Alka Malhotra, Erin Thorpe, Alison J Coffey, Revathi Rajkumar, Josephine Adjeman, Naomi Dianne Naa Adjeley Adjetey, Sharron Aglobitse, Felix Allotey, Todor Arsov, Joyce Ashong, Ebenezer Vincent Badoe, Donald Basel, Yvonne Brew, Chester Brown, Kerri Bosfield, Kari Casas, Mario Cornejo-Olivas, Laura Davis-Keppen, Abbey Freed, Kate Gibson, Parul Jayakar, Marilyn C Jones, Martina Kawome, Aimé Lumaka, Ursula Maier, Prince Makay, Gioconda Manassero, Marilyn Marbell-Wilson, Charles Marcuccilli, Diane Masser-Frye, Julie McCarrier, Hannah-Sharon Mills, Jeny Balazar Montoya, Gerrye Mubungu, Mamy Ngole, Jorge Perez, Eniko Pivnick, Milagros M Duenas Roque, Hildegard Pena Salguero, Arturo Serize, Marwan Shinawi, Fabio Sirchia, Claudia Soler-Alfonso, Alan Taylor, Lauren Thompson, Gail Vance, Adeline Vanderver, Keith Vaux, Danita Velasco, Samuel Wiafe, Ryan J Taft, Denise L Perry, Akanchha Kesari
{"title":"Multiple molecular diagnoses identified through genome sequencing in individuals with suspected rare disease.","authors":"Alka Malhotra, Erin Thorpe, Alison J Coffey, Revathi Rajkumar, Josephine Adjeman, Naomi Dianne Naa Adjeley Adjetey, Sharron Aglobitse, Felix Allotey, Todor Arsov, Joyce Ashong, Ebenezer Vincent Badoe, Donald Basel, Yvonne Brew, Chester Brown, Kerri Bosfield, Kari Casas, Mario Cornejo-Olivas, Laura Davis-Keppen, Abbey Freed, Kate Gibson, Parul Jayakar, Marilyn C Jones, Martina Kawome, Aimé Lumaka, Ursula Maier, Prince Makay, Gioconda Manassero, Marilyn Marbell-Wilson, Charles Marcuccilli, Diane Masser-Frye, Julie McCarrier, Hannah-Sharon Mills, Jeny Balazar Montoya, Gerrye Mubungu, Mamy Ngole, Jorge Perez, Eniko Pivnick, Milagros M Duenas Roque, Hildegard Pena Salguero, Arturo Serize, Marwan Shinawi, Fabio Sirchia, Claudia Soler-Alfonso, Alan Taylor, Lauren Thompson, Gail Vance, Adeline Vanderver, Keith Vaux, Danita Velasco, Samuel Wiafe, Ryan J Taft, Denise L Perry, Akanchha Kesari","doi":"10.1016/j.xhgg.2025.100430","DOIUrl":null,"url":null,"abstract":"<p><p>Genome sequencing is a powerful and comprehensive test that detects multiple variants of different types. The interrogation of variants across the genome enables the identification of multiple molecular diagnoses (MMDs) in a single individual. In this retrospective study, we describe individuals in whom MMDs were associated with the proband's indication for testing (IFT), secondary findings, or incidental findings. An MMD is considered where at least one of the findings is associated with the primary IFT and all variants are classified as either likely pathogenic or pathogenic. Clinical genome sequencing was performed for all individuals as part of the iHope program at the Illumina Laboratory Services between September 2017-December 2023. The iHope cohort included 1846 affected individuals with 872 (47.2%) found to have at least one likely pathogenic or pathogenic variant associated with the primary IFT. Of these, 81 (9.3%) individuals had multiple clinically significant molecular findings, including 76 individuals with reported variants associated with two different conditions, and five individuals with more than two molecular findings. Thirty-two individuals (3.7%) had at least two molecular diagnoses related to the primary IFT, while in 49 (5.6%) individuals, the variant(s) reported for the second condition constituted a secondary or incidental finding. Our study highlights that among individuals with a likely pathogenic or pathogenic finding identified through genome sequencing, nine percent have MMDs, which may have been missed with different testing methods. Of note, approximately 60% of the 81 individuals with an MMD had a potentially actionable secondary or incidental finding.</p>","PeriodicalId":34530,"journal":{"name":"HGG Advances","volume":" ","pages":"100430"},"PeriodicalIF":3.3000,"publicationDate":"2025-04-07","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"HGG Advances","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1016/j.xhgg.2025.100430","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"GENETICS & HEREDITY","Score":null,"Total":0}
引用次数: 0
Abstract
Genome sequencing is a powerful and comprehensive test that detects multiple variants of different types. The interrogation of variants across the genome enables the identification of multiple molecular diagnoses (MMDs) in a single individual. In this retrospective study, we describe individuals in whom MMDs were associated with the proband's indication for testing (IFT), secondary findings, or incidental findings. An MMD is considered where at least one of the findings is associated with the primary IFT and all variants are classified as either likely pathogenic or pathogenic. Clinical genome sequencing was performed for all individuals as part of the iHope program at the Illumina Laboratory Services between September 2017-December 2023. The iHope cohort included 1846 affected individuals with 872 (47.2%) found to have at least one likely pathogenic or pathogenic variant associated with the primary IFT. Of these, 81 (9.3%) individuals had multiple clinically significant molecular findings, including 76 individuals with reported variants associated with two different conditions, and five individuals with more than two molecular findings. Thirty-two individuals (3.7%) had at least two molecular diagnoses related to the primary IFT, while in 49 (5.6%) individuals, the variant(s) reported for the second condition constituted a secondary or incidental finding. Our study highlights that among individuals with a likely pathogenic or pathogenic finding identified through genome sequencing, nine percent have MMDs, which may have been missed with different testing methods. Of note, approximately 60% of the 81 individuals with an MMD had a potentially actionable secondary or incidental finding.
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