Prevalence and Associated Risk Factors of Gestational Diabetes Mellitus at a University Hospital in Saudi Arabia

Objectives: We aimed to find out the prevalence and associated risk factors of GDM among females who attended antenatal clinic at King Abdulaziz University Hospital (KAUH), Jeddah, Saudi Arabia (SA). Methods: This retrospective study was carried out from 25th September 2016 till 20th December 2016, at the Endocrine Clinic, Faculty of Medicine, KAUH, Jeddah, SA. A total of 5000 women attended antenatal clinic and 637 women were referred to the endocrine clinic for GDM. The data of only 103 GDM was included in the study because only these patients’ complete data was available. The electronic record of 93 pregnant age and BMI matched females, not having GDM were selected as a control group. Results: The prevalence of GDM was 12.75% (637/5000). Parity was associated with GDM (X2=16.82, P=.001) and GDM was significantly higher in multigravida while no association of GDM was found with working status, place of living, hypertension, family history of DM and BMI. Logistic regression analysis revealed that grand multigravida female had the lower risk of GDM as compared to multi, primi and nulligravida while age, working status, place of living, hypertension, family history of DM and BMI were not found significant risk factors for GDM. In GDM group, according to nationality, 68(66%) women were Saudi while 35(34%) were expatriates’ (Yemeni 11.2%, Egyptians 3.9%, Indians 3.9%, Pakistanis 2.9%, Sudanese 2.9%, Syrians 2.9% and others). Conclusions: The prevalence of GDM was 12.75% and it was not associated with working status, place of living, hypertension, family history of diabetes and BMI.


INTRODUCTION
Gestational Diabetes Mellitus (GDM) is defined as glucose intolerance that can be identified during pregnancy, usually, happening following the 24th week of gestation. 1 It is associated with grave consequences not only for the pregnant females but also for the fetus and after delivery to the neonates. It is important to recognize and treat the problem in early stages because GDM associated complications in mother and fetus are mostly preventable. 2 One of the reasons for the increase in GDM prevalence is that it does not have very obvious symptoms; however, excessive urination and fatigue, urinary tract infections (UTIs), nausea and vomiting are likely to be present. 3 If it is not diagnosed and treated then gestational hyperglycemia may cause various complications to the woman such as abortion, pre-

Original Article
Prevalence and Associated Risk Factors of Gestational Diabetes Mellitus at a University Hospital in Saudi Arabia eclampsia, preterm labor, placenta praevia, vaginal itching, UTI, puerperal sepsis, and pyelonephritis. 4 The pattern of prevalence of GDM has notable regional and ethnic differences. Asian inhabitants are considered at higher risk than white populations. 5 Increasing maternal age and obesity, earlier pregnancy GDM, and family history of DM are considered few dominant risk factors for the progress of GDM. 6,7 The prevalence of GDM ranges from 8 to 19% in Saudi Arabia. 8,9 However, a large-scale study in Riyadh (capital of SA) reported that SA has the highest prevalence of GDM (24%) in the world. 10 In the present study, we aimed to find out the prevalence and associated risk factors of GDM among females attended antenatal clinic during the year 2015, at King Abdulaziz University Hospital (KAUH), Jeddah, SA.

METHODS
This retrospective study was carried out from 25 th September 2016 till 20 th December 2016, at the Endocrine Clinic, Faculty of Medicine, KAUH, Jeddah, SA. One-year data of the GDM subjects were collected from their electronic records from 1 st January 2015 to 31 st December 2015. A total of 5000 women attended the antenatal clinic, and 637 women were referred to the Endocrine Clinic because of GDM. So the prevalence of GDM was 12.75% (637/5000). We collected GDM subjects' data from the electronic record; however, the data of only 103 GDM was taken because these patients' complete data according to our questionnaire was available. The electronic record of 93 pregnant age and BMI matched females, not having GDM were selected as a control group.
With their record, a questionnaire was filled regarding their age, BMI, blood pressure, living place, working status, family history of diabetes, and parity. We included only those subjects who were diagnosed with GDM and did not have DM simultaneously.
The American Diabetes Association (ADA) cutoff values using the one-step approach were used to classify the study subjects as GDM 11 : "Gestational diabetes mellitus should be diagnosed at any time in pregnancy if one of the following criteria are met or exceeded: 1. Fasting plasma glucose> or equal 5.1 mmol (92mg/ dl). 2. 1-Hour plasma glucose ≥ 10.0 mmol/l (180mg/ dl) following a 75 g oral glucose load. 3. 2-Hour plasma glucose 8.5 mmol/l (153 mg/dl) following a 75 g oral glucose load." Two or more criteria must be met or exceeded for a positive diagnosis. We excluded the diagnosed DM patients and having any other endocrinology problems such as thyroid disorders, Polycystic ovary syndrome, Cushing syndrome that affect blood sugar level. All the participants were screened during 24-28 weeks of gestation or before if they were at high risk for developing GDM. The patients were considered high risk if they had BMI greater than 30 Kg/m2, prior history of gestational diabetes, earlier large baby weighing 4.5 Kg or more, and family history of diabetes. The present study was approved by the ethical committee of the KAUH, Jeddah, SA. We kept the confidentiality of the subject and did not disclose any data relating to their identification.
The data were analyzed by SPSS (Statistical Package for Social Sciences) version 23. Mean ± SD was given for quantitative variables. Frequency and percentages were given for qualitative variables. Student t-test was used to compare the mean of age, HBA1C and fasting blood sugar between cases and controls. Pearson Chi-square test was used to determine the relationship of age, parity, working status, place of living, history of hypertension and BMI. Logistic regression was employed to compute the unadjusted and adjusted odds ratio by using age, parity, working status, place of living, history of hypertension, diabetes, and BMI as independent variables. The p-value < 0.05 was taken as significant.

RESULTS
In our study, the prevalence of GDM was 12.75% (637/5000). We compared the data of 103 GDM, and 93 age and BMI matched control subjects. Our results show that HBA1C and fasting plasma glucose (FPG) were significantly higher in cases as compared to control (P<0.001) while there was  Table-II. Parity was associated with GDM (X 2 =16.82, P=0.001) and GDM was significantly higher in multigravida while no association of GDM was found with working status, place of living, hypertension, family history of DM and BMI (Table-III).
Logistic regression analysis revealed that grand multigravida female had the lower risk of GDM as compared to multi, primi and nulligravida [OR=0.16 (95% CI 0.05-0.56; P=0.004)] while increased age (≥ 30 years), working status, place of living, hypertension, family history of DM and BMI were not found significant risk factors for GDM (Table-IV).
Logistic regression analysis revealed that age ≥ 30 years increases the risk of GDM, but it was not significant. Our results are similar to a study. 17 In contrast to our results, Abdelmola AO et al., (2017) showed that the women in the age group (31-35) years had the significantly higher prevalence of GDM. 8 Several other studies reported the higher prevalence of GDM among women in the age group > 35 years. 13,15 This difference could be due to small sample size and variability in diagnostic criteria.
The increased age (≥30 years), working status, place of living, hypertension, family history of DM and BMI were not found significant risk factors for GDM. Similar to our results a study reported no significant association between GDM and working status. 10 Our results are similar to a South African and a Thai study that did not find the association between obesity and GDM. 19,20 However, our results are inconsistent with several other studies that have reported increased age. BMI, and multiparity as risk factors for GDM. [21][22][23] This difference could be due to different race and use of the different criteria for obesity.
We found that grand multigravida have a lower risk for GDM after adjusting age, working status, place of living, hypertension, family history of DM and BMI. This observation is also in accordance with our result that increasing age is not a risk factor for GDM. Recently, Nhidza G et al., (2018) 21 reported the association of GDM with multiparity while another report from Pakistan demonstrated that with increased BMI, age, and history of T2DM in the family was associated with GDM. 16 So conflicting results have been reported in the literature. Usually, with increasing age and after several pregnancies there is increased in body weight that could be responsible for impaired OGT and GDM. However, in our study because of the small sample size this effect could not be found.
A recent study reported that the women suffering from GDM had increased chances of having a macrosomic baby without having the increased risk for other maternal or neonatal complications. 10 Additionally, females with GDM are more prone to develop T2DM in their later lives. 24 In GDM group, according to nationality, 68(66%) women were Saudi while 35(34%) were expatriates' (Yemeni 11.2%, Egyptians 3.9%, Indians 3.9%, Pakistanis 2.9%, Sudanese 2.9%, Syrians 2.9% and others). The Jeddah city is the second largest and thickly populated cosmopolitan city, and thousands of expatriates' families reside in the city. Therefore, our data comprised of women of several nationalities, so our results do not reflect the frequency of GDM among Saudi women.
It is suggested that changes in dietary pattern and sedentary lifestyle causing obesity and the more prolonged period of education and better access to birth control techniques causing increasing age at first pregnancy. 25 These factors are likely to be involved in the widespread prevalence of GDM.
There is a need to educate the women regarding the drastic effects of the GDM for them, and for their fetus. Such education should be started at school and college level. Research indicates that prevalence of GDM is directly related to the prevalence of T2DM in the society 26 and T2DM is highly prevalent in Saudi Arabia. 27 Obesity is considered one of the very important reasons for T2DM because it causes resistance to insulin and consequently T2DM occurs. Therefore, we should educate the population about the healthy lifestyle and make them aware of the grave consequences of the obesity. Moreover, Riaz RH et al., (2018) suggested that the physicians' awareness regarding GDM up to date diagnostic and management strategies could play a pivotal role in managing GDM burden. 28 Limitations of study: First, it has been conducted only in one hospital; consequently the sample size was small. Secondly, the data was collected from the electronic record of the patients, so, little important information could not be collected such Shahad Abualhamael et al. as the history of their dietary, physical activities, socioeconomic status, educational level and others.

CONCLUSION
Our results indicate that the prevalence of GDM was 12.75% in our setup and no association was found with working status, place of living, hypertension, family history of diabetes and BMI.

Grant Support & Financial Disclosures:
None.