Vol 4 No 4 Final.indd


Althea Medical Journal. 2017;4(4)

506     AMJ December 2017

Effect of Anti-tuberculosis Drugs on Liver Damage Based on Alanine 
Aminotransferase Level in Pulmonary Tuberculosis Patients

Vera Dianwari,1 Vycke Yunivita Kusumah Dewi,2 Nia Kania3
1Faculty of Medicine Universitas Padjadjaran, 2Department of Pharmacology and Therapy Faculty 

of Medicine Universitas Padjadjaran, 3Department of Anatomy, Cell Biology and Physiology 
Faculty of Medicine Universitas Padjadjaran

Abstract

Background: Antituberculosis (anti-TB) drugs could cause serious effect such as hepatotoxicity signed by 
the increase of Alanine Aminotransferase (ALT) level. Anti-TB drugs are still needed by TB patients who have 
hepatotoxicity, although  clinicians who manage this condition have not recognize whether the advantage of 
anti-TB drugs is higher than its adverse effect, and there is no data describing about that issue. This study 
was conducted to discover the liver damage based on the ALT changes before and 12 days after initial anti-
TB treatment. 
Methods: This was a cross-sectional study with total sampling of medical records of pulmonary tuberculosis 
inpatients from 1st January 2013–31th December 2014 at the Department of Internal Medicine of Dr. Hasan 
Sadikin.General Hospital. From 141 data, only 14 medical records were eligible to be included in this study. 
The data used were ALT level before and after therapy. These data were analyzed using Wilcoxon test and 
considered as significant if p<0.05.
Results: The median age of the subject study was 48(18-65) years. Among 14 patients, 8 were female and 
6 were male. Five out of fourteen patients developed hepatotoxicity. Four out of five developed grade 1 
hepatotoxicity and one out of five developed hepatotoxicity grade 4. The analysis of the data showed the 
differences of ALT level before anti-TB therapy (22(4-447)) and 12 days after initial therapy (18.5(4-1206)) 
was not significant (p=0.660).
Conclusions: There is no liver damage based on ALT changes after anti-TB treatment so the treatment can 
be continued. 

Keywords: Alanine aminotransferase, antituberculosis drugs, hepatotoxicity, tuberculosis

Correspondence: Vera Dianwari, Faculty of Medicine, Universitas Padjadjaran, Jalan Raya Bandung-Sumedang Km. 21, 
Jatinangor, Sumedang, West Java, Indonesia, Email: verdian.anwari@gmail.com

Introduction

Tuberculosis (TB) is still one of the biggest 
problems in the world.1,2 The World Health 
Organization (WHO) reported in 2014 that 
there were approximately 9,6 million new 
cases of TB, 58% which occurred in South-East 
Asia and Western Pacific Region, including 
Indonesia.2

Tuberculosis is actually a disease that can 
be treated with intensive and comprehensive 
treatment.3 The challenges from this 
treatment are that antituberculosis (anti-
TB) drugs could cause multidrug resistance 
(MDR) and some adverse effects, including 

hepatotoxicity. Hepatotoxicity is one of the 
anti-TB drugs adverse effects.3,4 It is a liver 
dysfunction or liver damage that correlates 
to drug dosage or xenobiotic.5 Anti-TB drugs 
that cause hepatotoxicity include Isoniazid, 
rifampicin, pyrazinamide, and ethambutol.5 
Hepatotoxicity could be seen by the high 
level of alanine aminotransferase (ALT) 
especially 12 days after initial treatment.6 This 
substance is a specific enzyme produced by 
the liver when the damage occurred.5 Patients 
with hepatotoxicity still need anti-TB drugs, 
although physicians have not discovered 
whether the advantages of anti-TB drugs are 
higher than the disadvantages.4

AMJ. 2017;4(4):506–11

ISSN 2337-4330  ||  doi: http://dx.doi.org/10.15850/amj.v4n4.1259



Althea Medical Journal. 2017;4(4)

507

Until currently, there has not been any 
study comparing the effect of anti-TB drugs 
as the agent that cause hepatotoxicity to the 
changes of ALT level in Indonesia, especially in 
Dr. Hasan Sadikin General Hospital Bandung. 
These data can help the physician to determine 
whether the anti-TB drugs treatment should be 
continued or not when the ALT is increasing. 
This study was conducted to discover liver 
damage based on ALT level changes before 
and 12 days after initial treatment of anti-TB 
drugs.

Methods

The study was carried out from September-
November 2015 at the Department of Internal 
Medicine and Department of Clinical Pathology 
in Dr. Hasan Sadikin General Hospital Bandung. 
It was an observational analytic study with a 

cross sectional approach using nonprobability 
total sampling of pulmonary TB in inpatients’ 
medical records from 1st January 2013-31th 
December 2014. This study was approved by 
the Health Research Ethics Committee of Dr. 
Hasan Sadikin General Hospital Bandung and 
all data collection will be concealed.

The object of this study was the medical 
record of pulmonary TB patients who had 
first line anti-TB drugs treatment in Dr. Hasan 
Sadikin General Hospital Bandung. The 
inclusion criteria were: (1) the patients age 
were above 18 years, (2) had first line anti-TB 
drugs treatment, (2) had ALT examination at 
least twice, before the treatment and 12 days 
after treatment. Measurement of ALT was 
carried out using the Hitachi 902 machine 
in the Department of Clinical Pathology and 
the result was attached in the medical record 
document.

Figure Flow Diagram of All Patients Diagnosed Pulmonary TB in Data

Vera Dianwari, Vycke Yunivita Kusumah Dewi, Nia Kania: Effect of Anti-tuberculosis Drugs on Liver Damage 
Based on Alanine Aminotransferase Level in Pulmonary Tuberculosis Patients



Althea Medical Journal. 2017;4(4)

508     AMJ December 2017

Table 1 Baseline Characteristics of 14 pulmonary TB patients included in the study
Characteristics N

Age (years): median(minimum-maximum)) 48(18-65)
Sex
     Male 6/14
     Female 8/14
Hepatotoxicity
     Grade 1 4/14
     Grade 2 -
     Grade 3 -
     Grade 4 1/14
Co-morbid of pulmonary tuberculosis patients
     Extrapulmonary tuberculosis 2/14
     Hematoimmunology disturbances
          Human Immunodeficiency Virus Infection 2/14
          Systemic Lupus Erythematosus 1/14
          Toxic Epidermal Necrolysis 1/14
          Thrombocytosis 1/14
          Anemia Inflammation 2/14
     Hemostasis disturbance
          Hypertension 2/14
          Pleural effusion 1/14
     Metabolism disturbance (Diabetes Mellitus) 2/14
     Others 10/14
Co-medication of pulmonary tuberculosis patients
     Antidepresants 2/14
     Anticoagulants 1/14
     Antiretrovirals (ARV) 2/14
     Steroids 4/14
     Non Steroidal Anti Inflammatory Drugs (NSAID) 6/14

The results of ALT level measurement in this 
study were classified into several classes based 
on Common Terminology Criteria for Adverse 
Effect (CTCAE) for descriptive purposes. Grade 
1 was defined as the increasing of ALT from 
the highest normal range of ALT until 3 times 
highest normal level. Grade 2 was defined 
as the increasing of 3-5 times from highest 
normal range of ALT level. Grade 3 was defined 
as the increasing 5-20 times from the highest 
normal range of ALT. Grade 4 was defined 
as increasing more than 20 times from the 
highest normal range of ALT.

Furthermore, ALT level data from the 

medical record were statistically analyzed 
using Wilcoxon non-parametric test since 
there were anomalies in the distribution of 
data. Statistically significant was considered 
when p<0.05.

Results

Among 141 patient’s medical records, only 14 
met the inclusion criteria and were eligible to 
be included in this study (Figure 1).

Based on the characteristics of the patients, 
out of the 14 medical records, 5 developed 



Althea Medical Journal. 2017;4(4)

509Vera Dianwari, Vycke Yunivita Kusumah Dewi, Nia Kania: Effect of Anti-tuberculosis Drugs on Liver Damage 
Based on Alanine Aminotransferase Level in Pulmonary Tuberculosis Patients

hepatotoxicity with one of them having 
severe hepatotoxicity (grade 4). The 14 
medical records of pulmonary tuberculosis 
patients showed that the patients had co-
morbid disease, the highest co-morbid was 
hematoimmunology disturbances and the 
most co-medication used was NSAID (Table 1).

Furthermore, the analysis of pulmonary TB 
patient’s ALT from the measurement before 
treatment and 12 days after initial treatment  
used the Wilcoxon test as nonparametric test 
analysis, and showed there was no significant 
difference (p≥0,05) from the ALT measurement 
before anti-TB drugs treatment and 12 days 
after initial treatment (Table 2).

Discussions

This study showed that the median and mode 
age of pulmonary tuberculosis patients was 
48 and 47 with higher occurrences in female 
(8/14). This result was similar with another 
study conducted by Qureshi D et al.7, who 
discovered that the most frequent patients are  
in the age group of 41-50 years with higher 
incidence occured in female (71%). This 
result occurred because the increasing age 
was associated with the higher incidence of 
tuberculosis.8 Female subjects was higher than 
male perhaps due to  several specific conditions 
in female, such as malnutrition, pregnancy, 
breastfeeding baby, and socioeconomic 
conditions.9

In addition, co-medication recorded 
along with anti-TB drug in this study was 
NSAID. Eventhough this data was not related 
to the high event of hepatotoxicity, one 
study discovered that overdose of NSAID, 
especially  acetaminophen, could cause liver 
damage. The liver damage is caused by the 
metabolite (NABQI) of the drug produced by 
the cytochrome P-450 enzymes in the liver. 
This metabolite could lead cell death and 
hepatocelullar necrosis.5

In this study, the range of ALT measurement 
before anti-TB treatment was 4-477 U/L. It was 
discovered that one of the subjects had a very 
high ALT level (447 U/L). It might occur since 
the subject had Human Immunodeficiency 

Virus (HIV) infection and consumed ARV 
drugs. These drugs are one of the most 
drugs that could cause hepatotoxicity. The 
mechanism of hepatotoxicity caused by ARV 
can be due to direct toxicity to the hepatocyte, 
hypersensitivity reaction, or mitochondrial 
activity.7 The second ALT level measurement’s 
result of this patient revealed the deceasing 
ALT level (60U/L).

Another result in this study revealed that 
the range of ALT measurement on 12 days after 
initial therapy was 4-1206 U/L. The subject 
who had the highest ALT measurement in this 
period only took an anti-TB therapy according 
to the hospital medical records. The baseline of 
ALT level was normal (26 U/L) and increased 
17 days after the initial therapy become 1206 
U/L (hepatotoxicity grade 4). This subject 
could be classifiied as severe hepatotoxicity 
since the third examination revealed that the 
ALT level  decreased although did not reach 
the normal range. It was similar with the study 
conducted by Gulbay et al.10, who discovered 
that the incidence of severe hepatotoxicity is 9 
(0,8%) out of 1149 subjects.

The current study showed, there was 
no liver damage based on the ALT level 
measurement before the anti-TB treatment 
and 12 days after the initial treatment of anti-
TB treatment.This study corresponded with 
a study conducted by Nahar.11 It showed that 
there are also neither alteration of ALT before 
treatment (4.85±2.17) U/L and 12 days after 
initial treatment (7.50±6.02) U/L nor clinically 
appreciable.11 However, another study by 
Gulaty et al.12, showed there are alteration of 
ALT before treatment(18.8±3.70) U/L and 
12 days after initial treatment (40.6±4.20) 
U/L.This study conducted by Gulaty et al.12 is 
performed through primary data collection, 
and the increased frequency as compared to 
our study could be as a result of complete data 
information.

The changes of ALT in the period of 12 days 
after initial treatment which did not show 
alteration could occur possibly as hepatocyte is 
considered similar to other cells in the human 
body. Although, hepatotoxicity occurred in this 
study, it did not reveal a high result due to the 

Table 2 Comparison of Median of ALT level before and after initial treatment
Variable Type of test N Median (Minimun-maximum) P

ALT (U/L)
Pre-treatment 14 22(4-447)

0.660*
Post-treatment 14 18.5(4-1206)

Note: * Tested with nonparametric Wilcoxon test



Althea Medical Journal. 2017;4(4)

510     AMJ December 2017

regeneration of hepatocyte. The regeneration 
is initiated by the Hepatocyte Growth Factor 
(HGF) that is released as response to trauma, 
either due to physical trauma or chemical 
trauma. This factor activates the antioxidant 
signaling pathway and it could prevent 
oxidative stress enhancement which lead to the 
increasing of ALT. The process of regeneration 
would start in 5 minutes after trauma and 
complete the process in 5-7 days.5,13

Moreover, ALT enhancement is also 
determined by a genetic factor, although it 
could not be used as a conclusion since it could 
not be obtained from medical records. One of 
the genes responsible for the anti-TB drugs’ 
metabolism is the N-acetyltransferase-2 (NAT-
2) gene. The anti-TB drug that is metabolized 
by this gene is isoniazid. Besides, the NAT-2 
gene has a role in the acetylation process of 
hepatic N-acetyltransferase. Polymorphism 
of the NAT-2 gene could be different in 
patients. There are three kinds of NAT-2 
genetic variation in humans: slow acetylator, 
intermediate acetylator, and fast acetylator. 
These differences include the catalytic activity, 
stability of enzyme metabolizing by the drug, 
and the drug affinity. ALT would increase in 
a person who has slow and fast acetylator 
status.14

The limitation of this study was the missing 
medical records since the medical record 
unit did not recorded all the data of inpatient 
pulmonary TB patients in the Internal 
Medicine Department of the period 1st January 
2013-31th December 2014 which could be 
analyzed. The remaining medical records also 
had incomplete information, especially the 
ALT measurement test result and the onset 
of anti-TB initial treatment. Expanding the 
sample study or homogenizing the sample 
from other sources could be an option to avoid 
the missing or incomplete information from 
medical records and to meet the sample size 
requirement. Besides, the pilot study should 
be performed to estimate the sample number 
needed in the study. Moreover, a case control 
study could be the alternative to reveal the 
effect of hepatotoxicity caused by anti-TB 
drugs in the future.

In conclusion, there are no differences of 
ALT level changes before treatment and 12 days 
after initial treatment. However, the ALT level 
should still be checked due to the possibility of 
the occurrence of hepatotoxicity in this study, 
and to manage and evaluate the symptom that 
will occur. Anti-tuberculosis drugs could be the 
possible or definitive cause of hepatotoxicity. 
The reaction after discontinuing the drugs 

should be observed to discover that anti-TB 
drugs is the definitive cause of hepatotoxicity. 

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511Vera Dianwari, Vycke Yunivita Kusumah Dewi, Nia Kania: Effect of Anti-tuberculosis Drugs on Liver Damage 
Based on Alanine Aminotransferase Level in Pulmonary Tuberculosis Patients

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