Translation and cross-cultural validation of the non-invasive prenatal testing questionnaire in Arabic ====================================================================================================== * Maaged A. Akiel * Mohamud S. Mohamud * Marwh G. Aldriwesh * Hassan S. Alamri * Naif M. Alhawiti * Mohammad A. Alfhili ## Abstract **Objectives:** To translate and cross-culturally adapt a Swedish questionnaire to Arabic to assess the awareness of pregnant women in Saudi Arabia regarding the availability of an accurate and safe prenatal screening procedure. **Methods:** The study was conducted at the Obstetrics and Gynecology Clinic, King Abdulaziz Medical City, Riyadh, Saudi Arabia between December 2018 to April 2019. The non-invasive prenatal testing (NIPT) questionnaire, translated and validated in Arabic. Cronbach’s alpha reliability testing was carried out to validate the Arabic version of the questionnaire. The sample size was 100 pregnant women, at any gestational period, from 20 to 44 years old. This is a prospective cross-sectional. **Results:** An Arabic translated, and culturally validated questionnaire related to the attitudes, knowledge, and self-perceived probability of delivering a child with chromosomal abnormality. **Conclusion:** We translated and validated the NIPT questionnaire to assess the attitude and awareness of pregnant women regarding the availability of the NIPT. * aneuploidy * NIPT * awareness * Arabic translation * pregnancy * Arabic questionnaire Aneuploidies are numerical chromosomal anomalies considered as the most frequent causes of loss of pregnancy and developmental defects.1 Chromosomal anomalies occur in approximately one in 150 live births.2 As the frequency of aneuploidy increases with maternal age,3 accurate and reliable screening during pregnancy for developmental defects is necessary to detect and diagnose such adverse events. Prenatal testing is a screening procedure, performed during pregnancy, to diagnose and detect pregnant women at high risk of having a fetus with chromosomal anomalies or developmental defects.4 Screening is usually offered in the first and second trimester of the pregnancy.5 Some examples of such tests are the first trimester screen (FTC), amniocentesis, chorionic villus sampling (CVS) and the non-invasive prenatal testing (NIPT).6 Non-invasive prenatal testing is a cell-free DNA test involving the isolation of fetal DNA from a maternal plasma sample.7 The cell-free DNA is from a placental origin, released in the maternal circulation from the fetal apoptotic trophoblasts.8 The release of fetal DNA fragments in maternal circulation increases with gestational age and the reliability of testing is more than 10% as early as 10 weeks gestation.9 The technology was introduced in 2011 and is based on the detection of cell-free fetal DNA, using next-generation sequencing (NGS) platforms, mainly for the detection of frequent aneuploidies such as trisomy 13, 18, and 21.10 The advantage of NIPT, compared with other prenatal screening procedures, is that it does not require the invasion of the placenta for the collection of chorionic villus or amniotic fluid.11 The screening test provides the highest detection rate of screening tests for aneuploidies that included trisomy 13, 18 and 21.12 There is no literature available regarding the awareness of pregnant women in Saudi Arabia of this highly reliable and safer prenatal screening test. The aim of this study was to answer this question by providing a translated and culturally adapted NIPT questionnaire in Arabic. The questionnaire contains demographic information, including age, mother tongue, educational level, gestational week, number of children and previous miscarriages as well as multiple choice and Likert scale items exploring the attitudes, knowledge, preference for risk information and decision-making related prenatal testing including NIPT.13 Items related to the attitude of delivering a child with a chromosomal defect, and the self-estimated probability of such event, are included. The questionnaire was translated by 2 groups of translators: content/language experts and language experts only. Each group consisted of 2 translators. The questionnaire was then validated and cross-culturally adapted by a human/medical geneticist and an epidemiologist. Given the increased frequency of chromosomal anomalies in the Saudi Arabian population and the need to assess the awareness of pregnant women of this safer and accurate screening test, we translated and adapted the original questionnaire for implementation in a Saudi Arabian cohort. ## Methods This prospective cross-sectional study was conducted at the Obstetrics and Gynecology (OB/GYN) clinic of King Abdulaziz Medical City (KAMC), Riyadh, Saudi Arabia between December 2018 to April 2019. The participants were pregnant women, regardless of gestational period, from 20 to 44 years old. Investigators explained the purpose of the study to the target group and if they agreed, they signed an informed consent form. The translation team included a human/medical geneticist, biomedical scientists and an epidemiologist. Permission was obtained to translate and cross-culturally validate the original questionnaire into the Arabic language.13 Inclusion criteria were all pregnant women at any week of gestation from (OB/GYN) clinic in KAMC, Riyadh and none from the exclusion criteria. We utilized PubMed/MEDLINE, Cochrane and Google scholar databases to search for previously published studies on NIPT in Saudi Arabia. Additionally, these databases were used to find available questionnaires that assess the awareness of pregnant women on NIPT. The instrument we used was designed and validated by a Swedish research group, consisting of 2 senior experts in clinical genetics, biomedical scientists and a midwife, in questionnaire development.13 The questionnaire contains demographic information related to age, native language, educational level, gestational week, parity and previous miscarriages as well as multiple choice and Likert scale questions related to their attitudes, knowledge, choice of information related to risk and decision-making of prenatal testing including the NIPT.7 The attitudes regarding delivering a baby with a chromosomal defect, and the self-estimated probability of the event, was included in the assessment items. ### Translation and cross-cultural adaption To translate the questionnaire, we used 2 content and language experts and 2 additional language experts, total was 4 translators. The questionnaire was translated from English to Arabic and back to English, according to the internationally accepted World Health Organization (WHO) guidelines.14 As this process involves a totally different language from the original, instructions were given to the translators to not only focus on the literal translation but to consider the conceptual meaning of the items. The reason was that the proposed sample may include persons with no educational background. For the forward translation, 2 translators (T1 and T2) independently translated the questionnaire from English to Arabic. Subsequently, the 2 translators discussed any discrepancies in the translation and produced one version. T1 and T2 met the research committee, consisting of a human/medical geneticist (PhD holder) and an epidemiologist with a PhD, experienced in instrument translation and validation. The forward translators and the research team discussed the questionnaire, reached consensus and produced a final version of the forward translation (**Figure 1**). The resulting Arabic version was sent to 2 independent translators (T3 and T4), who had no access to the original English questionnaire, who translated the Arabic version to English. The research team gave the translators the same instructions that were given to the T1 and T2. After completing the independent translations, they discussed any differences, reached consensus and produced a final version of the back translation. The research committee met with all 4 translators to review the back-translated version and compare it with the original English questionnaire and produced the final Arabic version. ![Figure 1](http://smj.org.sa/https://smj.org.sa/content/smj/41/9/999/F1.medium.gif) [Figure 1](http://smj.org.sa/content/41/9/999/F1) Figure 1 Schematic diagram of the translation and cross-cultural validation of the non-invasive prenatal testing questionnaire. ### Validation of the questionnaire in the Saudi Arabian cohort A pilot study was performed with 100 participants from the OB/GYN clinic at KAMC. Participants were fully informed about the purpose of the validation process and the study objectives. The questionnaire was distributed to the participants who were waiting at the clinics. This study included only consenting pregnant women at any gestational week. The face and content validity were ensured during the translation process. Any items that were not clear after the translation were modified before and after the pilot study. The questionnaire was approved by the Institutional Review Board (IRB), King Abdullah International Medical Research Center (KAIMRC), Riyadh, Saudi Arabia. The IRB at KAIMRC follows principles of Helsinki Declaration. The consent form was provided by the IRB Office at KAIMRC. ### Statistical analysis The Statistical Package for Social Sciences (SPSS) version 25 (IBM Corp., Armonk, NY, USA) was used to enter and clean the data. Level of education, Mother tongue and number of miscarriages were presented as percentages. The age and number of children was presented as mean ± standard deviation. The reliability of the items in the questionnaire was evaluated using the Cronbach’s alpha to measure internal consistency, values below 0.5 are classified as unacceptable, values between 0.5-0.7 were classified as acceptable. Values above 0.7 were classified as perfect. ## Results The translation process consisted of forward and back translations until consensus was achieved (**Table 1**). Since the criteria of the Likert scales were different, the coding of items 2a, 3, 5 and 7b were reversed to 1, the lowest score, and 5 the highest score. In item 2, for example, we changed “I think that examinations aiming to detect fetal abnormalities are” to “I believe that tests aiming to detect fetal abnormalities are”. Similarly, to make the scaling criteria clearer for item 3, between very positive and very negative, we inserted “positive”, “neutral” and “negative” to complete the options. Also for item 4, the original English had one neutral option and 2 negative options and for ease of understanding, we changed the options to positive, neutral and negative. The human/medical geneticist explained that the meaning of item 3, sub-category 4 which asked about their attitude related to the blood sample taken from the mother, to accurately determine if the fetus has a chromosomal abnormality, was called a non-invasive prenatal test (NIPT). Similar to item 2, in item 6 sub-category “a” and “b”, we changed the word “think” to “believe” as it is more culturally accepted. In item 7, we changed the wording of some of the questions from a passive to an active form. All these modifications were necessary to achieve idiomatic equivalence. The team also changed the currency in item 7d from euro (€) into Saudi Riyals (SAR). After all the amendments were completed, the research committee reviewed the instrument and a consensus was reached about the Arabic version (**Table 1**). View this table: [Table 1](http://smj.org.sa/content/41/9/999/T1) Table 1 Synthesis of the final Arabic version of the non-invasive prenatal testing. A pilot study was conducted with 100 participants, chosen using convenient sampling method from the pregnant women attending the OB/GYN clinic at KAMC. The age of the participants ranged from 20-44 years, with an average age of 31 ± 6 (**Table 2**). The majority of participants (61%) had university degree. More than half of the sample (55.6%) had no history of miscarriage (**Table 2**). View this table: [Table 2](http://smj.org.sa/content/41/9/999/T2) Table 2 Participants' demographic information and history of miscarriages. To assess the validity of the translation of the original English questionnaire, we performed reliability testing using the Cronbach alpha. The Cronbach alpha value ranged from 0.6 to 0.67. We did not achieve the desired 0.7 value, mainly because the questions in the questionnaire were not in the same category. ## Discussion The availability of the NIPT provides accurate and safe tool for prenatal screening. Previous report proved the accuracy of NIPT in prenatal diagnosis in more than 8594 pregnancies.15 In this study, we describe the translation and cultural adaptation of the NIPT questionnaire to Arabic. We adapted a questionnaire developed by Sahlin et al13 focusing on the awareness and attitudes related to the NIPT. After search of available databases that include PubMed, Chocrane and Google scholar, we decided to use the Swedish questionnaire (**Appendix 1**) as it was tested in a large cohort of more than 1000 participants and contained necessary items we believe are essential to assess the awareness of pregnant women. During the translation process, we modified some of the questions to ensure an acceptable fit with the Arabic culture until consensus was reached. The majority of the modifications were carried out during the translation process. Minor modifications were made after the pilot study. For example, after interacting with the patients, all from an Islamic background, we realized that most patients commented on item 4. In their opinion, “It will not affect me” was culturally inappropriate and that, due to their religious beliefs, they have to accept the outcome. We found that converting the options in item 4 to positive, negative and very negative more appropriate to the Arabic cohort than the original questionnaire. Despite these modifications on the questionnaire, the internal consistency (Cronbach alpha) was not altered significantly as we achieved. Values for the items that ranged between 0.6-0.67, which falls within the acceptable values used in questionnaire validation and adaptation.16 The reason for achieving less than the desired 0.7 score of Cronbach’s alpha is probably due to the fact that the original questionnaire contained mixed categories. The strength of our study is that it did not focus on the literal translation of the original questionnaire but rather focused on the conceptual meaning. Additionally, our pilot study included pregnant women with multiple educational background and age groups. Thus, this increased the strength of the validation. Since that the Cronbach alpha values were within the acceptable range we did not have to eliminate any of the items in the original questionnaire. The limitation of this study is that it included only pregnant women visiting the OB/GYN clinic at KAMC, Riyadh, Saudi Arabia. Overall, we believe that the translation of the questionnaire was successful and acceptable and complies with international standards of research tools. Our translated questionnaire is ready for use of future studies to assess the awareness of pregnant women regarding the availability of NIPT in Arabic community . In conclusion, we translated and culturally adapted the NIPT research tool that can be used to assess the attitude and awareness of pregnant women related to the availability of this safe and accurate prenatal examination procedure (**Appendix 2**). ## Acknowledgment *We would like to thank Ellika Sahlin, Department of Molecular Medicine and Surgery and Center for Molecular Medicine, Karolinska Institute, Stockholm, Sweden for providing the questionnaire. We also thank Dr. Mysoon Adham, Consultant OB/GYN for providing access to the participants at the OB/GYN Clinic at King Abdulaziz Medical City, Riyadh, Saudi Arabia. We thank the students, Abdullah Alsubaie and Ahmad Alsamhan at the Department of Clinical Laboratory Sciences, College of Applied Medical Sciences, King Saud bin Abdulaziz University for Health Sciences for the distribution and collection of the questionnaires from the participants. Additionally, we would like to thank Dr. Susanna Catharina Wright at the publication office of King Abdullah International Medical Research Center (KAIMRC) for English language editing of the paper. Finally, the authors also extend their appreciation to the Vice Deanship of Research Chairs, King Saud University, Riyadh, Saudi Arabia*. ## Appendix 1 - Original non-invasive prenatal testing questionnaire ![Graphic][1] ## Appendix 2 - Final Arabic version of the non-invasive prenatal questionnaire. ![Graphic][2] ## Footnotes * **Disclosure.** Authors have no conflict of interests, and the work was not supported or funded by any drug company. * Received April 23, 2020. * Accepted July 23, 2020. * Copyright: © Saudi Medical Journal This is an open-access article distributed under the terms of the Creative Commons Attribution-Noncommercial-Share Alike 3.0 Unported, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. ## References 1. Carlson LM, Vora NL (2017) Prenatal diagnosis:Screening and diagnostic tools. Obstet Gynecol Clin North Am 44:245–256. 2. Nussbaum RL, McInnes RR, Willard HF (2015) Thompson &Thompson genetics in medicine e-book (Elsevier Health Sciences, Philadelphia (PA)), 8th ed. 3. Goetzinger KR, Shanks AL, Odibo AO, Macones GA, Cahill AG (2017) Advanced maternal age and the risk of major congenital anomalies. Am J Perinatol 34:217–222. 4. Temming LA, Macones GA (2016) What is prenatal screening and why to do it? Semin Perinatol 40:3–11. 5. de Jong A, Maya I, van Lith JM (2015) Prenatal screening:current practice, new developments, ethical challenges. Bioethics 29:1–8. 6. Kagan KO, Sonek J, Wagner P, Hoopmann M (2017) Principles of first trimester screening in the age of non-invasive prenatal diagnosis:screening for chromosomal abnormalities. Arch Gynecol Obstet 296:645–651. 7. Wu G, Li R, Tong C, He M, Qi Z, Chen H, et al. (2019) Non-invasive prenatal testing reveals copy number variations related to pregnancy complications. Mol Cytogenet 12:38. 8. Burnum-Johnson KE, Baker ES, Metz TO (2017) Characterizing the lipid and metabolite changes associated with placental function and pregnancy complications using ion mobility spectrometry-mass spectrometry and mass spectrometry imaging. Placenta 60(Suppl 1 (Suppl 1)):S67–S72. 9. Dar P, Shani H, Evans MI (2016) Cell-free DNA:Comparison of Technologies. Clin Lab Med 36:199–211. 10. Allyse M, Minear MA, Berson E, Sridhar S, Rote M, Hung A, Chandrasekharan S (2015) Non-invasive prenatal testing:a review of international implementation and challenges. Int J Womens Health 7:113–126. 11. Filoche S, Lawton B, Beard A, Dowell A, Stone P (2017) New screen on the block:non-invasive prenatal testing for fetal chromosomal abnormalities. J Prim Health Care 9:248–253. 12. Gil MM, Accurti V, Santacruz B, Plana MN, Nicolaides KH (2017) Analysis of cell-free DNA in maternal blood in screening for aneuploidies:updated meta-analysis. Ultrasound Obstet Gynecol 50:302–314. 13. Sahlin E, Nordenskjöld M, Gustavsson P, Wincent J, Georgsson S, Iwarsson E (2016) Positive attitudes towards non-invasive prenatal testing (NIPT) in a Swedish cohort of 1,003 pregnant women. PloS One 11:e0156088. 14. World Health Organization. Process of translation and adaptation of instruments, [cited 2009]. Available from URL: [http://www.who.int/substance\_abuse/research\_tools/translation/en/](http://www.who.int/substance_abuse/research_tools/translation/en/). 15. Zheng Y, Wan S, Dang Y, Song T, Chen B, Zhang J (2019) Non-invasive prenatal testing for detection of trisomy 13, 18, 21 and sex chromosome aneuploidies in →cases. Ginekol Pol 90:270–273. 16. Al-Zalabani AH (2019) Adaptation and validation of the Arabic version of self-efficacy scale for mammography. Saudi Med J 40:707–713. [1]: /embed/inline-graphic-1.gif [2]: /embed/inline-graphic-2.gif