Your Paper's Title Starts Here:


BRAIN. Broad Research in Artificial Intelligence and Neuroscience 
ISSN: 2068-0473  |  e-ISSN: 2067-3957 
Covered in: Web of Science (WOS); PubMed.gov; IndexCopernicus; The Linguist List; Google Academic; Ulrichs; getCITED; 

Genamics JournalSeek; J-Gate; SHERPA/RoMEO; Dayang Journal System; Public Knowledge Project; BIUM; NewJour;  

ArticleReach Direct; Link+; CSB; CiteSeerX; Socolar; KVK; WorldCat; CrossRef; Ideas RePeC; Econpapers; Socionet. 
 

2020, Volume 11, Issue 4, Sup.1, pages: 125-143 | 

https://doi.org/10.18662/brain/11.4Sup1/160  
 

Topspin’s Influence 
on the Spine in 
Female Juniors III 
in Table Tennis  

Daniel-Andrei IORDAN¹,  
Mircea-Dan MOCANU

2
*,  

Claudiu MEREUTA
3
 

1 “Dunărea de Jos” University, 63-65 Gării 
Street, Galaţi, Romania.  

2 “Dunărea de Jos” University, 63-65 
Gării Street, Galaţi, Romania, 
mirdan2014@yahoo.com  

* Corresponding author 

3 “Dunărea de Jos” University, 63-65 Gării 
Street, Galaţi, Romania. 

 

 

Abstract: The consolidation of topspin, the most prolific technical & 
tactical element in the attack’s area, requires, besides the daily training 
and efficient biomechanics, an optimal health of the osteo-articular and 
muscular system, due to the fact that the performance of this element 
requires forceful speed developed throughout the muscle chain. The purpose 
of the present scientific research is to identify the problems occurred at 
spine level resulted following to topspin attack and the importance of this 
technical element in the female junior’s performance. The social enquiry-
based survey was conducted on a number of 27 coaches and athletes, 
using a number of 15 questions. Objectives: optimization of topspin 
attack in 11-12 years old female juniors. Premises: the knowledge on 
statistics of spine specific areas generating pain at the time of the attack 
will allow us to create a postural correction program meant to optimize 
performance. Research methods: The registration method was based on an 
opinion poll, on a statistical and mathematical method, on computer 
graphics method. Conclusion: around 78% of the interviewed specialists 
consider that the lumbar area is the most affected and predisposed to pain 
in case of topspin, existing a strong correlation between it and the 
technical element considered to be the most important in the attack phase 
(topspin – 66.67%) in female juniors, p =  0.003 < α = 0.05, V = 
0.620 and C = 0.659. 
 

Keywords: postural correction; table tennis; topspin; attack; female 
juniors. 
 
How to cite: Iordan, D.-A., Mocanu, M.-D., & Mereuta, C. 
(2020). Topspin’s Influence on the Spine in Female Juniors 
III in Table Tennis. BRAIN. Broad Research in Artificial 
Intelligence and Neuroscience, 11(4Sup1), 125-143. 
https://doi.org/10.18662/brain/11.4Sup1/160  

https://doi.org/10.18662/brain/11.4Sup1/160
mailto:mirdan2014@yahoo.com
https://doi.org/10.18662/brain/11.4Sup1/160


BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

126 

Introduction  

As a consequence of high intensity, of strains specific to 
competitions and long sports training periods, as well as the ball diameter’s 
increase, the risk of a potential accident within competition sports is 
increasing, according to Kondrič, et al., (2008), the intervention in due time 
for the treatment and recovery of the affected athletes making the difference 
between continuity – high performance or interruption – abandon. 
According to Mocanu (2019), in table tennis, topspin represents a technical 
– tactical element specific to attack, the execution being initiated by thighs 
impulse and fast torsion of the trunk, finalized by tangential hitting of the 
ball with an accelerated movement and an ascending trajectory from bottom 
to top of the paddle sustained by the active arm, actions meant to imprint to 
the ball a rotation effect forwardly, in speed mode. The attack-focused 
professional players and the great majority of the players who participate in 
international competitions use the forehand topspin attack in order to 
imprint speed and special effects to the ball, putting the adversary in 
difficulty and favoring the increase of the chances to win the point 
(Meghdadi et al., 2019).  

According to Yu, Shao, Baker, & Gu (2018), table tennis is a sports 
which involves the simultaneous contraction of the lower body, upper body 
and abdomen for an efficient execution of the hit, the muscular unbalances 
being caused by repetitive unilateral movements which cause stress on 
tissues, intervertebral discs, spinal ligaments and on other structures, the 
symptomatology being headaches, cervical-dorso-lumbar pain, fatigue and 
possible postural deficiencies (Muyor et al., 2013). As part of the 
multidisciplinary team, the kinesiotherapist’s role in high performance sports 
is to guide and assist the performance athletes with their training, with the 
purpose of preventing the occurrence of possible accidents, besides the role 
in assessment – recovery and counseling. The specialists in the area consider 
that topspin, together with retopspin, are the most important weapons from 
the technical – tactical arsenal, at the same time being the most spectacular 
and prolific elements, reason for which it is found in both offensive and 
defensive athlete’s game (Negulescu, Mocanu , & Cristea, 2017). The 
muscular asymmetry can perturb the rhythm of movement, bone 
development and it can increase the athlete’s injury risk. According to 
Hjelm, Werner, & Renstrom, (2010), in tennis, the lumbar spine was found 
to be the most commonly injured localization in girls, and  new injuries were 
mainly found in the knee joint, followed by the ankle joint, while most 
recurrent injuries were localized to the lumbar spine. 



Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

127 

According to Lam, Fan, Zheng, & Lee (2019), during the game, the 
forehand topspin as technical–tactical procedure is considered to be the 
most efficient and prolific hit from offensive area, its execution making the 
difference between performers and amateurs. According to Muyor et al., 
(2013), table tennis is considered to be an acyclic sport, where the execution 
is performed through a fast movement of the trunk in flexion – extension 
and spin, which executed frequently, can lead to the occurrence of lesions 
after a long play period, aspect which reduces the performance capacity. 
After the execution of a large number of technical – tactical elements, most 
athletes practicing table tennis present a hypertrophy on the dominant side, 
as per Folorunso et al., (2010), aspect which favors in time the occurrence at 
the spine level of a symptomatoloy which is materialized in disruptive 
factors of performance activity, in case no compensation program has been 
applied.  

According to Zhang & Zhou (2019), table tennis is characterized by 
small balls, fast speed, strong rotation and many changes, their research 
showing that theoretical research on table tennis is the most common type 
(243 papers); in China, there had been few studies on sports medicine 
(9 papers) between 1980-2016; since winning the first table tennis world 
championship in 1959, China has won 230 gold medals in three major world 
competitions (the World Championships, the Olympics and the World Cup), 
aspects highlighting the special interest the world leader has had in this 
discipline, this interest being shown also by a large volume of specialized 
scientific articles. According to Pullinger, & Rejeb (2019), most accidents 
take place in the first quarter of the year (65%) when the training tasks are 
the greatest, aspect which requires an increased attention in the dosage of 
the action systems and the constant  presence of the kinesiotherapist in the 
training room. The most prolific attack technical – tactical element voted in 
proportion of 50% by the technicians of this sports discipline according to 
Negulescu, Mocanu, & Cristea (2018), creates pain, but also disorders at the 
spine level for the high performance female junior athletes, one of the 
reasons of this situation being multiple trunk spins at high speed necessary 
for the execution of the topspin attack, especially for the forehand 
execution. Due to the fact that forehand topspin is considered the most used 
attack hit in competitive table tennis with an usage percentage of 95.23% 
(Mocanu, Negulescu, Moisescu, 2018), it is omnipresent both in offensive 
and defensive players, its consolidation at junior level facilitating the 
performance and the perspectives of female athlete’s continuity to a 
successful career at maturity, in the sense of senior category. Kondrič et al., 



BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

128 

(2011) mention that the most often impairments in the racket sports with 
are:   

• Pain in lumbosacral areas; 
• Tendinitis of the rotator cuff shoulder’s muscles (dead hand); 
• King-Kong arm (overdevelopment of the skilled arm);  
• Tennis player’s elbow (inflammation of the lateral epicondyle); 
• Blocking of the forearm nerve;  
• Lesion of the abdominal wall. 
Taking into consideration other aspects leading to the occurrence of 

posture problems, among which we mention the weight of the schoolbags 
carried by students from primary and middle school (4-7 kg vs. maximum 
allowed weight 2.5-3 kg), spending long time watching TV or using the 
mobile telephone in positions favoring various deformations of the spine 
from young ages, the late intervention by collaborating with a specialty 
physician or kinesiotherapist for the immediate remediation of the occurred 
problems, all the above representing a plurality of factors leading to a 
negative influence on the performance capacity, aspects which must be 
solved preferably in a correct way and in a time period favoring the 
successful continuation of the life in table tennis high-performance. In the 
case of tennis, according to Filipcic, Cuk, & Filipcic (2016), the present 
results show that the body asymmetry is present in these athletes starting 
from the smallest age category, reason for the occurrence of the problems 
related to the spine; in the case of table tennis, the accidents are the result of 
excessive training of a preparatory part inadequately achieved, of incorrect 
posture, emotional instability, mental vagabondage, lack of psychical focus 
and of previous accidents according to Chu, Lin, & Hung (2010), the 
influence of anthropometric characteristics in sports performance being still 
unclear (Carrasco, Pradas, & Martínez, 2010); it is also unclear if this 
influence is in some cases a favoring factor for the occurrence of the 
accidents in this sports discipline discussed by us.  

According to a study performed by Negulescu, Mocanu, & Cristea 
(2017), on the importance of topspin in the female junior’s attack, its 
consolidation requires daily practice, reason for which the creation of a 
postural correction program for achieving the performance objectives for 
the female athletes with spine problems represents a “must have”. 
According to Cao et al., (2020), multi-ball training is one of the common 
methods used in adolescent table tennis training and it is always used to 
promote the formation and fixation of players’ technical movements, to 
improve their training effects, in the topspin’s consolidation stage being used 
this highly efficient method named “the Box” which involves a large number 



Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

129 

of balls sent by the coach (100-200) with increased speed, the pain occurred 
in the dorsal side of the trunk limiting both the amplitude of the trunk’s 
rotation necessary to a performance execution, especially with backspin 
effect ball, as well as the number of repetitions, the pain being a limitative 
factor for the training volume and the execution speed, especially in the case 
of the attack’s specific elements. As it is desired to continue the high 
performance tradition at European and world level started by the Multiple 
World Champion, Angelica-Rozeanu–Edelstein (6 consecutive titles, 1950-
1955) and by the national team of Romania, World Champion in 1950 -’60 
(winner in all 4 sports tests of the competition during the World Table 
Tennis Championship in Bucharest, 1953) and continuing with the 
European Champion, Otilia Badescu (Courtmayour, Italy 2003) and with the 
latest European Champion, Eliza Samara (Ekaterinsburg, Rusia, 2015), as 
well as with the actual female team, the Multiple European Champion (2017 
Russia and 2019 France), the performance optimization by ensuring the 
health of the osteo-articular and muscular system, besides other actions 
specific to this sports discipline, represents a sine-qua-non condition for 
performances similar to those mentioned above. According to Kondrič et 
al., (2008), due to the introduction of larger balls, the execution of the 
technical-tactical elements has become more challenging (sudden) and 
aggressive, aspect which has created a high accident potential of the main 
body parts involved in the biomechanics of the hits specific to the attack in 
juniors, presenting a higher risk. The acceleration of the racket at the time of 
contact is approximately 180 m/s

2
, whereas the ball flying away from the 

racket may rotate up to 140 times per second and travel at a speed of 40 
m/s, values highlighting the challenge under which the body of the executor 
is found at the moment of performing the topspin attack (Bańkosz, & 
Winiarski, 2020). 

Research questions 

In order to approach this research direction, we have started from 
the following existing aspects: 

• The inexistence of a postural correction model program in youth 
table tennis; 

• No knowledge on the percentage of players having pain and spine 
disorders;  

• The importance of knowing the most affected specific spine region 
resulting from the topspin attack; 



BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

130 

• No knowledge on the existence of a relationship between the 
topspin attack and the health of the spine in female juniors;  

• Do the junior female athletes trained by you have spine pain, 
resulting from practicing high-performance table tennis? 

• Are the junior female athletes trained by you involved in a 
compensation-recovery program (regarding spinal disorders resulting from 
the specificity of the technical-tactical attack elements or from the 
fundamental position adopted at the tennis table)? 

• Which of the five regions of the spine do you think are most likely 
to cause pain in the case of topspin attack in female juniors? 

• When do you think that exercises are useful for increasing muscle-
joint mobility (postural improvement program), before or after training? 

• Is there a kinesiotherapist in the sports club you work for who can 
evaluate the health of the musculoskeletal system? 

• Following the execution of a certain technical procedure, specific 
to the attack, can there be pain in the spine? 

• On a scale of 1-10, how much do you consider that a poor posture 
of the female athlete (improper position of the torso) can negatively 
influence the biomechanics of topspin execution?  

• How important is the technical-tactical topspin element in attack 
(on a scale from 1-10) at the level of performance? 

• Do you think that a program to evaluate and improve incorrect 
body positions would be useful and could it be beneficial in optimizing 
(improving) the playing technique in attack? 

 

Table 1. List of interviewed table tennis specialists 
 

NO. NAME OF THE 
SPECIALIST SPORTS CLUBS 

1.  

A. B. 

C.S. STIROM 

BUCUREȘTI 
2.  

A. F.-K. 
C.S. FITFEEL 

ODORHEIU-SECUIESC 
3.  B. D. C.S.M. BUZĂU 
4.  

B. A. 
C.S. VIITORUL 
PANTELIMON 

5.  
B. L. 

A.C.S.O.V. 
PANTELIMON 

6.  

B. A. 

C.S. STIROM 

BUCUREȘTI 



Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

131 

7.  C. M. C.S.M. MOINEȘTI 
8.  C. G. C.S.M. IAȘI 
9.  

C. A. 
S.C.M. DUNĂREA 2020 

GIURGIU 
10.  D. G. A. L.P.S. BISTRIȚA 
11.  

G. I. 
C.S.S. ODORHEIU 

SECUIESC 
12.  H. N. A.C.S. DÂMBOVIȚA 
13.  

I. D. 
C.N.  VLĂHUTĂ 

RÂMNICU SĂRAT  
14.  K.-G. B. L.T.N.M TG. SECUIESC 
15.  

K. B. 
C.S.S. SFÂNTU 
GHEORGHE 

16.  M. V. C.S.M. VATRA DORNEI 
17.  M. V. C.S.M. BUZĂU 
18.  

M. M. 

FORMER COACH OF 
SPORT TEAM  C.S 

VOINȚA GALAȚI 
19.  

O. I. 

Athlete of Post SV 
Mühlhausen-Germany & 

SCM Gloria Buzău-
Romania clubs 

 
20.  P. A. A.S.D. T.T. BIELLA 
21.  

P. M. 
C.S.M. VICTORIA 

CAREI 
22.  

P. G. 

NAȚIONAL CADETS 
TEAM and  

C.S. PRISTAVU 
CÂMPULUNG club 

23.  P. C. F.C. ARGEȘ 
24.  Ș. R. C.S.M. BUZĂU 
25.  S. C. L.P.S. SLATINA 
26.  S. I. I. C.S.S. SLATINA 
27.  V.S. A.C.S. ACTIV GALAȚI 

Source: authors'own contribution 

Note: Most specialists participating to the scientific research are former players in A Division or Super 

League, being at present involved in the training of juniors participating to the national championship of the 

specialty federation. Source of this table is from SPSS Statististisc. vers. 23. 

  



BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

132 

Purpose of the study 

By collecting the information from the specialists in the area on the 
importance of creating a model for postural correction program, we will be 
able to choose the most adequate action systems and modern evaluation 
methods specific to kinesiotherapy, meant to optimize the topspin attack 
and the performance of female junior players with age comprised between 
11 and 12 years old.  

 

Figure 1. Execution of side rever topspin 

Equations 

For this research, we have used the following methods for recording 
and analyzing the data presented in this paper: 

• Bibliography study; 
• Observation method; 
• Method of recording based on opinion poll; 
• Statistical-mathematical method; 
• Computerized graphics method.  
The social enquiry-based survey was issued on a printed format of 

A4 type, but also in on-line variant, comprising 15 questions addressed to a 
number of 27 specialists comprising top coaches and athletes, a part of the 
interviewed specialists achieving notable performances at national and 
international level. Most used items have had the purpose of identifying the 
postural problems of the spine and the importance of topspin attack in order 
to improve the game at the above mentioned age category.  

For the analysis of the relations and existing correlations between the 
topspin attack and posture, we have calculated the values of the correlation 



Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

133 

coefficients, C and V contingency coefficients (Cramer) for nominal-type 
data, as well as the associated probabilities (p), Cronbach’s Alpha, using IBM 
SPSS Statistics, Version 23 statistical – mathematical analysis program. The 
significance threshold taken into consideration was α = 0.05. 

For the theoretical substantiation of our research, we have consulted 
and interpreted scientific materials from the national and international area 
specific to our field and research interest, which would facilitate a better 
understanding of the chosen direction. 

Our presence at the most important competitions such as the 
national team championship and the individual national championship has 
allowed us to observe the execution (biomechanics) of the topspin attack in 
the female junior III category, as well as the direct discussion with the 
specialists of this sport regarding the female athlete’s postural problems 
resulting from the frequent use of the technical and tactical element subject 
to our research. Through the data obtained from coaches, the computer 
graphics provides an overview of the spinal problems, the importance of 
topspin during attack and the connection between the two variables, 
frequency and level of correlation. 

The item’s property of correlating with the final test score calculated 
by Cronbach’s Alpha coefficient shows an acceptable value of the test’s 

consistency,  = 0,598. 
Eq. (1) 


























2

1

2

1
1

X

k

i

i

T
k

k







. 

Calculation formula for Cronbach’s Alpha coefficient  

 

Eq. (2) 

 

              V = 

)1(

2

 qn


. 

Calculation formula for the contingency coefficient V  

 



BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

134 

Eq. (3) 

 

       C  = 

2

2





n
. 

Calculation formula for the contingency coefficient C  

 

Eq. (4) 

 

      χ
2
 = 






CL

i
t

i

t

i

o

i

f

ff

1

2
)(

. 

Calculation formula for Test χ
2
 (chi-square) 

Results 

The coach-addressed social enquiry-based survey highlights 
important aspects for the optimization of the topspin attack and of the 
problems generated by the deficient posture of athletes. 
   

1. Do you consider that a program for assessing and ameliorating the 
incorrect body positions would be useful and could bring benefits to the 
improvement of attacking technique? 
R: 100% of the coaches answered with “Yes” to this question, aspect 
highlighting the necessity of involving a kinesiotherapist for the athlete’s 
performance and life improvements. 

2. What technical element do you consider to be important in the attack 
phase? 
R: Topspin was designated in proportion of almost 56% as being the 
most important element used in attack. 

3. At what age do you think you can take action in sports training and find 
the topspin in the game? 
R: 8 years old is indicated as being optimum for the implementation of 
topspin in the game, being selected by the specialists in a percentage of 
40.7%. 



Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

135 

4. Which of the following aspects do you believe to influence the most 
topspin’s success? 
R: Biomechanics was designated in proportion of 44.4% as being the 
aspect with the greatest influence in topspin’s success. 

5. Which of the 5 regions of the spine do you consider to be predisposed 
to generate pain, in the case of the topspin attack, in female juniors? 
R: The lumber area is the most predisposed to generate disorders and 
implicitly pain, with a percentage of almost 78%. 

6. Is a kinesiotherapist performing evaluations on the muscular and 
articular system’s health present within your club? 
R: 85% of the sports clubs do not have a kinesiotherapist in the 
multidisciplinary team necessary for high-performance. 

7. Do junior female athletes trained by you present pain at the spine level, 
resulting from practicing high-performance table tennis? 
R: Almost 26% answered in the affirmative, while 67% in the negative. 

8. Are the junior female athletes trained by you involved in compensation – 
recovery programs? 
R: 37% of the interviewed coaches have female athletes involved in 
compensation – recovery programs, while 59.3% do not have. 

9. In your opinion, which is the technical procedure with the highest 
efficiency, forehand or backhand topspin?  
R: 92.6% voted forehand topspin and only 3.7% for backhand topspin. 

 
Table 2. The answers to Question no. 10 from the Opinion Poll 

 
On a scale from 1 to 10, how much do you consider that a deficient posture 

of the female athlete can negatively influence the biomechanics of the 

topspin’s execution? 

 Frequency Percent Valid Percent Cumulative Percent 

Valid 7 2 7.4 7.4 7.4 

8 8 29.6 29.6 37.0 

9 9 33.3 33.3 70.4 

10 8 29.6 29.6  

Total 27 100.0 100.0 100.0 

Source: results from the statistical processing of data arising from original research  

Note: As per the highest percentage of 33.3 % corresponding to Grade 9 granted by the coaches to the 

deficient posture, we conclude that it affects significantly the biomechanics of the most important element from 

the attack area. Source of this table is SPSS Statististisc. vers. 23. 

 



BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

136 

 
Figure 2. Image with answers to Question no. 11 

Source:  figure arising from the original research activity 

Note: Topspin technical - tactical element is the one favoring the occurrence of pain in lumbar area in time 

Source of this figure is from and involve our research dates. Source of this figure is from Excel Worksheet. 

 
Table 3. The answers to Question no. 12 

 

Do you consider that a program for assessing and ameliorating the 

incorrect positions of the body would be useful and could it bring benefits 

to the improvement of attacking technique? 

 Frequency Percent Valid Percent Cumulative Percent 

Valid Yes  27 100.0 100.0 100.0 

Source:  table resulting from own research 
Note: The necessity of performing a postural assessing and ameliorating program is validated by all coaches 

questioned, considering that the kinesiotherapeutic endeavor would favor the optimization of table tennis 

attack. Source of this table is from SPSS Statististisc. vers. 23. 

 

  

Following to the execution of a certain technical procedure, specific to 
the attack, could pain appear at the spine level? 

cervical    lumbar/    lumbar /    thoracic /   thoracic-    no 

                 topspin     topspin      topspin       smash 



Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

137 

Table 4. The answers to Question no. 13 
 

Which technical element do you believe to be the most important in attack? 

 Frequency Percent Valid Percent 
Cumulative 
Percent 

V
a
l
i
d 

Position at the play table  8 29.6 29.6 29.6 
Topspin  15 55.6 55.6 85.2 
Smash (ball hit in force, 
without effect imprint) 

2 7.4 7.4 92.6 

Service  2 7.4 7.4  
Total  27 100.0 100.0 100.0 
Source:  data resulting from own research 

Note: in the attack, the most important technical – tactical element is considered to be topspin with a 

percentage of 55.6% followed by the position at the play table in a percentage of 29%. Source of this table is 

from SPSS Statististisc. vers. 23. 
 

 

Figure 3. Image of the answers in percentages to Question no. 14 
Source:  figure arising from the original research activity 

Note: The postural amelioration program is indicated by the technicians to be implemented after the 

preparatory part, i.e. at the beginning of the fundamental part, while 37% see it as pertinent at the end of 

the fundamental part. Source of this figure is from Excel Worksheet. 

When do you consider the exercises for increasing the muscular – 
articular mobility to be useful, before or after training? 

After the preparatory  After finalization of the      I do not know 

           part                        fundamental part  



BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

138 

Table 5.  Answers to Question no. 15 from the Opinion Poll 
 

How important is the topspin element in the attack phase  
(on a scale from 1 to 10 ) at performance level? 

 Frequency Percent Valid Percent 
Cumulative 

Percent 

Valid 7 1 3.7 3.7 3.7 
8 6 22.2 22.2 25.9 
9 5 18.5 18.5 44.4 
10 15 55.6 55.6  

Total 27 100.0 100.0 100.0 
Source:  original data resulting from research 

Note: 55.6 % of the interviewed subjects offered Grade 10 to the importance of topspin in high-performance 
table tennis, being the greatest percentage granted as compared to the other elements graded. Source of this 
table is from SPSS Statististisc. vers. 23. 

Conclusions 

The obtained results on the influence of topspin attack at spine level 
resulting from the social enquiry-based survey favor the conclusion that the 
performance of female juniors is optimized by the amelioration of the 
postural problems having a negative impact on the biomechanics in the 
execution of the most important technical and tactical attack element and by 
diminishing the pain in the lumbar area, all favoring the improvement of the 
sports performance and the athlete’s life quality.  

For the achievement of the performance objectives, we recommend 
the following specific actions: 

• Cooptation of a kinesiotherapist in the multidisciplinary team;  
• Somatometric evaluation and creation of special programs for 

remediating the disorders identified in order to stop the boosting of postural 
problems which generate discomfort at the moment of the execution of 
attack specific technical – tactical elements; 

• Performance of a preparative part taking into consideration the 
movements advised against the disorders of the female athlete at spine level; 

• The implementation and performance of the postural improvement 
program at the beginning or at the end of the fundamental part according to 
the recommendations made by the interviewed coaches; 

• Performing stretching exercises after each workout for a period of 
20-40 seconds for each adopted action system;  

• Wearing heel cushions modeled according to the evaluation and 
the results of the analysis of the plantar pressures made with the help of the 
baropodometer; 



Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

139 

• Paying more attention to the most prolific technical element 
specific to the attack (topspin) by daily training, optimizing the execution 
technique and hitting the ball in front of the torso. 

  
Figure 4. Antropometric 

evaluation 

Figure 5. Postural analysis performed with 

the help of images 

Source:  figure arising from the original research activity 

 
Figure 6. Comparison between the values of the plantar pressure of a subject in the 

dynamic phase vs. a normal value at the sole level, performed with the help of 

platform Freemed - SensorMedica (posturotest) device, evaluation performed to 

achieve the heel cushions necessary for postural correction. 

Source:  figure arising from the original research activity 



BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

140 

Table 6. Existing correlations on the influence of attack’s specific technical 
elements on the spine in table tennis 

 

Which of the 5 regions of the spine 
do you consider to be predisposed 
to generate pain, in the case of the 
topspin attack, in female juniors? 

 

Total cervical thoracic lumbar 

Which technical 
element do you 
believe to be the 
most important 
in the attack 
phase? 

Position at the play 
table 

3 0 5 8 

Topspin  
0 0 15 15 

Smash (ball hit in 
force, without 
effect imprint) 

1 0 1 2 

Service  
0 1 1 2 

Total 
4 1 22 27 

Source:  results from the statistical processing of data arising from original research 
Note: 22 coaches (81.48%) consider that the lumbar area is the most affected area. A number of 8 coaches 
have chosen the position at the play table (22.72%) and 15 (68.18%) have chosen topspin. Source of this 
table is from SPSS Statististisc. vers. 23. 
 

Another strong correlation shows the fact that most coaches (15 of 
27, i.e. 55.56%) indicate that topspin is the main element in attack phase and 
among them, 93.33% prefer forehand topspin. Because the probability 
associated to the correlation tests is p = 0.033 < α = 0.05, it results that 
there is a connection between the technical element considered to be the 
most important in the attack phase and the technical procedure with higher 
efficiency, forehand or backhand topspin. The coefficient values V = 0.505 
and C = 0.581 show a good correlation. 
  



Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

141 

Table 7. Level of correlations between the most important technical attack 

element and the spine areas predisposed to generate pain 

 Value 
Approximate 
Significance 

Nominal by Nominal Phi 0.881 0.002 
Cramer's V 0.623 0.002 
Contingency Coefficient 0.661 0.002 

N of Valid Cases 27  
Source:  results from the statistical processing of data arising from original research 

Note: The technical element considered to be the most important in the attack phase and the regions of the 

spine predisposed to generate pain in the case of topspin attack in juniors, are correlated (p =  0.002 < α = 

0.05, V = 0.623 and C = 0.661, it results a strong correlation). Source of this table is from SPSS 

Statististisc. vers. 23. 

 
We intend to assess them in the future and we will create customized 

programs and postural amelioration means (heel cushions) for a number of 
10 junior female athletes from a group of 20 subjects, using somatometry, 
posturotest, baropodometer and heel cushions.  

References 

Bańkosz, Z., & Winiarski, S. (2020). Kinematic Parameters of Topspin Forehand in 
Table Tennis and their Inter-and Intra-Individual Variability. Journal of 
Sports Science & Medicine, 19(1), 138-148.  WOS:000516851900016.  

Cao, Z., Xiao, Y., Lu, M., Ren, X., & Zhang, P. (2020). The Impact of Eye-closed 
and Weighted Multi-ball Training on the Improvement of the Stroke 
Effect of Adolescent Table Tennis Players. Journal of Sports Science and 
Medicine, 19(1), 43-51. WOS:000516851900005. 

Carrasco, L., Pradas, F., & Martínez, A. (2010). Somatotype and body composition 
of young top-level table tennis players. International Journal of Table Tennis 
Sciences, 6, 175-177. 

Chu, C. Y., Lin, J. H., & Hung, T. M. (2010). A study on table tennis players’ 
psychological skills, sport injuries, and tournament satisfaction at the 49th 
World Championship. International Journal of Table Tennis Scieces, 6, 200-202. 
https://idus.us.es/bitstream/handle/11441/22969/file_1.pdf?sequence=1
&isAllowed=y#page=196  

Filipcic, A., Cuk, I., & Filipcic, T. (2016). Lateral Asymmetry in Upper and Lower 
Limb Bioelectrical Impedance Analysis in Youth Tennis Players. 
International Journal of Morphology, 34(3), 890-895.  
http://dx.doi.org/10.4067/S0717-95022016000300012 

https://idus.us.es/bitstream/handle/11441/22969/file_1.pdf?sequence=1&isAllowed=y#page=196
https://idus.us.es/bitstream/handle/11441/22969/file_1.pdf?sequence=1&isAllowed=y#page=196
http://dx.doi.org/10.4067/S0717-95022016000300012


BRAIN. Broad Research in                                                             December, 2020 
Artificial Intelligence and Neuroscience           Volume 11, Issue 4, Supplementary 1 

 

142 

Folorunso, O., Mutiu, A., & Ademola, O. (2010). The playing posture, activities and 
health of the table tennis player. International Journal of Table Tennis Sciences, 6, 
99-104. 
https://idus.us.es/bitstream/handle/11441/22969/file_1.pdf?isAllowed=
y&sequence=1#page=95   

Hjelm, N., Werner, S., & Renstrom, P. (2010). Injury profile in junior tennis 
players: a prospective two year study. Knee surgery, sports traumatology, 
arthroscopy, 18(6), 845-850. https://doi.org/10.1007/s00167-010-1094-4  

Kondric, M., Furjan-Mandić, G., Hadzic, V., Dervišević, E., Matkovic, B., & 
Ochiană, N. (2008). Injuries in Slovenian table tennis players compared 
with injuries of some of the best Slovenian tennis players. Gymnasium. 
Revista de educatie fizica si sport, VIII, 13, 73-85. 
https://www.bib.irb.hr/455370?rad=455370  

Kondrič, M., Matković, B., Furjan-Mandić, G., Hadžić, V., & Dervišević, E. (2011). 
Injuries in racket sports among Slovenian players. Collegium antropologicum, 
35(2),413-417. 
https://www.researchgate.net/profile/Miran_Kondric/publication/51491
603_Injuries_in_racket_sports_among_Slovenian_players/links/0c96053c
948d660823000000.pdf 

Lam, W. K., Fan, J. X., Zheng, Y., & Lee, W. C. C. (2019). Joint and plantar loading 
in table tennis topspin forehand with different footwork. European journal of 
sport science, 19(4), 471-479. 
https://doi.org/10.1080/17461391.2018.1534993  

Meghdadi, N., Yalfani, A., & Minoonejad, H. (2019). Electromyographic analysis of 
shoulder girdle muscle activation while performing a forehand topspin in 
elite table tennis athletes with and without shoulder impingement 
syndrome. Journal of shoulder and elbow surgery, 28(8), 1537-1545. 
https://doi.org/10.1016/j.jse.2019.01.021 

Mocanu, M. (2019). Strategii metodologice de eficientizare a atacului cu topspin şi retopspin la  
junioare în tenisul de masă [Methodological strategies for increasing the 
efficiency of the attack by topspin-retopspin in junior female in table 

tennis]. Universitatea Națională de Educație Fizică și Sport 

Mocanu, M., Negulescu, I. C., & Moisescu, C. P. (2018). Optimization of the 
topspin performance biomechanics in female juniors in table tennis. The 
European Proceedings of Social & Behavioural Sciences, XXXVII, 386-394. 
https://dx.doi.org/10.15405/epsbs.2019.02.48  

Muyor, J. M., Sánchez-Sánchez, E., Sanz-Rivas, D., & López-Miñarro, P. A. (2013). 
Sagittal spinal morphology in highly trained adolescent tennis players. 
Journal of sports science & medicine, 12(3), 588. WOS:000323603800031. 

Negulescu, I., Mocanu, M., & Cristea, F. (2018). Importance of topspin and 
retopspin in table tennis for female juniors. The European Proceedings of Social 

https://idus.us.es/bitstream/handle/11441/22969/file_1.pdf?isAllowed=y&sequence=1#page=95
https://idus.us.es/bitstream/handle/11441/22969/file_1.pdf?isAllowed=y&sequence=1#page=95
https://doi.org/10.1007/s00167-010-1094-4
https://www.bib.irb.hr/455370?rad=455370
https://www.researchgate.net/profile/Miran_Kondric/publication/51491603_Injuries_in_racket_sports_among_Slovenian_players/links/0c96053c948d660823000000.pdf
https://www.researchgate.net/profile/Miran_Kondric/publication/51491603_Injuries_in_racket_sports_among_Slovenian_players/links/0c96053c948d660823000000.pdf
https://www.researchgate.net/profile/Miran_Kondric/publication/51491603_Injuries_in_racket_sports_among_Slovenian_players/links/0c96053c948d660823000000.pdf
https://doi.org/10.1080/17461391.2018.1534993
https://doi.org/10.1016/j.jse.2019.01.021
https://dx.doi.org/10.15405/epsbs.2019.02.48


Topspin’s Influence on the Spine in Female Juniors III in Table Tennis 
Daniel-Andrei IORDAN, et al. 

 

143 

& Behavioural Sciences, XXXVII, 263-269. 
http://dx.doi.org/10.15405/epsbs.2018.03.35  

Pullinger, S., & Rejeb, A. (2019). Training Load and Injury Incidence Over One 
Season in Adolescent Arab Table Tennis Players: A Pilot Study. Asian 
Journal Sports Medicine, 3(10), e84592. https://doi.org/10.5812/asjsm.84592   

Yu, C., Shao, S., Baker, J. S., & Gu, Y. (2018). Comparing the biomechanical 
characteristics between squat and standing serves in female table tennis 
athletes. PeerJ-Life and Environment, 6, e4760. 
https://doi.org/10.7717/peerj.4760 

Zhang, H., & Zhou, Z. (2019). How is table tennis in China successful? German 
Journal of Exercise and Sport Research, 49(3), 244-250. 
https://doi.org/10.1007/s12662-019-00583-4  

 

 

http://dx.doi.org/10.15405/epsbs.2018.03.35
https://doi.org/10.5812/asjsm.84592
https://doi.org/10.7717/peerj.4760
https://doi.org/10.1007/s12662-019-00583-4