Althea Vol 2 No 4 Final.indd


Althea Medical Journal. 2015;2(4)

546     AMJ December, 2015

Anti-hyperglycemic Effect of Psidium guajava Leaf Infusion

Rizda Nurul Zartiana,1 Samsudin Surialaga,2 Hikmat Permana3
1Faculty of Medicine Universitas Padjadjaran, 2Department of Biochemistry and Molecular 

Biology Faculty of Medicine Universitas Padjadjaran, 3Department of Internal Medicine Faculty of 
Medicine Universitas Padjadjaran/Dr. Hasan Sadikin General Hospital Bandung

Abstract

Background: Prevalence of diabetes mellitus is estimated to increase annually. Numerous people use 
traditional medicine, such as the Psidium guajava leaf to prevent this disease. This study aimed to analyse 
the effect of Psidium guajava leaf to inhibit glucose absorption in intestine epithelial membrane of wistar 
rats.
Methods: This laboratory experimental study used 5 wistar rats as subjects in the Laboratory of Biochemistry 
at Padjadjaran University from 10−26 October 2012. All rats were  given three solutions by in situ perfusion 
method. The first was 25 ml 3.0 X 10-3 M glucose solution, the second was 25 ml 3.0 X 10-3 M glucose 
solution with 1 ml Psidium guajava infusion added, and the third was 25 ml 3.0 X 10-3 M glucose solution. 
The sample from each solution was  taken five times at 0, 15, 30, 45, and 60 minutes after the solutions were 
given. The spectrophotometer was to quantify the concentration of glucose from the samples. Data were 
analyzed using Friedman and Wilcoxon test.
Results:The means of glucose concentration for each solution from the first solution to the third were 6.126 
mg/dl, 2.447 mg/dl, and 5.345 mg/dl. The probability value showed significant difference between the first  
and  second solutions (p ≤ 0.05).
Conclusions: Psidium guajava leaf infusion can inhibit glucose absorption in wistar rat intestine and the 
effect is reversible. [AMJ.2015;2(4):546–9]

Keywords: Glucose absorption, in situ perfusion, infusion, Psidium guajava leaf

Correspondence: Rizda Nurul Zartiana, Faculty of Medicine, Universitas Padjadjaran, Jalan Raya Bandung-Sumedang 
Km.21, Jatinangor, Sumedang, Indonesia, Phone: +62 821 158 09 959 Email: rizda.adiwinata@gmail.com

Introduction
 
Diabetes Mellitus is a symptom resulting 
from impaired metabolism, accompanied by a 
condition with very high levels of glucose  or 
commonly called hyperglycemia. This occurs 
due to the lack of hormone insulin; or the 
diminishing effectiveness of hormone insulin; 
or both. Based on its etiology, Diabetes Mellitus 
was classified into four types: Type 1 Diabetes, 
Type 2 Diabetes, Gestational Diabetes, and 
Other specific types.1 

Based on existing data, prevalence of 
diabetes mellitus worldwide was 2.8 % in 
2000 and it was estimated to become 4.4 % 
in 2030. The number of people with Diabetes 
Mellitus is projected to rise from 171 billion 
in 2000 to 366 million in 2030. Besides , there 
are 10 countries  predicted to have the highest 
number of people with Diabetes Mellitus 
and the “top four” countries are India (79,4 

million), followed by China (42,3 million), 
United States (30,3 million), and Indonesia 
(21,3 million).2

One of the risk factors associated with  
diabetes is consuming food carbohydrates in 
excess. Carbohydrates are easy to digest and 
absorbed, so it can increase thelevel of blood 
glucose faster.3 Therefore, lots of  people use 
herbs which have an effect to reduce blood 
glucose level. 

One of the herbs is guava or Psidium guajava. 
A recent Ethnopharmalogical study explained 
that the shaft, the fruit, and the leaves from 
Psidium guajava had been used in many 
countries as treatment of diabetes mellitus.4 
A previous study also showed that Psidium 
guajava leaf extract can inhibit the activity of 
maltose, sucrose, and α-amylase enzyme, so it 
can lower level of blood glucose.5 This study 
aimed to analyse the effect of Psidium guajava 
leaf to inhibit glucose absorption in intestine 
epithelial membrane of wistar rats.



Althea Medical Journal. 2015;2(4)

547

Methods

This study was conducted in the Laboratory 
of Biochemistry at Padjadjaran University 
from 10−26 October 2012. Psidium guajava 
leaves were obtained from the Arboretum of 
Sains Faculty, Universitas Padjadjaran. The 
leaves were weighed 200 g. then chopped. 
Two pots were required to make the infusion. 
Next, water was added in the first pot and 
the second pot was put within. Then, 200 ml 
distilled water was poured to the second pot, 
and the chopped leaves were put within and 
stewed for 15 minutes at a temperature of 
900C. Afterward, the infusion was filtered with 
a flannel fabric and poured into a measuring 
glass to make sure it was 100 ml infusion. 

This study used the complete randomized 
design for sampling method. The subjects of 
study are five healthy male Wistar rats (2−3 
months old) weighing 150−250 g. All rats were 
housed first in the laboratory environment for 
7 days. Then, the rats were made to fast for 
18−24 hours however were still given access 
to water.

The in situ perfusion tool was made 
by the Sains Faculty of Institut Teknologi 
Bandung (ITB) and designed by P. Soedigdo 
and Marsongkohadi. All the rats were totally 
anesthetized using 1.15 ml/100 mg body 
weight of Ketamine HCl intramuscular then,  
fixation was performed on board. The ventral 
abdomen of rats was cleaned with 70% alcohol 
and abdominal surgery was performed with 
minor surgery set. The intestine of rats (small 
intestine) were measured 10 cm from pylorus, 
then add 25 cm long for used in experiment.   
An incision was made at both  sides of the 
intestine,  then  a cannula was tied at each side. 
Afterwards,  the intestine was washed with 
NaCl 0.9% and was blown using a syringe three 
times alternately while the cannulas were 
connected with an in situ perfusion tool. After 
everything was prepared, the was flown to be 
tested. There were three solutions to be tested 

in this experiment. The first solution was 25 
ml of 3.0 X 10-3 M glucose solution. The second 
solution was 25 ml of 3.0 X 10-3 M glucose 
solution with 1 ml of Psidium guajava infusion 
added. The third solution was 25 ml of 3.0 X 
10-3 M glucose solution. The rats’ intestine 
were washed and blown again each time the 
solution was changed. The first samples were 
taken every  0, 15, 30, 45 and 60 minutes with 
a sixty minute duration of experiment . 

The samples to be measured were taken 
from the first samples as much as 50 µl.  The 
samples were then added with Trichloroacetic 
8% for deproteinisation. Next, the samples were 
centrifuged at 3000 rpm speed for 10 minutes. 
Afterwards, about 100 µl supernatant were 
taken and added with 1 ml glucose reagent/
GOD-PAP. Then, the samples were incubated at 
37oC for 10 minutes. Finally, the samples were 
poured into a cuvet and measured at 505 nm 
absorbance using a spectrophotometer. 

The glucose level was quantified using the 
formula6 :

  Sam. abs
Glu. con =        X  St. con
  St. abs

Note
Glu. con : Glucose concentration (mg/dl)
St. con    : Standard concentration (100 mg/dl)
Sam. abs: Sample absorbance
St. abs  : Standard absorbance

Results

The absorption level of glucose (mg/dl) for all 
rats was presented in Table 1. The means of 
the first and second solutions were calculated 
and compared to see if there was any effect of 
the second solution.

There was quite a big difference between 
means of both solutions which might prove that 
the second solution could inhibit the glucose 
absorption process. Thus, the level of glucose 
which was inhibited must be quantified, using 
the formula.6

Table 1 Absorption Level of Glucose (mg/dL) for Each Solution

Treatment
Absorption Level of Glucose (mg/dL) Mean of 

Absorption 
Level of Glucose 

(mg/dL)
Rat 1 Rat 2 Rat 3 Rat 4 Rat 5

1st Solution (glucose) 8.728 5.984 9.009 3.789 3.119 6.126
2nd Solution (glucose with 
infusion) 2.023 1.166 3.934 2.763 2.347 2.447

3rd Solution (glucose) 5.954 6.736 6.847 3.842 3.344 5.345

Rizda Nurul Zartiana, Samsudin Surialaga, Hikmat Permana: Anti-hyperglycemic Effect of Psidium 
guajava Leaf Infusion

Glu. con =        X  St. con



Althea Medical Journal. 2015;2(4)

548     AMJ December, 2015

The level of glucose which was inhibited 
by the Psidium guajava infusion was 60.056 
% according to absorption level of the first 
solution. Then, the first solution was compared 
to the third solution to find out if the effect was 
reversible or irreversible (Figure 2).

Normality of the data were examined by 
using theSaphiro-Wilk test. The result showed 
that the data were abnormally distributed (p 
< 0.05). Furthermore, the transforming of data 

was performed however, the result of Saphiro-
Wilk test was still abnormal. Therefore, 
Friedman and Wilcoxon tests were carried out 
to analize the data statistically. 

The Friedman test showed probability 
value was 0.022 (P<0.05), meaning at least two 
measurements were different significantly. 
Then post-hoc wilcoxon test was performed 
and showed that the second solution, which  
contained Psidium guajava infusion, had 

Figure 1 Comparison of Means of Absorption Level of Glucose Between 1st and 2nd Solution

Figure 2 Comparison of Means of Absorption Level of Glucose Between 1st and 3rd Solution



Althea Medical Journal. 2015;2(4)

549

significant effect to inhibit glucose absorption 
compared with the first solution (P=0.043).  
On the other hand, the third solution has no 
differences with the first solution so that 
the effect of Psidium guajava infusion was 
reversible.

Discussion 

The result of this study showed Psidium guajava 
infusion was able to inhibit glucose absorption 
in wistar rats intestine. It can be associated with 
a previous study by Deguchi and Miyazaki5. 
The study used guava leaf extract or GvEx as 
material for treatment. The rats were divided  
into control and treatment groups, then gave 
GvEx per-oral to thetreatment group. At the 
end of the research, it was proved that GvEx 
has anti-hyperglycemic effect. With a different 
method using streptozotocin-induce diabetic 
mice (type 1 Diabetes Mellitus), GvEx is able 
to lower post prandial blood glucose level 
significantly. The same condition  occurs in 
another study using human as subject.5, 7-9

The inhibitory effect that is produced 
by Psidium guajava infusion derives from a 
group of phenolic hydroxil contained in the 
Psidium guajava leaf. The phenolic hydroxil 
group is in the form of polyphenol such as 
peduncladgin, casuarinin, and isostrictin. 
In addition there are also polymerized 
polyphenol content consisting of ellagic acid, 
cyanidin, and others low molecular weight 
polyphenols.5,10 Polyphenols are able to inhibit 
the enzyme α-amylase, maltase, and sucrose. 
Those enzymes digest carbohydrates into a 
glucose form which will be absorbed through 
the intestines. By inhibiting this enzyme, no 
glucose or other monosaccharides are formed, 
so there is no absorption.5, 11 

This study demonstrated that Psidium 
guajava leaf infusion could also directly inhibit 
glucose absorption. Psidium guajava not only 
inhibited the breakdown of carbohydrates into 
glucose but also inhibited the absorption of 
glucose itself.

On the other hand, comparison between 
the first and second solution showed no 
significant difference for level of glucose 
absorption. This occurred because by washing 
the intestine using NaCl 0.9% and blowing 
it could eliminate the inhibitory effect of 

polyphenol in Psidium guajava infusion. It 
can be concluded that the effect of infusion is 
reversible. However, further study is needed to 
confirm this conclusion. 

References

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Greenspan’s basic & clinical endocrinology. 
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Global prevalence of diabetes estimates 
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3. Willett W, Manson J, Liu S. Glycemic index, 
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4. Gutierrez RM, Mitchell S, Solis RV. Psidium 
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9. Wang B, Liu HC, Ju CY. Study on the 
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Rizda Nurul Zartiana, Samsudin Surialaga, Hikmat Permana: Anti-hyperglycemic Effect of Psidium 
guajava Leaf Infusion