Althea Medical Journal. 2016;3(2)

298     AMJ June 2016

Nutritional Status of Tetralogy of Fallot Patients at Dr. Hasan Sadikin 
General Hospital Bandung 

Gabriella Chafrina,1 Armijn Firman,2 Gaga Irawan Nugraha3
1Faculty of Medicine Universitas Padjadjaran, 2Department of Child Health Faculty of Medicine, 
Universitas Padjadjaran/Dr. Hasan Sadikin General Hospital,Bandung, 3Department of Medical 

Nutrition Faculty of Medicine Universitas Padjadjaran

Abstract

Background: Undernutrition is common in children with congenital heart disease (CHD), especially in 
developing countries including Indonesia. The objective of the study was to describe the nutritional status 
of children patients with Tetralogy of Fallot.
Methods: This was a cross-sectional descriptive study using 41 medical records of children aged 0–14 
years old with Tetralogy of Fallot that visited pediatric outpatient department of Dr. Hasan Sadikin General 
Hospital in period of January to December 2013. The variable was anthropometric measurement, namely 
weight-for-age, height-for-age, weight-for-height, and body mass index-for-age. These anthropometric data 
were analyzed using statistics software, WHO Anthro, and WHO AnthroPlus and were classified based on 
nutritional status according to WHO. The collected data were displayed in percentage.
Results: There were more boys (60.98%) who had Tetralogy of Fallot compared to girls (39.02%). The 
percentage of undernutrition was 39.02% with 43.75% in 5–14 year old children. The percentage of 
stunting was 70.73% with 72% in 0–5 year old children. Meanwhile, the percentage of underweight was 
52% in children aged 0–5 years old.
Conclusions: The percentage of undernourished children with Tetralogy of Fallot is quiet high. 
Undernutrition occurs more often in 5–14 year old children, while stunting occurs more often in 0–5 year 
old children. [AMJ.2016;3(2):298–303]

Keywords: Children, nutritional status, Tetralogy of Fallot

Correspondence: Gabriella Chafrina, Faculty of Medicine, Universitas Padjadjaran, Jalan Raya Bandung-Sumedang 
Km.21, Jatinangor, Sumedang, Indonesia, Phone: +6281316777415 Email: gab.chafrina@gmail.com

Introduction

Undernutrition is common in children with 
congenital heart disease (CHD), especially in 
developing countries including Indonesia.1 
Tetralogy of Fallot, cyanotic congenital heart 
defects, accounts up to 10% from all CHD.2 This 
case consists of 4 combinations of structural 
heart abnormalities, namely ventricular septal 
defect, pulmonary stenosis, right ventricular 
hypertrophy, and overriding aorta.3

Undernutrition can be caused by inadequate 
nutritional intake or absorption, excessive 
energy expenditure, frequent respiratory 
infections, limitation of growth potential and 
genetic syndromes.4 Generally, children need 
energy for synthesis of proteins that really 
confluence for their growth and development. 
Tetralogy of Fallot  will cause low level oxygen 
in blood that can disrupt the energy formation  
that  leads to growth retardation.5,6

Treatment by surgery  for Tetralogy of 
Fallot cases is recommended  in young age, 
so that significantly improve the children’s 
nutritional status.1,7,8 The aim of this study was 
to describe the nutritional status of children 
with Tetralogy of Fallot.

Methods

A descriptive cross-sectional study was 
conducted in 2014 using medical records of 
children aged 0–14 years old with Tetralogy 
of Fallot that visited pediatric outpatient 
department of Dr. Hasan Sadikin General 
Hospital from January–December, 2013. The 
study variables were described after getting 
permission from Health Research Ethics 
Committee. The medical records should 
meet the inclusion criteria which consisted 
of children’s anthropometric results and the 
diagnosis of Tetralogy Fallot was confirmed 



Althea Medical Journal. 2016;3(2)

299

by history taking, physical examination, 
and echocardiography. The medical records 
were excluded when there were data about 
other chronic diseases, other congenital 
heart defects, or the medical records were 
incomplete. Samples were taken using total 
sampling method.

The anthropometric measurement, namely 
weight-for-age, height-for-age, weight-for-
height, and body mass index-for-age were 
analyzed using statistics software, WHO 
Anthro, and WHO AnthroPlus and were 
classified based on nutritional status according 
to WHO into well-nutrition (z score >1 SD), 
adequate nutrition (z score 1 to -1 SD), at 
risk from undernutrition (z score -1 to -2 SD), 
moderately undernutrition (z score -2 to -3 
SD), severely undernutrition (z score<-3 SD). 
Stunting and underweight based on height-

for-age and weight-for-age were classified 
into normal (z-score >-2 SD), stunted and 
underweight (z-score -2 to -3 SD), and severely 
stunted and severely underweight (z score 
<-3 SD).9 The collected data were displayed in 
percentage

Results

There were 41 medical records that met the 
inclusion criteria. There were more boys 
(60.98%) who had Tetralogi of Fallot compared 
to girls (39.02%), and this case occured in a 
very young age (Table 1).

According to nutritional status, most of the 
patients were underweight (median z-score 
for weight-for-age for 0–5 years old was -2.03, 
median z-score weight-for-age based on sex 
for boys was -2.03 and for girls were -2.09). 

Gabriella Chafrina, Armijn Firman, Gaga Irawan Nugraha: Nutritional Status of Tetralogy of Fallot Patients 
at Dr. Hasan Sadikin General Hospital 

Table 1 Characteristics of Tetralogy of Fallot Patients

Characteristics n=41 (%)

Sex
Boys 25 (60.98%)
Girls 16 (39.02%)
Age groups
0–5 years old 25 (60.98%)
Boys 15 (36.59%)
Girls 10 (24.39%)
5–14 years old 16 (39.02%)
Boys 10 (24.39%)
Girls 6 (14.63%)
Age (years)
Median 3.92
(Min-max) (0.08–12.75)
Z-score for weight-for-age 0–5 years old
Median -2.03
(Min–max) ((-6.09)–0.47)
Z-score for height-for-age
Median -2.72
(Min–max) ((-5.84)–1.47)
Z-score for Body Mass index-for-age
Median -0.72
(Min–max) ((-4.77)–2.26)



Althea Medical Journal. 2016;3(2)

300     AMJ June 2016

Moreover, most of the patients were from 
stunted to severely stunted (median z-score 
for height-for-age for 0–14 years old was -2.72 
, for 0–5 years old was -3.1, and for 5–14 years 
was -2.35 (stunted). Patient’s median z-score 
for height-for-age based on sex for boys and 
girls were -2.68 and -2.73 respectively). On the 
contrary, the result of Body Mass index-for-age 
measurement showed a different result. Most 
of the patients had adequate nutrition.

Figure 1 to 5 represents the nutritional 
status according to various measurement, age 
groups (0–5 years old and 6–14 years old), and 

gender.
The percentage of underweight 

(underweight and severely underweight) 
was 13 from 25 patients (52%). In boys, the 
percentage of underweight was higher than in 
girls (Figure 1).

The percentage of stunting cases (stunted 
and severely stunted) were 18 from 25 patients 
(72%). Similar to the previous nutritional 
status result, the percentage of stunting in 
boys was higher compared to girls (73.3% and 
70%, respectively) (Figure 2).

Most of the patients were in adequate 

Figure 1 Weight-for-Age in 0–5 Year Old Children with Tetralogy of Fallot 

Figure 2 Height-for-Age in 0–5 Year Old Children with Tetralogy of Fallot 



Althea Medical Journal. 2016;3(2)

301Gabriella Chafrina, Armijn Firman, Gaga Irawan Nugraha: Nutritional Status of Tetralogy of Fallot Patients 
at Dr. Hasan Sadikin General Hospital 

nutritional status (15 from 25 patients), 
but there were still 9 patients who were 
undernourished (at risk from undernutrition, 
moderately undernutrition, and severely 
undernutrition) (Figure 3). From the 
undernourished cases, most of the patients 
were boys (40%) including 3 patients who 
were at risk from undernutrition, 1 patient 
was moderately undernutrition, and 2 
patients were severely undernutrition. On the 
other hand, the percentage of undernourished 
girls was 30% including 2 patients who were 
moderately undernutrition and 1 patient was 
severely undernutrition.

The percentage of stunting cases (stunted 
and severely stunted) was 11 from 16 patients 

(70.73%). The percentage of stunting in boys 
were 7 from 10 patients (70%)including 
4 stunted patients and 3 severely stunted 
patients. The precentage of stunting in girls 
was 4 from 6 patients (66.67%) (Figure 4).

The percentage of undernutrition (at 
risk from undernutrition, moderately 
undernutrition, and severely undernutrition) 
was 7 from 16 patients (43.75%). The 
percentage of undernutrition in boys was 4 
from 10 patients (40%)including 3 patients 
at risk from undernutrition and 1 patient 
moderately undernutrition. The percentage 
of undernutrition in girls was 3 from 6 
patients (50%) including 1 patient at risk 
from undernutrition and 2 patients severely 

Figure 3 Weight-for-Height in 0–5 Year Old Children with Tetralogy of Fallot 

Figure 4 Height-for-Age  in 5–14 Year Old Children with Tetralogy of Fallot



Althea Medical Journal. 2016;3(2)

302     AMJ June 2016

undernutrition. Most of the patients were 
in adequate nutritional status (9 from 16 
patients) (Figure 5).

Discussion

In this study, the percentage of undernutrition 
cases was 39.02%, which was 36% in children 
aged 0–5 years old and 43.75% in children aged 
5–14 years old. This percentage was lower 
than another study conducted in Bandung10  
(78.57%).This result might likely occured due 
to different methods for calculating nutritional 
status.

The percentage of stunted children was 
70.73%, which was 72% in children aged 0–5 
years old and 68.75% in children aged 5–14 
years old. This result was higher than another 
study conducted in Bandung (25%).10 This 
result might likely occured due to different 
methods for calculating nutritional status as 
well.

The percentage found in this study 
showed variability of nutritional status. This 
was explained by Okoroigwe11 that children 
whose nutritional intakes are met with needs 
have normal nutritional status, but those 
whose nutritional intakes are not met with 
needs are stunted, underweight, and have 
undernutrition. Some children with normal 
weight-for-height, low weight-for-age, and 
low height-for age will have underweight as a 
result of their short stature (stunting), perhaps 
arising from a history of past malnutrition. In 
contrast, children with low weight-for-height, 
low weight-for-age, and normal height-for-age 

will indeed have currently malnutrition with 
underweight and undernutrition, even though 
they are not stunting.12

The result of this study showed the 
importance of various nutritional status 
measurements in children, namely height, 
weight, and body mass index measurement 
to analyze comprehensively of children’s 
nutritional status. Those simple measurements 
could give important inputs or information 
to physicians and family members in early 
detection of malnutrition and Tetralogy of 
Fallotin developing countries. If malnutrition 
is undetected, it can worsen the disease.1

Furthermore, physicians should refer the 
patient to the hospital for surgery as soon as 
possible because early treatment of Tetralogy 
of Fallot defects can have significant results 
in acceleration of weight and height, with 
normalization of long-term growth and usually 
living a life free of major symptoms.2,8

This study had limitation, which was 
among other studies, this study was using 
medical records as source of data that could 
play an impact role in validity of the study. 
There were many medical records that did not 
meet the inclusion criteria. Moreover, there 
were no data of the growth and development 
measurements of the patients who underwent 
surgery.

It can be concluded that the percentage 
of undernourished children with Tetralogy 
of Fallot is quiet high. Undernutrition occurs 
more often in children aged 5–14 years old, 
while stunting occurs more often in children 
aged 0–5 years old. 

Figure 5 Body Mass Index-for-Age in 5–14 Year Old Children with Tetralogy of Fallot



Althea Medical Journal. 2016;3(2)

303

References

1. Vaidyanathan B, Radhakrishan R, Sarala 
DA, Sundaram KR, Krishna R. What 
determines nutritional recovery in 
malnourished children after correction 
of congenital heart defects? J Am Acad 
Pediatr. 2009;124(2):e294–9.

2. Bailiard F, Anderson RH. Tetralogy of fallot. 
Orphanet J Rare Diseases. 2009;4(2):2–12.

3. Park MK. Pediatric cardiology for 
practitioner. 5th ed. Philadelphia: Mosby; 
2008

4. Sjarif DR,Anggriawan SL, Putra ST, Djer 
MM. Anthropometric profiles of children 
with congenital heart diseases. Med J 
Indones. 2011;20(1):40–5.

5. Baaker RH, Abass AA, Kamel AA. 
Malnutrition and growth status in patients 
with congenital heart disease. Iraqi 
Postgrad Med J. 2008;7(2):152–6.

6. NydeggerA and Bines JE. Energy 
metabolism in infants with congenital 
heart disease. Nutrition. 2006;22(7-
8):697–704.

7. Vaidyanathan B, Nair SB, Sundaram KR, 
Shivaprakasha K, Rao SG, et al. Malnutrition 
in children with congenital heart disease 
(CHD): Determinants and short-term 
impact of corrective interventions. Indian 
Pediatr. 2008;45:541–6.

8. Tokel K, Azak E, Ayabakan C, Varan B, 
Aslamaci S, Mercan S. Somatic growth after 
corrective surgery for congenital heart 
disease. Turk J Pediatr. 2010;52(1):58–67.

9. World Health Organization. WHO child 
growth standart. Geneva: World Health 
Organization; 2006.

10. Rahayuningsih SE, Garna H. Status gizi dan 
rasio mcgoon pada tetralogi fallot. MKB. 
2011;43(4S):83S–7S.

11. Okoroigwe FC and Okeke EC. Nutritional 
status of preschool children aged 2-5 years 
in Aguata L.G.A of Anambra State, Nigeria. 
Int J Nutr Metab. 2009;1(1):9–13.

12. Daymont C, Neal A, Prosnitz A, Cohen 
MS. Growth in children with congenital 
heart disease. Am Acad Pediatr. 
2013;131(1):e236–42.

Gabriella Chafrina, Armijn Firman, Gaga Irawan Nugraha: Nutritional Status of Tetralogy of Fallot Patients 
at Dr. Hasan Sadikin General Hospital