Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

A Smart Mobile Pregnancy Management and Awareness 
System for Saudi Arabia 

https://doi.org/10.3991/ijim.v12i5.9005 

Mohammed Alotaibi!!", Maram Albalawi, Layan Alwakeel 
University of Tabuk, Tabuk, Saudi Arabia 

mmalotaibi@ut.edu.sa 

Abstract—Over the years, physicians and other medical personnel have 
lamented the ever-increasing prevalence of physical inactivity and low aware-
ness amongst pregnant women all over the world and especially in Saudi Ara-
bia. The physicians argue that pregnant women are continuously placing their 
lives at risk by ignoring physical activity and low awareness. Similarly, the 
pregnant women who rarely participate in physical activity and awareness pro-
grams are accredited with risking the lives of their babies. As a result, profes-
sional medics have been trying to come up with innovative strategies that can 
promote physical activity and improve health awareness amongst the pregnant 
women for a long time. In recent years, the world has experienced a massive 
shift towards technology-based solutions for nearly every aspect of life.  

Keywords— mHealth; pregnancy; healthcare informatics; physical activity; 
wearable sensors 

In the health industry, mobile Health has become a key trend as tech companies li-
aise with medical practitioners in pursuit of technological solutions to diverse health 
concerns. With this understanding, the current paper provides a vivid analysis of a 
newly-developed technological system designed to facilitating communication be-
tween pregnant women and healthcare providers, increase interactions amongst preg-
nant women, as well as motivate them to increase their participation in physical activ-
ities and remote monitoring of their babies. Unlike most mHealth initiatives that pro-
vide specific functionalities, the current system is an all-inclusive system offering a 
combination of all functionalities available through individual pregnancy monitoring 
systems. The newly-developed system aims to empower pregnant with enough 
awareness of pregnancy and also to do more physical activity using advanced tech-
nology of internet of things and mobile health technology specially in remote areas.  

1 Introduction 

Pregnancy denotes the period between conception and delivery. In normal condi-
tions, it takes roughly 40 weeks. It is difficult to ascertain the statistics and rates of 
pregnancy because of the inclusion of miscarriages as one of the key outcomes of 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

pregnancy. According to data gathered and published by the Central Intelligence 
Agency World Factbook, the birth rate in Saudi Arabia pregnancy rate stands at 18.3 
births / 1,000 population (1). During pregnancy, women need special care and special 
lifestyle to guarantee healthy life for them and their babies. Thereby, pregnant moth-
ers require Physical Activity (PA), regular pregnancy check-up, as well as knowledge 
about pregnancy management to get healthier babies.   

Physical Activity (PA) empowers communities to avoid diseases. The importance 
of PA increases during pregnancy to maintain solid health for both the women and her 
foetus (2). Physical activity helps pregnant women to control their weight (3)(4) as 
well as minimize the probability of contracting gestational diabetes and early delivery 
(5). Additionally, physical activity helps decrease foetal heart rate (6). However, it is 
shocking to note that pregnant women have the lowest rates of participation in physi-
cal activity compared to non-pregnant women (15.8 vs. 26.1 %) (7). Research indi-
cates that pregnant women usually raise their activity in the first six months. Howev-
er, a large percentage of them never attain the levels of physical activity recommend-
ed by The American College of Obstetricians and Gynaecologists (ACOG), which is 
at least 150 minutes of physical activity every week (8). Moreover, studies show that 
a majority of pregnant women are totally inactive during the last three months (8). 
Pregnant women often argue that they could become more active if they knew the 
importance of PA in terms of safety and effectiveness (8).  

Pregnant women also claim that they would double their activeness in physical ac-
tivity if they receive guidance on how to conduct PA during prenatal care (8). Several 
studies also identify low educational level and poor income as obstacles that prevent 
pregnant women from engaging in continuous PA (8).  

Over the last decade, revolution in Mobile technology has altered interaction pat-
terns amongst people. The recent innovations in the field of mobile technology have 
contributed significantly to the health care industry. With the invention and imple-
mentation of mobile health technology in various aspects of health care, the world is 
progressing towards a future characterized by secure healthcare. Mobile health is a 
division of electronic health practice, which is defined as “a medical practice support-
ed with the use of mobile technology which includes mobile phones, wireless devices, 
patent monitoring devices and many others” (9). 

The affordability of mobile devices has significantly contributed towards better 
disease decision-making, strict adherence to treatments, fewer personal visits to the 
doctor, as well as good service experiences. Mobile health empowers individuals and 
institutions to conduct voluntary programs, immunization campaigns, and counselling 
sessions for people in remote areas. The use of text messaging is a low-cost approach 
for health campaigns and promotion. Mobile health technology plays an important 
role in improving the maternity health of women in low income areas. In particular, 
mobile health provide a medium for communicating with the women frequently. The 
idea is to keep them aware about the best practices to be observe. These include diet, 
schedule of check-up, vaccination for children and many others.     

Mobile health has increased the percentage of safe childbirths and reduced the ratio 
of misconceptions. More so, mobile health has empowered specialists to measure the 
compliance of medics to standards of the treatment when treating patients. A major 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

strength of Mobile Health is that it is less error prone and hence can be used to pro-
vide efficient healthcare solutions (9).     

However, several barriers restrict the growth of mobile health technology by limit-
ing applicability to a wider group of people. Social, economic and financial barriers 
have stalled the expansion of mobile health on a global perspective. Since mobile 
health is in its early stage of adoption, it lacks sufficient evidence that can prove that 
it is the most convenient health practice (10). Lack of infrastructure, widespread net-
work coverage and availability of mobile devices are other obstacles that halt the 
development of mobile health. Security, con!dentiality and privacy in mobile health 
are major concerns because absence of proper data security measures can lead to 
leakage of confidential and personal information (11).  

2 Related Work  

In recent years, numerous scholars have focused on the use of mobile health man-
agement and awareness systems of chronic disease (12). Studies are investigating the 
use of technological systems like cell phones, wireless devices and self-monitoring 
devices and their influence on pregnancy monitoring and awareness.  

Some studies (8)(13) have targeted the effectiveness of using mobile health tech-
nology in improving and enhancing the control of pregnancy. A prime example of 
these studies was published in 2016 by Choi and his peers (13).  The study aimed at 
testing the feasibility and potential efficacy of using mobile health physical activity 
intervention for a period of 12 weeks. 30 women, who were between 10 and 20 weeks 
of gestation, were selected as participants for the study. The researchers used random 
sampling to place the women into two distinctive groups. One group used a mobile 
phone app plus Fitbit while the other unit comprised of a control group using Fitbit 
only. Both conditions targeted steady increases in physical activity.  

The trial version of the Fitbit measured PA in terms of distance, steps, estimated 
calories expended, and flights of stairs climbed. In the trial app, a daily message was 
available between 10am and 7pm while the activity diary was available after 7 pm to 
midnight daily. The study concluded that it is acceptable to use mobile technologies 
to motivate pregnant women to increase physical activity.  

Another study that considered the use of technology to encourage pregnant women 
to indulge in physical activity was published in (8). The study aimed at determining 
the efficiency of physical activity SMS messages to improve PA in pregnant women 
compared to the standard T4baby. The study sought to identify the most effective 
dose and time of the SMS to improve PA. Text4baby (T4b) is a nation-wide mobile 
health information service that sends text messages (SMS) to pregnant women. The 
study participants included 85 pregnant women aged at least 18 years old. All women 
had pregnancy for a duration between 8 to 16 weeks. It used FitibTM Flex to measure 
physical activity. The women were asked to wear it all the time. The study used 
mixed model analysis to analyze the collected data. The study prepared standard T4b 
SMS and PA SMS content and divided pregnant women into four groups.  The groups 
differed in frequency and time of receiving SMS messages:  

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

1. The Standard group received three T4B SMS and two PA SMS three times a week 
at noon 

2. Plus One group received two PA and one T4b three times a week 
3. Plus Six group received one T4b and six PA one every noon 
4. Plus Six group received similar service as the third group, but at the time they 

chose 

The results of the study were as follows: 5 women dropped out of the study for dif-
ferent reasons, one of them was due to skin reactions to FitibTM. The remaining 80 
pregnant women reported no improvement in physical activity from SMS intervention 
for all groups (different dose and frequency). The fourth group experienced a huge 
decrease in activity and a noteworthy increase in sedentary time. These results were 
not surprising because only three of nine studies reported improvement in physical 
activity in the past. However, none of these past studies were mHealth or SMS-based 
intervention.  The study concludes there were no increases in PA regardless of fre-
quency or time. Those that received six PA SMS/week had greater decreases in activi-
ty and greater increases in sedentary time. SMS may not be “potent” enough strategy 
to improve PA. 

Text4baby is another study based on similar principles (2). The primary purpose of 
the study was to determine the optimal dose of physical activity text message (SMS) 
to improve the physical activity of pregnant women. The study was based on the user-
centered design process and included three phases. In the first phase, literature review 
and interview with 15 pregnant women was conducted to understand their needs. The 
objective was to develop prototype text messages. In the second phase, they gained 
feedback about the proposed prototype using additional interviews with seven physi-
cians comprising of five nurses and a group of 5 pregnant women. The researchers 
developed 168 additional text messages for this stage. The third phase involved sur-
veying 326 pregnant women to determine the preferred dose of text messages to in-
form the design of the researcher’s intervention. 

From the technical perspective, there are so many applications in both App Store 
and Play Store that specialized in pregnancy control. Two independent reviewers 
searched in Google Play and iTunes using two key words: pregnancy and pregnant in 
Arabic and in English language for the applications launched during the last two 
years. The number of existing apps in play store was 24 and the number of existing 
apps in iTunes was 36. There are nearly 17 Arabic pregnancy applications in iTunes 
and nearly 20 in Play Store. Independent reviewers reviewed each app description and 
summarized the main functions of each app and listed them in a table.  At the end, 
each duplicated function was removed from the table to get the main common fea-
tures as shown in table 1. 

We observe that most mobile applications available in Google Play and iTunes 
cover one or more functions that appear in table1.  None of these applications include 
all functions together, yet these functions are crucial for proper pregnancy monitoring 
and awareness. To overcome this gap, we developed our mobile application to include 
all mentioned functions in table 1 using advanced technology like the wrist bond 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

which will be explained in next sections. The current paper illustrates different goals 
that the application is trying to achieve. These include: 

• Facilitating communication between pregnant women and healthcare providers. 
• Facilitating communication amongst the pregnant women to exchange their experi-

ence. 
• Increasing pregnant women’s awareness using modern technology. 
• Monitoring pregnant women’s walking using a wrist bond sensor connected to the 

application as shown in System Overview section below 
• Monitoring the movement of unborn baby using the kick counter belt sensor. 
• Saudi Arabia is a large country and there is lack of Obstetrics and Gynecology 

Clinics in remote areas, so the developed system is trying to deliver the medical 
services to the remote areas remotely.  

The remainder of the paper is organized as follow: Section 2 presents the related 
work, Section 3 illustrates the system overview, Section 4 describes the system im-
plementation and in Section 5 presents the conclusions and future work. 

Table 1.  Main common functions pregnant apps 

# Functions  
1 Expected day delivery 
2 Kick Counter 
3 Personal Diary 
4 Pregnancy Exercise 
5 Weight Tracker 
6 Contraction Timer 
7 Pregnancy Nutrition 
8 Pregnancy Vitamins and Medications 
9 Pregnancy Forum 

10 Daily and weekly information, image and videos 
11 Pregnancy Appointments 
12 Mood Tracker 
13 Countdown 
14 Scientific Articles 
15 BABYBUMP SHOP 
16 Hospital bag checklist 
17 Information about your baby after delivery 
18 Pregnancy Vitamins and Medications 

 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

3 System Overview  

The pregnancy application, showing in this paper, is a remote monitoring system 
designed to encourage pregnant women in Saudi Arabia to increase their physical 
activities, pregnancy awareness, exchange their experiences with each other's, and 
communicate with their doctors effectively. Additionally, it empowers doctors to 
deliver information to their pregnant using modern technology. The architecture of 
the system is developed to facilitate the main features that eliminate challenges asso-
ciated with pregnancy worldwide and specifically in Saudi Arabia. These include 
poor pregnancy awareness, lack of motivation for physical activity and inability to 
count baby kicks. Furthermore, it also is designed to provide various features that 
create an attractive environment for pregnant women and cover the lack of Obstetrics 
and Gynecology Clinic specially in remote areas of Saudi. The architecture for the 
developed system is show in figure 1.  

 
Fig. 1. System Architecture 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

Therefore, the system architecture is divided into two main components: 
Mobile pregnant/healthcare provider components:This station includes the mo-

bile end of the system. It is implemented using smart phone platform and use of the 
Internet of Things (IoT) technology. This component covers most of the interaction 
units of the system. It also comprises of three units: 

HealthCare provider unit. This unit consists of a friendly web interface and mobile 
application version that helps nurses or clinicians involved in the diagnosis to create 
awareness and conduct follow-ups of the pregnant. It is a private social network for 
pregnancy community, which enables the physician to communicate with pregnant 
women remotely. It also allows the pregnant mothers to interact with each other too. 
The physicians can use the system to educate the pregnant women using this modern 
technology. Physicians can post messages, upload images, videos and communicate 
with their pregnant women privately using the private SMS message tool. To save 
people’s lives and guarantee tope quality of written posts and uploaded media, the 
physician is allowed to delete incorrect pregnancy posts, image and video.  

It also furnishes the physician with full details about the pregnant woman’s profile 
including physical activity using wrist bond and the frequency of baby kicks using the 
belt fitted with body touch sensor. 

Pregnancy unit.  This unit typically includes: 

5. A smart mobile phone 
6. Wrist bond 
7. Kick counter belt sensors 

 In this unit, the pregnant women can participate in social networking community, 
read and share information, as well as develop experiences about the pregnancy life-
style as provided by the doctors/nurses and other pregnant in the community. The 
pregnant mothers are encouraged to read the content and post comments and reviews 
related to the doctors’ posts.  

The pregnant women interact or use the system via a friendly web interface and 
mobile application that includes a social networking platform and data management 
system, which presents pregnant’ personal medical profile.  Moreover, the pregnant 
women will have access to all functionalities including following others.  For a pri-
vate issue, the pregnant mothers can communicate with each other and with their 
doctors through the private SMS tool available in the system.  

In addition, the wrist bond will record the number of steps that the pregnant lady 
walked during the day while the kick belt sensor will record the number of baby 
kicks. The information will be recorded and stored in the database through WIFI. It 
will be available for the clinicians through the cloud technology.   

The admin components: Admin components refer to the technical support. The 
admin is accountable for the system’s repair and maintenance. The technical person-
nel monitor the technical parts of the system and is also responsible for maintaining 
the backup of the data collected via the system. The admin has full access to the users 
profile and, hence, can delete user, edit users profile and validate physician accounts.   

 Management provider component: This component represents the back-end op-
erations, which mainly involves the process of collecting information or data and 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

storing it in the database. The data is, subsequently, used by s other modules such as 
the awareness module, management module, the front-end patient, as well as the cli-
nician mobile units. This component includes Database module, which stores infor-
mation related to data related to individual pregnant mothers and records related to the 
laboratory examination results. It may also store specialist nurses/doctor comments on 
the pregnancy measurements standard. This component includes two modules name-
ly:  

Social Network module: The social network module is an important functionality 
of the system. It is designed to empower the pregnant women to develop increased 
awareness about pregnancy. The idea is to enhance their knowledge through social 
networking. In this module there is a private social network for pregnant community 
and their doctors. The medical staff will play the main role in this module. They will 
prepare a number of posts, images and videos of information regarding pregnancy. In 
addition, they will also answer pregnancy-related questions as well as any queries 
related to diverse diseases.  All features delivered by this module are described in the 
users' units above.  

Management module: These functions of this module include:  

a) Walking counter: It is important to clarify what we mean by physical activity. PA 
refers to the voluntary body movements that increase energy consumption, like 
leisure time and occupational activity, during pregnancy (4). In this unit, pregnant 
women will be motivated to reach a weekly target of steps. The number of steps 
will be calculated through our developed wrist bond. Wrist bond is easier than us-
ing the accelerometer in the mobile device because it can be placed on the wrist of 
the pregnant woman all the time. Additionally, wrist bond sends the recorded data 
to the cloud technology via a wireless connection. Moreover, it is less expensive 
because it costs 20 USD unlike the expensive Apple watch.   

b) Expected Delivery Date. Both the physicians and pregnant women should have 
knowledge about the expected delivery time. Hence, the system will calculate the 
expected delivery day based on available data in the system. The system will re-
flect these details in the pregnant woman’s profile.  

c) Kick counter: In the third trimester, doctors normally enquire about the movement 
of the fetus in terms of frequency and duration to determine the health of the fetus. 
Kick counting is an easy way to monitor and record the movement of the unborn 
baby. A belt fitted with a sensor, which can record baby kick count is under de-
velopment using Flex sensor technology, figure 2. We aimed to record the kick 
count and transfer it to the cloud server using WIFI technology. When complete, 
the system will alert the doctor and the pregnant mothers to take action in the ab-
sence of fetal movement. The physician will set up the time period of monitoring 
the baby movement using the system. 

d) Mood Tracker: Every pregnant woman will receive a message every day and will 
be expected to make a response regarding her mood by selecting a number be-
tween 1 and 10. 1 represents high (positive) mood while 10 represents low (nega-
tive) mood. The daily response will be recorded in her profile using date and time.  

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

e) Pregnancy Vitamins and Medications: As obviously known, these details are es-
sential for supporting the decision-making operations of the physicians. Therefore 
the pregnant women must record their vitamins and medication. The system will 
allow pregnant women to record their vitamins and medication, which doctor can 
access via their profiles.  

f) Weight tracker: The weight of the pregnant women will be recorded weekly and 
saved in her profile.  

 
Fig. 2. Flex Sensor 

4 System Implementation and discussion 

A prototype system was developed at the faculty of computing and information 
technology at the University of Tabuk, Tabuk, Saudi Arabia using tool such as PHP 
and MySQL for the web application, Java for android and SWIFT for the IOS, Ar-
duino Mega, 3D Printer, Flex Sensor, and Spark Fun Triple Axis Accelerometer 
Breakout - ADXL335.  

Researchers tested the system and confirmed that the system is capable of carrying 
out all the functional requirements. They also demonstrated that the system is capable 
of transmitting medical data from a remote pregnant woman to the host server. The 
system allows the pregnant mothers and physicians to share information remotely. 
The mobile application home screen is shown in figure 3. 

As presented in figure 4, the system mobile application allows the pregnant women 
and the specialist nurse/doctors to share their profiles. Furthermore, the application 
allows the pregnant women and the clinicians to communicate with each other pri-
vately via the free application's SMS tool.  

Figure 5 shows the user control panel. The specialist nurse/doctor will add videos, 
album of pictures and access the patient’s profile remotely using the mobile applica-
tion.  

 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

 

Fig. 3. Snap screen of the system mobile 
application 

 

Fig. 4. Snap screen of the application 
Doctors' posts 

 

Fig. 5. The user control panel 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

Moreover, the wrist bond is built using the SparkFun Triple Axis Accelerometer 
Breakout - ADXL335, figure 6. The ADXL335 is a triple axis MEMS accelerometer 
with new features including (1) extremely low noise and (2) power consumption of 
only 320uA.  Moreover, it has a full sensing range of +/-3g. It is programmed using 
Arduino and C++. It comes in various colors. It sends data to the cloud server remote-
ly.   

 
Fig. 6. SparkFun Triple Axis Accelerometer Breakout 

The researchers tried to develop an innovative mobile pregnancy awareness and 
monitoring system with all features based on the literature of related work, previous 
studies, and existing pregnancy applications in iTunes and Play Store. The objective 
was to provide cost-effective technology.  

In the reviewed applications and studies, the mobile embedded accelerometer re-
quires the pregnant to carry the mobile with her at all times. The technique was effec-
tive because it reached the predetermined target. However, there are several limita-
tions that diminish its effectiveness. In particular, these include mobile battery con-
sumption and the need to carry the mobile while doing the exercise. As a result, the 
researchers feels that using smart watch or wrist bond could be easier, effective, and 
flexible. Study (8) used the FitBit to measure the physical activity using steps count-
ing. The technique involved counting the number of steps. It was effective due to the 
ease of carrying the mobile devises to any place at all times. However, the strategy is 
not cost-effective given that the cost of the used FitB is around 1400 Saudi Riyal 
while the cost of a smart watch like Apple watch is roughly 2400 Saudi Riyal. Hence, 
the researcher opted to develop a new wrist bond that will cost utmost 50 Saudi riyal. 
Such a device would be cheaper for the Saudi people. Moreover, in the same study (8) 
they used chargeable SMS messages, so the researcher developed free- SMS messag-
es based on push notifications.  

The population of Saudi nationals using social networking sites, such as Twitter 
and Facebook, is high. For instance, the populace of Saudi citizens using twitter in 
2016 exceeded the 5 million mark by far (14). As twitter users from Saudi Arabia, we 
have noticed that a significant number of tweets sent from the Saudi and Arabic world 
are tweeting about health and medicine.  Majority of those accounts are not authenti-
cated by Twitter and, hence, it is difficult to validate the content. It is shocking an 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

unethical to note that most of these tweets contain unhealthy information, which 
might put people lives in danger. It is difficult to close the accounts. Thus, we can 
only block and report them to Twitter, Inc. for closure. Unfortunately, such a process 
takes a long time.  

Therefore, the researchers can develop a social network similar to Twitter to guar-
antee validity of every content posted in the platform. The persons masquerading as 
doctors ought to be authenticated by the system administrator. Doctors should not 
have the liberty or power to tweet until they gain authentication by the system admin. 
Authentication should confirm the identity and qualification of the platform users. 
Moreover, the network administrator should have the power and privilege to remove 
any incorrect content related to pregnancy.   

The main feature of the new system is that all features that are distributed between 
the reviewed applications are under one umbrella. The baby count belt is under devel-
opment. We initially get good result and the development is ongoing.  

5 Conclusion and Future Work 

The smart mobile pregnancy system is designed to promote pregnancy awareness 
and remote monitoring. It is based on the state-of-the-art technological infrastructures. 
As such, it is presented to achieve intensive monitoring at home, optimized treatment, 
as well as a normal lifestyle for the pregnant mothers in Saudi Arabia without restrict-
ing their daily lives. Moreover, the system is designed to deliver relevant information 
regarding pregnancy to help the women avoid unnecessary diseases. 

Future research should aim to evaluate the system by running it in the KSA. The 
implementation of the system should be following the regulation of national ethical 
approval at the University of Tabuk, Saudi Arabia. We project that the trial will last 9 
months. Therefore, this long-term study will evaluate the effectiveness of using the 
Internet of Things (IoT) to improve pregnancy management and awareness.  

Upon completion of this long-term study, it is important to conduct thorough test-
ing. The questionnaire can help the researchers to study the system’s usability solely 
based on the views of the pregnant women and clinicians. To evaluate the impact of 
the system on pregnancy awareness and management, the questionnaire will be dis-
tributed to both pregnant mothers and clinicians before and after the trial. The re-
searchers will conduct extensive comparisons between the two results. Meanwhile, 
the pregnancy knowledge test will be conducted using a standardized questionnaire 
before and after the study. When the trial is complete, the results will be studied and 
analysed using statistical software such as SPSS.  

6 References  

[1] The World Factbook — Central Intelligence Agency [Internet]. [cited 2018 May 18]. 
Available from: https://www.cia.gov/library/publications/the-world-factbook/fields/ 
2054.html 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

[2] Huberty J, Rowedder L, Hekler E, Adams M, Hanigan E, McClain D, et al. Development 
and design of an intervention to improve physical activity in pregnant women using 
Text4baby. Transl Behav Med. 2016 Jun;6(2):285–94. https://doi.org/10.1007/s13142-
015-0339-7 

[3] Doran F, Davis K. Factors that influence physical activity for pregnant and postpartum 
women and implications for primary care. Aust J Prim Health. 2011;17(1):79–85. 
https://doi.org/10.1071/PY10036 

[4] Leite CF, do Nascimento SL, Helmo FR, Dos Reis Monteiro MLG, Dos Reis MA, Corrêa 
RRM. An overview of maternal and fetal short and long-term impact of physical activity 
during pregnancy. Arch Gynecol Obstet. 2017 Feb;295(2):273–83. https://doi.org/10.1007/ 
s00404-016-4204-9 

[5] Melzer K, Schutz Y, Soehnchen N, Othenin-Girard V, Martinez de Tejada B, Irion O, et 
al. Effects of recommended levels of physical activity on pregnancy outcomes. Am J Ob-
stet Gynecol. 2010 Mar;202(3):266.e1-6. https://doi.org/10.1016/j.ajog.2009.10.876 

[6] May LE, Glaros A, Yeh H-W, Clapp JF, Gustafson KM. Aerobic exercise during pregnan-
cy influences fetal cardiac autonomic control of heart rate and heart rate variability. Early 
Hum Dev. 2010 Apr;86(4):213–7. https://doi.org/10.1016/j.earlhumdev.2010.03.002 

[7] Evenson KR, Savitz DA, Huston SL. Leisure-time physical activity among pregnant wom-
en in the US. Paediatr Perinat Epidemiol. 2004 Nov;18(6):400–7. https://doi.org/10.1111/ 
j.1365-3016.2004.00595.x 

[8] Huberty JL, Buman MP, Leiferman JA, Bushar J, Hekler EB, Adams MA. Dose and tim-
ing of text messages for increasing physical activity among pregnant women: a random-
ized controlled trial. Transl Behav Med. 2017 Jun;7(2):212–23. https://doi.org/10.1007/ 
s13142-016-0445-1 

[9] Istepanian R, Laxminarayan S, Pattichis CS, editors. M-Health: Emerging Mobile Health 
Systems [Internet]. Springer US; 2006 [cited 2018 May 18]. (Topics in Biomedical Engi-
neering. International Book Series). Available from: http://www.springer.com/gp/book/ 
9780387265582 https://doi.org/10.1007/b137697 

[10] Donner J, Mechael P, editors. mHealth in Practice: Mobile technology for health promo-
tion in the developing world. 1 edition. London: Bloomsbury Academic; 2013. 208 p.  

[11] Olla P. Mobile Health Solutions for Biomedical Applications. 1 edition. Tan J, editor. Her-
shey Pa.: Medical Information Science Reference; 2009. 366 p. 
https://doi.org/10.4018/978-1-60566-332-6 

[12] Alotaibi MM, Istepanian R, Philip N. A mobile diabetes management and educational sys-
tem for type-2 diabetics in Saudi Arabia (SAED). mHealth. 2016;2:33. 
https://doi.org/10.21037/mhealth.2016.08.01 

[13] Choi J, Lee JH, Vittinghoff E, Fukuoka Y. mHealth Physical Activity Intervention: A 
Randomized Pilot Study in Physically Inactive Pregnant Women. Matern Child Health J. 
2016 May;20(5):1091–101. https://doi.org/10.1007/s10995-015-1895-7 

[14] Saudi Arabia: number of Twitter users 2016 | Statistic [Internet]. Statista. [cited 2018 May 
18]. Available from: https://www.statista.com/statistics/558404/number-of-twitter-users-
in-saudi-arabia/ 

7 Acknowledgements 

Authors gratefully acknowledge the support and assistance of the Club of Robotics, 
Faculty of Computing and information Technology, University of Tabuk, Saudi Ara-
bia. 

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Paper—A smart mobile pregnancy management and awareness system for Saudi Arabia 

8 Authors 

Mohammed Alotaibi is an assistant professor of Bio-Informatics at Faculty of 
Computers and Information Technology, University of Tabuk, Tabuk, Saudi Arabia. 
He is also a member of Women’s health Informatics research group. 

Maram Albalawi is a lecturer in Software Engineering at Faculty of Computers 
and Information Technology, University of Tabuk, Tabuk, Saudi Arabia. She is also a 
member of Women’s health Informatics research group. 

Layan Alwakeel is a lecturer in Software Engineering at Faculty of Computers 
and Information Technology, University of Tabuk, Tabuk, Saudi Arabia. She is also a 
member of Women’s health Informatics research group. 

Article submitted 09 June 2018. Final acceptance 16 july 2018. Final version published as published by 
the authors. 

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	iJIM – Vol. 12, No. 5, 2018
	A Smart Mobile Pregnancy Management and Awareness System for Saudi Arabia