JP2006348158A - Method for screening perfume material - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a method for screening a perfume material with high accuracy, capable of being used for selecting a perfume composition having improving action of spiritual working efficiency. <P>SOLUTION: This method for screening the perfume material comprises using an exceeding ratio in the latter period and a wrong answer ratio in the latter period in Kraepelin test as judging indicators and continuing to expose a space to a fragrance during execution of the test, so that the perfume material having the improving action of the spiritual working efficiency is selected. A method for evaluating the improving action of the spiritual working efficiency inherent in the perfume material comprises using the judging indicators and procedures in the above. The perfume composition for improving the spiritual working efficiency contains the perfume material selected by the method for screening the same. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a screening method for selecting a fragrance material having an effect of improving mental work efficiency.

  In recent years, it has been reported that fragrance has various effects on human physiology and psychological state through olfaction. This physiological and psychological action includes, for example, an effect of improving relaxation / sedation, an effect of improving exhilaration, promoting sleep (arousal), stress relief, improving responsiveness, or suppressing effects, etc. The effect is verified by various methods as a fragrance material or a blended fragrance.

  The effect of scent on work efficiency is another effect that scent brings. Among the research examples that looked at the effects of fragrance on work efficiency, as an example of evaluating the effect using the Kraepelin test invented by the German psychiatrist Creperin, for example, after 10 minutes of Kraepelin work, When taking a break, if you smell the scent of jasmine tea, lavender or their fragrance component R-(-)-linalool and let it work again for 10 minutes, the amount of work compared to before scenting Has been reported to increase (Non-patent Document 1). In this previous study, subjects were given a scent only during breaks between tasks.

  Moreover, when the subject was given a scent of jasmine or α-pinene, it was reported that the work answer correction rate in the Kraepelin test was significantly reduced compared to the control (Non-patent Document 2).

  The Uchida-Kraepelin test is a personality test developed by the Japanese clinical psychologist Yuzaburo Uchida (Non-patent Document 3). In the test, a single digit is written over many lines, the numbers next to each other are added, and the answer is written between the numbers. Do this for 15 minutes, changing lines according to the signal every minute. After a 5-minute break, the 15-minute work is performed again. The inspection result is judged by looking at the profile of the work curve connecting the work results every minute with a line.

  Uchida-Kraepelin Psychodiagnostic Test is the most famous psychological test among them. Based on the results of the Kraepelin test, the information to be judged generally corresponds to the “personality” that is relatively difficult to change, such as an individual's “ability” and “personality”, “work” and “behavior” Therefore, as mentioned above, it is often used as an index for personality testing.

  However, on the other hand, results such as the amount of work in this examination, or the type of curve, are not changed at all (in the individual), the fluctuation of the person's overall physiological and psychological background If there is, it will be changed accordingly ”(Non-patent Document 3, page 15). For example, in an educational setting (Non-Patent Document 4), in the clinical field, in a previous study (Non-Patent Document 5) applied to an experiment for evaluating drug effects, the Kraepelin test is used for the external environment and stimulation. It has been suggested to reflect the impact of change.

AROMA RESEARCH No.15 (Vol.4 / No.3 2003) p.68-75 Journal of Japanese Society for Taste and Smell, Vol. 23, 55-58, 1989 "Uchida-Kraepelin Psychodiagnosis and Basic Text", published by Japan Institute of Psychiatric Technology, Kaneko Shobo Co., Ltd. Proceedings of the 3rd National Kumon-style Leader Research Conference “Tsuru”, 1989 New drugs and clinics, Vol.19-3, Hori et al., 1970

  An object of this invention is to provide the screening method with high precision used in order to select the fragrance | flavor raw material which has the improvement effect of mental work efficiency.

  The present inventors found that the external environment such as a fragrance is more in a situation where the working time has elapsed in the series of the Kraepelin test, an increase in fatigue, and a decrease in concentration on the work began to appear. We thought it would work effectively, and hypothesized that it would affect late work in particular. Then, while continuing to give a scent to the subject during the examination, the idea of using the late surplus rate and the late error rate reflecting the late work efficiency as a determination index for observing the effect of improving the work efficiency was conceived. Was completed.

  The present invention is a fragrance for selecting a fragrance material having an effect of improving mental work efficiency by continuously exposing the fragrance to the space during the inspection, using the late surplus rate and the late error rate in the Kraepelin test as judgment indicators. A screening method for materials is provided.

  Moreover, this invention provides the evaluation method of the improvement effect | action of the mental work efficiency which a fragrance | flavor material has as a determination parameter | index using the late stage surplus rate and late stage error answer rate in a Kraepelin test | inspection.

  Furthermore, the present invention provides a fragrance composition for improving mental work efficiency, which contains a fragrance material selected by the screening method described above.

  According to the method of the present invention, a fragrance material having an effect of improving mental work efficiency can be screened with high accuracy.

  In the present invention, “mental work” refers to work based on human mental activity other than physical work, and “improvement of efficiency” refers to mental work such as improvement of work amount and reduction of mistakes. The “fragrance material” includes any of natural fragrances, synthetic fragrances, and fragrance compositions (such as blended fragrances) containing these fragrance components.

[Perfume material screening method and evaluation method for improving mental work efficiency]
The method of the present invention is performed by measuring the degree of improvement in mental work efficiency using the Kraepelin test. For example, the specific method is described in, for example, Non-Patent Document 3, page 18 “Testing Method”. Can be performed according to the method described in the section. The advantage of this test is that the subject himself “is difficult to change the test result consciously and freely”, and the “scent as an external stimulus” in the present invention affects the mental work efficiency. It is suitable as an index for objective evaluation.

  The Kraepelin test is carried out by performing the above-described addition of adjacent numbers (Kraepelin work) for 15 minutes while changing the line according to the signal every minute, and again for 15 minutes after a 5-minute break. The inspection result is judged by looking at the profile of the work curve connecting the work results every minute with a line. In the present invention, as a determination index for observing the effect of improving work efficiency, a late increase rate and a late error rate reflecting the late work efficiency are used. At the time when the scent is volatilized, the subject is not aware that the scent has been volatilized in advance, and one minute after the start of the inspection tape, so that the work is performed under the condition that the scent has been sufficiently volatilized. Etc. Thereby, it is preferable that the work inspection in the previous period is started in a state where the fragrance is volatilized and diffused sufficiently for about 15 minutes before the start.

  When performing several screenings, screening for each condition is preferably performed at intervals of 20 to 90 days, more preferably at intervals of 30 to 90 days, in order to eliminate habituation to screening. preferable.

(Method of stripping fragrance composition)
In the present invention, the fragrance continues to evaporate into the space during the Kraepelin test. As a method for volatilizing the fragrance material in this inspection, there are methods such as volatilization using an fragrance device or fragrance device, volatilization using a spray or aerosol, volatilization via an air conditioner such as an air conditioner or a fan. The volatilization concentration is preferably 80 to 500 ppb, more preferably 100 to 350 ppb.

(Analysis of test results)
It is preferable to classify and determine the test result of the subject based on the work amount level from the work amount, work curve, etc. of the inspection by a skilled professional tester. It classifies into the following three groups from this work amount level, and calculates the late error rate and late surplus rate for each group.

Calculation method:
Late error rate = "late total number of incorrect answers ÷ late total number of operations x 100"
Late-term surplus rate = "late-term average work volume ÷ previous-year average work volume x 100"

  That is, it is preferable to classify the inspection results into the following three work amount levels and to verify the mental work efficiency improving effect exhibited by the fragrance composition for each group.

  This makes it possible to capture the effect of a fragrance that is often overlooked by a simple overall average. In particular, there is a merit that it is possible to grasp the difference in how the effect is produced depending on the work level.

  By performing such a screening method, it is possible to evaluate the effect of improving the mental work efficiency of the fragrance material.

[Products containing fragrance composition]
The perfume material selected by the screening method of the present invention can be formulated or commercialized in combination with other perfume ingredients and auxiliary ingredients as necessary. Product forms include fragrance products such as blended fragrances, perfumes, and colons; skin care products such as creams, emulsions, body lotions, body powders, antiperspirants and deodorants; hair shampoos, hair conditioners, hair treatments, hair creams, hair lotions, Hair care products such as hair sprays; indoor fragrances, deodorants, musk, incense sticks, candles and other environmental hygiene products; textile detergents, softeners, residential detergents and other householding products; It may be a form.

  The blending amount of the fragrance material selected by the method of the present invention in the above-mentioned product may be appropriately determined in consideration of the purpose of use, etc., as long as the effect of improving mental work efficiency by inhalation is sufficiently obtained. Good. The content of the fragrance material in the product is preferably 0.001 to 50% by weight, more preferably 0.001 to 30% by weight, and particularly preferably 0.01 to 10% by weight, although it varies depending on the use form and the selected fragrance composition.

Example 1 Evaluation method of mental work efficiency improvement effect of patchouli oil or peppermint oil, or screening method of perfume material having an effect of improvement of mental work efficiency (inspection method of improvement of mental work efficiency)
The degree of improvement in mental work efficiency was measured according to the method described in the section of “Testing method” on page 18 of Non-Patent Document 3.
The subjects were 39 female university students (average age = 19.41 years, standard deviation = 0.72). According to the instruction tape for the execution of the Kraepelin test, a 15-minute early test, a 5-minute break, and a 15-minute late test were performed. The test was conducted for the case where the fragrance composition (patcholi oil or peppermint oil) was volatilized (scent condition) and the case where only the air that did not cause the fragrance composition to be volatilized (scentless condition). In order to eliminate habituation to the inspection, the inspection of each condition was performed at intervals of about one month.

The volatilization conditions of the fragrance composition are as follows.
Patchouli oil is made by impregnating 2 drops (approx. 0.06 g) of natural fragrance composition (100%) with a 3 mL dropper into a 25 mm x 35 mm x 2.1 mm thick filter paper, and placing this in a petri dish. Placed in a case inside the diffuser. Two fragrances are prepared, and the position of the spout is located on the floor before and after the laboratory (890 (vertical) cm x 745 (horizontal) cm x 324 (height) cm = 214.8 x 10 ³ m ³ ). It was installed to be 135cm high.
In the case of peppermint oil, the fragrance was installed in the same manner as for patchouli oil except that 1 drop (about 0.05 g) of a natural fragrance composition (100%) was used with a 3 mL dropper.

In order for the subject to perform the work under the condition that the fragrance was sufficiently volatilized, the air volume was 2.14 × 10 ^-2 m ³ / per fragrance about 1 minute after the start signal of the Kraperin test execution command tape. Two fragrances were operated so as to be min. As a result, the scent volatilization time before the start of the work was about 15 minutes. The scent continued to evaporate until the end of the test.

〔analysis〕
The test result of the test subject was judged based on the index of the work amount level from the work amount, work curve, etc. of the inspection by a skilled professional tester. Based on this work volume level, it was classified into the following three groups, and the late error rate and late surplus rate were calculated for each group.

Calculation method:
“Late error rate” = “Late total number of incorrect responses ÷ Late total number of operations x 100”
"Late increase rate" = "Late average work volume ÷ previous period average work volume x 100"

The work amount level was classified as follows based on the work amount in the first and second periods under the scent-free condition. The amount of work is related to high and low such as “intelligence”, “work processing ability”, “aggressiveness”, “activity tempo”, “motivation”, “motivation” (Non-Patent Document 3 page 11).

〔result〕
When patchouli oil or peppermint oil was volatilized, the late average error rate of all subjects was statistically significantly lower than the no-scent condition (FIG. 1).
Furthermore, when it looked at according to the amount of work levels, in the low level group, it turned out that the incorrect answer rate has fallen in the fragrance conditions rather than the fragrance-free conditions (FIG. 2). Furthermore, in this group, both the higher rate of the latter period and the later work amount, the scent conditions improved the score than the non-scented condition, and the scent of patchouli oil and peppermint oil has the effect of improving mental work efficiency (Figs. 3 and 4).
By combining such an experimental method and an analysis method, it is possible to screen and select a fragrance material having an effect of improving mental work efficiency.

[Prescription example]
Hereinafter, the formulation example of the fragrance composition of each product which mix | blended the patchouli oil which has the effect of improving the mental work efficiency selected by the screening method of Example 1, and the product formulation example which applied it are shown. All prescription amounts are shown in parts by mass.

Example 2 Fragrance composition for gel fragrance (for improving mental work efficiency)
Ingredients (parts by weight)
Patchouli Iron Free 4
Stylyl acetate 10
Raspberry ketone 16
Aldehide C-14 Peach 2
Citronellol 100
Phenylethyl alcohol 50
Methyl dihydrojasmonate 30
Cyclamen Aldehide 15
Linalool 50
Ionon beta 4
Methyl ionone gamma 160
Acetyl cedrene 60
Sandal Mysore Core 20
Galaxoride IPM 340
Tentarome 100
Karanal 6
Heliotropin 15
Dipropylene glycol 18
Total 1000

Example 3 Fragrance composition for liquid body soap (for improving mental work efficiency)
Ingredients (parts by weight)
Patchouli Iron Free 20
Aldehide C-12 (L) 10
Lavender oil 45
Citronellol 60
Geraniol 170
Hydroxycitronellal 45
Lilar 175
Indole 10
Turpineol 150
pt-Butylcyclohexyl acetate 165
Tentarom 150
Total 1000

Example 4 Fragrance composition for cologne (for improving mental work efficiency)
Ingredients (parts by weight)
Patchouli Iron Free 30
Cis-3-hexenyl acetate 0.26
Callone 3
Helional 30
Allyl amyl glycolate 0.1
Nellore 5
Methyl dihydrojasmonate 400
Ethyl linalool 130
Lilianal 40
Acetyl cedrene 50
Musenon Delta 8
Ambroxan 15
Benzyl salicylate 4
Dipropylene glycol 284.64
Total 1000

Example 5 Fragrance composition for skin cream (for improving mental work efficiency)
Ingredients (parts by weight)
Patchouli Iron Free 2
Bergamot 30
Cis-3-hexenyl salicylate 20
Methyl isoeugenol 30
Alpha Damascon 1.5
Citronellol 70
Methyl dihydrojasmonate 200
Ylang Ylang Extra 10
Linalool 100
Methyl ionone 60
Amber core 50
Isobornyl cyclohexanol 60
Garaxoride BB 200
Benzyl salicylate 40
Dipropylene glycol 126.5
Total 1000

Example 6 Fragrance composition for fiber softener (for improving mental work efficiency)
Ingredients (parts by weight)
Patchouli Iron Free 60
Dihydromyrsenol 30
Allyl amyl glycolate 5
Tricyclodecenyl acetate 50
Citronellol 50
Delta Damascon 10
Diphenyl oxide 10
Hexyl Cynamic Aldehide 150
Methyl anthranilate 2
Lilianal 60
Linalool 100
pt-Butylcyclohexyl acetate 100
Galaxoride IPM 200
Ethyl vanillin 15
Coumarin 35
Dipropylene glycol 123
Total 1000

Example 7 Gel air freshener (for improving mental work efficiency)
Ingredients (parts by weight)
Carrageenan 3
Propylene glycol 2
Propylparaben 0.3
Fragrance composition of Example 2 5
Ion exchange water 89.7
Total 100

Example 8 Liquid body soap (for improving mental work efficiency)
Ingredients (parts by weight)
Coconut oil fatty acid potash 10
Potassium myristate 15
Propylene glycol 8
Palm oil fatty acid diethanolamide 5
Sorbit 5
Edetate tetrasodium tetrahydrate appropriate amount Pigment appropriate amount Fragrance composition of Example 3 0.5
Purified water balance total 100

Example 9 Cologne (for improving mental work efficiency)
Ingredients (parts by weight)
Ethanol 60
Fragrance composition of Example 4 10
Water 29.9
Polyoxyethylene (60) hydrogenated castor oil 0.1
Total 100

Example 10 Skin cream (for improving mental work efficiency)
Ingredients (parts by weight)
Stearic acid 10
Stearyl alcohol 4
Butyl stearate 8
Stearic acid monoglycerin ester 2
Vitamin E acetate 0.5
Vitamin A palmitate 0.1
Macadamia nut oil 1
Tea seed oil 3
Glycerin 4
1,2-pentanediol 3
Sodium hyaluronate 1
Potassium hydroxide 2
Magnesium ascorbate phosphate 0.1
L-Arginine hydrochloride 0.01
Edetate trisodium 0.05
Fragrance composition of Example 5 0.4
Preservative appropriate amount
Purified water balance total 100

Example 11 Fiber softener (for improving mental work efficiency)
Ingredients (parts by weight)
N- (3-Alkanoylamino) propyl-N, N-dimethylamine hydrochloride 10
Stearic acid 0.1
Lauric acid / myristic acid = 50/50 0.1
Gelbe type alkyl (C ₂₄ ) sodium sulfate ester (2-decyltetradecyl sodium sulfate ester) 5
Sodium chloride 1
Ethanol 1.5
Fragrance composition of Example 6 0.3
Ion exchange water or pH adjuster Balance total 100

It is a figure which shows that the late average error rate of all subjects falls by volatilization of patchouli oil and peppermint oil. In a low level group, it is a figure which shows that the latter stage average error rate falls by volatilization of patchouli oil and peppermint oil. It is a figure which shows that the latter-stage surplus rate in a low level group improves by volatilization of patchouli oil and peppermint oil. It is a figure which shows that the late work amount in a low level group improves by volatilization of patchouli oil and peppermint oil.

Claims (5)

  Screening of fragrance materials that select the fragrance materials that have an effect of improving mental work efficiency by continuing to expose the fragrance to the space during the inspection, using the late surplus rate and late error response rate in the Kraepelin test as judgment indicators Method. The method for screening a fragrance material according to claim 1, wherein the result of the Kraepelin test is classified into the following three work volume levels, and the effect of improving the mental work efficiency exhibited by the fragrance material is evaluated for each group.
  The evaluation method of the mental working efficiency improvement effect which a fragrance | flavor material has by exposing exposure to a fragrance in the space during a test | inspection as a determination index | exponent in the latter period rate in a Kraepelin test | inspection, and a determination error index. The evaluation method according to claim 3, wherein the result of the Kraepelin test is classified into the following three work amount levels, and the mental working efficiency improving action exhibited by the fragrance material is evaluated for each group.
  A fragrance composition for improving mental work efficiency, comprising a fragrance material selected by the screening method according to claim 1.