Comprehensive analysis of copy number variations in congenital heart defects Tunisian patients: chromosomal microarray analysis insights

Rim Khelifi; Houcemeddine Othmane; Houda Ajmi; Wafa Slimani; Ayda Bennour; Leila Dardour; Najla Soyeh; Amira Benzarti; Khouloud Rjiba; Hamza Hadj Abdallah; Ahmed Rassass; Rim Kooli; Oussama Mghirbi; Molka Kammoun; Hela Ben Khelifa; Farouk Bahri; Mkaddem Hayet; Aouina Ammar; Sahbi Ghanmi; Jihene Mathlouthi; Hayet Ben Hamida; Zakia Habboul; Tarek Kemis; Habib Kharrat; Nadia Hassine; Amel Tej; Manel Bellalah; Fatma Chouikh; Mejaouel Houssine; Abdallah Mahdhaoui; Chokri Kortas; Aida Guith; Faouzi Maatouk; Elies Naffeti; Habib Soua; Moez Gribaa; Ali Saad; Soumaya Mougou-Zerelli

doi:10.1186/s13039-026-00749-4

Comprehensive analysis of copy number variations in congenital heart defects Tunisian patients: chromosomal microarray analysis insights

Mol Cytogenet. 2026 Feb 14. doi: 10.1186/s13039-026-00749-4. Online ahead of print.

Authors

Rim Khelifi^{1

2

3}, Houcemeddine Othmane⁴, Houda Ajmi⁵, Wafa Slimani^{4

6}, Ayda Bennour^{4

6}, Leila Dardour^{4

6}, Najla Soyeh^{7

8}, Amira Benzarti^{4

6}, Khouloud Rjiba^{4

6}, Hamza Hadj Abdallah⁴, Ahmed Rassass⁹, Rim Kooli⁴, Oussama Mghirbi¹⁰, Molka Kammoun⁴, Hela Ben Khelifa⁴, Farouk Bahri¹¹, Mkaddem Hayet¹¹, Aouina Ammar⁵, Sahbi Ghanmi¹², Jihene Mathlouthi¹⁰, Hayet Ben Hamida¹³, Zakia Habboul¹¹, Tarek Kemis¹³, Habib Kharrat¹¹, Nadia Hassine¹⁴, Amel Tej⁸, Manel Bellalah¹⁰, Fatma Chouikh¹³, Mejaouel Houssine¹¹, Abdallah Mahdhaoui¹⁰, Chokri Kortas¹⁵, Aida Guith¹⁰, Faouzi Maatouk¹⁶, Elies Naffeti¹⁴, Habib Soua¹², Moez Gribaa⁴, Ali Saad^{4

6}, Soumaya Mougou-Zerelli^{4

6}

Affiliations

¹ Laboratory of Cytogenetics, Molecular Genetics and Human Reproductive Biology CHU Farhat Hached , Sousse, Tunisia. khlifi_rim@yahoo.com.
² Faculty of Medicine, Common Service Unit in Genetics, Sousse, Tunisia. khlifi_rim@yahoo.com.
³ Higher Institute of Biotechnology , Monastir, Tunisia. khlifi_rim@yahoo.com.
⁴ Laboratory of Cytogenetics, Molecular Genetics and Human Reproductive Biology CHU Farhat Hached , Sousse, Tunisia.
⁵ Paediatric Department, Sahloul University Hospital, Sousse, Tunisia.
⁶ Faculty of Medicine, Common Service Unit in Genetics, Sousse, Tunisia.
⁷ Higher Institute of Biotechnology , Monastir, Tunisia.
⁸ Paediatric Department, CHU Farhat Hached, Sousse, Tunisia.
⁹ Paediatric Department, Tahar Sfar Hospital, Mahdia, Tunisia.
¹⁰ Neonatology Department, CHU Farhat Hached , Sousse, Tunisia.
¹¹ Paediatric Department, Regional Hospital Ibn El Jazzar , Kairouan, Tunisia.
¹² Neonatology Department, Tahar Sfar Hospital, Mahdia, Tunisia.
¹³ Neonatology Center and Maternity, Monastir, Tunisia.
¹⁴ Cardiology Department, Sahloul University Hospital, Sousse, Tunisia.
¹⁵ Department of Cardiovascular Surgery, Sahloul University Hospital, Sousse, Tunisia.
¹⁶ Cardiology Department, Fatouma Bourguiba University Hospital, Monastir, Tunisia.

PMID: 41691302
DOI: 10.1186/s13039-026-00749-4

Abstract

Background: Congenital heart defects represent a major global health burden, affecting nearly one million newborns annually. Identifying the underlying genetic causes is essential for improved diagnosis, patient management, and genetic counseling.

Patients and methods: We conducted a cytogenetic study integrating conventional karyotyping, fluorescence in situ hybridization (FISH), and chromosomal microarray analysis (CMA 44 K) in 20 Tunisian patients presenting syndromic CHDs and referred to our Genetics Department.

Results and discussion: CMA identified pathogenic copy number variations in four patients. These included an inherited 11 Mb deletion at 9p24.2 together with a 10 Mb duplication of 20pter; a de novo 1.2 Mb deletion at 15q26.2 with an 11 Mb duplication at 2q36.3; a de novo 113 kb deletion at 17q21.32; and a de novo 48 Mb duplication at 8q22. Several CNVs overlapped known deletion/duplication syndromes, some with previously infrequent cardiac involvement. Genotype-phenotype correlations enabled prioritization of CHD relevant genes including DOCK8, HTR2B, KANSL1, ZFPM2, and TRPS1, whose dosage sensitivity and interactions with cardiac developmental pathways may contribute to the observed phenotypes.

Conclusion: This study reinforces the clinical utility of CMA in detecting cryptic chromosomal abnormalities in syndromic CHD. The identified CNVs and gene candidates offer new insights into CHD genetic architecture and support CMA as a first-tier diagnostic tool. These findings highlight the contribution of rare, pathogenic CNVs in syndromic cases and suggest their integration into refined diagnostic and counseling strategies. Further functional studies are necessary to elucidate the roles of these candidates in cardiogenesis.