PERFUMING COMPOSITIONS AND USES THEREOF

Technical Field

The present invention relates to the field of perfumery. More particularly, it provides compositions wherein the release of a particular fragrance is modulated via the use of specific amounts of a modulating agent. The compositions of the invention comprise isocetyl alcohol in the presence of high amounts of ethanol. The invention also relates to methods of use of said compositions and to a method for increasing the long- lastingness of a fragrance component by applying these compositions on skin or hair.

Prior art

In the perfumery industry there is a constant need to find new technologies for prolonging the perception of perfumes over time. Such a need is particularly marked when dealing with perfumes rich in highly volatile compounds which evaporate quickly, such that the fragrance intensity, as perceived by the user and others in his environment, decreases rapidly with time. The perceived extent of this decrease is further enhanced by the rapid evaporation of ethanol, present in high amounts in fragrances and "eaux de toilette" (colognes), as well as in body splashes. Maintaining intensity over time is key for a commercial fragrance. Indeed, consumers look for fragrances that last all day long. It is commonly accepted that a fragrance has to maintain a good intensity for at least 8 hours to satisfy this consumer need, the main challenge being to maintain an acceptable intensity of the highly volatile compounds over time. The present invention aims at providing perfume compositions the top and middle notes of which have an improved intensity over time.

Retarding the evaporation of highly volatile ingredients present in fragrances is therefore one of the main aims of research in fragrance design and creation, and many approaches to solving this problem have been described in the prior art. The use of agents of various nature, capable of modifying the characteristics of evaporation of fragrance ingredients and fragrances, has produced a prior art so vast that it cannot possibly be cited exhaustively here. Such prior disclosed agents range from heavy perfumery materials and perfume extenders (understood to be compounds having an odour, and which are compatible, both as to solubility and odour, with a more expensive or less available perfume oil, and, when admixed or used in conjunction therewith, extend the usefulness of the oil), to a large variety of polymeric or gel-like materials capable of forming filmlike or structured arrangements such as micelles which trap the perfume, to fragrance encapsulating carrier materials, or yet to the so-called pro-perfumes, i.e. chemical entities which release a perfuming ingredient via chemical degradation or cleavage, when applied to a surface under controlled conditions.

Many prior researchers have proposed the use of so-called "fixatives" but, to the best of our knowledge, such prior art proposals are indiscriminate in relation to the fragrance nature, i.e. they advocate the use of the fixatives with any perfume ingredient or fragrance, assuming that all ingredients are affected in much like the same manner by a certain fixative.

We have now surprisingly established that this is not the case and the present invention provides a different and selective approach, aimed at benefiting from the selection of a modulator of specific nature, isocetyl alcohol or a fragrance modulator mixture formed thereof, to be used with fragrances which comprise a defined amount of perfume ingredients with specific vapor pressures. We have in fact established that such a solution provides longer lasting fragrances in the cases where prolonging the perception of the fragrance is most needed, whilst still allowing freedom to the perfumer in the choice of perfuming ingredients at his or her disposal to achieve the desired hedonic effect, particularly amongst ingredients in the higher vapor pressure range of the perfumer's palette. Moreover, we have also established that the fixatives according to the present invention, unlike many previously proposed fixatives, do not affect the odour stability of the fragrance even after two months storage at 45 °C.

The compositions of the invention are not known from the prior art. Whereas isocetyl alcohol is a known emollient in cosmetic compositions, appreciated for its ability to reduce tackiness and lighten the greasy effect of other greasier emollients, particularly in lipsticks, where it also acts as a pigment dispersant, to the best of our knowledge it has never been reported or suggested for use in retarding evaporation of perfume ingredients and modulating the evaporation profile of specific ranges of more volatile components in fragrances, the latter being typically devoid of fatty-like components. Its use as a modulator of the evaporation profile of fragrances of specific nature is a totally unexpected and advantageous contribution to perfumery technology.

The present invention brings a novel and advantageous solution to the problem of prolonging the long-lastingness of fragrances comprising a significant amount of the most volatile perfuming components, as well as high amounts of ethanol or other alcohols commonly used in commercial perfumes.

Description of the invention

The present inventors have surprisingly established that the odour impact of perfumery ingredients can be efficiently improved with perfumes containing isocetyl alcohol as a perfume evaporation modulator.

Thus, the invention relates to a composition consisting of:

a) a fragrance component, in an amount of between 3 and 40% by weight of the composition's weight, at least 40% by weight of the total weight of said fragrance component being formed of perfuming ingredients having a calculated vapor pressure V comprised in the range 0.05 < V < 300 Pa;

b) from 40 to 90% by weight, relative to the total weight of the composition, of ethanol;

c) from 0.01 to 20% by weight, relative to the total weight of the composition, of a fragrance modulator formed of isocetyl alcohol; and

d) optionally water;

and wherein the sum of the weights of ingredients a) to d) adds up to at least 98% of the composition's weight.

By "consisting of it is meant here that the composition consists essentially of the recited components but may contain small amounts (not more than 2% weight thereof) of other ingredients that do not have an impact on the release of the fragrance component. The composition may for example comprise stabilising or anti-oxidation agents of current use in perfumery, UV filters or quenchers, or yet colouring agents. It will however be devoid of cosmetic ingredients of varied nature, such as emollients, skin softening agents, bactericide agents, antiperspirant salts, deodorant agents, preservatives, skin care actives; moisturizing agents, surfactants, soothing agents, hair fixatives, hair conditioners, skin conditioners, propellants and any other type of substance current in cosmetics, soaps, creams and gels, intended for application to the skin and hair, and which is of a nature susceptible of having an effect on the evaporation rate and release of the fragrance. The composition is therefore devoid of any ingredients, other than the fragrance modulator above cited, capable of affecting the release of the perfuming ingredients present in the fragrance component. Apart from these small amounts (not more than 2% weight of the composition) of the above acceptable ingredients, ingredients a) to d) shall form 98% at least of the total weight of the composition, each of ingredients a) to c) being present in an amount comprised in the respective range cited above. This also means that, when the composition comprises no water, components a) to c) are present in amounts comprised within the respective ranges defined above, in such a way that the total sum of their weights adds up to at least 98% of the total composition weight.

The compositions according to the invention are so-called fine fragrance compositions (perfumes or fragrances), meaning ethanol based compositions, essentially intended to perfume skin or hair, i.e. to impart a pleasant odour thereto, or cover a malodour thereof. They are generally in the form of perfume concentrates, perfumes, eaux de parfum, eaux de toilette, or colognes and body splashes.

The words "perfume" and "fragrance" are used here interchangeably to designate the component in the composition that is formed of perfuming ingredients, i.e. ingredients capable of imparting or modifying the odour of skin or hair.

By a "perfuming ingredient" it is meant here a compound of current use in perfumery, which is used essentially for its ability to smell pleasantly and to be capable of imparting a pleasant odour to the products into which it is incorporated, or to the surfaces, such as skin or hair, to which it is applied, on its own or in admixture with other such ingredients. In other words, a perfuming ingredient has the ability to impart or modify, in a positive or pleasant way, the odour of a composition or surface. When the latter has a malodour, the perfuming ingredient may also be capable of covering such malodour so as to render the overall perceived odour pleasant.

By "modulator" it is understood here an agent having the capacity to affect the manner in which the odour, and in particular the evaporation rate and intensity, of the compositions incorporating said modulator can be perceived by an observer or user thereof, over time, as compared to the same perception in the absence of the modulator. In particular, according to the invention, isocetyl alcohol is a modulator of the perceived tenacity of the compositions according to the invention, i.e. it is used to prolong the time during which their fragrance is perceived to have an acceptable intensity, as compared to the perception when isocetyl alcohol is not used in the composition.

A "fragrance modulator formed of isocetyl alcohol" means here a fragrance modulator based on isocetyl alcohol, but which may also contain another substance or substances having a similar modulator effect on the evaporation of the fragrance, under the same conditions. The fragrance modulator, as defined here, consists of substances capable of increasing the tenacity of the fragrance component, and therefore of the composition, as compared to its tenacity in the absence of fragrance modulator, and contains at least 30% of isocetyl alcohol and, more preferably, a predominant amount (more than 50% by weight of the total weight of fragrance modulator) of isocetyl alcohol.

The perception or impact of a perfuming ingredient, or of a mixture of perfuming ingredients forming the fragrance component, is understood here to be prolonged or delayed in the presence of the modulator, i.e. its top and heart notes become "tenacious", meaning that they can be perceived by the user and any other individuals in the surroundings for a longer time than if the fragrance had been applied on its own, in the absence of the modulator, to skin or hair.

The definitions here above apply to any and all embodiments of the invention here-described and in particular to any and all embodiments of the compositions according to the invention.

The perfume or fragrance component present in the composition of the invention is defined here as a compound which is used to impart a hedonic effect. In other words such a perfuming component, in order to be considered as such, must be recognized by a person skilled in the art as being able to impart or modify in a positive, desirable or pleasant way the odour of the composition, or of an article or surface on which it is applied. Compounds capable of modifying the perception by a consumer of the odour and impact of a compound as defined above are also considered as the fragrance component in the composition of the invention.

Typically, the fragrance component of the composition is a mixture of perfuming ingredients, possibly together with current perfume carriers.

By "perfumery carrier" we mean here a material which is practically neutral from a perfumery point of view, i.e. which does not significantly alter the organoleptic properties of perfuming components. Said carrier may preferably be a liquid and will typically be a solvent such as dipropyleneglycol, diethyl phthalate, isopropyl myristate, benzyl benzoate, 2-(2-ethoxyethoxy)-l-ethanol or ethyl citrate (triethyl citrate) are the most commonly used.

According to a particular embodiment of the invention, the composition comprises a fragrance component wherein 50 to 70%, or even more, of its weight is formed of perfuming ingredients having a calculated vapor pressure V comprised in the range 0.05 < V < 300 Pa.

Also, the use of isocetyl alcohol as a modulator of the composition's tenacity has proved to be even more advantageous when the fragrance component comprises the above-mentioned amounts of particularly volatile ingredients, i.e. ingredients having a vapor pressure between 0.4 < V < 200 Pa, the resulting compositions of the invention being preferred.

The nature and type of the perfuming ingredients in any of the fragrance components of the compositions according to the invention can be selected by the skilled person on the basis of its general knowledge together with the teachings contained herein, and according to the intended use or application and the desired perfuming effect. In general terms, these perfuming ingredients belong to chemical classes as varied as alcohols, aldehydes, ketones, esters, ethers, acetates, nitriles, terpene hydrocarbons, nitrogenous or sulfurous heterocyclic compounds and essential oils, and can be of natural or synthetic origin. Many of these ingredients are in any case listed in reference texts such as the book by S. Arctander, Perfume and Flavor Chemicals, 1969, Montclair, New Jersey, USA, or its more recent versions, and in other works and textbooks of a similar nature, as well as in the abundant patent literature in the field of perfumery.

It is also understood that said perfuming ingredients can be admixed with compounds known to release in a controlled manner various types of perfuming ingredients, namely through chemical reaction cleavage of chemical bonds of higher molecular weight precursors. Such chemical release molecules are generally designated as "profragrances" or "perfume release systems" and they are commonly used in fragrances to prolong the release in time of specific odorants and their olfactive impact over time, as compared to the olfactive effect that each such odorant could produce when used as such and not in the form of an heavier precursor thereof.

Provided that the fragrance component comprises at least 40% of its weight, and more preferably at least 50%, and typically 50 to 70% or more, by weight of perfuming ingredients having a vapor pressure in the range 0.05 < V < 300 Pa, the remainder of the fragrance component may be formed of any common or current perfuming ingredient or ingredients, used as single chemical entities, as mixtures of isomers or with other perfuming ingredients, or in the form of perfume release systems as cited above. Examples of such release systems are found for example in WO 95/04809, EP 0971021, WO 03/049666, EP 0936211, WO 99/60990, WO 01/28980, WO 08/093272, WO 98/47477, US 2004/0102357, DE 30 03 494 and WO 95/08976, to name but a few documents where such systems are described in detail.

Preferred perfuming ingredients having the desired calculated vapor pressure (calculated according to the reference program EPI suite v4.00, 2000-2008 U.S. Environmental Protection Agency) to form the at least 40% by weight of the fragrance component, are cited in Table 1 hereafter.

Table 1 - Perfuming ingredients for use in the invention

Calculated Vapor

Ingredients Pressure

(Pa)

Limonene 193.285

Hexyl Acetate 193.285

Cis-3-Hexenyl Acetate* 151.962

Cis-3-Hexenol* 124.902

Ethyl Acetoacetate 123.836

Rose Oxide 87.578

3-Methyl-2-Hexenyl Acetate* 73.182

2,4-Dimethyl-3-cyclohexene-l-carbaldehyde* 46.922

Benzyl Acetate 24.927

Linalyl Acetate 17.462

Dihydromyrcenol 16.529

Styrallyl Acetate 14.930

Citral 12.170

Linalol 11.091

(+-)-3-Methoxy-7,7-Dimethyl-10-Methylene-

4.199

Bicyclo [4.3.1] Decane*

Geranyl Acetate 3.839

Phenethylol 3.239

Allyl Cycloheylpropanoate 2.906

Methyl Anthranilate 2.626 alpha-Damascone* 2.479

Ethyl Linalol 2.359

Ethyl (2E,4Z)-2,4-Decadienoate* 2.306

Citronellol 2.253

Geraniol 2.119 Myrrhone ^®0 * 1.946

Ethyl (2E)-2,4,7-Decatrienoate* 1.746

Diethyl 1 ,4-cyclohexane dicarboxylate* 1.680

Indol 1.613

Florol ^®2) * 1.600

4-Nonanolide* 1.573

Heliotropine 1.413

4-Cyclohexyl-2-methyl-2-butanol* 1.333

Eugenol 1.264

Cyclosal 1.141

Hivernal ^®8) * 0.873

4-Methyl-3-decen-5-ol 0.793 gamma-n-Decalactone 0.682

Florazolone™ ⁹⁾ 0.665

Bourgeonal ^®3) 0.665 gamma- Undecalactone* 0.545

Cashmeran 0.537

Lihal ^®4) 0.477

Romandolide ^®5) * 0.357

(Methoxymethoxy)Cyclododecane 0.312

2,2,7/8 ,9/10-Tetramethylspiro [5.5]undec- 8-en- 1 -one* 0.152

Iso E Super ⁶⁾ 0.147

Calone ^®10)* 0.097

Coumarine 0.088

Sandalore ^®7) 0.059

Hedione ^® * 0.055

Heliopropanal 0.055 origin: Firmenich SA, Geneva Switzerland

4-(2,2,c-3,t-6-tetramethyl-R-l-cyclohexyl)-3-buten-2-one

tetrahydro-2-isobutyl-4-methyl-4(2H)-pyranol

3-(4-tert-butylphenyl)propanal; origin: Givaudan SA, Vernier, Switzerland

3-(4-tert-butylphenyl)-2-methylpropanal; origin: Givaudan SA, Vernier, Switzerland ( 1 S, 1 'R)- [ 1 -(3' ,3'-Dimethyl- 1 '-cyclohexyl)ethoxycarbonyl] methyl propanoate origin: International Flavors & Fragrances, USA

3-methyl-5-(2,2,3-trimethyl-3-cyclopenten-l-yl)-2-pentanol; origin: Givaudan SA, Vernier, Switzerland 3-(3 ,3/1,1 -dimethyl-5-indanyl)propanal

⁹⁾ 3-(4/2-Ethylphenyl)-2,2-dimethylpropanal; origin: Givaudan SA, Vernier, Switzerland

¹⁰⁾ 7-Methyl-2H,4H-l,5-benzodioxepin-3-one

Amongst all the compositions of the invention, those wherein said fragrance component contains at least 35%, 40% or even more preferably at least 50%, by weight of perfuming ingredients selected in the group consisting of the ingredients mentioned in the above Table are preferred.

As indicated above, the fragrance component forms 3 to 40% by weight of the weight of the composition. More particular embodiments of the invention's composition will comprise 3 to 25%, and more specifically 5 to 20%, by weight of fragrance component, relative to the total weight of the composition.

Therefore, amongst the compositions according to the invention which are of a more specific nature one can cite compositions which comprise 3% or more, and up to 25%, or 5 or more and up to 20%, by weight of fragrance component, at least 40% by weight of which, and more preferably 50 to 70% by weight of which, is formed of ingredients having a calculated vapor pressure V comprised in the range 0.05 < V < 300 Pa, and more preferably a calculated vapour pressure V of 0.4 < V < 200 Pa.

Component c) of any embodiment of the invention's compositions is a fragrance modulator as defined earlier in this description, present in an amount of between 0.01 and 20% by weight of the composition's weight and, in more particular embodiments, between 0.5 and 10% by weight. More preferred amounts of fragrance modulator in any such composition vary from 0.5 to 6%, or even between 1 and 5% by weight of the total weight of the composition. Preferably, at least 50%, and more preferably at least 70%, by weight of the fragrance modulator's weight is isocetyl alcohol, the remainder to 100% possibly being one or more other modulators or co-modulators.

Therefore, the invention relates to compositions as defined above which contain isocetyl alcohol, or a mixture of isocetyl alcohol with other modulators, namely Tegosoft™ APM and/or Schercemol™ NGDO, as the fragrance modulator.

Isocetyl alcohol is commercialized by International Speciality Products for example, under the tradename CERAPHYL ^® ICA. There are however other suppliers of this material, which is also sold under other commercial designations. Any such commercial forms of isocetyl alcohol are appropriate for use in component c) of the invention's compositions.

Preferred co-modulators according to the present invention are the compounds known commercially as Tegosoft™ APM (PPG-3 myristyl ether; available from Evonik Industries, Germany) and Schercemol™ NGDO Ester (Neopentyl glycol diethylhexanoate; available from Lubrizol Advanced Materials, USA). The fragrance modulator of any composition according to the invention may therefore be composed of isocetyl alcohol, or be a mixture of the latter with one or both of these two co-modulators, wherein isocetyl alcohol forms 50% by weight or more of the weight of the fragrance modulator mixture. In this context, it was possible to establish that the compositions according to the invention which contained a fragrance modulator formed of isocetyl alcohol together with Tegosoft™ APM and/or Schercemol™ NGDO Ester, wherein the weight concentration of isocetyl alcohol was 50 weight % of the combined weight of the modulator mixture and the other fragrance modulator or modulators formed the remainder 50% weight of component b) in the compositions according to the invention gave much appreciated results.

The fragrance modulator mixtures of isocetyl alcohol together with Tegosoft™ APM and Schercemol™ NGDO Ester, wherein the weight concentration of isocetyl alcohol was 50% of the combined weight of the mixture and the other two components thereof were present in equal weight % amounts in the mixture, also improved advantageously the intensity of the fragrance perceived over time. In particular, mixtures of isocetyl alcohol with Tegosoft™ APM, in a 1: 1 weight ratio, gave optimal fragrance reslease results after 4 and 8h of application of the composition on the skin.

Therefore, all the compositions according to the invention that contained mixtures of at least 50% weight of isocetyl alcohol together with Tegosoft™ APM and/or Schercemol™ NGDO Ester proved to be prime compositions for the objective of the invention, i.e. to prolong the perception of the fragrance from the surface on which it had been applied, as compared to the use of the fragrance without any modulator, or even when only isocetyl alcohol was used as the modulator.

Ethanol may be present in any of the compositions in a concentration of 40 to 90% w/w, and more specifically, it will form from 50 to 80%, or even from 60 to 85%, by weight of the total weight of the composition. Any acceptable quality of ethanol, compatible with the requirements for use in topical applications, is convenient for use in the compositions according to the invention.

The amount of water present in any embodiment of the invention's compositions shall not be above 20% by weight, and more preferably it shall be 10% or less by weight, relative to the weight of the composition. This amount may result from the amount of water present in the ethanol used in the composition, or not, as the case may be.

It goes without saying that the invention encompasses any composition comprising the components a) to c), or a) to d), cited before in this text, in any embodiment wherein each such ingredient is present in any appropriate amount there - relative defined in this text, independently of the amount of any one of the three other ingredients. Many such compositions can therefore be encompassed, wherein one or more such ingredients are combined in broader or more specific concentration ranges.

It has been ascertained that, amongst such compositions, those consisting of: a) a fragrance component, in an amount of between 5 and 20% by weight of the composition's weight, at least 50% by weight of the total weight of which is formed of perfuming ingredients having a calculated vapor pressure V comprised in the range 0.05 < V < 300 Pa;

b) from 60 to 85% by weight, relative to the total weight of the composition, of ethanol;

c) from 0.5 to 6% by weight, relative to the total weight of the composition, of isocetyl alcohol or a mixture thereof with Tegosoft™ and/or Schercemol™ NGDO; and d) from 0 to 10% by weight of water, relative to weight of the composition, are specific formulations according to the invention, with which best results, as regards tenacity performance improvement, were observed.

According to other preferred embodiments, there are provided compositions consisting of:

a) a fragrance component, in an amount of between 5 and 10% by weight of the composition's weight, at least 50% by weight of the total weight of which is formed of perfuming ingredients having a calculated vapor pressure V comprised in the range 0.05 < V < 300 Pa;

b) from 70 to 85% by weight, relative to the total weight of the composition, of ethanol;

c) from 2 to 6% by weight, relative to the total weight of the composition, of isocetyl alcohol or a mixture thereof with Tegosoft™ and/or Schercemol™ NGDO; and d) from 0 to 5% by weight of water, relative to weight of the composition.

All compositions of the invention defined in the present disclosure are capable of efficiently prolonging the perception of the fragrance component when compared to similar compositions differing only in that the fragrance modulator is absent and has been replaced by ethanol or water. In addition, it has established that the isocetyl alcohol based fragrance modulators according to the invention do not affect negatively the olfactive quality and stability of the fragrance, even when the compositions have been submitted to a long storage period of time, i.e. for 2 months at 45 °C, unlike what can be observed when some conventional fixatives are employed.

A composition according to any of the embodiments described above is a useful perfuming material, which can be advantageously used in fine perfumery for products intended to perfume skin and hair. Indeed, such compositions may be advantageously employed to achieve a more controlled deposition, and consequent release, of the perfume.

Another object of the present invention relates to a method for perfuming skin or hair, or to a method for intensifying or prolonging the diffusion effect of the characteristic fragrance of a fragrance component on skin or hair, characterized in that a body surface is treated with any one composition as defined in this description, under conditions which are susceptible of allowing the release of said fragrance component, in a better performing manner than with prior known perfumes, wherein the fragrance modulator is absent.

The compositions according to the invention can be prepared by simple admixture of their components in a generally known manner.

Brief description of the drawings

Figure 1: This figure shows the odour intensity of Composition A of the invention, as compared to a blank comprising no fragrance modulator, about 8 hours after application thereof.

Figure 2: This figure shows the odour intensity of Composition B of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 3: This figure shows the odour intensity of Composition C of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 4: This figure shows the odour intensity of Composition D of the invention, as compared to a blank comprising no fragrance modulator, over time, after application thereof.

Figure 5: This figure shows the odour intensity of Composition E of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 6: This figure shows the odour intensity of Composition F of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 7: This figure shows the odour intensity of Composition G of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 8: This figure shows the odour intensity of Composition H of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 9: This figure shows the odour intensity of Composition I of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 10: This figure shows the odour intensity of Composition J of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 11: This figure shows the odour intensity of Composition K of the invention as compared to a blank comprising no fragrance modulator and as a function of time elapsed since composition application.

Figure 12: This figure shows the odour intensity of compositions M to S according to the invention, containing Fragrance I combined with mixtures of isocetyl alcohol with Tegosoft™ APM and/or Schercemol™ NGDO Ester, in a variety of relative concentrations, as compared to the odour intensity of the Composition L which contains the same fragrance combined with isocetyl alcohol alone as the modulator, at two points in time after composition application.

Figure 13: This figure shows the odour intensity of Fragrance I when combined with a variety of fragrance modulators consisting of mixtures of isocetyl alcohol with Tegosoft™ APM and/or Schercemol™ NGDO Ester, as compared to the odour intensity of the same fragrance when combined with isocetyl alcohol alone, at two points in time after composition application.

Examples

The invention will now be described in further detail by way of the following examples, wherein the abbreviations have the usual meaning in the art. In all the evaluation tests described below, involving the use of panelists, the evaluation was carried out on a blind test, meaning that the panelists did not know the composition of the evaluated sample.

Examples 1 to 3 Compositions according to the invention and use thereof

A perfume, intended to form the fragrance component of the compositions of the invention, was prepared by admixing the following ingredients, in the amounts indicated in the Table 2 below.

Table 2: Fragrance I

Citral 18.24

Indole 7.02

Heliotropine 9.00

Methyl anthranilate 9.06

Eugenol 9.84

oc-Damascone 11.52

Coumarine 8.76

Allyl cyclohexyl propionate 11.76

Ethyl (2E,4Z)-2,4-decadienoate 11.76

Lilial ^®4) 12.24

Total 204.36

i) Origin: Firmenich SA, Geneva, Switzerland

2) Origin: International Flavors & Fragrances, USA

3) 2,4-dimethyl-3-cyclohexene-l-carbaldehyde; origin: Firmenich SA, Geneva, Switzerland

4) 3-(4-tert-butylphenyl)-2-methylpropanal, origin: Givaudan SA, Vernier, Switzerland

With Fragrance I, there were prepared three compositions according to the invention, by admixture of the components described in Table 3, in the proportions indicated.

Table 3: Compositions according to the invention

In parallel, a blank composition was prepared by replacing the fragrance modulator Ceraphyl ICA, in the amount indicated in the table for Composition A, B, respectively C, by the same amount of demineralised water.

Each of compositions A, B, C was then evaluated on a blind test against the blank, by a panel of 30 individuals. The latter were asked to evaluate the odour intensity perceived, on a scale of 1 to 10, from each pair of samples, i.e. that of the composition according to the invention and the blank. On the scale 1 to 10, 0 represented an inability to detect the odour and 10 represented a very strong odour.

The samples were evaluated after application on glass slides, the latter having been placed on a hot plate at a constant temperature of 32°C, for the desired amount of time. The results of the blind tests thus carried out were averaged and treated for variance following Duncan's post-hoc analysis (a = 0.05).

Figure 1 represents the results of a blind test evaluation, after about 8 h at 32°C, of Composition A against the blank. It is clearly seen from this figure that the fragrance modulator Ceraphyl ICA, at a concentration of 5% by weight, strongly enhances the fragrance intensity perception by the user, after 8 h of application of Composition A on the plate.

Figures 2 and 3 show the effect over time of the same fragrance modulator, when used at lower concentrations (Compositions B and C). The effect of isocetyl alcohol is particularly marked after 4 and 8 hours of application of the two cited compositions according to the invention on the carrier plate.

Example 4

Composition according to the invention and use thereof

A perfume, intended to form the fragrance component of compositions of the invention, was prepared by admixing the following ingredients, in the amounts indicated in the Table 4 below.

Table 4: Fragrance II

Ingredients Parts

(by weight)

Cis-3-Hexenyl Acetate 1

Styrallyl Acetate 1

Ethyl Acetoacetate 4

Coumarine 3 Allyl Cyclohexylpropionate 1

Damascone Alpha 2

Decalactone 1

Dihydromyrcenol 5

Ethyl Linalol 20

Geraniol 10

Iso E Super 10

Lilial ^® 100

Limonene Dist 40

Florol ^® 101

Rose Oxide 5

Phenylethyl Alcohol 85

Cis-3-Hexenol 1

2,4-Dimethyl-3-cyclohexene-l-carbaldehyde 5

Total 395

With Fragrance II, there was prepared a composition according to the invention, by admixture of the components described in Table 5, in the proportions indicated. Table 5: Composition D according to the invention

In parallel, a blank composition was prepared by replacing the fragrance modulator Ceraphyl ^® ICA, in the amount indicated in the table for Composition D, by the same amount of demineralised water.

Composition D was then evaluated on a blind test against the blank, by a panel of 5 experts in odour evaluation. The latter were asked to evaluate the odour intensity perceived, on a scale of 1 to 10, from the pair of samples, i.e. that of the composition according to the invention and the blank. On the scale 1 to 10, 0 represented an inability to detect the odour and 10 represented a very strong odour.

The samples were evaluated after application on glass slides, the latter having been placed on a hot plate at a constant temperature of 32°C, for the desired amount of time. The results of the blind tests thus carried out were averaged.

Figure 4 shows the effect over time of the fragrance modulator, when used at the concentration indicated in Table 5. The effect of isocetyl alcohol is marked from 35 minutes after composition application and particularly marked after 8 hours of application of the composition according to the invention on the carrier plate.

Example 5 Composition according to the invention and use thereof

A perfume, intended to form the fragrance component of compositions of the invention, was prepared by admixing the following ingredients, in the amounts indicated in the Table 6 below.

Table 6: Fragrance III

Ingredients Parts

(by weight)

Cis-3-Hexenol Acetate 2

Styrallyl Acetate 1

Ethyl Acetoacetate 5

Allyl Cyclohexylpropionate 1

Damascone Alpha 2

Dihydromyrcenol 14

Ethyl Linalol 34

Geraniol 10

Iso E Super 10 Liliar 100

Limonene Dist 105

Florol ^® 110

Rose Oxide 5

Phenylethyl Alcohol 85

Cis-3-Hexenol 1

Zestover 10

Total 495

With Fragrance III, there was prepared a composition according to the invention, by admixture of the components described in Table 7, in the proportions indicated. Table 7: Composition E according to the invention

In parallel, a blank composition was prepared by replacing the fragrance modulator Ceraphyl ^® ICA, in the amount indicated in the table for Composition E, by the same amount of demineralised water.

Composition E was then evaluated on a blind test against the blank, by a panel of 5 experts in odour evaluation. The latter were asked to evaluate the odour intensity perceived, on a scale of 1 to 10, from the pair of samples, i.e. that of the composition according to the invention and the blank. On the scale 1 to 10, 0 represented an inability to detect the odour and 10 represented a very strong odour.

The samples were evaluated after application on glass slides, the latter having been placed on a hot plate at a constant temperature of 32°C, for the desired amount of time. The results of the blind tests thus carried out were averaged. Figure 5 shows the effect over time of the fragrance modulator, when used at the concentration indicated in Table 7. The effect of isocetyl alcohol is marked from 15 minutes after composition application and particularly marked after 4 hours of application of the composition according to the invention on the carrier plate.

Examples 6 to 11

Six perfumes, intended to form the fragrance components of compositions of the invention, were prepared by admixing the following ingredients, in the amounts indicated in the Table 8 below.

Table 8: Fragrances IV to IX

origin: Firmenich SA, Geneva, Switzerland

i) Propyl (S)-2-(l,l-dimethylpropoxy)propanoate

2) 8-Methoxy-2,6,6,8-tetramethyl-tricyclo[5.3.1.0(l,5)]undecane

3 ⁾ 7-Methyl-2H,4H- 1 ,5-benzodioxepin-3-one

4) 2-ethyl-4-(2,2,3-trimethyl-3-cyclopenten-l-yl)-2-buten-l-ol; origin: International Flavors & Fragrances

5) l-(3,3-dimethyl-l-cyclohexyl)ethyl formate; origin: International Flavors & Fragrances

Fragrance IV contained 97.4% by weight of perfuming ingredients having a vapor pressure between 0.4 to 200 Pa, and 100% of ingredients having a vapor pressure between 0.05 and 300 Pa. Fragrance V was composed of 67.95% by weight of perfuming ingredients having a vapor pressure between 0.4 and 200 Pa, the remainder of the fragrance being formed of perfuming ingredients having a vapor pressure below 0.4 Pa. It is composed of 89.92% of ingredients having a vapor pressure between 0.05 and 300 Pa.

Fragrance VI was composed of 48.4% by weight of perfuming ingredients having a vapor pressure between 0.4 and 200 Pa and is completed with perfuming ingredients having a vapor pressure below 0.4 Pa. It is composed of 79.89% by weight of ingredients having a vapor pressure between 0.05 and 300 Pa.

Fragrance VII was composed of 33.89% by weight of perfuming ingredients having a vapor pressure between 0.4 and 200 Pa and is completed with perfuming ingredients having a vapor pressure below 0.4 Pa. It is composed of 74.92% by weight of ingredients having a vapor pressure between 0.05 and 300 Pa.

Fragrance VIII was composed of 50% by weight of perfuming ingredients having a vapor pressure between 0.05 and 300 Pa and is completed with perfuming ingredients having a vapor pressure below 0.05 Pa.

Fragrance IX was composed of 35% by weight of perfuming ingredients having a vapor pressure between 0.05 and 300 Pa and is completed with perfuming ingredients having a vapor pressure below 0.05 Pa.

All weight % above are relative to the total weight of the fragrance.

Compositions according to the invention were then prepared with the Fragrances IV to IX, by admixture of the components described in Table 9, in the proportions indicated.

Table 9: Compositions F to K according to the invention

Comp< jsition

Component (weig lit %)

F G H I J K

Fragrance IV 10.00 0 0 0 0 0

Fragrance V 0 10 0 0 0 0

Fragrance VI 0 0 10 0 0 0

Fragrance VII 0 0 0 10 0 0

Fragrance VIII 0 0 0 0 10 0

Fragrance IX 0 0 0 0 0 10

Ethanol 96% 79.42 79.42 79.42 79.42 79.42 79.42 Ceraphyl* ICA 3.00 3.00 3.00 3.00 3.00 3.00

Demineralised

7.58 7.58 7.58 7.58 7.58 7.58 water

In parallel, a blank composition was prepared by replacing the fragrance modulator Ceraphyl ^® ICA, in the amount indicated in the table above for Composition F, by the same amount of demineralised water.

Compositions F to K were then evaluated on a blind test against the blank, by a panel of 5 experts in odour evaluation. The latter were asked to evaluate the odour intensity perceived, on a scale of 1 to 10, from the successive pairs of samples, i.e. that of each of the compositions according to the invention against the blank. On the scale 1 to 10, 0 represented an inability to detect the odour and 10 represented perception of a very strong odour.

The samples were evaluated after application on glass slides, the latter having been placed on a hot plate at a constant temperature of 32°C, for the desired amount of time. The results of the blind tests thus carried out were averaged.

Figures 6 to 11 show the effect over time of the fragrance modulator, when used at the concentration indicated in Table 9.

For composition F the effect of isocetyl alcohol is marked from 15 minutes after composition application and particularly marked after 4 hours of application of the composition according to the invention on the carrier plate (Figure 6).

For composition G, the effect of isocetyl alcohol is already marked at 15 minutes after composition application and then after 1 hour and 8 hours of application of the composition according to the invention on the carrier plate (Figure 7).

For composition H, the effect of isocetyl alcohol is marked from 15 minutes after composition application and then marked after 1 hour, 4 hours and 8 hours of application of the composition according to the invention on the carrier plate (Figure 8).

For composition I, the effect of isocetyl alcohol is marked at 15 minutes after composition application and then marked after 4 hours and 8 hours of application of the composition according to the invention on the carrier plate (Figure 9).

For composition J the effect of isocetyl alcohol is marked at 15 minutes and at 8 hours after composition application on carrier plate.

For composition K the effect of isocetyl alcohol is marked at 15 minutes and at 8 hours after composition application on carrier plate.

In all cases, Ceraphyl ^® ICA had an impact on the fragrance released that could be observed a short time after application and could prolong the perception of a strong odour for several hours, even in cases where the composition was made essentially of very volatile substances. In the absence of the fragrance modulator, the impact of the fragrance would have been lost far more quickly.

Examples 12 to 19

A perfume, intended to form the fragrance component of compositions of the invention, was prepared by admixing the following ingredients, in the amounts indicated in the Table 2 above.

With Fragrance I, there were prepared eight compositions according to the invention, by admixture of the components described in Table 10 below, in the proportions indicated.

Table 10: Compositions L to S

In parallel, a blank composition was prepared by replacing the fragrance modulator Ceraphyl ^® ICA, in the amount indicated in the table for Composition L, by the same amount of demineralised water.

Each of compositions L, to S were then evaluated on a blind test against the blank, by a panel of 30 individuals. The latter were asked to evaluate the odour intensity perceived, on a scale of 1 to 10, from each pair of samples, i.e. that of the composition according to the invention and the blank. On the scale 1 to 10, 0 represented an inability to detect the odour and 10 represented a very strong odour.

The samples were evaluated after application on glass slides, the latter having been placed on a hot plate at a constant temperature of 32°C, for the desired amount of time. The results of the blind tests thus carried out were averaged and treated for variance following Duncan's post-hoc analysis (a = 0.05).

Figure 12 represents the results of the blind test evaluation, after about 15 minutes and after 1 hour at 32°C, of Compositions L to S against the blank. It is clearly seen from this figure that the different mixtures of fragrance modulators with Ceraphyl ^® ICA, at a total modulator weight concentration of 5% by weight, relative to the weight of composition, strongly enhanced the fragrance intensity perception by the user, after 1 h of application of Compositions L to S on the plate. At this time point the best performing mixture of fragrance modulators contained equal amounts of Ceraphyl ^® ICA and Schercemol™ NGDO Ester, i.e. 2.5 weight % of each, relative to the total weight of composition.

Figure 13 represents the results of a blind test evaluation, after about 4 hours and after 8 hours at 32°C, of Compositions L to S against the blank. It is clearly seen from this figure that the different mixtures of fragrance modulators with Ceraphyl ^® ICA, at a total modulator concentration of 5% by weight, relative to the weight of the composition, strongly enhanced the fragrance intensity perception by the user, after 4 h and 8 h of application of Compositions L to S on the plate.

After 4 hours the best performing mixture of fragrance modulators comprised equal amounts of Ceraphyl ^® ICA and Tegosoft™ APM, followed by the mixture with equal amounts of Ceraphyl ^® ICA and Schercemol™ NGDO Esters. These mixtures had an improved impact on prolonging the time during which an acceptable fragrance intensity could be perceived by the user than 5% Ceraphyl ^® ICA alone.

After 8 hours, it was observed that the mixture of fragrance modulators Ceraphyl ^® ICA and Tegosoft™ APM, present in equal amounts in the composition, proved to have the best performance. It was followed by the mixtures representing a concentration of 3.5 weight % Ceraphyl ^® ICA and 1.5 weight % of Tegosoft™ APM, and representing a concentration of 4.5 weight % Ceraphyl ICA and 0.5 weight % Schercemol NGDO Ester, relative to the total weight of composition of the invention. The combination of 2.5% weight concentration of Ceraphyl ICA with 1.25% weight concentration of Schercemol™ NGDO and with 1.25% weight concentration of Tegosoft™ APM, relative to the total weight of composition, also proved very useful. All of these mixtures gave better results than when a weight concentration of 5% Ceraphyl ^® ICA alone was used in the same composition and with the same fragrance.

Example 20

Fragrance stability results after 8 weeks storage at 45 °C of Eaux de Toilette (EDT) comprising 5% by weight of Ceraphyl ICA

The odor of a composition comprising Fragrance I and 5% by weight of Ceraphyl ICA above and of a variety of commercial Eaux de Toilette comprising 5% by weight of Ceraphyl ^® ICA, and wherein the fragrance component was used in the concentrations indicated in Table 11 below, was compared after 8 weeks storage at 45 °C, for each fragrance and on a blind test, with that of the corresponding reference of the same EDT but wherein Ceraphyl ^® ICA had been replaced by water.

The results of these blind evaluations after the storage period of time indicated are summarized in Table 12 below.

Table 11

Fragrance Olfactory family Fragrance Dosage

17% w/w in EDT

Market fragrance n° 1 Oriental, Floral

81% Vol.

19% w/w in EDT

Market fragrance n° 2 Woody, Fruity

81% Vol.

15% w/w in EDT

Market fragrance n° 3 Oriental, Floral

81% Vol.

12% w/w in EDT

Market fragrance n° 4 Citrus, Aromatic

81% Vol. 17% w/w in EDT

Market fragrance n° 5 Floral, Spicy

81% Vol.

20% w/w in EDT

Market fragrance n° 6 Floral, Muguet

81% Vol.

19% w/w in EDT

Market fragrance n° 7 Floral, Watery

81% Vol.

Oriental, Vanillic, 19% w/w in EDT

Market fragrance n° 8

Woody 81% Vol.

7% w/w in EDT

Market fragrance n° 9 Aromatic, Watery

75% Vol.

Table 12

The results summarized in Table 12 clearly show that the presence of the fragrance modulator has absolutely no impact on the fragrance quality and odor stability over time, even at such a high storage temperature.