Title of Invention

A HOMOGENEOUS, CLEAR AND TRANSPARENT COMPOSITION FOR CLEANING HUMAN SKIN SURFACES

Abstract The present invention relates to a homogeneous, clear and transparent composition for cleaning hands and other human skin surfaces. The compositions are homogeneous, clear. and also useful as disinfectant. The invention also provides a process for the preparation of the cleaning composition. The composition of the invention includes essential oils isolated from plants. The compositions are prepared by mixing the components in a particular well-defined order to obtain clear, transparent solutions effective against pathogenic bacteria and fungi.
Full Text A HOMOGENEOUS, CLEAR AND TRANSPARENT COMPOSITION FOR CLEANING HUMAN SKIN SURFACES TECHNICAL FIELD
The present invention relates to disinfectant compositions for cleaning the skin of humans and for cleaning surface such as floors. The compositions are homogeneous, clear, and also useful as disinfectant. The invention also provides a process for the preparation of the cleaning composition. The composition of the invention includes essential oils isolated from plants. The compositions are prepared by mixing the components in a particular well-defined order to obtain clear, transparent solutions effective against pathogenic bacteria and fungi.
BACKGROUND ART
The invention relates to development of the disinfectants that are non-toxic, bio-safe and in addition give pleasant odour. The disinfectants already available in the market contain harmful chemicals such as formaldehyde, ethane dialdehyde, n-propanol, benzalkonium chloride, phenol and the like.
Essential oils isolated from plant sources are known to possess antimicrobial properties. However when used as disinfectants in hospitals, laboratories, offices and houses, they run into problems, such as - not dispersing evenly in common solutions like water. Thus, a composition circumventing these bottlenecks is most desirable and is the intent of the invention.
OBJECTS OF THE INVENTION
Accordingly, the main object of the invention is to provide disinfectant compositions for cleaning skin.
Another object is to provide a surface cleaning composition.
Yet another object is to provide a process for the preparation of the surface cleaning composition.
Still another object is to provide a process for the preparation of the skin cleaning composition.
SUMMARY OF THE INVENTION
The invention relates to the process for preparing homogeneous, clear, disinfectant compositions, such as for example, hand and surface cleaning compositions that contain essential oils isolated from plants. The compositions are prepared by mixing the components in a particular well-defined order on the basis of experimentation to obtain clear, transparent solutions effective against pathogenic bacteria and fungi.


The process of the invention includes the defined sequence of steps of mixing together all the constituents intimately as described in the examples.
DETAILED DESCRIPTION OF INVENTION
Accordingly, the present invention relates to a homogeneous, clear and transparent composition for cleaning hands and other human skin surfaces, said composition consisting:
a. Oil obtained from the plant Mentha spicata var. viridis: 0.01- 0.05%
b. Menthol menthyl acetate : 0.05 - 0.5%
c. Ethanol :l-25%
d. Isopropanol : 5 - 50%
e. Benzalkonium chloride : 0.1 - 0.5%, and
f. Distilled water : to make up the volume.
g. Mentha spicata var. viridis oil : 0.02%
h. Menthol menthyl acetate : 0.10%
i. Ethanol : 5.00%
j. Isopropanol : 30.00%
k. Benzalkonium Chloride : 0.30% , and
I. Distilled water : to make up the volume.
A process for the preparation of a hand and surface cleaning and disinfectant composition as claimed in claim 1 and being effective against pathogenic bacteria and fungi, said process comprising the steps of:
a. providing Mentha spicata var. viridis oil to the extent of 0.01 to 0.05%,
b. adding a 0.05 to 0.5% combination of menthol and menthyl acetate to the oil ostep (a) and mixing thoroughly,
e. adding 5 to 25% ethanol to the mix of step (b) and mixing thoroughly,
d. adding 5 to 50% isopropyl alcohol to the mix of step (c) and mixing the entire
combination thoroughly,
e. adding distilled water to the mix of step (d) and mixing the entire combination
thoroughly, and
f. adding 0.1 to 0.5% ben/alkonium chloride to the mix of step (e) and mixing the


A homogeneous, clear and transparent composition for cleaning surfaces such as floor, said composition comprising:
a. Mentha spicata var. viridis oil : 0.01- 0.05%
b. Citronella oil : 0.005- 0.05%
c.. 2-ethoxyethanol : 0.05 - 1.0%
d. Benzalkonium chloride : 0.05 - 5.0%
e. Sodium hydroxide : 0.0001 - 0.2N, and
f. Sodium lauryl sulphate : 0.001-1.0%
g. Mentha spicata var. viridis oil : 0.02 %;
h. Citronella oil : 0.01%
i. 2-ethoxyethanol :0.1%
j. Benzalkonium chloride :0.1%
k. Sodium hydroxide : 0.0005 N, and
1. Sodium lauryl sulphate : 0.0025%
A process for the preparation of a surface such as floor, cleaning and disinfectant composition as claimed in claim 1, said process comprising the steps of:
a. providing Mentha spicata var. viridis oil to the extent of 0.01 to 0.05%,
b. adding 0.005 to 0.5% citronellol oil to the oil of step (a) and mixing both
thoroughly,
c. adding 0.05 to 1% of 2-ethoxyethanol to the mix of step (b) and mixing the
ingredients thoroughly,
d. adding 0.05 to 5% benzalkonium chloride to the mix of step (c) and mixing the
entire combination thoroughly
e. adding 0.0001 to 0.2N% sodium hydroxide to the mix of step (d) and mixing the
entire combination thoroughly,
f. adding 0.001 to 1% sodium lauryl sulphate to the mix of step (e) and mixing the
entire combination thoroughly, and
g. distilled water to the mix of step (f) and mixing the entire combination
thoroughly to obtain a surface cleaning and disinfectant composition.
The invention provides a process for preparing the highly effective hand and sin lac. disinfectants, which kill a broad spectrum of the disease causing germs and also ivmo\e> dirt and stains completely with ease by using various plant essential oils. The disinfectant^


The hand disinfectant composition is effective for instant hand wash/cleaning. The use-requires pouring out a few drops and rubbing well over hands and palm for 30 sec. It can be used in the laboratories of microbiology to cell culture and for hospitals. It gives a healthy environment to all researchers and professionals and also a bio-safe hand wash for household and toiletries.
The surface disinfectant can be used on surfaces like kitchen platform, cabinets, floors, ceramic tiles, bathrooms etc. These highly effective surface disinfectant compositions are useful for ware washing and cleaning hard surfaces, rinsing, sanitizing, and the like. As such, the invention provides a homogeneous, clear and transparent solution for cleaning hands and other human skin surfaces, said composition comprising :
a. oil obtained from the plant Mentha spicata var. viridis: 0.01 - 0.05%
b. Menthol Menthyl acetate (MMA) : 0.05 - 0.5%
c. Ethanol : 1-25%
d. Isopropanol : 5 - 50%
e. Benzalkonium Chloride : 0.1 - 0.5%, and
f. Distilled water : to make up the volume.
In a preferred embodiment the above composition comprising:
a. Mentha spicata var. viridis oil : 0.02%
b. Menthol Menthyl acetate : 0.10%
c. Ethanol : 5.00%
d. Isopropanol : 30.00%
e. Benzalkonium Chloride : 0.30% , and
f. Distilled water : to make up the volume.


b. adding 0.005 to 0.5% citronellol oil to the oil of step (a) and mixing both
thoroughly,
c. adding 0.05 to 1% of 2-ethoxyethanol to the mix of step (b) and mixing the
ingredients thoroughly,
d. adding 0.05 to 5% benzalkonium chloride to the mix of step (c) and mixing
the entire combination thoroughly
e. adding 0.0001 to 0.2N% sodium hydroxide to the mix of step (d) and mixing
the entire combination thoroughly,
f. adding 0.001 to 1% sodium lauryl sulphate to the mix of step (e) and mixing
the entire combination thoroughly, and
g. distilled water to the mix of step (f) and mixing the entire combination
thoroughly to obtain a surface cleaning and disinfectant composition.
In an embodiment, the c\il ofMentha spicata var. viridis is obtained from the leaves of
the plant by hydro-distillation using Clevenger apparatus.
In another embodiment, citronella oil is obtained from the leaves of plant commonly
called "Citronella' or Cymbopogon winterianus.
In still another embodiment, the oil from the plant Cymbopogon winterianus is
obtained by hydro-distillation.
In yet another embodiment, the surface disinfectant composition "SW" is applied onto
a piece of soft wet cloth and the same is spread over the infected area and left for 5
minutes for effective disinfection. In another embodiment, the composition "SW" is
used to effectively clean decontaminate the surfaces are kitchen platform, ceramic
tiles, marbles, cabinets, tables, and likewise. The composition is used in the range of
IX to 100X.
The following experiments shown as examples of the invention were critically
performed to formulate and use the herbal disinfectants of surfaces and hands and
skin possessing anti-microbial action development.
Example 1: Preparation of first level combination
First level combination (MMA) is prepared by mixing menthol and menthyl acetate in
the ratio of 40:60 (W/V). Menthol is obtained by crystallization at minus 60°C of oil
isolated from Mentha arvensis commonly referred to as Menthol Mint plant.
Crystallization of L-menthol was carried out by slow and gradual chilling of the oil up
to -60°C in deep freezer (Tandon, et al., J. Med. Arom. Plant Sci., 1998, 20: 25-27).
Menthyl acetate occurs naturally in mint oil however the content is very low and
hence the isolation procedure may be laborious. Therefore , the menthyl acetate
was prepared by direct or azeotropic esterification of menthol with corresponding
acid ie., acetic acid and therefore can be produced in large quantities (Arctander.S., In
Perfume and flavor chemicals. Vol-1, Montclair; New Jersey, No. 1845-1852; Ahmad,
A., et a\.J.Essent. Oil Res., 2000, 12 In Press). 'H and 13C-NMR, Mass and IR
spectra confirmed the structure of the acyl derivative.
Example-2: Preparation of'Mentha spicata var. viridis 'oil and 'Citronella' oil
Essential oil rich in piperitenone oxide of the leaves of Mentha spicata var. viridis
was isolated by hydro-distillation process using clavenger apparatus. The process of
hydro-distillation is known and can be performed by a person skilled in the art. The
citronella oil was also obtained by hydro-distillation of the leaves of plant commonly
called 'Citronella' (Cymbopogon winterianus). Both citronella and Mentha spicata
var. viridis oil were stored in the refrigerator until use. The major constituents of these
oils were analyzed and identified using standards by Gas-Liquid chromatography
(GLC). Both these plant materials are available as planting/seed materials for
cultivation at CIMAP (Central Institute of Medicianl and Aromatic Plants, Lucknow,
India). In addition citronella oil is also available in the market. The composition of
both Mentha spicata var viridis oil and the Cymbopogon winterianus (citronella) oils
are provided hereinbelow:
Constituents of Mentha spicata var viridis oil as determined by GLC:
Total oil yield = 0.36 to 0.65 %; Limonene = 1.50 to 6.52 %; Carvone = 0.10 to 4.42
%; Piperitenone oxide = 28.5 to 77.48 %.
Constituents (%) of Cymbopogon winterianus oil as determined by GLC:
Total oil yield = 0.80; Methyl heptenone = 0.97; Linalool = 0.57; Geraniol = 23.3;
Elemol = 10.67; Geranyl acetate = 3.27; bisafalol = 1.48; Citronellol = 9.92;
Limonene = 1.50; Citronellal = 35.94.
Example-3: Preparation of surface disinfectant "SW"
The surface disinfectant 'SW" is prepared in a step-wise manner as described below:
A) First a solution of sodium hydroxide (0.0005 N) and sodium lauryl sulphate
(0.0025%) (referred as solution B) is prepared.
B) To prepare one litre of 100X 'SW, mix all the constituents in the following order:
1. Take 20 ml Mentha spicata var. viridis oil in a 1000 ml measuring cylinder
2. Add 10 ml Citronella oil to it and mix
3. Add 100 ml 2-ethoxyethanol and again mix properly
4. Now make up the volume with solution B.
5. Then add 100 ml benzalkonium chloride
C) The final composition of SW will be

• Mentha spicata var. viridis :0. 02 %; (range 0.01-0.05%)
• Citronella oil :0. 01%; (range 0.005- 0.05%)
• 2-ethoxyethanol :0. 1%; (range 0.05 - 1.0%)
• Benzalkonium chloride :0. 1%; (range 0.05 - 5.0%)
• Sodium hydroxide :0. 0005 N (range 0.0001 - 0.2N) and
• Sodium lauryl sulphate :0. 0025% (range 0.001 - 1.0%)
If the constituents are not mixed in the order given above the resultant solution will
not be clear and transparent and hence will not be effective against the bacteria and
fungi.
Example-4: Preparation of hand and skin disinfectant *HK'
Based on the antimicrobial activity detected in the oils of many higher plants a hand
disinfectant called 'HK' which consist of Herbal essential oils with anti-microbe
action, Iso-propanol, Ethanol, Benzalkonium chloride, permitted coloring agents was
developed. The composition and method of preparation of'HK' is mentioned below.
To prepare one litter of 'HK', mix all the constituents in the following order.
1. Take 0.2 ml of Mentha spicata var. viridis oil in a measuring cylinder.
2. Add 1.0 ml of first level combination (MMA) to it and mix.
3. Add 50 ml of ethanol and mix thoroughly.
4. Add 300 ml of isopropyl alcohol and mix gently.
5. Make up the volume to 997 ml with distilled water.
6. Add 3.0 ml of benzalkonium chloride.
If the constituents are not mixed in the order given above the resultant solution will
not be clear and transparent and hence will not be effective against the bacteria and
fungi.
The resulting solution will have a composition of
Mentha spicata var. viridis: 0.02% (range 0.01- 0.05%)
MMA : 0.10% (range 0.05 - 0.5%)
Ethanol : 5.00% (range 1- 25%)
Isopropanol : 30.00' mge5-50%)
Benzalkonium Chloride : 0.30% (range 0.1 - 0.5%)
Distilled water : to make up the volume.
Example-5: Evaluation of the antiseptic property of the disinfectants
For assessing the antiseptic properties, the disinfectants were tested against
of human pathogenic bacteria and fungi.
The bacteria used are as shown hereblow in Table 1.
(Table Removed)
MTCC, Microbial type culture collection ; UDSC, University of Delhi South Campus; A11MS, All India Institute of Medical Sciences, PGI, Post-Graduate Medical Education & Reasearch Institute.
h MH, Mueller-Hinton agar; BHI. Brain heart infusion agar; SDA. Sabauraud dextrose agar.
The disinfectants were used as such or diluted in dimethyl sulfoxide to the required concentration just before use. The stock solutions and the samples were stored in dark bottles in refrigerator (6-8°C). Disc diffusion assay (Bauer, A.W., et a/, American J. Clinical Pathology, 1966, 45 (4): 493-496) was performed to detect the presence of antibacterial activities. The bacterial strains used in this study were obtained from Microbial Type Culture Collection (MTCC), Institute of Microbial Technology, Chandigarh; India. All bacteria were sub-cultured from -80°C stock cultures into 5 ml of Mueller-Hinton broth and incubated for 24 h at desired temperatures. For use as an inoculum, the turbidity of the bacterial suspension was adjusted to the McFarland standard (0.5). Observations were recorded after 48h of incubation of plates at desired temperatures. If the zone of growth inhibition recorded is high then, the antiseptic property of the disinfectant is also considered good. The data is recorded in table-2,
(Table Removed)

Example-6: Evaluation of the anti-fungal properties of the disinfectants
Antifungal activity testing of the disinfectants was done as per (Wannisorn, et al, Antifungal activity of lemon grass oil and lemon grass oil cream. Phytotherapy Research 10, 551-554, 1996). Fungal cultures were grown on SDA at 28°C for seven days. Suspension of each fungus was prepared in 0.85% normal saline containing
0.1% Tween 80. For use as inoculum, the turbidity of the fungal suspensions was also
adjusted to the McFarland standard 0.5.
Two-fold serial dilution technique was employed to assess the minimum inhibitory
dilution (MID) of a given compound. In each assay 20|aL of fungal culture
(ca.0.7x!05 spores or 0.2 x 105 CPU in the case of yeast) prepared as before was
added to medium in a tube, which was, incubated under appropriate culture
conditions and examined by visible turbidity. The MID was treated as the lowest
dilution of the test compound, which inhibited the appearance of visible growth. The
antifungal property of both the disinfectants is shown in table-3.
(Table Removed)
Example-7: Practical test on volunteers
Hands and palms of 36 volunteers was soiled with the clay collected from the garbage site and thumb impression was made on the surface of the sterile nutrient agar plate @ 20 plates / volunteer before and after cleaning the thumb with cotton swab containing hand disinfectants at the recommended dose. Thumb impressions made after washing with water was taken as control. The exposed plates were then incubated for 3 days for 37°C. The amount of growth of microbes on the agar plates were observed and scored in terms of percentage. Presence of even a single colony i.e., the single cell was considered as not effective. Hence, a volunteer reporting no microbial growth in any of the 20 plates indicate 100 % killing efficiency
I Totafpositive { 32

05

* No killing was observed after washing the hand with tap water.
+ Killing occurred
- No killing occurred
From the data presented above it is clearly evident that nearly 32/37 i.e., 86 % of the volunteers reported 100% killing efficiency after treatment with surface disinfectant. Another 14 % reported 90% or above killing efficiency. Example-8: Method of use of the surface disinfectant 'SW The surface disinfectant 'SW is used to clean and effectively decontaminate any hard surface. If the surface to be used is heavily soiled and is expected to contain a heavy microbial load such as in hospitals and high-risk areas, then it is used undiluted to obtain the best results. In this case the disinfectant is applied onto a piece of soft wet cloth and the same is spread over the infected area and left for 5 minutes for effective disinfection. For medium risk areas the disinfectants are used after diluting ten folds in water. The dilution is done typically in a bucket of water and the spreading is done as before. The disinfectant is used after 100-fold dilution for low risk area such as house and offices.
Example-9: Method of use of the hand disinfectant 'HK'
The hand disinfectant 'HK' is used to clean and effectively decontaminate hand and other surfaces like laminar clean air-flow, operation table before surgery. Pour out a few drops of hand disinfectant 'HK' and rub well over hands for 30 sec. It is absolutely safe and non-toxic and can be used in the microbiology to cell culture laboratories and for practicing surgeons. It gives a healthy environment to all researchers and professionals and also a bio-safe hand wash for household and toiletries.



We Claim:
1. A homogeneous, clear and transparent composition for cleaning human skin surfaces.
said composition consisting:
a. Oil obtained from the plant Mentha spicata var. viridis: 0.01- 0.05%
b. Menthol menthyl acetate : 0.05 - 0.5%
c. Ethanol : 1- 25%
d. Isopropanol : 5 - 50%
e. Benzalkonium chloride : 0.1 - 0.5%, and
f Distilled water : to make up the volume.
g. Mentha spicata var. viridis oil : 0.02%
h. Menthol menthyl acetate : 0.10%
i. Ethanol : 5.00%
j, Isopropanol : 30.00%
k. Benzalkonium Chloride ; 0.30%), and
1. Distilled water : to make up the volume.
2. A process for the preparation of a homogeneous, clear and transparent composition
for cleaning human skin surfaces as claimed in claim 1 and being effective against
pathogenic bacteria and fungi, said process comprising the steps of:
a. providing Mentha spicata var. viridis oil to the extent of 0.01 to 0.05%,
b. adding a 0.05 to 0.5% combination of menthol and menthyl acetate to the oil
of step (a) and mixing thoroughly,
c. adding 5 to 25% ethanol to the mix of step (b) and mixing thoroughly,
d. adding 5 to 50% isopropyl alcohol to the mix of step (c) and mixing the entire
combination thoroughly,
e. adding distilled water to the mix of step (d) and mixing the entire combination
thoroughly, and
f adding 0.1 to 0.5%) benzalkonium chloride to the mix of step (e) and mixing the entire combination thoroughly to obtain a disinfectant composition.
3. A process as claimed in claim 2 wherein oil of Mentha spicata var. viridis is obtained
from the leaves of the plant by hydro-distillation using Clevenger apparatus.

4. A process as claimed in claim 2 wherein a combination of menthol and menthyl acetate is prepared by mixing menthol and menthyl acetate in the ratio 40:60(w/v).
5. A process as claimed in claim 3 wherein menthol is obtained by crystallization at minus 60°C of oil isolated from the plant Mentha arvensis.
6. A process as claimed in claim 3 wherein menthol is obtained by direct or azeotropic esterification of menthol with acetic acid.

Documents:

2760-DELNP-2004-Abstract-(06-02-2009).pdf

2760-delnp-2004-abstract.pdf

2760-DELNP-2004-Claims-(06-02-2009).pdf

2760-delnp-2004-claims.pdf

2760-DELNP-2004-Correspondence-Others-(06-02-2009).pdf

2760-DELNP-2004-Correspondence-Others-(16-02-2009).pdf

2760-delnp-2004-correspondence-others.pdf

2760-DELNP-2004-Description (Complete)-(06-02-2009).pdf

2760-delnp-2004-description (complete).pdf

2760-DELNP-2004-Form-1-(06-02-2009).pdf

2760-delnp-2004-form-1.pdf

2760-delnp-2004-form-18.pdf

2760-DELNP-2004-Form-2-(06-02-2009).pdf

2760-delnp-2004-form-2.pdf

2760-DELNP-2004-Form-3-(06-02-2009).pdf

2760-delnp-2004-form-3.pdf

2760-delnp-2004-form-5.pdf

2760-delnp-2004-gpa.pdf

2760-DELNP-2004-Petition-137-(06-02-2009).pdf


Patent Number 233624
Indian Patent Application Number 2760/DELNP/2004
PG Journal Number 20/2009
Publication Date 15-May-2009
Grant Date 31-Mar-2009
Date of Filing 17-Sep-2004
Name of Patentee COUNCIL OF SCIENTIFIC & INDUSTRIAL RESEARCH
Applicant Address RAFI MARG, NEW DELHI-110 001,INDIA
Inventors:
# Inventor's Name Inventor's Address
1 ALOK KRISHNA CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
2 SUMAT PREET SINGH KHANUJA CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
3 MAHENDRA PANDURANG DAROKAR CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
4 TIRUPADIRIPULIYUR RANGANATHAN SANTHAKUMAR CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
5 AJIT KUMAR SHASANY CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
6 KRISHNA KUMAR AGGRAWAL CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
7 ATIQUE AHMED CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
8 PUSHPALATA CHATURVEDI CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
9 VIVEK KUMAR GUPTA CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
10 ANIL KUMAR SINGH CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
11 JANAK RAJ BAHL CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
12 RAVI PRAKASH BANSAL CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
13 DINESH KUMAR CENTRAL INSTITUTE OF MEDICINAL AND AROMATICE PLANTS, INDIAN
PCT International Classification Number C11D 3/00
PCT International Application Number PCT/IB02/05552
PCT International Filing date 2002-12-20
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 PI20021119 2002-03-28 Malaysia