
None

Phenoxyethanol

(4:1 ratio of

2-Phenoxyethanol +

Chloroxylenol)

20% Caprylyl
0.40%
None
0.10%

Glycol in

2-Phenoxyethanol

20% Caprylyl
0.32%
0.08%
0.10%

Glycol in

Emercide 1199

Phenoxyethanol

(4:1 ratio of

2-Phenoxyethnol +

Chloroxylenol)

(Efficacy results for these combinations are shown in Table 1)

B. CTFA Challenge Tests in Personal Care Formulations—Oil in Water Lotion

Procedure: In the initial test in a personal care formulation, various ratios of the components as shown in Table 3, were mixed into a Natural Oil In Water Lotion at 1.0% weight to weight. A standard CTFA cosmetic challenge protocol was followed to assess efficacy against a broad spectrum of microorganisms. The four separate inocula were: Staphylococcus aureus (ATCC 6538), Pseudomonas aeruginosa (ATCC 9027), Candida albicans (ATCC 10231), and mixed molds Aspergillus niger (ATCC 6275) and a Penicillium sp. cosmetic isolate. Samples (10 grams each) were inoculated with approximately 1,500,000 bacteria per gram, 250,000 yeast cells per gram or 40,000 mold spores per gram. Individual challenges were prepared from overnight slants of bacteria and yeast cultures and from heavily sporulating mold cultures, 7 to 10 days old. All samples were plated qualitatively for viable organisms after 24 hours with quantitative counts made after 1 and 2 weeks.

Results: As shown by the results in Tables 4A and 4B, the addition of caprylyl glycol to the 2-phenoxyethanol/chloroxylenol blend greatly improved activity against the gram negative bacteria and fungi. S. aureus was very difficult for any of the preservatives to control in this lotion, and although at 1 week there was some evidence that the addition of caprylyl glycol improved performance, complete eradication of the inoculum was not achieved.

Conclusions: Overall, the addition of caprylyl glycol to the 2-phenoxyethanol/chloroxylenol blend greatly improved activity.

TABLE 3Concentration Of Each Active Ingredient In LotionWith 1% Addition Of Blend.Phenoxy-Chloroxy-CaprylylPreservative BlendethanollenolGlycolControl - noneNoneNoneNone3:1 Phenoxyethanol/Chloroxylenol0.638%0.212%None3:1 Phenoxyethanol/Chloroxylenol0.638%0.212%0.150%with 15% Caprylyl Glycol4:1 Phenoxyethanol/Chloroxylenol0.680%0.170%None4:1 Phenoxyethanol/Chloroxylenol0.680%0.170%0.150%with 15% Caprylyl Glycol5:1 Phenoxyethanol/Chloroxylenol0.708%0.142%None5:1 Phenoxyethanol/Chloroxylenol0.708%0.142%0.150%with 15% Caprylyl Glycol4:1 Phenoxyethanol/Chloroxylenol0.640%0.160%0.200%with 20% Caprylyl Glycol

TABLE 4A

Efficacy Of Preservative Blends With And Without Caprylyl Glycol.

Preservation Blend
Colony Forming Units Per Gram Lotion (CFU/g) After 1 Week

(see Table 3 for final concentration)

P. aeruginosa

S. aureus

C. albicans

A. niger/Penicillium sp.

No preservative
1.2 × 10⁶
4.6 × 10⁶
ND*
1.1 × 10⁴

3:1 Phenoxyethanol/Chloroxylenol
7.5 × 10⁴
1.3 × 10⁶
1.6 × 10⁴
5.8 × 10⁴

3:1 Phenoxyethanol/Chloroxylenol with
1.0 × 10²
8.5 × 10⁵
6.0 × 10¹
2.5 × 10⁴

15% Caprylyl Glycol

Addition of 15% Caprylyl Glycol to
99.9%
34.6%
99.6%
56.9%

3:1 blend increased cell reduction by:

4:1 Phenoxyethanol/Chloroxylenol
3.8 × 10⁴
1.2 × 10⁶
1.6 × 10⁴
2.2 × 10⁴

4:1 Phenoxyethanol/Chloroxylenol with
1.5 × 10²
1.4 × 10⁶
1.0 × 10²
2.2 × 10⁴

15% Caprylyl Glycol

Addition of 15% Caprylyl Glycol to
96.0%
No
99.4%
No increase in

4:1 blend increased cell reduction by:

increase in

reduction

reduction

4:1 phenoxyethanol/Chloroxylenol with
1.3 × 10²
1.2 × 10⁶
1.0 × 10¹
1.8 × 10⁴

20% Caprylyl Glycol

Addition of 20% Caprylyl Glycol to
96.6%
No
99.9%
No increase in

4:1 blend increased cell reduction by:

increase in

reduction

reduction

5:1 Phenoxyethanol/Chloroxylenol
3.6 × 10⁴
1.3 × 10⁶
1.8 × 10⁴
4.7 × 10⁴

5:1 Phenoxyethanol/Chloroxylenol with
4.0 × 10¹
8.6 × 10⁴
5.5 × 10²
3.0 × 10⁴

15% Caprylyl Glycol

Addition of 15% Caprylyl Glycol to
99.9%
93.4%
96.9%
36.2%

5:1 blend increased cell reduction by:

*ND = Not determined

TABLE 4B

Efficacy Of Preservative Blends With And Without Caprylyl Glycol.

Preservation Blend
Colony Forming Units Per Gram Lotion (CFU/g) After 2 weeks

(see Table 3 for final concentration)

P. aeruginosa

S. aureus

C. albicans

A. niger/Penicillium sp.

No preservative
2.3 × 10⁷
4.7 × 10⁷
5.4 × 10⁴
4.1 × 10⁵

3:1 Phenoxyethanol/Chloroxylenol
1.5 × 10⁴
3.2 × 10⁵
1.8 × 10³
2.2 × 10⁴

3:1 Phenoxyethanol/Chloroxylenol with
2.0 × 10¹
3.7 × 10⁵
<1.0 × 10¹
2.5 × 10³

15% Caprylyl Glycol

Addition of 15% Caprylyl Glycol to
99.9%
No
>99.4%
88.6%

3:1 blend increased cell reduction by:

increase in

reduction

4:1 Phenoxyethanol/Chloroxylenol
9.3 × 10³
4.4 × 10⁵
1.5 × 10³
2.5 × 10⁴

4:1 Phenoxyethanol/Chloroxylenol with
<1.0 × 10¹
3.3 × 10⁵
<1.0 × 10¹
3.9 × 10³

15% Caprylyl Glycol

Addition of 15% Caprylyl Glycol to
>99.9%
25%
>99.3%
84.4%

4:1 blend increased cell reduction by:

4:1 Phenoxyethanol/Chloroxylenol with
2.0 × 10¹
3.7 × 10⁵
<1.0 × 10¹
5.0 × 10²

20% Caprylyl Glycol

Addition of 20% Caprylyl Glycol to
99.8%
No
>99.3%
98.0%

4:1 blend increased cell reduction by:

increase in

reduction

5:1 Phenoxyethanol/Chloroxylenol
8.7 × 10³
4.1 × 10⁵
1.8 × 10³
2.1 × 10⁴

5:1 Phenoxyethanol/Chloroxylenol with
<1.0 × 10¹
4.3 × 10⁶
<1.0 × 10¹
1.8 × 10⁴

15% Caprylyl Glycol

Addition of 15% Caprylyl Glycol to
>99.9%
Decrease
>99.4
No increase in

5:1 blend increased cell reduction by:

in

reduction

reduction

C. Determination of Minimum Inhibitory Concentrations (MIC's)

Procedure: Stock solutions of Mikrokill PCC and Mikrokill COS (see paragraph 21 above) were titrated in two-fold serial dilutions in microtiter plate wells containing 0.1 mL of appropriate growth medium. Test strains were grown on agar slants and harvested using standard microbiological techniques. Bacteria were adjusted to one million cells per milliliter in Tryptic Soy Broth. Yeast cells and mold spores were adjusted to one hundred thousand per milliliter in Sabouraud Dextrose Broth. A 0.1 mL volume of organism suspension was added to each test well. The lowest concentration of test compound inhibiting growth was recorded as the Minimum Inhibitory Concentration in Tables 5 and 6, respectively.

TABLE 5Minimum Inhibitory Concentrations (MIC) forMikrokill ™ PCC (ppm)OrganismATCC #Mikrokill ™ PCC (ppm)Gram-negative bacteriaBurkholderia cepacia25416625Escherichia coli8739156Enterobacter gergoviae330282500Enterobacter aerogenes13048310Flavobacterium odoratum13294≦78Klebsiella pneumoniae4352156Proteus mirabilis9240625Pseudomonas aeruginosa90272500Gram-positive bacteriaStaphylococcus aureus6538156Staphylococcus epidermidis12228156YeastCandida albicans10231≦78Saccharomyces cerevisiae7752≦78MoldAspergillus niger9642≦78Penicillium sp.Cosmetic isolate≦78

TABLE 6

Minimum Inhibitory Concentrations (MIC) for

Mikrokill ™ COS (ppm)

Organism
ATCC #
Mikrokill ™ COS (ppm)

Gram-negative bacteria

Burkholderia cepacia

25416
1250

Escherichia coli

8739
1250

Enterobacter gergoviae

33028
2500

Enterobacter aerogenes

13048
2500

Flavobacterium odoratum

NCIB 13294
1250

Klebsiella pneumoniae

4352
1250

Proteus mirabilis

9240
2500

Pseudomonas aeruginosa

9027
2500

Gram-positive bacteria

Staphylococcus aureus

6538
2500

Staphylococcus epidermidis

12228
2500

Yeast

Candida albicans

10231
1250

Saccharomyces cerevisiae

7752
2500

Mold

Aspergillus niger

9642
625

Penicillium sp.
Cosmetic isolate
625

D. CTFA Challenge Tests in Personal Care Formulations—Emulsions and Conditioner

Procedure: The new preservative blend, 4:1 phenoxyethanol:chloroxylenol with 20% caprylyl glycol was mixed into 3 unpreserved, generic, personal care formulations at 0.5% weight to weight. Another new blend, 4:1 phenoxyethanol:chlorphenesin with 20% caprylyl glycol was mixed into 3 unpreserved, generic, personal care formulations (Water in Oil Emulsion, Oil in Water Emulsion and Conditioner) at 1.0% weight to weight. A standard CTFA cosmetic challenge protocol was followed to assess efficacy against a broad spectrum of microorganisms. The four separate inocula were: Staphylococcus aureus (ATCC 6538), Pseudomonas aeruginosa (ATCC 9027), Candida albicans (ATCC 10231), and mixed molds Aspergillus niger (ATCC 6275) and a Penicillium sp. cosmetic isolate. Samples (25 grams each) were inoculated with approximately 2,000,000 bacteria per gram, 50,000 yeast cells per gram or 30,000 mold spores per gram. Individual challenges were prepared from overnight slants of bacteria and yeast cultures and from heavily sporulating mold cultures, 7 to 10 days old. All samples were plated quantitatively for viable organisms after 24 hours and weekly for 3 weeks. Three weeks after the initial challenge, samples were challenged again and the same sampling regime followed.

Results: As shown by the results in Tables 7 to 15B, the new preservative blends demonstrated bactericidal and fungicidal efficacy in several generic cosmetic formulations. Activity of the 4:1 phenoxyethanol:chloroxylenol with 20% caprylyl glycol was best shown in the oil in water emulsion (Tables 9A and 9B) and in the conditioner (Tables 10A and 10B), overall the most susceptible formulation. In the conditioner, all 4 inocula were reduced to <10 cfu/g within 7 days after each challenge. The mixed mold inoculum was more resistant than the other challenges, but was reduced by about 82%-89% within 48 hours. The water in oil emulsion (Tables 8A and 8B) was the least susceptible to microbial contamination, but 24 hour plate counts showed greater reduction in preserved samples than in the unpreserved formulation. Although the bacterial challenge died in the unpreserved samples, sufficient yeast and mold survived to differentiate between preserved and unpreserved material. The 4:1 phenoxyethanol:chlorphenesin with 20% caprylyl glycol preservative was effective against the test bacteria, yeast and molds in all four formulations tested. All preserved formulations showed at least a 99.9% reduction of vegetative bacteria and at least a 90% reduction of yeasts and molds within 7 days following each challenge. Although somewhat slower acting against mold in the Oil in Water Lotion (Table 13A), especially following the first challenge, the reduction in mold counts were >90% within 7 days. Without preservative, molds increased substantially in this formulation.

Conclusions: These preservatives can effectively protect cosmetic formulations against bacterial and fungal growth.

TABLE 70.5% 4:1 Phenoxyethanol:Chloroxylenol With 20% CaprylylGlycol Inoculum Recovered From Controls At ‘0’ Hour -Colony Forming Units Per Gram (Cfu/G).Challenge #1Challenge #2Product/OrganismCFU/gCFU/gWater in Oil EmulsionP. aeruginosa2.2 × 10⁶1.1 × 10⁵S. aureus9.3 × 10⁵2.6 × 10⁶C. albicans9.3 × 10³7.4 × 10³A. niger + Penicillium sp.3.2 × 10⁴1.8 × 10⁴Oil in Water EmulsionP. aeruginosa6.2 × 10⁶6.1 × 10⁶S. aureus1.8 × 10⁶2.2 × 10⁶C. albicans5.3 × 10³2.2 × 10⁵A. niger + Penicillium sp.3.2 × 10⁵4.9 × 10⁵ConditionerP. aeruginosa5.6 × 10⁶1.1 × 10⁷S. aureus1.8 × 10⁶2.5 × 10⁶C. albicans4.7 × 10⁴2.5 × 10⁶A. niger. + Penicillium sp.3.4 × 10⁵5.0 × 10⁵

TABLE 8A

Water in Oil Emulsion with 0.5% 4:1 phenoxyethanol:chloroxylenol

with 20% caprylyl glycol.

Preserved Sample Results - Colony Forming Units Per Gram (CFU/G)

Challenge #1
Challenge #2

24
7
14
21

48
7
14
21

Test Organism
Hours
Days
Days
Days
24 Hours
Hours
Days
Days
Days

P. aeruginosa

<10
<10
<10
<10
<10
ND
<10
<10
<10

S. aureus

<10
<10
<10
<10
<10
ND
<10
<10
<10

C. albicans

<10
<10
<10
<10
8.2 × 10²
<10
<10
<10
<10

A. niger +
4.4 × 10²
<10
<10
<10
8.2 × 10²
<10
<10
<10
<10

Penicillium sp.

ND = Not determined

TABLE 8B

Unpreserved Water in Oil Emulsion Control Results - Colony Forming Units Per Gram (CFU/G)

Challenge #1
Challenge #2

Test
24
7
14
21
24
48
7
14
21

Organism
Hours
Days
Days
Days
Hours
Hours
Days
Days
Days

P. aeruginosa

1.5 × 10
<10
<10
<10
4.0 × 10¹
ND
<10
<10
<10

S. aureus

4.6 × 10⁴
<10
<10
<10
2.9 × 10³
ND
1.8 × 10⁴
<10
<10

C. albicans

2.2 × 10³
5.5 × 10²
2.5 × 10³
6.0 × 10¹
8.1 × 10²
ND
1.5 × 10⁴
2.6 × 10³
1.3 × 10³

A. niger +
3.4 × 10³
4.5 × 10²
1.2 × 10³
4.9 × 10²
7.5 × 10³
4.1 × 10³
8.1 × 10²
6.1 × 10²
2.3 × 10³

Penicillium sp.

ND = Not determined

TABLE 9A

Oil in Water Emulsion with 0.5% 4:1 phenoxyethanol:chloroxylenol

with 20% caprylyl glycol.

Preserved Sample Results - Colony Forming Units per Gram (CFU/g).

Challenge #1
Challenge #2

24
7
14
21
24
48
7
14
21

Test Organism
Hours
Days
Days
Days
Hours
Hours
Days
Days
Days

P. aeruginosa

<10
<10
<10
<10
<10
ND
<10
<10
<10

S. aureus

<10
<10
<10
<10
<10
ND
<10
<10
<10

C. albicans

1.9 × 10³
<10
<10
<10
2.1 × 10²
ND
<10
<10
<10

A. niger +
2.3 × 10⁵

<10³
<10
<10
7.6 × 10⁴
2.3 × 10⁴
<10
<10
<10

Penicillium sp.

ND = Not determined

TABLE 9B

Unpreserved Oil in Water Emulsion Control Results - Colony Forming Units per Gram (CFU/g).

Challenge #1
Challenge #2

24
7
14
21
24
48
7
14
21

Test Organism
Hours
Days
Days
Days
Hours
Hours
Days
Days
Days

P. aeruginosa

3.0 × 10⁶
1.9 × 10⁴
2.2 × 10⁴
7.1 × 10³
4.0 × 10⁶
ND
5.7 × 10⁵
4.3 × 10³
<10

S. aureus

1.6 × 10⁶
2.0 × 10⁴
4.0 × 10⁵
4.3 × 10⁴
2.1 × 10⁶
ND
3.0 × 10²
3.2 × 10⁴
<10

C. albicans

4.8 × 10⁴
3.8 × 10⁵
4.0 × 10⁵
2.7 × 10⁵
4.6 × 10⁵
ND
2.7 × 10⁶
6.8 × 10⁵
3.6 × 10⁶

A. niger +
2.2 × 10⁵
1.8 × 10⁵
1.0 × 10⁶
6.9 × 10⁵
7.6 × 10⁴
2.0 × 10⁵
6.1 × 10⁵
2.9 × 10⁵
3.1 × 10⁵

Penicillium sp.

ND = Not determined

Hair Conditioner

TABLE 10AConditioner with 0.5% 4:1 phenoxyethanol:chloroxylenol with 20% caprylyl glycol.Preserved Sample Results - Colony Forming Units per Gram (CFU/g).Challenge #1Challenge #271421244871421Test Organism24 HoursDaysDaysDaysHoursHoursDaysDaysDaysP. aeruginosa<10<10<10<10<10ND<10<10<10S. aureus<10<10<10<10<10ND<10<10<10C. albicans<10<10<10<101.0 × 10³ND<10<10<10A. niger +1.8 × 10⁵<10³<10<101.3 × 10⁵5.3 × 10⁴<10<10<10Penicillium sp.
ND = Not determined

TABLE 10B

Unpreserved Conditioner Control Results - Colony Forming Units per Gram (CFU/g)

Challenge #1
Challenge #2

Test
24
7
14
21
24
48
7
14
21

Organism
Hours
Days
Days
Days
Hours
Hours
Days
Days
Days

P. aeruginosa

3.7 × 10⁶
3.0 × 10³
>10⁶
1.2 × 10⁵
1.7 × 10⁶
ND
1.9 × 10⁵
2.4 × 10⁵
1.9 × 10⁶

S. aureus

2.1 × 10⁶
1.8 × 10⁴
6.5 × 10³
1.4 × 10⁵
4.5 × 10⁴
ND
Contam*
>10⁶
6.5 × 10⁶

C. albicans

3.1 × 10⁶
7.5 × 10⁶
4.9 × 10⁶
3.0 × 10⁶
2.8 × 10⁶
ND
8.0 × 10⁵
4.0 × 10⁵
1.9 × 10⁵

A. niger +
2.5 × 10⁵
3.9 × 10⁴
2.3 × 10⁵
1.9 × 10⁵
1.4 × 10⁵
2.9 × 10⁵
>10⁵
3.1 × 10⁵
4.9 × 10⁵

Penicillium sp.

ND = Not determined

TABLE 11

0.5% 4:1 phenoxyethanol:chlorphenesin with 20% Caprylyl

Glycol. Inoculum Recovered From Controls At ‘0’

Hour - Colony Forming Units Per Gram (Cfu/G).

Challenge #1
Challenge #2

Product/Organism
CFU/g
CFU/g

Water in Oil Emulsion

S. aureus

8.9 × 10⁴
3.8 × 10⁴

P. aeruginosa + B. cepacia
1.1 × 10⁵
1.9 × 10⁴

K. pneumoniae

1.9 × 10⁵
1.5 × 10⁵

C. albicans

4.0 × 10³
3.6 × 10²

A. niger + Penicillium sp.
2.3 × 10³
3.8 × 10²

Oil in Water Emulsion

S. aureus

1.5 × 10⁶
1.7 × 10⁶

P. aeruginosa + B. cepacia
1.5 × 10⁶
8.5 × 10⁶

K. pneumoniae

2.0 × 10⁶
1.8 × 10⁶

C. albicans

4.4 × 10⁴
1.7 × 10⁵

A. niger + Penicillium sp.
3.9 × 10⁵
1.3 × 10⁵

Conditioner

S. aureus

3.1 × 10⁵
5.3 × 10⁴

P. aeruginosa + B. cepacia
4.8 × 10⁵
9.2 × 10⁶

K. pneumoniae

4.9 × 10⁵
6.0 × 10⁵

C. albicans

1.9 × 10⁴
1.3 × 10⁵

A. niger + Penicillium sp.
2.6 × 10⁴
2.0 × 10⁴

Oil in Water Lotion

S. aureus

1.8 × 10⁶
1.5 × 10⁶

P. aeruginosa + B. cepacia
1.9 × 10⁶
4.7 × 10⁷

K. pneumoniae

3.0 × 10⁶
1.1 × 10⁸

C. albicans

7.2 × 10⁴
1.2 × 10⁶

A. niger + Penicillium sp.
4.5 × 10⁴
8.1 × 10⁵

Water in Oil Emulsion

TABLE 12AWater in Oil Emulsion with 1.0% 4:1 phenoxyethanol:chlorphenesin with 20% caprylyl glycol.Preserved Sample Results - Colony Forming Units per Gram (CFU/g).Challenge #1Challenge #2244871421244871421Test OrganismHoursHoursDaysDaysDaysHoursHoursDaysDaysDaysS. aureus<10ND<10<10<10<10ND<10<10<10P. aeruginosa +<10ND<10<10<10<10ND<10<10<10B. cepaciaK. pneumoniae<10ND<10<10<10<10ND<10<10<10C. albicans<10ND<10<10<10<10ND<10<10<10A. niger +<10<10<10<10<10<10<10<10<10<10Penicillium sp.
ND = Not determined

TABLE 12B

Unpreserved Water in Oil Emulsion Control Results - Colony Forming Units per Gram (CFU/g).

Challenge #1
Challenge #2

Test
24
48
7
14
21
24
48
7
14
21

Organism
Hours
Hours
Days
Days
Days
Hours
Hours
Days
Days
Days

S. aureus

1.1 × 10⁵
ND
1.5 × 10²
<10
<10
1.4 × 10⁵
ND
<10
<10
<10

P. aeruginosa +
5.1 × 10⁴
ND
4.2 × 10²
<10
<10
8.4 × 10³
ND
<10
<10
<10

B. cepacia

K. pneumoniae

5.2 × 10⁴
ND
<10
<10
<10
5.0 × 10³
ND
<10
<10
<10

C. albicans

7.0 × 10³
ND
3.2 × 10²
3.2 × 10²
8.1 × 10²
4.1 × 10³
ND
1.2 × 10⁴
3.1 × 10³
5.5 × 10³

A. niger +
1.6 × 10³
6.0 × 10³
7.0 × 10³
2.5 × 10²
3.8 × 10²
1.7 × 10²
3.7 × 10³
1.1 × 10³
1.7 × 10³
3.7 × 10²

Penicillium sp.

ND = Not determined

Oil in Water Emulsion

TABLE 13AOil in Water Emulsion with 1.0% 4:1 phenoxyethanol:chlorphenesin with 20% caprylyl glycol.Preserved Sample Results - Colony Forming Units per Gram (CFU/g).Challenge #1Challenge #2244871421244871421Test OrganismHoursHoursDaysDaysDaysHoursHoursDaysDaysDaysS. aureus<10ND<10<10<10<10ND<10<10<10P. aeruginosa +<10ND<10<10<10<10ND<10<10<10B. cepaciaK. pneumoniae<10ND<10<10<10<10ND<10<10<10C. albicans<10ND<10<10<10<10ND<10<10<10A. niger +1.1 × 10⁴1.9 × 10³<10<10<104.4 × 10²<10<10<10<10Penicillium sp.
ND = Not determined

TABLE 13B

Unpreserved Oil in Water Emulsion Control Results - Colony Forming Units per Gram (CFU/g)

Challenge #1
Challenge #2

Test
24
48
7
14
21
24
48
7
14
21

Organism
Hours
Hours
Days
Days
Days
Hours
Hours
Days
Days
Days

S. aureus

1.1 × 10⁶
ND
1.4 × 10⁴
1.1 × 10³
4.0 × 10¹
1.2 × 10⁶
ND
3.6 × 10³
8.9 × 10²
<10

P. aeruginosa +
1.2 × 10⁶
ND
2.8 × 10⁶
9.7 × 10⁵
8.0 × 10⁶
1.5 × 10⁷
ND
9.6 × 10⁶
1.3 × 10⁷
8.2 × 10⁶

B. cepacia

K. pneumoniae

1.6 × 10⁶
ND
1.1 × 10⁵
9.4 × 10³
1.5 × 10²
3.3 × 10⁵
ND
2.5 × 10⁵
3.5 × 10⁵
3.2 × 10⁵

C. albicans

1.7 × 10⁵
ND
2.0 × 10⁵
7.7 × 10⁴
2.7 × 10⁵
2.3 × 10⁵
ND
4.2 × 10⁵
8.9 × 10⁴
7.2 × 10⁴

A. niger +
3.3 × 10⁴
3.4 × 10⁴
3.3 × 10⁴
4.0 × 10⁴
3.4 × 10⁴
4.2 × 10⁴
5.4 × 10⁴
1.2 × 10⁵
1.1 × 10⁵
7.2 × 10⁴

Penicillium sp.

ND = Not determined

Hair Conditioner

TABLE 14AHair Conditioner with 1.0% 4:1 phenoxyethanol:chlorphenesin with 20% caprylyl glycol.Preserved Sample Results - Colony Forming Units per Gram (CFU/g).Challenge #1Challenge #2244871421244871421Test OrganismHoursHoursDaysDaysDaysHoursHoursDaysDaysDaysS. aureus<10ND<10<10<10<10ND<10<10<10P. aeruginosa + B. cepacia<10ND<10<10<10<10ND<10<10<10K. pneumoniae<10ND<10<10<10<10ND<10<10<10C. albicans<10ND<10<10<10<10ND<10<10<10A. niger + Penicillium sp.1.8 × 10²3.0 × 10¹<10<10<10<10<10<10<10<10
ND = Not determined

TABLE 14B

Unpreserved Conditioner Control Results - Colony Forming Units per Gram (CFU/g).

Challenge #1
Challenge #2

Test

48
7
14
21
24
48
7
14
21

Organism
24 Hours
Hours
Days
Days
Days
Hours
Hours
Days
Days
Days

S. aureus

<1 × 10³
ND
<10
<10
<10
<10
ND
<10
<10
<10

P. aeruginosa + B. cepacia
4.6 × 10⁵
ND
2.9 × 10⁷
1.9 × 10⁷
1.3 × 10⁷
1.9 × 10⁷
ND
2.8 × 10⁷

>10⁷

>10⁷

K. pneumoniae

6.0 × 10³
ND
<10
<10
<10
<10
ND
<10
<10
<10

C. albicans

9.8 × 10⁴
ND
6.9 × 10⁴
2.2 × 10⁵
4.4 × 10⁴
8.9 × 10⁴
ND
3.6 × 10⁵
8.0 × 10⁴
1.4 × 10⁵

A. niger + Penicillium sp.
1.4 × 10⁴
3.7 × 10⁴
1.5 × 10⁴
3.5 × 10⁴
1.3 × 10⁴
2.0 × 10⁴
2.2 × 10⁴
1.5 × 10⁴
1.1 × 10⁵
5.9 × 10⁴

ND = Not determined

Oil in Water Lotion

TABLE 15AOil in Water Lotion with 1.0% 4:1 phenoxyethanol:chlorphenesin with 20% caprylyl glycol.Preserved Sample Results - Colony Forming Units per Gram (CFU/g).Challenge #1Challenge #2244871421244871421Test OrganismHoursHoursDaysDaysDaysHoursHoursDaysDaysDaysS. aureus<10ND<10<10<10<10ND<10<10<10P. aeruginosa + B. cepacia<10ND<10<10<10<10ND<10<10<10K. pneumoniae<10ND<10<10<10<10ND<10<10<10C. albicans<10ND<10<10<10<10ND<10<10<10A. niger + Penicillium sp.1.7 × 10⁴1.8 × 10⁴2.0 × 10¹<10<101.3 × 10⁴1.7 × 10³<10<10<10
ND = Not determined

TABLE 15B

Unpreserved Oil in Water Lotion Control Results - Colony Forming Units per Gram (CFU/g).

Challenge #1
Challenge #2

24
48
7
14
21
24
48
7
14
21

Test Organism
Hours
Hours
Days
Days
Days
Hours
Hours
Days
Days
Days

S. aureus

1.5 × 10⁶
ND
2.3 × 10⁶
3.3 × 10⁴
4.5 × 10³
1.1 × 10⁶
ND
7.9 × 10⁶
1.9 × 10⁵
7.9 × 10³

P. aeruginosa + B. cepacia
3.5 × 10⁶
ND
4.0 × 10⁶
>10⁷
2.8 × 10⁷
5.4 × 10⁷
ND
1.2 × 10⁸
2.1 × 10⁸
>10⁸

K. pneumoniae

3.0 × 10⁶
ND
2.9 × 10⁷
6.6 × 10⁷
7.2 × 10⁷
1.1 × 10⁸
ND
1.6 × 10⁸
1.3 × 10⁸
7.4 × 10⁷

C. albicans

6.4 × 10⁴
ND
8.9 × 10⁴
4.8 × 10⁴
4.8 × 10⁴
1.1 × 10⁵
ND
1.2 × 10⁵
>10⁶
3.8 × 10⁷

A. niger + Penicillium sp.
3.6 × 10⁴
2.8 × 10⁴
2.1 × 10⁵
9.8 × 10⁵
2.2 × 10⁵
1.5 × 10⁶
1.0 × 10⁶
1.5 × 10⁶
2.5 × 10⁶
3.8 × 10⁷

ND = Not determined

E. Tetra-Blend MIC Testing

The Minimum Inhibitory Concentrations (MIC) for a 4-component blend containing 64% by weight 2-phenoxyethanol, 8% by weight chlorphenesin, 8% by weight chloroxylenol, and 20% by weight caprylyl glycol was determined using the same procedures stated above in Part C. The results are shown in Table 16.

TABLE 16Minimum Inhibitory Concentrations (MIC) for4-Component Blend.OrganismATCC #4-Component Blend (ppm)Gram-negative bacteriaKlebsiella pneumoniae43525000Pseudomonas aeruginosa90275000Gram-positive bacteriaStaphylococcus aureus65385000YeastCandida albicans10231≦0.78MoldAspergillus niger9642156

While the invention has been described above with reference to specific embodiments thereof, it is apparent that many changes, modifications, and variations can be made without departing from the inventive concept disclosed herein. Accordingly, it is intended to embrace all such changes, modifications and variations that fall within the spirit and broad scope of the appended claims. All patent applications, patents and other publications cited herein are incorporated by reference in their entirety.

Broad spectrum preservation blends

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CPC

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