Purpose: Radio-Tartaglia syndrome (RTS; Mendelian Inheritance in Man [MIM]: 619312) is a rare neurodevelopmental disorder with few reported cases and limited research. It has recently been reported that the clinical features of RTS overlap with those of 1p36 deletion syndrome (1p36DS), a common chromosomal deletion characterized by clinical and molecular heterogeneity. This study aims to report on a Korean patient with RTS and compare the clinical and molecular features with those of patients with 1p36DS. Methods: A 3-year-old boy was brought to the hospital and underwent whole genome sequencing to evaluate developmental delay and multiple anomalies. This led to the identification of a de novo truncating variant in SPEN. We retrospectively investigated cases of 1p36DS that were either newly diagnosed at our institution or previously reported in the literature and databases. Results: The clinical profile of RTS includes developmental delay/intellectual disability, hypotonia, feeding difficulties, congenital heart defects, and facial dysmorphisms. SPEN is frequently found within the deleted region associated with 1p36DS. However, in all reported Korean cases of 1p36DS, the deletions were distal and did not involve SPEN; despite this, the clinical features of the disorder overlap considerably with those of RTS. Conclusion SPEN is a newly identified gene that plays a role in various developmental processes. Therefore, it is essential to include SPEN in genetic testing when diagnosing patients suspected of having a neurodevelopmental disorder. Additional research is required to explore the molecular and clinical features, as well as the prognosis, of patients with either an isolated SPEN mutation or one that co-occurs with 1p36DS.

Purpose: Radio-Tartaglia syndrome (RTS; Mendelian Inheritance in Man [MIM]: 619312) is a rare neurodevelopmental disorder with few reported cases and limited research. It has recently been reported that the clinical features of RTS overlap with those of 1p36 deletion syndrome (1p36DS), a common chromosomal deletion characterized by clinical and molecular heterogeneity. This study aims to report on a Korean patient with RTS and compare the clinical and molecular features with those of patients with 1p36DS. Methods: A 3-year-old boy was brought to the hospital and underwent whole genome sequencing to evaluate developmental delay and multiple anomalies. This led to the identification of a de novo truncating variant in SPEN. We retrospectively investigated cases of 1p36DS that were either newly diagnosed at our institution or previously reported in the literature and databases. Results: The clinical profile of RTS includes developmental delay/intellectual disability, hypotonia, feeding difficulties, congenital heart defects, and facial dysmorphisms. SPEN is frequently found within the deleted region associated with 1p36DS. However, in all reported Korean cases of 1p36DS, the deletions were distal and did not involve SPEN; despite this, the clinical features of the disorder overlap considerably with those of RTS. Conclusion SPEN is a newly identified gene that plays a role in various developmental processes. Therefore, it is essential to include SPEN in genetic testing when diagnosing patients suspected of having a neurodevelopmental disorder. Additional research is required to explore the molecular and clinical features, as well as the prognosis, of patients with either an isolated SPEN mutation or one that co-occurs with 1p36DS.

Purpose: Radio-Tartaglia syndrome (RTS; Mendelian Inheritance in Man [MIM]: 619312) is a rare neurodevelopmental disorder with few reported cases and limited research. It has recently been reported that the clinical features of RTS overlap with those of 1p36 deletion syndrome (1p36DS), a common chromosomal deletion characterized by clinical and molecular heterogeneity. This study aims to report on a Korean patient with RTS and compare the clinical and molecular features with those of patients with 1p36DS. Methods: A 3-year-old boy was brought to the hospital and underwent whole genome sequencing to evaluate developmental delay and multiple anomalies. This led to the identification of a de novo truncating variant in SPEN. We retrospectively investigated cases of 1p36DS that were either newly diagnosed at our institution or previously reported in the literature and databases. Results: The clinical profile of RTS includes developmental delay/intellectual disability, hypotonia, feeding difficulties, congenital heart defects, and facial dysmorphisms. SPEN is frequently found within the deleted region associated with 1p36DS. However, in all reported Korean cases of 1p36DS, the deletions were distal and did not involve SPEN; despite this, the clinical features of the disorder overlap considerably with those of RTS. Conclusion SPEN is a newly identified gene that plays a role in various developmental processes. Therefore, it is essential to include SPEN in genetic testing when diagnosing patients suspected of having a neurodevelopmental disorder. Additional research is required to explore the molecular and clinical features, as well as the prognosis, of patients with either an isolated SPEN mutation or one that co-occurs with 1p36DS.

Purpose: Radio-Tartaglia syndrome (RTS; Mendelian Inheritance in Man [MIM]: 619312) is a rare neurodevelopmental disorder with few reported cases and limited research. It has recently been reported that the clinical features of RTS overlap with those of 1p36 deletion syndrome (1p36DS), a common chromosomal deletion characterized by clinical and molecular heterogeneity. This study aims to report on a Korean patient with RTS and compare the clinical and molecular features with those of patients with 1p36DS. Methods: A 3-year-old boy was brought to the hospital and underwent whole genome sequencing to evaluate developmental delay and multiple anomalies. This led to the identification of a de novo truncating variant in SPEN. We retrospectively investigated cases of 1p36DS that were either newly diagnosed at our institution or previously reported in the literature and databases. Results: The clinical profile of RTS includes developmental delay/intellectual disability, hypotonia, feeding difficulties, congenital heart defects, and facial dysmorphisms. SPEN is frequently found within the deleted region associated with 1p36DS. However, in all reported Korean cases of 1p36DS, the deletions were distal and did not involve SPEN; despite this, the clinical features of the disorder overlap considerably with those of RTS. Conclusion SPEN is a newly identified gene that plays a role in various developmental processes. Therefore, it is essential to include SPEN in genetic testing when diagnosing patients suspected of having a neurodevelopmental disorder. Additional research is required to explore the molecular and clinical features, as well as the prognosis, of patients with either an isolated SPEN mutation or one that co-occurs with 1p36DS.

Purpose: Radio-Tartaglia syndrome (RTS; Mendelian Inheritance in Man [MIM]: 619312) is a rare neurodevelopmental disorder with few reported cases and limited research. It has recently been reported that the clinical features of RTS overlap with those of 1p36 deletion syndrome (1p36DS), a common chromosomal deletion characterized by clinical and molecular heterogeneity. This study aims to report on a Korean patient with RTS and compare the clinical and molecular features with those of patients with 1p36DS. Methods: A 3-year-old boy was brought to the hospital and underwent whole genome sequencing to evaluate developmental delay and multiple anomalies. This led to the identification of a de novo truncating variant in SPEN. We retrospectively investigated cases of 1p36DS that were either newly diagnosed at our institution or previously reported in the literature and databases. Results: The clinical profile of RTS includes developmental delay/intellectual disability, hypotonia, feeding difficulties, congenital heart defects, and facial dysmorphisms. SPEN is frequently found within the deleted region associated with 1p36DS. However, in all reported Korean cases of 1p36DS, the deletions were distal and did not involve SPEN; despite this, the clinical features of the disorder overlap considerably with those of RTS. Conclusion SPEN is a newly identified gene that plays a role in various developmental processes. Therefore, it is essential to include SPEN in genetic testing when diagnosing patients suspected of having a neurodevelopmental disorder. Additional research is required to explore the molecular and clinical features, as well as the prognosis, of patients with either an isolated SPEN mutation or one that co-occurs with 1p36DS.

BACKGROUND: Data on drug-coated balloon (DCB) treatment in elderly patients are limited. This study was to evaluate the efficacy of DCB treatment in percutaneous coronary intervention (PCI) among elderly patients. METHODS: A retrospective analysis included 232 patients aged 75 years or older with coronary artery disease who underwent successful PCI using either DCB alone or in combination with drug-eluting stent (DES) based on pre-dilation results (DCB-based PCI). These patients were compared with 1818 elderly patients who underwent second-generation DES implantation (DES-only PCI). The endpoint was major adverse cardiovascular events (MACE) at 2-year follow-up. RESULTS: In the DCB-based PCI, 61.2% of patients received DCB-only treatment. Compared to DES-only PCI, the DCB-based PCI group had fewer stents (0.5 ± 0.7 and 1.7 ± 0.8, P < 0.001), shorter stent lengths (13.3 ± 20.9 mm and 37.4 ± 23.0 mm, P < 0.001), and lower usage of small stents with a diameter of 2.5 mm or less (15.6% and 28.7%, P = 0.010). The DCB-based PCI group exhibited lower rate of MACE (5.5% and 13.1%, P = 0.003), target vessel revascularization (1.1% and 5.6%, P = 0.017) and major bleeding (0.7% and 5.1%, P = 0.009) at 2-year follow-up. The reduced risk in 2-year MACE was consistently observed across various matching procedures, with the most significant reduction noted in target vessel revascularization and major bleeding. CONCLUSION The DCB-based PCI reduced stent burden, particularly in the usage of small diameter stents, and was associated with lower risks of MACE, target vessel revascularization, and major bleeding compared to DES-only PCI in elderly patients.

Background: MUTYH-associated polyposis is an autosomal recessive disorder associated with an increased lifetime risk of colorectal cancer and a moderately increased risk of ovarian, bladder, breast, and endometrial cancers. We analyzed the carrier frequency and estimated the incidence of MUTYH-associated polyposis in East Asian and Korean populations, for which limited data were previously available. Methods: We examined 125,748 exomes from the gnomAD database, including 9,197 East Asians, and additional data from 5,305 individuals in the Korean Variant Archive and 1,722 in the Korean Reference Genome Database. All MUTYH variants were interpreted according to the American College of Medical Genetics and Genomics and Association for Molecular Pathology guidelines and the Sequence Variant Interpretation guidelines from ClinGen. Results: The global carrier frequency of MUTYH-associated polyposis was 1.29%, with Europeans (non-Finnish) having the highest frequency of 1.86% and Ashkenazi Jews the lowest at 0.06%. East Asians and Koreans had a carrier frequency of 0.35% and 0.37% and an estimated incidence of 1 in 330,409 and 1 in 293,304 in Koreans, respectively, which were substantially lower than the global average of 1 in 24,160 and the European (nonFinnish) incidence of 1 in 11,520. Conclusions This was the first study to investigate the frequency of carriers of MUTYH-associated polyposis in East Asians, including specific subgroups, utilizing gnomAD and a Korean genome database. Our data provide valuable reference information for future investigations of MUTYH-associated polyposis to understand the genetic diversity and specific variants associated with this condition in East Asian populations.

Background: Citrin deficiency is an autosomal recessive disorder caused by pathogenic variants in SLC25A13, presenting with various age-dependent clinical phenotypes and a broad spectrum of severity. However, few studies have examined the frequency and prevalence of citrin deficiency. We aimed to analyze the carrier frequency and disease prevalence in East Asian populations and Koreans. Methods: We comprehensively reviewed the literature and conducted a cross-sectional study to analyze genomic databases, including the Genome Aggregation Database (gnomAD), Korean Variant Archive (KOVA), and Tohoku Medical Megabank Organization (ToMMo), to identify pathogenic SLC25A13 variants in East Asian populations. A founder 3-kilobase (kb) insertion in intron 16 of SLC25A13 was investigated using whole-genome sequencing data from 681 Koreans with the Linux grep command. Results: Twenty-three pathogenic SLC25A13 variants were identified, with c.852_855del being the most common. Analysis of data from 17,501 East Asian individuals in the gnomAD and ToMMo databases revealed a carrier frequency of 1 in 62 people. Analysis of data from 7,214 individuals in the gnomAD and KOVA databases revealed a carrier frequency of 1 in 86, corresponding to an estimated disease prevalence of 1 in 29,502.c.1177+1G > A was identified as the most prevalent pathogenic variant in Koreans. The 3 kb insertion in intron 16 was detected in three out of 681 individuals, indicating a carrier frequency of 1 in 228. Conclusions The high carrier frequency of citrin deficiency in East Asians highlights the need for enhanced genetic screening and counseling, particularly in Korea, providing a valuable reference for future studies on genetic diversity and pathogenic variants in this population.

Genomic structural variations in myeloid, lymphoid, and plasma cell neoplasms can provide key diagnostic, prog‑ nostic, and therapeutic information while elucidating the underlying disease biology. Several molecular diagnostic approaches play a central role in evaluating hematological malignancies. Traditional cytogenetic diagnostic assays, such as chromosome banding and fluorescence in situ hybridization, are essential components of the current diag‑ nostic workup that guide clinical care for most hematologic malignancies. However, each assay has inherent limita‑ tions, including limited resolution for detecting small structural variations and low coverage, and can only detect alterations in the target regions. Recently, the rapid expansion and increasing availability of novel and comprehensive genomic technologies have led to their use in clinical laboratories for clinical management and translational research.This review aims to describe the clinical relevance of structural variations in hematologic malignancies and introduce genomic technologies that may facilitate personalized tumor characterization and treatment.