Design and Development of Peel-off Mask Gel Formulation of
Citronella Oil for Acne Vulgaris
Dyah Rahmasari
*
, Dian Ermawati, Raditya Weka Nugraheni, Dwi Ramadhaningtyas Putri, and Indah
Nur Pratiwi
Department of Pharmacy, Faculty of Health Science, University of Muhammadiyah Malang, Jalan Bendungan Sutami
188A, Malang 65145, East Java, Indonesia
Keyword: Citronella Oil, Peel-Off Mask Gel, Stabilit, Antibacterial Activity
Abstract: Cymbopogon nardus is a traditional plant that has chemical content of citronella oil with potential antibacterial
activity. Antibacterial peel-off mask is very easy to applicate on face. This research aim is to develop and
characterize the antibacterial peel-off mask gel containing citronella oil. This study used an experimental
method. The peel-off mask was formulated using 8%, 10%, and 12% of polyvinyl alcohol (PVA) as a gelling
agent. Evaluation of peel-off mask including physical characteristics (organoleptic, homogeneity, viscosity,
spreadability, film drying time), chemical characteristic (pH value), stability and antibacterial activity. The
organoleptic properties showed that the citronella oil peel-off gel mask was white, aromatic and had a soft
texture. The variation in PVA affects the pH value, viscosity and film drying time of the peel-off mask,
significantly. Stability test showed that all peel-off mask was no significant changes physically in the freeze-
thaw method, but there was some color change and phase separation in the real-time method. The peel-off
mask containing citronella oil using 8% PVA has the highest inhibition against Propionibacterium acnes
almost the same with the positive control (clindamycin gel). Variation concentration of PVA in the formula
was affected on the physical and chemical characteristics and antibacterial activity of the citronella oil peel-
off mask gel, significantly. The preparation using 8% PVA gives the best formula with optimal results.
1 INTRODUCTION
Acne vulgaris is one of the most common skin
diseases worldwide where it diagnosed in 80% of all
teenagers (Griffiths, C., Barker, J., Bleiker, T.,
Chalmers, R., Creamer, 2016). About 83% to 85% of
adolescent girls and 95% to 100% of adolescent boys
are afflicted (Shalita, Del Rosso and Webster, 2011).
Several major factors influence acne pathogenesis,
including Propionibacterium acnes, which secretes
various biologically active molecules and plays a role
in the initiation of the local inflammatory response
(Zouboulis, Katsambas and Kligman, 2013).
Most people with acne will first try to self-treat
and some of them using antibacterial masks as
treatment (Draelos, 2016) and choosing use natural
products. One of the natural herbs is citronella
(Cymbopogon nardus). Citronella oils contain
citronellal, citronellol, and geraniol as several major
components. It has shown antibacterial and antifungal
activities in vitro, as active as penicillin against
certain Gram-positive bacteria (Ehab, no date). Due
to these data, the citronella oil (C. nardus) has
potential as an anti-acne agent for facial skin
treatment.
Peel-off mask is applied as a liquid film that thinly
spread with fingers on the face and peels-off as a thin
plasticized film (Suhery and Anggraini, 2016) after
complete drying without leaving any residues (Rosa
et al., 2013). It can be repairing refreshing and
tightening facial skin (Husni and Dewi, 2019),
provides deep pore cleansing and skin debris removal
(Suhery and Anggraini, 2016). Peel-off can also
provide slight moisturizing action and enhances the
occlusive effect (Rosa et al., 2013), improving blood
circulation, stimulating the activity of skin cells,
removing dead skin cells, softening the skin and
providing nutrients on the skin (Husni and Dewi,
2019)(Kulkarni, Gupta and Bhawsar, 2019). Mostly,
the peel-off mask is based on polyvinyl alcohol
(PVA) or polyvinyl acetate (PVAc), which causes
tensor and occlusion effects (Nilforoushzadeh et al.,
2018).
Rahmasari, D., Ermawati, D., Nugraheni, R., Putri, D. and Pratiwi, I.
Design and Development of Peel-off Mask Gel Formulation of Citronella Oil for Acne Vulgaris.
DOI: 10.5220/0009126101570163
In Proceedings of the 2nd Health Science International Conference (HSIC 2019), pages 157-163
ISBN: 978-989-758-462-6
Copyright
c
2020 by SCITEPRESS Science and Technology Publications, Lda. All rights reserved
157
The objective of this study was to develop and
formulate citronella oil peel-off mask by using
various concentration of PVA and evaluate by several
test methods, which possesses antibacterial activity as
an alternative of facial skin care product.
2 METHODS
Instruments
pH meter, Brookfield viscometer, autoclave, petri
dish, incubator, climatic chamber, refrigerator.
Ingredients
Citronella (Cymbopogon nardus L.) oil, Polyvinyl
Alcohol (PVA), Polyethylene glycol 400, Propylene
glycol, Butylated Hydroxyl Toluene (BHT), Methyl
Paraben, Ethyl Paraben, Disodium EDTA, Glycerin,
Sweet orange oil, polysorbate 80 (Tween 80), and
aquadest. Propionibacterium acne was used for
antibacterial activity test and clindamycin gel was
used as the positive control.
Peel-off mask gel preparation of citronella oil
The formulation of a peel-off mask gel of citronella
oil was made according to the formula presented in
Table 1. PVA was dispersed in 80% of the distilled
water (85 - 90) in a water bath (mixture 1). PEG
400 was dissolved in the water (mixture 2). Methyl
paraben and disodium EDTA was dispersed into the
propylene glycol and glycerin then stirred until
homogenous and added with Tween 80 and the
remaining amount of water (20%) (mixture 3). Propyl
paraben and BHT were dispersed into the citronella
oil (mixture 4). Then added mixture 3 into mixture 2
homogenously and added again into mixture 1.
Lastly, added some fragrance into mixture 1 and
poured with mixture 4 homogenously until peel-off
masks are formed.
Physicochemical evaluation of citronella oil peel-
off mask gel
The physicochemical evaluation involved was
organoleptic, homogeneity test, determination of pH
value, viscosity, gel spreadability, and film drying
time. Organoleptic was observed as its odor, color,
and consistency visually. The homogeneity test was
observed by applying the gel on transparent glass. pH
value was measured by using pH meter and viscosity
was determined by using Viscometer. Gel
spreadability was measured by applying gel on
transparent glass plates then loading by some loads.
Film drying time was observed by applying the
amount of gel on hands and wait until it formed a dry
and elastic layer.
Stability evaluation
The stability evaluation was held using two methods,
real-time and accelerated stability method. The real-
time stability method evaluation was observed by
storing the peel-off mask gel under the following
storage conditions: 30±2°C (room temperature) and
40±2°C (climatic chamber). Each sample was
analyzed for one month (28 days) according to the
following parameters: organoleptic characteristic and
pH value. The accelerated stability method evaluation
was performed to see the stability of formulations at
low (4ºC ± 2ºC) and high temperature (40ºC ± 2ºC)
for 24 hours respectively. It was counted as one cycle
and was analyzed for 6 cycles according to the several
parameters: organoleptic characteristic, phase
separation and pH value.
Table 1: Formulation of Citronella oil peel-off mask gel.
Ingredients
F1 F2 F3
Citronella Oil 0.5 % 0.5 % 0.5 %
PVA 8 % 10 % 12 %
PEG 400
2 % 2 % 2 %
BHT
0.7 % 0.7 % 0.7 %
Propylene glycol 2 % 2 % 2 %
Glycerin
2 % 2 % 2 %
Methyl paraben
0.1 % 0.1 % 0.1 %
Ethyl paraben 0.3 % 0.3 % 0.3 %
Tween 80 1 % 1 % 1 %
Disodium EDTA
0.02 % 0.02 % 0.02 %
Sweet orange oil 0.1 % 0.1 % 0.1 %
Aquadest until 100% until 100% until 100%
HSIC 2019 - The Health Science International Conference
158
Antibacterial activity test on citronella oil peel-off
mask gel
The disc diffusion method was used to determine the
zone of inhibition against Propionibacterium acnes.
Antibacterial activity of citronella oil peel-off mask
gel was tested by a modified well in agar method
(Ilavenil, S, B. Kaleeswaran, B. and Ravikumar,
2010). Paper discs (6mm in diameter) were placed on
MHA (Mueller Hinton Agar) media surface that been
inoculated with bacterial suspension (Budiman et al.,
2017). Bacteria that were suspended with 0.9% NaCl
equalized using nephelometer (BD Pheonix) with a
standard of 0.5 Mc Farland (estimated 1.5 x 10
8
bacterial cells / mL) (Azrifitria; Aziz, 2010). Then
poured the citronella oil peel-off mask gel into each
well about 50μm using micropipette. Each gel was
assayed in triplicate. The antibiotic (Clindamycin gel)
was used as a positive control, while the negative
control contained peel-off mask gel without citronella
oil. Petri dishes were incubated at 37 for 24 hours
(Ilavenil, S, B. Kaleeswaran, B. and Ravikumar,
2010).
3 RESULTS AND DISCUSSION
Physicochemical evaluation of citronella oil peel-
off mask gel
Organoleptic test was carried out to see the physical
appearance of the preparation by observing the color,
smell, consistency, and homogeneity of the
preparation. The all peel-off masks gel are white. It
had a distinctive smell of citronella oil and a hint of
orange scent. These gels had a semi-solid
consistency, soft and smooth, easy to apply, light to
spread, thin and get thicker with the addition of PVA.
Homogeneity of the preparation was shown by the
absence of coarse particles (Ditjen POM, 1985), has
a flat color and showed no phase separation (between
citronella oil and peel-off mask gel base) in the
preparation after its application to a transparent glass.
The pH value should be in the broad range of skin
pH (from 4.0 to 7.0) to avoid any irritation to the skin
(Ali and Yosipovitch, 2013) and should be lower than
5.0 for better skin condition (Lambers et al., 2006).
The result of pH value measurement was done in
triplicate and average values calculated (Table 2).
PVA is a water-soluble synthetic polymer that has a
pH value of 5.0 – 8.0 (Rowe, Sheskey and Cook,
2009). The variation of PVA concentration in the
citronella oil peel-off mask gel will affect the pH
value of resulting preparation. The greater
concentration of PVA, the higher the pH value of the
preparation obtained. The pH of peel-off mask gel
preparations was within the normal pH range of the
skin.
A viscosity test was carried out to determine the
thickness of a preparation and was measured using
Brookfield viscometer. As shown in Table 2, the
greater the concentration of PVA as a film-forming or
gelling agent, the higher viscosity of the preparation
was obtained. Viscosity in the peel-off mask gel is
influenced by an increase in gelling agent
concentration (Yuliani, 2010). PVA has substantial
flexibility, tensile strength and hardness (Gaaz et al.,
2015). This will cause a greater binding and retention
of the fluid by the gelling agent, therefore, the
viscosity of the preparation increases.
A gel spreadability test was performed to examine
the ability of citronella oil peel-off mask gel to spread
when applied on the skin. The rate of spreading
depends on the rate and time of shear produced upon
smearing and also depends on the viscosity of the
formulation (Garg et al., 2002). In the topical
preparation, spread is inversely proportional to its
viscosity. Based on the results of testing the
spreadability of peel-off mask gel, it was concluded
that the increasing of PVA concentration affected the
gel spreadability. The lower the viscosity, the higher
the dispersal power (Chandira, R. M. Pradeep;
Pasupathi, A.; Bhowmik, D. Chiranjib, Jayakar and
K., K. Tripathi; Kumar, 2010). A good peel-off mask
gel has a dispersion of 5 – 7cm (Rahmawanty, Dina;
Yulianti, Nita; Fitriana, 2015) (Table 2).
Film Drying Time was carried out to find out how
long the peel-off mask gel preparation will dry on the
surface of the skin and form a layer of film. Ideally,
the peel-off mask gel should dry between 15 – 30 min
(Vieira et al., 2009). As shown in Table 2, the drying
test of the film showed that F3 dried faster than F1
and F2, this might be caused by the high
concentration of PVA in the formula.
Table 2: Results of the physicochemical evaluation.
Parameter F1 F2 F3
pH 4,80 ± 0,23 5,28 ± 0,58 6,11 ± 0,32
Viscosity (cps) 500 ± 0 1467 ± 115,47 3800 ± 1609,35
Spreadability (cm) 7,18 ± 0,32 6,67 ± 0,51 6,22 ± 1,15
Film Drying Time (min) 23,38 ± 0,08 21,18 ± 0,25 16,66 ± 0,30
Design and Development of Peel-off Mask Gel Formulation of Citronella Oil for Acne Vulgaris
159
Stability evaluation
Freeze-thaw stability evaluation was evaluated in 6
cycles (12 days) to verify signs of instability in the
formulations under extreme conditions. The results
are shown in Table 3 and Figure 1. It was verified that
the optimized formulations stored at extreme
temperature (4ºC ± 2ºC to 40ºC ± 2ºC for 6 cycles)
did not show signs of instability, both in organoleptic
parameters or in pH value.
Nevertheless, the storage at real-time method (28
days) with exposure in room temperature (30ºC ±
2ºC) and in climatic chamber (40ºC ± 2ºC) led to a
sign of instability in phase separation. The citronella
oil peel-off mask gel showed a visual phase
separation in 3
rd
weeks on storage in room
temperature and in 2
nd
weeks on storage in the
climatic chamber (Table 4). The sedimentation
phenomenon on phase separation led to a distribution
gradient where larger particles were concentrated at
the bottom of the glass bottle (Beringhs et al., 2013).
Table 3: Result of the freeze-thaw stability evaluation.
Parameter
F1 F2 F3
Time (Cycle)
1 2 3 4 5 6 1 2 3 4 5 6 1 2 3 4 5 6
Color
N N N N N N N N N N N N N N N N N N
Odor
N N N N N N N N N N N N N N N N N N
Consistency
N N N N N N N N N N N N N N N N N N
Phase
Separation
NS NS NS NS NS NS NS NS NS NS NS NS NS NS NS NS NS NS
N Normal, NS No Separation
Figure 1: Variation of pH value on freeze-thaw stability method evaluation
4.80
5.28
6.11
5.12
4.78
5.16
4.30
4.40
4.50
4.60
4.70
4.80
4.90
5.00
5.10
5.20
5.30
5.40
0.00
1.00
2.00
3.00
4.00
5.00
6.00
7.00
I II III
pH Value
Formula
Before
After
HSIC 2019 - The Health Science International Conference
160
Table 4: Result of the real-time stability evaluation
Parameter
F1 F2 F3
Time (Week) Time (Week) Time (Week)
1 2 3 4 1 2 3 4 1 2 3 4
30±2°C 30±2°C 30±2°C
Color N N N N N N N N N N N N
Odor N N N N N N N N N N N N
Consistency N N N N N N N N N N N N
Phase
Separation
NS NS S S NS NS S S NS NS S S
40±2°C 40±2°C 40±2°C
Color N N N N N N N N N N N N
Odor N N N N N N N N N N N N
Consistency N N N N N N N N N N N N
Phase
Separation
NS S S S NS S S S NS S S S
N Normal, NS No Separation, S Separation
Figure 2: Variation of pH value on real time (30±2°C) stability method evaluation
Figure 3: Variation of pH value on real time (40±2°C) stability method evaluation.
4.80
5.28
6.11
5.12
4.72
5.13
0.00
1.00
2.00
3.00
4.00
5.00
6.00
7.00
4.20
4.40
4.60
4.80
5.00
5.20
5.40
I II III
pH Value
Formula
Before
After
4.80
5.28
6.11
4.82
4.98
4.91
0.00
1.00
2.00
3.00
4.00
5.00
6.00
7.00
4.60
4.65
4.70
4.75
4.80
4.85
4.90
4.95
5.00
5.05
I II III
pH Value
Formula
Before
After
Design and Development of Peel-off Mask Gel Formulation of Citronella Oil for Acne Vulgaris
161
Figure 4: Results of antibacterial activity test Citronella oil peel-off mask gel
Antibacterial activity test of citronella oil peel-off
mask gel
The result of the antibacterial activity test of
citronella oil peel-off mask gel can be seen in Figure
4. The results of the antibacterial activity test showed
that the citronella oil peel-off mask gel can inhibit the
growth of bacteria Propionibacterium acnes. Most of
the antibacterial activity from natural plants identified
as phenolic and terpenoids. The compounds include
citronellal, citronellol, and geraniol, which grouped
as terpenoids (Bota, Welmince; Martosupono,
Martanto;Rondonuwu, 2015).
Terpenoids were considered as fast-acting
compounds, since they inactivated organism in a
short period, with mechanism of action should be
related by the dysfunction or rupture of the cell
membrane of bacteria (Guimarães et al., 2019). The
inhibition zone in the peel-off mask gel is influenced
by an increase in gelling agent concentration. The test
results demonstrate that the greater concentration of
PVA as a gelling agent, the lower was the inhibition
zone of the preparation. This can occur because of the
greater trapping active compound by the gelling
agent, therefore, the antibacterial activity of the
preparation decreases.
4 CONCLUSIONS
The citronella oil peel-off mask gel with PVA has the
best physical properties in Formulation 1 caused the
formulation showed the greatest pH value, viscosity,
spreadability and film drying time on human skin.
Nevertheless, it was showed instability in 30±2°C and
40±2°C storage. The Formulation 1 of citronella oil
peel-off mask gel has antibacterial activity against
Propionibacterium acnes (MIC 10,00mm ± 0,7550)
almost the same with the positive control (MIC 10,33
± 0,9074). The result demonstrated that variation
concentration on PVA was affected on
physicochemical characteristics and antibacterial
activity of citronella oil peel-off mask gel,
significantly.
REFERENCES
Ali, S. M. and Yosipovitch, G. (2013) ‘Skin pH: From basic
science to basic skin care’, Acta Dermato-
Venereologica, 93(3), pp. 261–267. doi:
10.2340/00015555-1531.
Azrifitria; Aziz, S. C. (2010) ‘Antibacterial Activity of
Ethanolic Extract of Leaves and Bulbs of Crinum
asiaticum L. Against Acne-inducing Bacteria’,
Indonesian Journal of Pharmacy, 21(4), pp. 236–241.
Beringhs, A. O. R. et al. (2013) ‘Green clay and aloe vera
peel-off facial masks: Response surface methodology
applied to the formulation design’, AAPS
PharmSciTech, 14(1), pp. 445–455. doi:
10.1208/s12249-013-9930-8.
Bota, Welmince; Martosupono, Martanto;Rondonuwu, F.
S. (2015) ‘POTENSI SENYAWA MINYAK SEREH
WANGI (CITRONELLA OIL) DARI TUMBUHAN
Cymbopogon nardus L. SEBAGAI AGEN
ANTIBAKTERI’, Seminar Nasional Sains dan
Teknologi.
Budiman, A. et al. (2017) ‘Peel-off gel formulation from
black mulberries (Morus nigra) extract as anti-acne
mask’, National Journal of Physiology, Pharmacy and
Pharmacology, 7(9), pp. 987–994. doi:
10.5455/njppp.2017.7.0413123052017.
Chandira, R. M. Pradeep; Pasupathi, A.; Bhowmik, D.
Chiranjib, Jayakar, B. and K., K. Tripathi; Kumar, K.
P. S. (2010) ‘Design, Development and Formulation of
Antiacne Dermatological Gel’, Journal of Chemical
and Pharmaceutical Research, 2(1), pp. 401–414.
Ditjen POM (1985) Formularium Kosmetika Indonesia.
Jakarta: Depkes RI.
Draelos, Z. (2016) Cosmetic dermatology. Second Edi,
Cosmetic Dermatology: Products and Procedures.
Second Edi. Wiley Blackwell. doi: 10.1007/b138930.
0.00
10.33
6.00
10.00
9.46
8.90
-2.00
0.00
2.00
4.00
6.00
8.00
10.00
12.00
kontrol
(+)
kontrol
(-)
I II III
Inhibition Zone (mm)
Formula
HSIC 2019 - The Health Science International Conference
162
Ehab, A. (no date) ENCYCLOPEDIA OF COMMON
NATURAL INGREDIENTS.
Gaaz, T. S. et al. (2015) ‘Properties and applications of
polyvinyl alcohol, halloysite nanotubes and their
nanocomposites’, Molecules, 20(12), pp. 22833–
22847. doi: 10.3390/molecules201219884.
Garg, A. et al. (2002) ‘Spreading of Semisolid
Formulations An Update’, Pharmaceutical
Technology, pp. 84–105. doi:
10.5138/ijdd.2010.0975.0215.02012.
Griffiths, C., Barker, J., Bleiker, T., Chalmers, R., Creamer,
D. (2016) Rook’s Textbook of Dermatology. doi:
10.1017/CBO9781107415324.004.
Guimarães, A. C. et al. (2019) ‘Antibacterial activity of
terpenes and terpenoids present in essential oils’,
Molecules, 24(13), pp. 1–12. doi:
10.3390/molecules24132471.
Husni, P. and Dewi, E. M. (2019) ‘Formulation of Peel-off
Gel Mask Containing Mung Bean ( Vigna radiata ( L .)
Wilczek ) Extract’, 1(2), pp. 39–44.
Ilavenil, S, B. Kaleeswaran, B. and Ravikumar, S. (2010)
‘EVALUATION OF ANTIBACTERIAL ACTIVITY
AND PHYTOCHEMICAL ANALYSIS OF Crinum
asiaticum’, International Journal of Current Research,
1, pp. 35–40.
Kulkarni, S. V, Gupta, A. K. and Bhawsar, S. (2019)
‘Formulation and Evaluation of Activated Charcoal
Peel Off Mask’, International Journal of Pharmacy
Research & Technology, 9(2), pp. 44–48. doi:
10.31838/ijprt/09.02.06.
Lambers, H. et al. (2006) ‘Natural skin surface pH is on
average below 5, which is beneficial for its resident
flora’, International Journal of Cosmetic Science,
28(5), pp. 359–370. doi: 10.1111/j.1467-
2494.2006.00344.x.
Nilforoushzadeh, M. A. et al. (2018) ‘Skin care and
rejuvenation by cosmeceutical facial mask’, Journal of
Cosmetic Dermatology, 17(5), pp. 693–702. doi:
10.1111/jocd.12730.
Rahmawanty, Dina; Yulianti, Nita; Fitriana, M. (2015)
‘FORMULATION AND EVALUATION PEEL-OFF
FACIAL MASK CONTAINING QUERCETIN WITH
VARIATION CONCENTRATION OF GELATIN
AND GLYCERIN’, Media Farmasi, 12(1), pp. 17–32.
doi: 10.12928/mf.v12i1.3019.
Rosa, J. et al. (2013) ‘Green Clay and Aloe Vera Peel-Off
Facial Masks: Response Surface Methodology Applied
to the Formulation Design Research Article Green Clay
and Aloe Vera Peel-Off Facial Masks: Response
Surface Methodology Applied to the Formulation
Design’, (March 2016). doi: 10.1208/s12249-013-
9930-8.
Rowe, R. C. R., Sheskey, P. J. S. and Cook, W. (2009)
‘Handbook Pharmaceutical Excipients,Sixth Edition’,
p. 1064.
Shalita, A. R., Del Rosso, J. Q. and Webster, G. F. (2011)
‘Acne vulgaris’, Acne Vulgaris, pp. 1–228.
Suhery, W. N. and Anggraini, N. (2016) ‘Formulation and
Evaluation of Peel-off Gel Masks from Red Rice Bran
Extract with Various Kind of Bases’, 9(12), pp. 574–
580.
Vieira, R. P. et al. (2009) ‘Physical and physicochemical
stability evaluation of cosmetic formulations containing
soybean extract fermented by Bifidobacterium
animalis’, Brazilian Journal of Pharmaceutical
Sciences, 45(3), pp. 515–525. doi: 10.1590/S1984-
82502009000300018.
Yuliani, S. H. (2010) ‘Optimasi Kombinasi Campuran
Sorbitol, Propilenglikol dalam Gel Sunscreen Ekstrak
Etanol Curcuma mangga’, Majalah Farmasi Indonesia,
21(2), pp. 83–89.
Zouboulis, C. C., Katsambas, A. D. and Kligman, A. M.
(2013) Pathogenesis and treatment of acne and
rosacea, Pathogenesis and Treatment of Acne and
Rosacea. doi: 10.1007/978-3-540-69375-8.
Design and Development of Peel-off Mask Gel Formulation of Citronella Oil for Acne Vulgaris
163