The Potential of Forest Honeybee on Decreasing Malondialdehyde
Levels in Adult with Mild Acne Vulgaris
Evelyn Angie
1
, Hairus Abdullah
2
, Ahmad Raif Martinus
1
, Refi Ikhtiari
1,2
1
Laboratory of Biomolecular Chemistry, Graduate School of Biomedical Science
Universitas Prima Indonesia
2
Laboratory of Materials Engineering, Faculty of Industrial Engineering,
Universitas Prima Indonesia
Emails: (Evelynangie, Hairusabdullah, Ahmadraif, refiikhtiari)@unprimdn.ac.id
Keywords: Honey bee; Oxidative Stress, Malondialdehyde (MDA), Acne Vulgaris
Abstract: Acne vulgaris is a common skin disorder, and it mainly affects adolescents. It affects more than 85% of the
population, age 12-24 years, and it is described as chronic inflammation of the pilosebaceous gland with the
distribution of the lesions mainly on the face, back, chest, and upper arms. Reactive Oxygen Species (ROS)
and oxidative stress play a role in the development of inflammatory, acne lesions. To protect against ROS,
the human body has an organized antioxidant system, which works synergistically. Antioxidants protect
cells against oxidative damage and can prevent the production of oxidative products. An imbalance between
oxidants and antioxidants, where the production of ROS exceeds antioxidant capacity, has the potential to
cause damage, which is called oxidative stress. One of the biomarkers of oxidative stress in cells is lipid
peroxidation and the end product known as malondialdehyde (MDA). The antioxidants in honey can reduce
lesions in acne vulgaris. The experiment results showed the honey decreased malondialdehyde level and
reduced lesion in acne vulgaris.
1 INTRODUCTION
Indonesia has a surface area of 1.91 Mkm
2
and with
its more than 18,000 islands and ~113 Mha (2010)
of forest area, the country harbors flora and fauna
rich in diversity (Abood, Lee, Burivalova, Garcia-
Ulloa, & Koh, 2015; Cribb & Ford, 2009; Hansen et
al., 2013; United Nations, 2018). The remarkable
diversity is also reflected by the number of bee
species. Thus, 8 out of 9 species of the genus Apis,
with Apis laboriosa as the only absent one, as well
as more than 40 stingless bee species were observed
in Indonesia (Gupta, Reybroeck, van Veen, &
Gupta, 2014).
It has been estimated that 66% of the world’s
crop species are pollinated by bees, including honey
bees, bumble bees and solitary bees (Kremen,
Williams, & Thorp, 2002; Partap, 2011).
Beekeeping not only positively contributes to
income gain, it also plays a role in increased food
security, but beekeeping activity and its potential
receives only subordinate attention within the
Indonesian government and population. According
to scientists from the Universitas Padjadjaran
(UNPAD, Bandung, Indonesia), bee businesses are
mostly considered as a part time farming activity
and not only parts of the local community, but
people from every social class are not aware of the
bees’ benefits (Chantawannakul, Williams, &
Neumann, 2018). As found in a survey by UNPAD
and CV. Primary Indonesia (Labtek Indie), among
80 citizens 57.5% had certain prejudices against
bees. Those range from insufficient profitability, to
fear of bee stings, to a lack of knowledge on the
importance of bees as pollinators. Furthermore, there
are field owners fearing bees have a negative impact
on their crops’ productivity. They do not want bees
or beehives near their property and in a consequence
some of them are willing to burn those colonies, if
verbal warnings were ignored by the beekeepers.
Indonesia is the 4
th
most populous country
worldwide with a population that reached 264
million in 2018 (FAOSTAT, 2018). The population
growth is accompanied by a significant stress for the
Indonesian ecosystem and a continuous increase of
used land area, triggered by rising demands of
natural resources like timber and food (Abood et al.,
2015). To antagonize the existing trend, beekeeping
can be used to sensibilize the population towards the
Angie, E., Abdullah, H., Martinus, A. and Ikhtiari, R.
The Potential of Forest Honeybee on Decreasing Malondialdehyde Levels in Adult with Mild Acne Vulgaris.
DOI: 10.5220/0009490803090316
In Proceedings of the International Conference on Health Informatics and Medical Application Technology (ICHIMAT 2019), pages 309-316
ISBN: 978-989-758-460-2
Copyright
c
2020 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
309
importance of forest conservation and non-timber
materials.
So far, local beekeepers use mostly native honey
bee species like Apis cerana or Meliponini colonies
for managed beekeeping (Figure 2) (Schouten,
Lloyd, & Lloyd, 2019), but it is also common to
practice the art of honey hunting from wild living, so
far not-manageable, Apis dorsata colonies (Crane,
Van Luyen, Mulder, & Ta, 1993; Gupta et al., 2014).
Besides honey hunting and beekeeping, Bradbear
and FAO (2009) defined a third type of apicultural
activity: “Bee maintaining”; an intermediary stage of
beekeeping, where humans safeguard wild living
colonies. The colonies are not kept in hives, but
honey collectors often provide artificial nesting
places, for example traditional tikung, tingku or also
called sunggau (wooden honey boards or tree
trunks) (Hadisoesilo, 2002). A similar method to
maintain A. dorsata colonies, observed in Indonesia
and elsewhere in South-East Asia, is the use of
special rafters (Bradbear & FAO, 2009; Crane et al.,
1993). Tikungs are trapezium shaped boards often
made from banyan (Ficus benghalensis) wood,
which are placed between tree branches to attract
feral A. dorsata colonies. If the tikung is occupied,
the bees build their nest on it while they forage on
the same and on neighboring trees in flower.
Harvesting takes place during the rainy season and
honey collectors cut only the top of the honey
containing part of the comb to protect the brood and
to maintain the colony. To obtain the honey and
separate it from beeswax, it is not common to
squeeze, but gently let the honey flow through filter
fabric (WWF, 2010) (Figure 1). Once a tikung is
occupied by a swarm, it is believed, that the same
colony remigrates to it every year (Paar, Oldroyd,
Huettinger, & Kastberger, 2004). This method may
be a good alternative to the less secure and more
common practice of honey hunting and is also used
in other Asian countries (de Jong, 2000; Mahindre,
2000).
Plants also have been used for healing in many
cultures for centuries. Generally, plants act to
stimulate and supplement the body’s healing
process (Nwanko C.M, Ezekoye C.C, and Igbokwe
S.O, 2014). The problem: limited use in modern
medicine due to lack of scientific evidence
supporting it (Tahereh Eteraf Oskouei and Moslem
Najafi 2012).
Honey is a viscous liquid produced by bees
from nectars and flowers; the active components
of honey such as glucose, fructose, flavonoid,
polyphenols, and organic acid play an important
role in its quality (Serene Hilliary ,2017;
Visweswara Rao Pasupuleti, 2017). Traditional
medicine around the world has described honey as
efficacious in the treatment of various skin
disorders. Some have assumed that it has healing
properties in regards to acne vulgaris (Pauline
Mcloone, 2016; Khoiroh Umah and Oriza Herdanti,
2017).
Honey is highly rich in bioactive compounds
such as poliphenols and vitamins. Phenolic
compounds are bioactive compounds; phenols are
defined as organic compounds with an aromatic ring
which is chemically bonded to one or additional
hydrogeneted substituents in the presence of
corresponding functional derivatives. In honey,
phenolic compounds are commonly present as
flavonoids. Antioxidative in honey produces anti-
inflammatory effects which may reducelocalized
inflammation that develops with acne. Honey is a
complementary theraphy dating back to hippocrates.
Raw unprocessed wild forest honey sustainably
harvested by the indigenous communities of
Sumbawa, Flores, Kalimantan, Sulawesi and
Sumatra. Each island has a distinct flavour profile
ranging from delicate and floral to rich and intense,
reflecting the diversity of the regional ecosystems.
100% raw and unheated, as a result our honey
retains all of nature's goodness: the pollen, enzymes,
vitamins, amino acids, antioxidants, propolis,
minerals and its natural flavour.
The forest honey comes from the 'Apis Dorsata',
the giant rock bee. It is the biggest bee in the world
at about 2.5 cm long. This wild bee cannot be
domesticated like other honeybees.
Sustainable harvesting of wild forest honey
supports the indigenous communities and helps
protect the rainforests of Indonesia.
Prophet Muhammad used honey for one week to
treat acne, honey was applied in the area of acne,
one or two hours before going to sleep and left until
morning, to reduces acne vulgaris (Visweswara Rao
Pasupuleti, 2017; Darul Hadrahah, 2014; Alex
Semprini, 2015. Honey have been used as an anti-
inflammatory agent for centuries.ogist, used honey
to treat patients (Gunawan, 2017).
In ancient Greece, PedaniusDioscorides, a doctor
and pharmacologist, used honey to treat patients
(Gunawan, 2017). The four etiologies are
hyperproliferation of follicular epidermis, excess
sebum production, Propionibacterium acnes
bacteria, and inflammatory reactions.
The term of “acne” is derived from the greek
word “acme” which is used to describe the peak and
vulgaris which means “common” (Zohra FT, 2017;
Ginard I Henry, 2018). According to a study from
ICHIMAT 2019 - International Conference on Health Informatics and Medical Application Technology
310
the Global Burden of Disease (GBD), acne vulgaris
affects 85% of young adults aged 12-25 years. It is
a chronic inflammatory disorder of the
pilosebaceous gland which manifests clinically in
the form of blackheads, papules, pustules and cysts
(Darren D lyyn, 2016; Irma Bernadette. S. Sitohang
and Sjarif M. Wasitaatmaja, 2017; Amit Batra,
2014). Honey have been used as an anti-
inflammatory agent for centuries.
Acne is often to be correlated with oxidative
stress mechanism in adults. Oxidative stress is an
imbalance between oxidants (free radicals) and
antioxidants. The damage that occurs due to an
imbalance between production and issued ROS
(Reactive Oxygen Species) on the skin. ROS in the
skin comes from normal cell metabolism; for
example: mitochondrial respiration and enzymatic
activity. Additionally, ROS derived from exogenous
factors is produced by various environmental
factors, such as UV light or the presence of a chronic
inflammatory process on the skin. To regulate the
level of ROS, the skin has an antioxidant defense
system, which goal is maintaining homeostasis.
(Amanda wong, 2016) One of the biomarkers of
oxidative stress in the cells is lipid peroxidation and
the end product known as malondialdehyda (MDA).
The physiological process of the emergence of
free radicals in the body is closely related with
prooxidant; it is balanced with an endogenous
defense mechanism by producing substances that
have anti-oxidative properties (Euis Reni Yulianti,
2017). Honey is known as a natural antioxidant;
lately many studies have focused on the composition
of honey and its biological properties as an
antioxidant, anti-inflammatory and antimicrobial,
which are thought to be effective in treating skin
problems (Lee Suan Chua, 2013).
Oxidative stress can cause disturbances in
biological functions such as ion homeostasis,
enzyme activity, membrane integration, cell
function, even cell damage or death (Euis Reni
Yulianti, 2017). Several studies have been carried
out to determine the trigger of oxidative stress in the
pathogenesis of acne vulgaris. The lipid oxides
formed can activate proinflammatory cytokine
production and activation of Peroxisome
proliferator-activated receptor (PPAR). PPAR is a
nuclear transcription factor that helps in lipids and
inflammatory reactions. PPAR-α is often involved
with β-oxidation of fatty acids and lipid catabolism,
whereas PPAR-γ is associated with the process of
lipidogenesis. PPAR-ivasi activation can also induce
the expression of cyclooxygenase-2 (COX-2) and
prostaglandin E2 (PGE2), causing further
inflammation in the pathogenesis of Acne vulgaris
(Sylvia Anggraeni, 2017). Recent research reports
the possible role of reactive oxygen species (ROS)
in particular fat peroxidation in the onset of
inflammation. Malondialdehyde (MDA) is the end
result of lipid peroxidation which is commonly use
as a marker of lipid peroxidation. This study was
conducted to examine the relationship between
serum MDA levels and the severity of acne in male
patients.
According to a study by Dr. Sardjito, a total of
60 patients with acne visited the Skin Polyclinic;
RSUP Dr. Sardjito who fulfilled the inclusion and
exclusion criteria was involved in the study. From
their research, patients were grouped into three
groups, namely patients with mild, moderate and
severe acne vulgaris. Blood samples of all the
patients were taken and the serum MDA levels were
determined with a spectrophotometer. The mean
serum MDA level in patients with acne vulgaris
increased. The mean serum MDA levels of severe
acne group (1.85 ± 0.368 μmol/L) were significantly
higher than that moderate acne group (0.79 ± 0.159
μmol/L) (p = 0.000) and that mild acne group (0.52
± 0.239 μmol/L) (p = 0.000) (Aprilina Dwi
Sulistyowati, 2014).
The ability of honey to prevent oxidative damage
may be caused by its phenolic antioxidant content
which may have triggered the modulation of
antioxidant enzyme activity. (Zulaikha Sahhugi, et
al, 2014). The antioxidative and anti-inflammatory
properties of honey have been recognized by various
studies. It is related to the content of polyphenols
contained in honey. All types of honey contain a
mixtureof sugar, protein, vitamins, minerals,
polyphenols, and antioxidative mostly from
polyphenols. In one study (Serene Hilary, et al
2017), honey had an antioxidative effect which was
characterized by a decrease in MDA levels in the
blood.
Honey releases hydrogen peroxide, which is an
antibiotic that can also remove bacteria and clear
acne The anti-inflammatory properties of honey
reduce the redness of acne. Its acidic property stops
bacteria from growing (Elin Julianti, 2017). The
clinical severity of acne in this study was assessed
using a grading system, participants were grouped
into 2 subgroups: mild and moderate acne vulgaris.
The aim of the study was to investigate the use of
honey masks in decreasing malondialdehyde level
and reducing lesions in acne vulgaris.
The aim of the study was to investigate the use of
honey masks in decreasing malondialdehyde level
and reducing lesions in acne vulgaris.
The Potential of Forest Honeybee on Decreasing Malondialdehyde Levels in Adult with Mild Acne Vulgaris
311
2 RESEARCH METHODOLOGY
2.1 Materials and Instruments
Materials used were honey acquired from the forest.
NaOH, Mayer Reagen, Gelatin Solution 1%,
Aquadest (distilled water), chloroform, anhydride
acid, and sulfurate acid, Trichloroacetic acid (TCA)
40%, Hypochlorite acid (HCl), Na-thiosulfate
(NaThio) 1 N, 3cc of Blood Samples.Instruments
used weremicro pipets, cuvette rack, gloves.
tourniket, spuit, centrifuge 1 unit, Sample rack 1
unit, microtube, cuvette, waterbath, UV-
Spectrophotometer, test tubes, and shaving brush.
Honey used in this study was purchased from local
bee keepers in North Sumatera, Indonesia. Honey,
which had been tested for phythochemical, was
packaged and given to the participants. The honey
was applied once per day for seven days as a mask;
7 packages were given per participant and each
package contained 10cc.
2.2 Phytochemical Analysis
Before applying honey, aphytochemical analysis
was carried out to determine its antioxidant content.
In this study, qualitativetest for phythochemical such
as flavonoids, alkaloids, Tannins, Saponin, and
terpenoids content of honey samples were carried
out.
2.2.1 Detection of Flavonoids
Alkaline Reagent Test: A few drops of diluted
NaOH were added to the extracts. An intense yellow
colour was produced and became colorless after of a
few drops of diluted acid were added; this indicated
the presence of flavonoids (Asokan S and Jayanthi,
2017).
2.2.2 Detection of Alkaloids
Mayer’s Test: 50 cc of solvent free extracts were
stirred with a few ml of diluted HCL and filtered;
then a few drops of Mayer’s reagent were added by
dripping on the side of the test tube. The white or
creamy precipitate indicated a positive result
(Asokan S and Jayanthi, 2017).
2.2.3 Detection of Tannins
Gelatin Test: A 1% gelatin solution containing
sodium chloride was added to the extract.
Formation of a white precipitate indicated the
presence of tannins (Prashant Tiwari, 2011).
2.2.4 Detection of Saponins
Distilled water (2 ml) was added to each extract and
shaken in a graduated cylinder for 15 mins
lengthwise. Formation of 1 cm foam indicated the
presence of saponin (Asokan S and Jayanthi, 2017).
2.2.5 Detection of Terpenoids
Chloroform (2 ml) and concentrated sulphuric acid
was added carefully to 0.5 ml of extract. Formation
of red-brown colors at the surface indicated the
presence of terpenoids (Asokan S and Jayanthi,
2017).
2.3 Participants
In this study, the participants were grouped into mild
acne vulgaris and assessed using a grading system.
Participant’s criteria should be young adults with
acne vulgaris aged 18-22 years, and have not
received acne therapy for the previous two weeks
either topical therapy or systemic therapy, and a
willingness to be included in the study. Participants
were grouped based on levels of severity according
to the IGA scoring system: mild (IGA 2); informed
consent sheets were given to all the participants.
Table 1: Investigator’s Global Assesment (IGA)Scale
(Linda Stein Gold, 2017)
Levels of Severity
Indication
Clear (IGA 0)
Clear Skin with no
inflammatory or non
inflammatory lesions
Almost Clear (IGA 1)
A few Scaltered
comedones and a few
small papules
Mild (IGA 2)
Easily recognizable, Less
than half the face is
involved, some comedones
and some papules and
pustules
Moderate (IGA 3)
More than Half of the face
is involved, many
comedones, papules and
pustules
Severe (IGA 4)
Entire face is involved,
covered with comedones,
numerous papules and
pustules, few nodules may
or may not be present
Lesions were calculated before and after applying
honey as a mask for 7 days using the criteria from
Fakultas KedokteranUniversitas Indonesiathe
method of calculating lesions showed in table 2
ICHIMAT 2019 - International Conference on Health Informatics and Medical Application Technology
312
Table 2: Criteria for severity of Lesions
Acne
Degree
Blackh
eads
Inflammatory
Lesions
Total
Lesions
Mild
<20
<15
<30
Moderate
20-100
15-30
30-125
Inflammatory lesions include: Papules, pustules,
nodules. (Irma Bernadette S. Sitohang and Sjarif M.
Wasitaatmadja, 2017).
Procedure :
1. Student whom suffered acne vulgaris at Fakultas
Kedokteran Universitas Prima Indonesia were
chosen. Student that gave their approval was
accepted into the study.
2. Based on the physical examination, the research
subjects were grouped according to levels of
acne vulgaris mild and moderate.
3. Examination of blood before honey is applied.
4. Participants were given 7 packages of honey as a
mask that was used for 7 days at a dose of 10 ml
per pack. Participants were required to wash their
faces before using honey when they wanted to
sleep. After the mask was dry, the participants
rinsed their faces with water.
5. After using the masks for 1 week, blood samples
of participants were extracted at 3cc
/participants.
6. Examination of MDA levels.
7. Analysis of data.
Measurement of Malondialdehyde Level has
been conducted as the following:
1. Blood samples were inserted into a rack blood
samples were inserted into the Centrifuge
machinend centrifuged at 2500 rpm for 8
minutes to produce serum.
2. Serum was taken out using a micropipette and
inserted into microtube
3. 0.5 cc of serum added with: (1) TCA 40% 2.5 µl,
(2) 200 µl HCl 1 N, (3) 0.5 cc aquabides, and (4)
NaThio 1% 100 µl
4. It was then heated at 100 °Cfor 25 minutes using
a water bath machine.
5. Afterwards it was centrifuged at 3000 rpm for 5
minutes and then the formed supernatant was
taken out
6. The supernatant was put in a vacuum tube and
aquabides (3 cc) was added.
7. Then the supernatant was inserted into the
cuvette, then the cuvette was inserted into the
UV-Spectrophotometer machine. Then amount
of absorption at a wavelength of λ 532 was
measured.
3 RESULTS AND DISCUSSION
Phytochemical screenings of honey samples have
showed the presence of flavonoid, alkaloid, saponin,
and terpenoids. The result of phytochemical
screening of honey can be seen in the table 3 below:
Table 3: Result of Phytochemical Screening of Honey
Samples
Phytochemical Content
Indication
Flavonoid
+
Alkaloid
+
Tannin
-
Saponin
+
Terpenoid
+
The aim of this phytochemical screening of
honey samples was to investigate its bioactive
compounds such as flavonoid, alkaloid, tannin,
saponin, and terpenoid. Honey contains vitamins
which may serve as sources of polyphenol and
dietary antioxidants. Honey mainly consists ofsugars
and water but also contains several vitamins,
especially B complex and vitamin C, and minerals.
It possesses anti-bacterial, anti-inflammatory, and
antioxidative properties that may be beneficial for
combating multi-drug resistant bacteria;
additionally, it may also be useful for preventing
chronic inflammatory processes, such as acne
vulgaris (M. Assaduzaman, 2015; Halah Musthafa
Ya’qub,2013).
Table 4: The T-test of MDA levels in Mild Acne
Degree of
Acne
Vulgaris
Mean
T- test
Before
Application
of Honey
and MDA
Measuremen
t
Mild
(N= 35)
0,909
(P= 0,000)
AfterApplic
ation of
Honey and
MDA
Measuremen
t
Mild
(N= 35)
0,808
(P= 0,000)
Table 4 above showed a decreased MDA level
after application of the honey. In this study, an
Independent T Tests was carried out before and after
MDA measurement in mild acne vulgaris. A mean
score of 0,909 in mild acne vulgaris was calculated.
The Potential of Forest Honeybee on Decreasing Malondialdehyde Levels in Adult with Mild Acne Vulgaris
313
After the application of honey for 7 days, a mean
score of 0,808 in mild acne vulgaris was calculated.
This shows a statistically significant decrease in
MDA level.
Honey was shown to have anti inflammatory
activities which reduced acne vulgaris lesions. There
was a visible improvement after the use of honey
masks. Similar results were reported by Khoiroh
Umah and Oriza Herdanti. Their studies used
statistical tests gained from Paired Sample Tests
which resulted in the rejection of the null hypothesis
with a value of α = 000. This meant that the students
that had undergone treatment using the honey had
statistically significant differences in the amount of
acne vulgaris compared to before the application of
the honey. The study was conducted by PSIK
students from Gresik University (Khoiroh Umah and
Oriza Herdanti,2017).
In this study, an Wilcoxon Signed Ranks Test
was carried out before and after the application of
honey masks to mild acne vulgaris, it can be seen in
table 5 below:
Table 5: The Wilcoxon test of MDA levels in Mild Acne
Degree of
Acne
Vulgaris
Wilcoxon Signed
Ranks Test
Before
Application of
Honey in
Mild Acne
Vulgaris
Mild
(N= 35)
t = -5.173
( p= 0,019)
After
Application of
Honey in
Mild Acne
Vulgaris
Mild
(N= 35)
t = -5.168
( p= 0,019)
The normality test (Shapiro-Wilk) shows a p
value of less than 0.05; therefore, the null
hypothesis, that the data distribution is normal, is
rejected. This is a test to determine if there is a
statistically significant difference before and after
the application of honey on the amount of acne (the
same person is measured twice before and after the
test). Since only the data of people with mild acne
(After1 - Before1) is not normally distributed, the
Wilcoxon test is used. The result: a p value of less
than 0.01 and a mean rate of ± 18 for negative ranks
which included all 35 people with mild amount of
acne. This meant that the null hypothesis, there was
no difference between before and after the
application of honey, was rejected. It can be
concluded that there was a statistically significant
difference between before and after the application
of honey (due to the p value) and all of the people
(with mild acne) experienced a decrease in the
amount of acne (due to all the samples being in the
negative rank).
In this study, Dependent T Test was carried out
before and after the application of honey masks to
moderate acne vulgaris, it can be seen in table 6
below:
Table 6: The dependent T-test of MDA levels in Mild
Acne
Acne
Vulgaris
Degree
Dependent T test
Before
Application of
Honey in
Moderate Acne
Vulgaris
Moderate
(N= 35)
( p= 0,040)
After
Application of
Honey in Mild
Acne Vulgaris
Moderate
(N= 35)
( p= 0,000)
Table 6, normality test (Shapiro-Wilk) shows a
p value of more than 0.05; therefore, the null
hypothesis, that the data distribution is normal, is
accepted. Dependent T test is a test to determine if
there is a statistically significant difference before
and after the application of honey on the amount of
acne. Since only the data of people with moderate
acne (Before & After) is normally distributed, the
dependent t-test is used. The result: a p value of less
than 0.01 for people with a moderate amount of
acne. This meant that the null hypothesis, there was
no difference between before and after the
application of honey, was rejected. It can be
concluded that there was a statistically significant
difference between before and after the application
of honey (due to the p value) and all of the people
(with moderate acne) experienced a decrease in the
amount of acne.
Application of honey as face masks in mild and
moderate acne vulgaris can be seen in figure 1 and
figure 2 respectively.
ICHIMAT 2019 - International Conference on Health Informatics and Medical Application Technology
314
Figure 1: Before and after application of honey on mild
acne vulgaris.
Figure 2: Before and after application of honey on
moderate acne vulgaris.
Figure 1 and 2 showed the result of the
application of honey after seven days. The result:
reduced lesions of acne vulgaris. There was a visible
improvement after the use of honey masks. Similar
results were reported by Khoiroh Umah and Oriza
Herdanti. Their studies used statistical tests gained
from Paired Sample Tests which resulted in the
rejection of the null hypothesis with a value of α =
000. This meant that the students that had undergone
treatment using the honey had statistically
significant differences in the amount of acne
vulgaris compared to before the application of the
honey. The study was conducted by PSIK students
from Gresik University (Khoiroh Umah and Oriza
Herdanti,2017).
4 CONCLUSIONS
The MDA level decreased in acne vulgaris patients
after the application of honey. Honey releases
hydrogen peroxide, which is an antibiotic which can
remove bacteria and clear acne. The anti-
inflammatory properties of honey reduce the redness
of acne. Honey can decrease the MDA level and
reduce the lesion of acne vulgaris.
ACKNOWLEDGEMENTS
This research supported by Ministry of Research,
Technology and Higher Education by Funding
Contract No. 7/E/KPT/2019 and No.
T/63/L1.3.1/PT.01.03/2019.
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