Vol 4 No 3 full text.indd


Althea Medical Journal. 2017;4(3)

396     AMJ September 2017

Concentration Level Differences between Athletes of Body Contact and 
Non-Body Contact Sports

Nisrina Tache,1 Leonardo Lubis,2 Lucky Saputra3
1Faculty of Medicine Universitas Padjadjaran, 2Department of Anatomy, Cell Biology and 

Physiology Faculty of Medicine, Universitas Padjadjaran, 3Department of Psychiatry Faculty of 
Medicine Universitas Padjadjaran/Dr. Hasan Sadikin General Hospital Bandung, Indonesia

Abstract

Background: Concentration is one of the components of cognitive function, which is important for athletes 
in all sport branches. Every branch of sports has their own different characteristics, body contact or non-
body contact, seen from the aspects of game activity that have direct or indirect physical contact, rules of the 
sports, behavior of the athlete and psychological demands. Basically, both sports branches need good level 
of concentration in order to display their best performance. The study aimed to determine the difference of 
concentration level between athletes of body contact and non-body contact sports. 
Methods: This study was an analytic observational study with cross-sectional design, conducted in the 
Indonesian National Sport Committee (Komite Olahraga Nasional Indonesia, KONI) Secretary Office 
in September 2015. Primary data were taken using the instrumental concentration test namely Grid 
Concentration Test. One hundred ninety three athletes were obtained and grouped in body contact (111 
athletes) and non-body contact sports (82 athletes). Statistical analysis was performed using the non-
parametric test of Mann-Whitney.
Results: The result showed that the difference in the athlete’s concentration level between body contact 
and non-body contact sports was not significant (p=0.151). Nevertheless, the data collection of this study 
showed that body contact sports had a better concentration level than non-body contact sports however the 
data was not statistically significant.
Conclusions: There is no significant difference in concentration level between athletes of body contact and 
non-body contact sports. 

Keywords: Athlete, concentration level, body contact, non-body contact

Correspondence: Nisrina Tache, Faculty of Medicine, Universitas Padjadjaran, Jalan Raya Bandung-Sumedang Km.21, 
Jatinangor, Sumedang, Indonesia, Email: nisrinatachee@gmail.com

Introduction

Indonesia has shown glorious achievements 
in Asia and the world level. However, in the 
last few years, the athlete’s performance 
in Indonesia is far behind the previous 
achievements, including badminton.1 In past 
events, Indonesia managed to win medals 
at the Singapore and Malaysia Open. On the 
other hand, Indonesia could not win medals 
at the Indonesia Open. It seems ironic, if the 
country itself does not reach the target. It does 
not rule out that the possibility of this incident 
occurred due to factors that disrupted the 
athlete’s concentration during a match, such as 
the excessive cheering crowd since the match 
is held in their own country. It certainly led to 
the disruption of the athlete’s concentration, 

resulting in the inability to achieve their 
best performance. Thus, it can be said that 
concentration may have been one of the factors 
that influences succession of achievement.2

Concentration is the component of 
cognitive function, which is important for 
athletes in every sports branch.2 Every branch 
of sports has its own different characteristic, 
body contact or non-body contact, based on 
the aspect of game activity that have direct or 
indirect physical contact, rules of the sports, 
behavior of the athlete, and psychological 
demands.3 Basically, both sport branches need 
a  good concentration ability to display their 
best performance.2 Yet, until currently, there 
are no studies on the level of concentration in 
both sports, even by the Indonesian National 
Sport Committee (Komite Olahraga Nasional 

AMJ. 2017;4(3):396–401

ISSN 2337-4330  ||  doi: http://dx.doi.org/10.15850/amj.v4n3.1188



Althea Medical Journal. 2017;4(3)

397

Indonesia, KONI). Therefore, this study aimed 
to observe the difference of concentration level 
between body contact and non-body contact 
sports among KONI West Java’s athletes.

Methods

This study was an unpaired analytic 
comparative categorical study with a cross-
sectional study design, and was conducted 
in September 2015 at KONI Sport Center. 
The study was previously approved by the 
Health Research Ethics Committee, Faculty of 
Medicine, Universitas Padjadjaran, Bandung. 
Primary data were collected using the 
instrumental concentration test namely Grid 
Concentration Test.

Population of this study were KONI West 
Java’s athletes who lived and practiced in KONI 
West Java’s training center for the National 
Sports Week (Pekan Olahraga Nasional, PON) 
XIX Championship 2016 in Bandung. The 
population sample was 200 athletes. The 
inclusion criteria were met by 193 athletes who 
were in good physical condition, based on the 
examination conducted by KONI. Meanwhile, 7 
athletes who did not pay attention during the 
test, and did not follow instructions given for 
the test were excluded from the study. The 193 
athletes were grouped in body contact (111 
athletes) and non-body contact sports (82 
athletes). The sample exceeded the minimum 
sample of 49 athletes for each group through 
the unpaired analytic comparative categorical 
measurement.

Furthermore, data on sex, age, sports 
group, and level of concentration of athletes 
were put into characteristics of subject in this 
study. Sex was categorized as male and female, 
while age of respondents was divided into 
groups of teenager aged 12–25 and adult aged 
26–45. Then, the sports groups were divided 
into 2 groups: sports with body contact and 
non-body contact. Additionally, concentration 
levels were divided into 5 groups: excellent 
(>21), good (16–20), sufficient (11–15), less 
(6–10), and poor (<5).

The variables in this study consisted of 
body contact and non-body contact sports 
as independent variables with nominal scale 
and concentration level as dependent variable 
with ordinal scale.

The instrument used to measure the level 
of concentration among athletes was Grid 
Concentration test adopted from Harris and 
Harris5 which had been tested for validity and 
reliability. The Grid Concentration Test is a 
measurement tool for testing concentration 

in the form of tables containing numbers 
00–99 randomly. Respondents were asked 
to connect the numbers with a line starting 
from the smallest number to the next larger 
number in one minute. An assessment was 
conducted by calculating the highest score.  
The score obtained from this test was then 
categorized. 

The data used in the calculation of this 
study were categories of concentration levels 
between body contact and non-body contact 
sports. Since the data was ordinal scale and 
the data distribution was not normal, non-
parametric Mann-Whitney hypothesis testing 
was conducted to compare the unpaired 
groups. Significance of the result was based 
on the value of p, where p<0.05 indicated 
significant difference between the two 
variables.

Results

According to the subject characteristic 
distributions on sports branches, female 
dominated with 51% in body contact and 52% 
in non-body contact sports. Furthermore, in 
terms of age, the two sports branches were 
dominated by adult 73% in body contact 
sports and 82% in non-body contact sports. 
Moreover, the level of concentration of both 
sports branches was dominated by the group 
of athletes with a level of concentration that 
fell into the less category, 63% in body contact 
sports and 60% in non-body contact sports 
(Table 1).

The subject characteristic distributions 
on concentration level showed that all 
variables, teenager or adult, male or female, 
as well as body contact and non-body contact 
sports, dominated the category of less the 
concentration level. The acquisitions of a 
good level of concentration are all on the body 
contact sports with a total of 4 athletes, i.e. in 
Judo and Martial Arts with 2 athletes each. 
While in non-body contact sports, there was 
not one athlete who had good concentration 
level. In addition, the poor category of 
concentration level was more in athletes of 
non-body contact sports as much as 15%, 
while in athletes of body contact sports was 
only 6% (Table 2).

The result of subject characteristic 
distributions on concentration level showed 
the difference of concentration level between  
body contact and non-body contact sports, 
where sports with body contact was slightly 
higher than the non-body contact with  an 
average difference (0.49). Therefore, due 

Nisrina Tache, Leonardo Lubis, Lucky Saputra: Concentration Level Differences between Athletes of Body 
Contact and Non-Body Contact Sports



Althea Medical Journal. 2017;4(3)

398     AMJ September 2017

to the value of p>0.05, it can be concluded 
that there is no significant difference in 
concentration level between athletes of body 
contact and non-body contact sports (Table 3).

Discussions

Sports play a role in maintaining the brain 
function, increasing brain plasticity and even 
accelerating their cognitive function.6 It is 
strengthened by many studies that examined 
the relationship between sports and cognitive 
function. Most of the studies report positive 
results between the effect of exercise with 
cognitive function, either in molecular, cellular, 
and behavioral.6-8

Concentration is defined as focusing on the 
relevant cues in the environment, maintaining 
that attention al focus over time, having 
awareness of the situation and performance 
errors.2 Therefore, concentration is part of the 
cognitive function and a necessity that every 
athlete should have. If athletes have a good 
concentration, the optimal  accomplishment 
will be easily achieved.2 However, result of 
this study showed that more than half of 
the sample population consisting of 101 
athletes (59%) fell into the less category 
of concentration level, while athletes who 
showed good category in concentration level 
consisted only of 4 athletes (2%). When 
compared with the non-athlete subjects, it 

was still higher than the athlete’s. The study 
conducted by Nurcahyono9 in Indonesia shows 
the measurement for concentration ability 
among 43 vocational school students has a 
mean of 14.91 that is higher than the athletes 
in this study (8.18). In fact, the contribution 
of concentration is significantly affecting the 
athlete’s performance. A study conducted by 
Mashuda10 on softball athletes in Indonesia 
states that concentration has the highest 
contribution compared to muscle strength. 
Therefore, it could be concluded that a good 
concentration is an important factor that every 
athlete in every sports branch should have.10

According to the type of sports, it is grouped 
into 2 categories, body contact and non-body 
contact.11 Basically, both sports need a good 
level of concentration in order to achieve 
optimal performance.2 However, statistical 
test results conducted in both categories 
show the same result of less category level of 
concentration. Even in the non-body contact 
sports there were none with a good category 
result, whereas in the body contact sports 
there were only 4 athletes. Moreover,  the poor 
category of concentration level was more in 
athletes with non-body contact as much as 
15%, while the athletes with body contact was 
only 6%.

Besides, if viewed from the mean value 
of concentration level, it indicated that body 
contact (8.39) had higher result than non-
body contact sports (7.90). Based on that, 

Table 1 Subject Characteristic Distributions on Sports Branch

Characteristic
Sports Branch

Body Contact 
(n=111)

Non-Body Contact 
(n=82)

Age (years)
Teenager (16 – 25) 30 (27)* 15 (18)
Adult (26 – 45) 81 (73) 67 (82)
Sex
Male 54 (49) 39 (35)
Female 57 (51) 72 (65)
Concentration Level
Excellent (>21) 0 (0) 0 (0)
Good (16-20) 4 (4) 0 (0)
Sufficient (11-15) 30 (27) 21 (25)
Less (6-10) 69 (63) 49 (60)
Poor (<5) 8 (6) 12 (15)

Note: *) Number and percentage



Althea Medical Journal. 2017;4(3)

399Nisrina Tache, Leonardo Lubis, Lucky Saputra: Concentration Level Differences between Athletes of Body 
Contact and Non-Body Contact Sports

it could be concluded that sports with body 
contact showed a higher level of concentration 
compared to sports with non-body contact but 
the data was not statistically significant.

These result contradicted with the theory 
suggesting there are differences between the 
two sports level of concentration, whereas 
the sports with non-body contact showed 
a higher level of concentration compared 
to body contact. This was due to the need 
for a sharper and focused concentration to 
achieve better results of the target, since the 
characteristic of this sport is demanding the 
aspects of precision, accuracy, consistency, 
and high level of concentration, while body 

contact sports uses strategies, tactics, 
aggressiveness, and high courage.3 Apart from 
the characteristics, the nature of the individual 
or team sports might also affect the ability 
of the athlete’s concentration. Especially in 
sports with body contact which are usually in 
teams, and able to mobilize the crowd such as, 
in football or in basketball. Since the number 
of supporters may cause the atmosphere of 
the game to become loud and noisy hence 
disrupt the players to remain concentrated. 
While non-body contact sports are generally 
individual sports, which are not drawing 
much crowd. They have a calmer atmosphere 
so that the athletes can mentally minimize 

Table 2 Subject Characteristic Distributions on Concentration Level

Variable
Concentration Level

N Good Sufficient Less Poor
Age (years)
  Teenager (16-25) 45 0(0%) 16 (35.6%) 27 (60%) 2 (4.4%)
  Adult (26-45) 148 4 (2.7%) 35 (23.6%) 91 (61.5%) 18 (12.2%)
  Total 193 4 (2.1%) 51 (26.4%) 118 (61.1%) 20 (10.4%)
Sex
  Male 93 3 (3.2%) 17 (18.3%) 61 (65.6%) 12 (12.9%)
  Female 100 1 (1%) 34 (34%) 57 (57%) 8 (8%)
  Total 193 4 (2.1%) 51 (26.4%) 118 (61.1%) 20 (10.4%)
Sports Branch
  Body Contact
Judo 20 2 (10%) 8 ( 40% ) 10 (50%) 0 (0%)
Martial Arts 22 2 (9%) 5 (23%) 15 (68%) 0 (0%)
Taekwondo 14 0 (0%) 4 (29%) 9 (64%) 1 (7%)
Kempo 31 0 (0%) 10 (32%) 18 (58%) 3(10%)
Fencing 14 0 (0%) 3 (21.4%) 8 (57.1%) 3 (21.4%)
Wrestling 4 0 (0%) 0 (0%) 4 (100%) 0 (0%)
Boxing 6 0 (0%) 0 (0%) 5 (83%) 1 (17%)
  Total 111 4 (4%) 30 (27%) 69 (63%) 8 (6%)
Non-Body Contact
Sports Climbing 27 0 (0%) 9 (33%) 13 (48%) 5(19%)
Athletics 15 0 (0%) 5 (33%) 9 (60%) 1 (7%)
Gymnastics 15 0 (0%) 4 (25%) 10 (63%) 1 (12%)
Archery 13 0 (0%) 0 (0%) 13 (100%) 0 (0%)
Weightlifting and Body 
Building 12 0 (0%) 3 (24%) 4 (34%) 5 (42%)

  Total 82 0 (0%) 21 (25%) 49 (60%) 12 (15%)



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400     AMJ September 2017

the dispersion of their concentration.12 
Moreover, in individual sports; the athlete 
obtains feedback individually most of the 
time as opposed to the team sports, in which 
feedback is mostly presented to the team 
as a whole. The provided feedback will help 
boost their confidence which will increase the 
performance of the athletes. This is discovered 
in a study conducted by Elferink-Gemser et 
al.12 in Groningen, who stated the level of 
concentration in individual sports is higher 
than in group sports. Furthermore, emotion 
is one of the factors that affect concentration, 
when emotion goes out of control surely it 
will interfere the athletes in maintaining their 
concentration.2,12 The study conducted by 
Sukadiyanto11 in Indonesia showed that the 
emotional reaction for sports with body contact 
are higher than non-body contact. Since in 
body contact sports athletes are constantly in 
direct contact with the opponent, resulting in 
a surge of emotional outburst and preventing 
athletes for maintaining their concentration. 
Unlike sports with non-body contact, where 
there is a separator so that there is no direct 
physical contact with the opponent and if a 
player violates the separator, it will be counted 
as a violation. These conditions minimize the 
appearance of emotional outburst of athletes 
in non-body contact sports, thus the athletes 
can fully maintain their concentration without 
disruption.

Moreover, the contrary result by the above 
theory was influenced by several factors 
such as emotion, physical condition, gender, 
age, experience and knowledge, including 
educational level. There are two kinds of 
emotion, positive and negative. Positive 
emotion includes feelings of pleasure, joy, 

and passion, while negative emotion includes 
feelings such as anger, anxiety, and boredom.11 
The negative emotion can prevent athletes 
from maintaining their concentration.2 
Furthermore, in this study psychological 
examination was not conducted to assess the 
psychological state of the athletes whether it 
is good or bad. Second, regarding the physical 
condition of each individual, who has a 
different ability of brain function in selecting 
a number of available information so this 
affect the ability of individuals for focusing 
their attention.13 A physically exhausted 
condition also affects concentration. The study 
conducted by Faber et al.14 founded the effect 
of fatigue with visual selective attention. The 
third factor is gender. The study conducted by 
Elferink-Gemser et al.12, showed that male has 
a higher level of concentration than female. 
While in this study, both sports branches 
are dominated by female as much as 51.5%. 
Then, the fourth factor is age. In addition, the 
increase in someone’s age will be followed by 
growth of the brain, therefore increasing the 
capability of brain to process information.13 
Knowledge and experience factors also 
contribute in the effort of focusing the attention 
toward unidentified patterns, thus it can be 
concluded that individual knowledge and 
experience make athletes easier to maintain 
their concentration.13 The last factor is the 
level of education. The higher educational 
level, the easier for someone to concentrate 
well.15 Therefore, the possibility of negative 
emotional factor, exhaustion experienced by 
athletes, such as after physical activities or 
strenuous physical training, the population is 
dominated by female, and lack of knowledge 
and experiences, also low educational level will 

Table 3 Descriptive Data Analysis

Concentration Level

Sports Branch

Body Contact 
(n=111)

Non-Body 
Contact 
(n=82)

Total p-value

Mean (SD)* 8.39 (3.65) 7.90 (3.41) 8.19 (3.56)

0.151

Median 7 7 7
Interval (Min-Max) 15 (3–18) 12 (3–15) 15(3–18)
Excellent (>21) 0 (0%) 0 (0%) 0(0%)
Good (16–20) 4 (4%) 0 (0%) 4 (2.1%)
Sufficient (11–15) 30 (27%) 21 (25%) 51 (26.4%)
Less (6–10) 69 (63%) 49 (60%) 118 (61.1%)
Poor (<5) 8 (6%) 12 (15%) 20 (10.4%)

Notes:*) Standard Deviation



Althea Medical Journal. 2017;4(3)

401

reduce the concentration ability of athletes at 
the time of the concentration test. However, 
all these factors have not been explored in 
more depth. The limitations of this study are 
the cross-sectional method that only describes 
the level of concentration at that moment, and 
the data retrieval time is not homogeneous 
for each sports branch as it is also taken 
in the middle of exercise time, ideally, the 
concentration test should be conducted after 
one day of free practice.

This study concludes that there is 
no significant difference in the level of 
concentration between sports with body 
contact and non-body contact, and shows 
the state of sufficient and less concentration 
level in most athletes is extremely concerning. 
This becomes a specific issue that must be 
considered, hence, it is worth exploring what 
causes this condition as well as the solution, 
and what interventions can solve the problem, 
because if the concentration is not good it 
will have an impact on the performance of 
athletes and may interfere succession of 
the achievement. Moreover, KONI have to 
provide training programs to increase the 
concentration level among athletes. For 
further studies, it is necessary to analyze the 
correlation or interaction between sports 
types with the ability of concentration, to 
find out whether body contact and non-body 
contact sports affect the concentration ability 
of athletes or not as well as the effect of the 
level of concentration on the performance of 
athletes.

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Nisrina Tache, Leonardo Lubis, Lucky Saputra: Concentration Level Differences between Athletes of Body 
Contact and Non-Body Contact Sports