77

Dental Journal
(Majalah Kedokteran Gigi)

2022 March; 55(1): 7–12

Original article

The effect of an 8% cocoa bean extract gel on the healing of 
alveolar osteitis following tooth extraction in Wistar rats

Isnandar1, Olivia Avriyanti Hanafiah1, Muhammad Fauzan Lubis2, Lokot Donna Lubis3, Adzimatinur Pratiwi4, Yeheskiel Satria Yoga Erlangga4
1Department of Oral and Maxillofacial Surgery, Faculty of Dentistry, Universitas Sumatera Utara, Medan, Indonesia
2Department of Pharmaceutical Biology, Faculty of Pharmacy, Universitas Sumatera Utara, Medan, Indonesia
3Department of Histology, Faculty of Medicine, Universitas Sumatera Utara, Medan, Indonesia
4Student of the Faculty of Dentistry, Universitas Sumatera Utara, Medan, Indonesia

ABSTRACT
Background: Alveolar osteitis is a well-known complication that occurs following a tooth extraction when the clot within the 
socket breaks down too early, causing increased localised inflammation and extreme pain. Alveolar osteitis delays the wound 
healing process of the socket. The polyphenols in the cocoa bean (Theobroma cacao L.) can stimulate the wound healing process.                                              
Purpose: The aim of this study was to analyse the effect of an 8% cocoa bean extract gel on the healing of alveolar osteitis following 
a tooth extraction. Methods: This study is an in vivo experiment with a posttest-only control group design. Thirty-six male Wistar 
rats were divided into three groups: a negative control, positive control and an 8% cocoa bean extract gel. A tooth extraction was 
performed on the mandibular incisor, and alveolar osteitis was induced by the application of adrenaline using a paper point on the 
socket. On the 3rd, 7th and 14th days, the clinical wound size of the extraction socket was measured, and the rats were sacrificed to 
observe the number of macrophages, fibroblasts and osteoblasts microscopically. A two-way analysis of variance test and post hoc 
least significant difference test were used to analyse the data (p < 0.05). Results: The data analysis showed a significant difference 
in the clinical wound size of the extraction socket and the number of macrophages, fibroblasts and osteoblasts between the 8% cocoa 
bean extract gel and the control groups (p = 0.000). Conclusion: An 8% cocoa bean extract gel stimulates the healing of alveolar 
osteitis following tooth extraction in Wistar rats.

Keywords: alveolar osteitis; cocoa bean; socket healing; tooth extraction

Correspondence: Isnandar, Department of Oral and Maxillofacial Surgery, Faculty of Dentistry, Universitas Sumatera Utara. Jl. Alumni 
No. 2, Medan 20155, Indonesia. Email: isnandar@usu.ac.id

INTRODUCTION

One of the most common procedures in oral and 
maxillofacial surgery is tooth extraction. A tooth extraction 
will cause an injury (or hole) called a socket. The 
procedure is considered successful if it is accompanied by 
an optimal wound healing process of the socket without 
any complications.1 Alveolar osteitis is one of the most 
common complications following a tooth extraction. The 
prevalence of alveolar osteitis ranges from 1 to 5% for a 
routine extraction, but it can be as high as 40% following 
an extraction of the mandibular third molar.2,3

Alveolar osteitis is a postoperative complication 
characterised by delayed wound healing of the extraction 

socket. Alveolar osteitis causes significant pain that 
develops on the third or fourth day following a tooth 
extraction. On clinical examination, the socket appears 
empty with a partial or complete loss of a blood clot 
and exposed alveolar bone.2,3 The aetiology of alveolar 
osteitis is an early fibrinolysis in the extraction socket.                              
The interaction between the excessive trauma during a 
tooth extraction and a bacterial invasion produce plasmin, 
which leads to a lysis of the blood clot. This condition 
delays the healing process due to the proliferation of 
the cells occurs from the circular gingival mucosa, 
which takes longer than a normal blood clot to form.1–3 

The treatment of alveolar osteitis is performed by the 
placement of a local dressing, but the dressing can act 

 Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 158/E/KPT/2021. 
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v55.i1.p7–12

mailto:isnandar@usu.ac.id
https://e-journal.unair.ac.id/MKG/index
http://dx.doi.org/10.20473/j.djmkg.v55.i1.p7-12


8

as a foreign material that can prolong the wound healing                                                                      
process.2,4

An alternative local dressing is required that is low in 
cost and has minimal side effects. Presently, the use of an 
herbal dressing as an alternative is highly recommended.4,5 
Cocoa (Theobroma cacao L.) is a type of plant that is known 
to have many health benefits. In Indonesia, the cocoa 
bean is widely used as a food ingredient and in traditional 
medicine. Cocoa beans contain polyphenols that have 
antioxidant, anti-inflammatory and antibacterial activities 
that have the ability to stimulate the wound healing process. 
The polyphenols in cocoa beans promote the activity 
and proliferation of cells through affecting growth factor 
receptors, which accelerates the wound healing process.6 
According to a previous study by Kurniawati et al.,7 an 8% 
cocoa bean extract gel can reduce the number of neutrophil 
cells in the healing process of tooth extraction wounds in 
Wistar rats. 

Based on this understanding, cocoa beans have much 
potential for use as a medicinal plant, but the effect of 
a cocoa bean extract on the healing process of alveolar 
osteitis is unknown. Thus, the purpose of this study is to 
evaluate the effect of an 8% cocoa bean extract gel on the 
healing process of alveolar osteitis through a clinical and 
histological examination.

MATERIALS AND METHODS

This study received ethical approval from the Animal 
Research Ethics Committees of the faculty of mathematics 
and natural sciences, Universitas Sumatera Utara (0390/
KEPH-FMIPA/2021). This study is an in vivo experiment 
with a posttest-only control group design. Fresh cocoa 
beans were obtained from the Pamah area, Deli Tua district, 
North Sumatera, Indonesia. The cocoa beans were dried and 
ground into a powder and then macerated by soaking them 
in 70% ethanol for 24 hours. The cocoa bean extract was 
filtered and evaporated to obtain a concentrated cocoa bean 
extract. The gel base was made by dissolving 3 g of carboxyl 
methyl cellulose sodium (CMC-Na) powder into 100 ml of 
warm distilled water. To make the 8% cocoa bean extract 
gel, 8 g of cocoa bean extract were added homogeneously 
to the prepared gel base. 

The preparation of the experimental animals was 
carried out by acclimatising the rats for one week. Thirty-
six healthy Wistar rats aged 2–3 months with weights of 
200–250 g were divided into 3 groups. The negative control 
group was given 3% CMC-Na, the positive control group 
was given Aloclair® (Alliance Pharma, UK) gel and the 
experimental group was given the 8% cocoa bean extract 
gel. The rats were anesthetised intraperitoneally with 0.1 
ml/100gBW ketamine (Pantex Holland, Netherlands). Then, 
the mandibular incisor was extracted using a needle holder 
(OneMed Health Care, Indonesia). Following complete 
extraction, alveolar osteitis was induced by applying a 
1:1000 adrenaline (Ethica Pharmaceutical, Indonesia) 

solution using a paper point (Gapadent, Vietnam) for one 
minute in the extraction socket, then the socket was left 
for three days. Following the induction of alveolar osteitis 
in the rats, 0.1 ml of the treatment was injected into the 
extraction socket using a 1 ml syringe (OneMed Health 
Care, Indonesia) twice a day (morning and evening) for 
14 days.

On the 3rd, 7th and 14th days post treatment, the 
mesiodistal and buccolingual widths were measured using 
a digital caliper (Vernier, USA). The size of the clinical 
wound extraction socket was calculated by the formula 
used in the study by Mokhtari et al.,8: mesiodistal width 
x buccolingual width. Then, the rats were sacrificed via 
cervical dislocation and the mandibular socket tissue was 
excised using a blade and scalpel (OneMed Health Care, 
Indonesia). The fresh socket tissue was then put into a 
container and fixed in a 10% buffer formalin solution for 
tissue processing and hematoxylin-eosin staining (HE). 
The observation of the number of macrophages, fibroblasts 
and osteoblasts was carried out using a light microscope 
(Zeiss Primo Star, Germany) in five fields of view at 400× 
magnification. The data were analysed using the two-way 
analysis of variance (ANOVA) test and the post hoc least 
significant difference (LSD) test to compare the differences 
between all groups.

RESULTS

Based on the histological observations, there was a 
decrease in the number of macrophages accompanied by 
an increase in the number of fibroblasts and osteoblasts 
over time in all groups, as shown in Figures 1 and 2. There 
was an inflammatory response in the negative control 
group, which was characterised by the highest number of 
macrophages followed by the lowest number of fibroblasts 
(see Figure 1) and osteoblasts (see Figure 2). The positive 
control group and the 8% cocoa bean group showed the 
healing of alveolar osteitis, which was characterised by 
a lower number of macrophages with a higher number of 
fibroblasts and osteoblasts than the negative control group. 
The 8% cocoa bean group showed the best healing effect of 
alveolar osteitis, with a significant decrease in the number 
of macrophages and a significant increase in number of 
fibroblasts and osteoblasts.

The two-way ANOVA test results (Table 1) showed a 
significant difference in the mean number of macrophages, 
fibroblasts and osteoblasts between all groups (p = 0.000). 
The mean difference in the number of macrophages, 
fibroblasts and osteoblasts using the post-hoc LSD test are 
shown in Figure 3. For the number of macrophages, there 
was a significant difference between the 8% cocoa bean 
extract gel group and the negative control group on the 
3rd and 7th days (p = 0.000 and p = 0.001, respectively), 
but there was no difference between the 8% cocoa bean 
extract gel group and the positive control group (p = 0.845 
and p = 0.859, respectively). For the number of fibroblasts, 

 Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 158/E/KPT/2021. 
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v55.i1.p7–12

Isnandar et al./Dent. J. (Majalah Kedokteran Gigi) 2022 March; 55(1): 7–12

https://e-journal.unair.ac.id/MKG/index
http://dx.doi.org/10.20473/j.djmkg.v55.i1.p7-12


9

Table 1. Histological observation of the mean number of macrophages, fibroblasts and osteoblasts

Histological 
observation

Observation day
Negative control

(Mean ± SD)
Positive control

(Mean ± SD)
Cocoa bean 8%

(Mean ± SD)
p-value

Macrophage
3 25.36 ± 3.86 5.50 ± 1.36 5.22 ± 1.00

0.000*
7 7.50 ± 3.85 2.07 ± 0.95 1.82 ± 0.33

Fibroblast
3 80.85 ± 2.94 124.65 ± 3.14 128.72 ± 7.51

0.000*
7 97.85 ± 3.85 163.27 ± 0.66 199.95 ± 10.46

Osteoblast
7 4.52 ± 1.11 18.75 ± 3.53 20.75 ± 1.26

0.000*
14 12.30 ± 0.77 33.82 ± 1.80 43.87 ± 8.91

*Two-way ANOVA test; statistically significant with p < 0.05

A 

B 

C 

D 

E 

F 

Figure 1. Histological description of the macrophages (black arrow) and fibroblasts (red arrow) in the negative control group on day 
3 and day 7 (A, B), the positive control group on day 3 and day 7 (C, D) and the 8% cocoa bean extract gel group on day 
3 and day 7 (E, F) using HE staining at 400× magnification.

                                                                

A 

B

C 

D

E 

F

Figure 2. Histological description of the osteoblasts (black arrow) in the negative control group on day 7 and day 14 (A, B), the 
positive control group on day 7 and day 14 (C, D) and the 8% cocoa bean extract gel group on day 7 and day 14 (E, F) 
using HE staining at 400× magnification.

 Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 158/E/KPT/2021. 
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v55.i1.p7–12

Isnandar et al./Dent. J. (Majalah Kedokteran Gigi) 2022 March; 55(1): 7–12

https://e-journal.unair.ac.id/MKG/index
http://dx.doi.org/10.20473/j.djmkg.v55.i1.p7-12


10

there was a significant difference between the 8% cocoa 
bean extract gel and the negative control group on the 3rd 
and 7th days (p = 0.000). On the 3rd day, there was no 
difference between the 8% cocoa bean extract gel and the 
positive control group (p = 0.155), but on the 7th day, there 
was a significant difference (p = 0.000). For the number of 
osteoblasts, there was a significant difference between the 
8% cocoa bean extract gel group and the negative control 
group on the 7th and 14th days (p = 0.037 and p = 0.000, 
respectively). On the 7th day, there was no difference 
between the 8% cocoa bean extract gel group and the 
positive control group (p = 0.495), but on the 14th day there 
was a significant difference (p = 0.003). 

The results of the clinical wound size of the extraction 
socket decreased over time in all groups, as shown in 
Table 2. The two-way ANOVA test showed a significant 
difference in the wound size of the extraction socket 
on the 3rd, 7th and 14th days between all groups (p = 
0.000). The post hoc LSD test results (Figure 4) shows a 
significant difference between the 8% cocoa bean extract 
gel and the negative control group on the 3rd, 7th and 14th 
days (p = 0.000). On the 3rd and 7th days, there was no 
difference between the 8% cocoa bean extract gel group 
and the positive control group (p = 0.059 and p = 0.117, 
respectively), but on the 14th day there was a significant 
difference (p = 0.028).

Table 2. Clinical observation of the wound size of the extraction socket

Clinical observation Observation day
Negative control

(Mean ± SD)
Positive control

(Mean ± SD)
Cocoa bean 8%

(Mean ± SD) p-value

Wound size of 
extraction socket 
(mm2)

3 3.87 ± 0.03 2.20 ± 0.09 2.13 ± 0.03
0.000*7 3.52 ± 0.08 1.79 ± 0.03 1.73 ± 0.08

14 0.85 ± 0.02 0.44 ± 0.09 0.36 ± 0.01
*Two-way ANOVA test, statistically significant with p < 0.05

 

  

25
.3

6

7.
50

80
.8

5 97
.8

5

4.
52 12

.3
0

5.
50

2.
07

12
4.

65

16
3.

27

18
.7

5 33
.8

2

5.
22

1.
82

12
8.

72

19
9.

95

20
.7

5 4
3.

87

3 days 7 days 3 days 7 days 7 days 14 days

Macrophage Fibroblast Osteoblast

negative control positive control cocoa bean 8%

*

*

*

*
*

*

*
*

250

200

150

100

50

0

Figure 3.  The mean number of macrophages, fibroblasts and osteoblasts in all experimental groups. *Post hoc LSD test; statistically 
significant at p < 0.05.

 

3.
87

3.
52

0.
85

2.
20

1.
79

0.
44

2.
13

1.
73

0.
36

0.0

0.5

1.0

1.5

2.0

2.5

3.0

3.5

4.0

4.5

3 days 7 days 14 days

Clinical wound size of extraction socket

negative control positive control cocoa bean 8%

*
*

*
*

 Figure 4. The mean clinical wound size of the extraction socket in all experimental groups. *Post hoc LSD test; statistically significant
at p < 0.05.

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 158/E/KPT/2021.
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v55.i1.p7–12

Isnandar et al./Dent. J. (Majalah Kedokteran Gigi) 2022 March; 55(1): 7–12

https://e-journal.unair.ac.id/MKG/index
http://dx.doi.org/10.20473/j.djmkg.v55.i1.p7-12


11

DISCUSSION

The wound healing process of the extraction socket is an 
organised sequence of biological activities that restores the 
integrity of the mucosa and alveolar bone. Immediately 
following a tooth extraction, the socket will be filled by a 
blood clot through platelet aggregation and fibrin activation. 
The blood clot serves as a provisional matrix for healing 
cells to migrate to the wound area and becomes a reservoir 
for growth factors.1,9

Leukocytes, fibroblasts and new blood vessels will 
migrate to the blood clot to perform their function in the 
healing process. In the inflammatory phase, macrophages, 
phagocytose microbes and cellular debris produce high 
levels of free radicals, cytokines and growth factors 
that are important in stimulating cell migration and 
proliferation.1,2,10 In the proliferative phase, fibroblasts 
begin to migrate and degrade the fibrin clots. Fibroblasts 
play an important role in producing collagen to build an 
extracellular matrix to form connective tissue and support 
the growth of new alveolar bone in the socket.1,2,9

Osteoblasts are cells that play an important role in the 
process of new alveolar bone growth. Osteoblasts produce a 
bone matrix called an osteoid and organic components, such 
as osteocalcin, osteopontin and alkaline phosphatase. First, 
an amount of osteoid produced by the osteoblasts will form 
a woven bone. Then, osteoblastic and osteoclastic activity 
remodels the woven bone, leading to the growth of mature 
lamellar bone.1,2,9 In the healing of alveolar osteitis, an early 
destruction of the blood clot before the clot is replaced by 
granulation tissue inhibits the migration and proliferation 
of healing cells, subsequently inhibiting the healing process 
of the extraction socket.1,3

In this study, the 8% cocoa bean extract gel group 
had a greater reduction in the number of macrophages 
compared with the control groups from day 3 to day 7. This 
is because cocoa beans contain secondary metabolites, one 
of which is proanthocyanin.6 Proanthocyanin acts as an 
anti-inflammatory agent by inhibiting cyclooxygenase and 
lipoxygenase, which reduces the number of prostaglandin, 
thromboxane, prostacyclin, endoperoxide and leukotrienes 
produced, resulting in a reduction in the number of 
inflammatory cells that migrate to the injured area. Thus, 
the inflammatory reaction is shortened in duration and 
the wound healing process can move to the proliferative 
phase.6,11

The results of this study are supported by a study 
conducted by Dugo et al.,11 which found that cocoa 
polyphenol extracts reduced the reactions of pro-
inflammatory macrophages (M1 macrophages) and 
induced changes in the phenotype of macrophages to anti-
inflammatory macrophages (M2 macrophages). Human 
macrophages can be divided into two groups based on their 
activation stages: M1 macrophages and M2 macrophages. 
M1 macrophages play a role in initiating the inflammatory 
process, while M2 macrophages are involved in the 
resolution of inflammation. At the end of the inflammatory 

phase, M2 macrophages will produce growth factors, such 
as transforming growth factor-beta (TGF-β), vascular 
endothelial growth factor (VEGF) and platelet-derived 
growth factor, which act as the initiators of the proliferative 
phase.11,12 Macrophages are the most dominant cells in the 
inflammatory phase, with the highest number on day 3 and 
a gradual decrease on day 7. The reduction in the number of 
macrophages indicates the end of the inflammatory phase 
and the beginning of the proliferative phase.10,12

The proliferative phase is characterised by fibroplasia.9,10 
In this study, the 8% cocoa bean extract gel group had the 
highest number of fibroblast cells on the 3rd and 7th days 
compared with the control groups. Cocoa beans contain 
quercetin.6 Based on a study by Kant et al.,13 quercetin 
stimulates fibroblast proliferation by increasing TGF-β1 
expression. Transforming growth factor beta 1 is a growth 
factor that stimulates the migration and proliferation of 
fibroblasts and supports the synthesis and deposition of 
collagen in the wound healing process.10,13 

One of the factors that inhibit the healing process in 
alveolar osteitis is bacterial invasion. The bacteria involved 
in the pathogenesis of alveolar osteitis are generally 
anaerobic pathogenic bacteria.2,4 The theobromine found 
in cocoa beans is a potent antibacterial agent. Theobromine 
attaches to the bacterial cell wall, penetrates the biofilm 
generated by the bacteria and stimulates proteolytic 
enzymes, which damage the bacterial cell membranes. 
This causes the phagocytic activity of the bacteria that 
cause alveolar osteitis to be more easily carried out by 
inflammatory cells, speeding up the inflammatory phase so 
that the proliferative phase can begin, which is characterised 
by the increase in the number of fibroblasts.6 Fibroblasts 
begin to migrate on the 3rd day after the injury and continue 
to proliferate until their number peaks on the 7th day.2,10 

Osteoblasts begin to migrate on the 7th day, and their 
number will continue to increase until the 14th day, after 
which the osteoblasts will differentiate into osteocytes. 
Osteocytes are mature osteoblasts trapped within the 
osteoid.9,14 In this study, the 8% cocoa bean extract 
group had the highest number of osteoblasts compared 
with the control groups on the 7th and 14th days. This is 
because cocoa beans contain anthocyanidins.6 In the study 
conducted by Xu et al.,15 anthocyanidins were found to 
increase the expression of VEGF, which is needed in the 
process of angiogenesis.

One of the crucial factors in the process of bone 
healing is vascularisation. The granulation tissue that 
forms on the surface of the alveolar bone during the wound 
healing process following a tooth extraction requires good 
vascularity. Vascularisation is needed to provide a supply of 
nutrients and oxygen in the process of bone ossification.2,16 
Cocoa beans also contain catechins.6 According to a study 
by Fajriani et al.,17 catechins can stimulate osteoblast 
proliferation by increasing the expression of TGF-β1 and 
bone morphogenetic-2 (BMP-2). Transforming growth 
factor beta 1 is the most abundant growth factor in bone 
cells and stimulates osteogenic bone cell proliferation and 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 158/E/KPT/2021. 
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v55.i1.p7–12

Isnandar et al./Dent. J. (Majalah Kedokteran Gigi) 2022 March; 55(1): 7–12

https://e-journal.unair.ac.id/MKG/index
http://dx.doi.org/10.20473/j.djmkg.v55.i1.p7-12


12

differentiation. In addition, TGF-β1 enhances osteoclast 
absorption and promotes new bone growth. Meanwhile, 
BMP-2 increases mesenchymal stem cell migration, 
proliferation and osteogenic differentiation.11,16,17

The positive control group in this study used Aloclair® 
gel, which contains 2% sodium hyaluronate. During the 
wound healing process, sodium hyaluronate binds well to 
the fibrin clot, promoting cell migration and proliferation 
to the wound area. In addition, sodium hyaluronate can 
also strengthen the bond between fibrin and collagen 
so that blood clots become more stable and less easily 
damaged.18

The wound healing process of the extraction socket 
can also be assessed clinically by the size of the socket 
wound. The faster the size of the wound decreases, the 
faster the wound healing process takes place.19 Based on 
this study, the cocoa bean extract gel group had the lowest 
mean clinical socket wound size compared with the control 
groups on the 3rd, 7th and 14th days. This was because the 
cocoa bean extract gel group had the highest number of 
fibroblasts. An increase in the number of fibroblast cells 
increases the wound closure process because fibroblasts 
differentiate into myofibroblasts, which play a role in 
wound contraction, thereby causing the wound to shrink 
in size.2,10

There were significant differences in the mean socket 
wound size and the number of macrophages, fibroblasts and 
osteoblasts between the cocoa bean group and the control 
groups. The cocoa bean extract gel produced a better effect 
on the healing process of alveolar osteitis compared with 
the control groups. This study concludes that the application 
of an 8% cocoa bean extract gel stimulates the healing of 
alveolar osteitis following a tooth extraction in Wistar 
rats, as evident from the decrease in the clinical wound 
size of the extraction socket, a decrease in the number of 
macrophages and an increase in the number of fibroblasts 
and osteoblasts.

ACKNOWLEDGEMENTS

This study was funded by the Universitas Sumatera Utara 
Research Institute based on the TALENTA USU  2021 
research contract (126/UN5.2.3.1/PPM/SPP-TALENTA 
USU/2021).

REFERENCES

 1.  Henry CJ, Stassen LFA. The non-healing extraction socket: a 
diagnostic dilemma - case report and discussion. J Ir Dent Assoc. 
2016; 62(4): 215–20. 

 2.  Hupp JR, Ellis E, Tucker MR. Contemporary oral and maxillofacial 
surgery. 7th ed. Philadelphia: Mosby Elsevier; 2019. p. 44–52, 
203. 

 3.  Ezhil I, Kumar M. Recent advances in the management of dry 
socket-A review. Drug Invent Today. 2018; 10(4): 450–4. 

 4.  Supe NB, Choudhary SH, Yamyar SM, Patil KS, Choudhary 
AK, Kadam VD. Efficacy of alvogyl (combination of iodoform + 
butylparaminobenzoate) and zinc oxide eugenol for dry socket. Ann 
Maxillofac Surg. 2018; 8(2): 193–9. 

 5.  Kumar G, Jalaluddin M, Rout P, Mohanty R, Dileep CL. Emerging 
trends of herbal care in dentistry. J Clin Diagn Res. 2013; 7(8): 
1827–9. 

 6.  K i m J, K i m J, Sh i m J, L e e CY, L e e K W, L e e H J. Cocoa 
phytochemicals: recent advances in molecular mechanisms on 
health. Crit Rev Food Sci Nutr. 2014; 54(11): 1458–72. 

 7.  Kurniawati A, Saputra DR, Cholid Z, Putra HK. Cacao seed 
(Theobroma cacao L.) extract gel effect on the neutrofil number 
after tooth extraction. ODONTO Dent J. 2020; 7(1): 60–7. 

 8.  Mokhtari S, Sanati I, Abdolahy S, Hosseini Z. Evaluation of the 
effect of honey on the healing of tooth extraction wounds in 4- to 
9-year-old children. Niger J Clin Pract. 2019; 22(10): 1328–34. 

 9.  de Sousa Gomes P, Daugela P, Poskevicius L, Mariano L, Fernandes 
MH. Molecular and cellular aspects of socket healing in the absence 
and presence of graft materials and autologous platelet concentrates: 
A focused review. J oral Maxillofac Res. 2019; 10(3): e2. 

10.  La r java H. O ra l wound hea l i ng: cel l biolog y a nd cl i n ica l 
management. Singapore: Wiley-Blackwell; 2012. p. 43. 

11.  D ugo L , Bel luomo MG, Fa na l i C , Russo M, C a c ciola F, 
Maccarrone M, Sardanelli AM. Effect of cocoa polyphenolic 
extract on macrophage polarization from proinflammatory M1 to 
anti-inflammatory M2 state. Oxid Med Cell Longev. 2017; 2017: 
6293740. 

12.  Koh TJ, DiPietro LA. Inflammation and wound healing: the role of 
the macrophage. Expert Rev Mol Med. 2011; 13: e23. 

13.  Kant V, Jangir BL, Kumar V, Nigam A, Sharma V. Quercetin 
accelerated cutaneous wound healing in rats by modulation of 
different cytokines and growth factors. Growth Factors. 2020; 38(2): 
105–19. 

14.  Vieira AE, Repeke CE, De Barros Ferreira S, Colavite PM, 
Biguetti CC, Oliveira RC, Assis GF, Taga R, Trombone APF, 
Garlet GP. Intramembranous bone healing process subsequent 
to toot h ext ract ion i n m ice: m icro - computed tomog raphy,                                        
histomorphometric and molecular characterization. PLoS One. 2015; 
10(5): 1–22. 

15.  Xu L, Choi TH, Kim S, Kim S-H, Chang HW, Choe M, Kwon SY, 
Hur JA, Shin SC, Chung J Il, Kang D, Zhang D. Anthocyanins from 
black soybean seed coat enhance wound healing. Ann Plast Surg. 
2013; 71(4): 415–20. 

16.  Zhang Z, Zhang X, Zhao D, Liu B, Wang B, Yu W, Li J, Yu X, Cao 
F, Zheng G, Zhang Y, Liu Y. TGF-β1 promotes the osteoinduction 
of human osteoblasts via the PI3K/AKT/mTOR/S6K1 signalling 
pathway. Mol Med Rep. 2019; 19(5): 3505–18. 

17.  Fajriani, Sartini, Horax S, Malik A, Asmawati, Balqis A, Wulansari 
DP. Role of green tea catechins toothpaste on transforming growth 
factor-β1 (TGF-β1) and Bone Morphogenetic-2 (BMP-2) on early 
childhood caries. Syst Rev Pharm. 2020; 11(12): 42–7. 

18.  Yang H, Kim J, Kim J, Kim D, Kim HJ. Non-inferiority study of the 
efficacy of two hyaluronic acid products in post-extraction sockets 
of impacted third molars. Maxillofac Plast Reconstr Surg. 2020; 
42(1): 40. 

19.  Putra ASS, Rahardjo, Hasan CY, Pangestiningsih TW. Effect of 
concentration differences of snail mucus gel (Achatina Fulica) on 
collagen density and wound closure rate in Wistar rat skin punch 
biopsy wounds. J Int Dent Med Res. 2021; 14(2): 574–9. 

Dental Journal (Majalah Kedokteran Gigi) p-ISSN: 1978-3728; e-ISSN: 2442-9740. Accredited No. 158/E/KPT/2021. 
Open access under CC-BY-SA license. Available at https://e-journal.unair.ac.id/MKG/index
DOI: 10.20473/j.djmkg.v55.i1.p7–12

Isnandar et al./Dent. J. (Majalah Kedokteran Gigi) 2022 March; 55(1): 7–12

https://e-journal.unair.ac.id/MKG/index
http://dx.doi.org/10.20473/j.djmkg.v55.i1.p7-12