Genetic prediction of 33 blood group phenotypes using an existing genotype dataset

Moslemi, Camous; Sækmose, Susanne G.; Larsen, Rune; Bay, Jakob T.; Brodersen, Thorsten; Didriksen, Maria; Hjalgrim, Henrik; Banasik, Karina; Nielsen, Kaspar R.; Bruun, Mie T.; Dowsett, Joseph; Dinh, Khoa M.; Mikkelsen, Susan; Mikkelsen, Christina; Hansen, Thomas F.; Ullum, Henrik; Erikstrup, Christian; Brunak, Søren; Krogfelt, Karen Angeliki; Storry, Jill R.; Ostrowski, Sisse R.; Olsson, Martin L.; Pedersen, Ole B.

doi:10.1111/trf.17575

Transfusion

2023

DOI: 10.1111/trf.17575

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Genetic prediction of 33 blood group phenotypes using an existing genotype dataset

Camous Moslemi,

Susanne G. Sækmose,

Rune Larsen

et al.

Abstract: BackgroundAccurate blood type data are essential for blood bank management, but due to costs, few of 43 blood group systems are routinely determined in Danish blood banks. However, a more comprehensive dataset of blood types is useful in scenarios such as rare blood type allocation. We aimed to investigate the viability and accuracy of predicting blood types by leveraging an existing dataset of imputed genotypes for two cohorts of approximately 90,000 each (Danish Blood Donor Study and Copenhagen Biobank) and … Show more

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2024

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Cited by 3 publications

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Increasing prevalence of galactose‐α‐1,3‐galactose sensitization in the Danish general adult population

Leth‐Møller,

van Hage,

Apostolovic

et al. 2024

Allergy

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BackgroundAlpha‐gal syndrome is a novel food allergy to the oligosaccharide galactose‐α‐1,3‐galactose (alpha‐gal) present in mammalian meat. Tick bites are considered an important route of sensitization to alpha‐gal. Data on alpha‐gal sensitization in the general population is scant. We utilized a unique data source of repeated population‐based health examination studies to assess prevalence, time trends, risk factors, and characteristics of alpha‐gal sensitization.MethodsAlpha‐gal sensitization was assessed in >11.000 adults from four health examination studies of randomly invited residents in the Copenhagen region conducted in 1990–1991, 2011–2012, 2012–2015, and 2016–2017. Alpha‐gal sensitization was defined as serum specific IgE (sIgE) to alpha‐gal ≥0.1 kUA/L; ≥0.35 kUA/L; ≥0.7 kUA/L; ≥3.5 kUA/L. The population was characterized according to genetically determined ABO blood group, aeroallergen sensitization, and pets at home.ResultsThe prevalence of sIgE to alpha‐gal ≥0.1 kUA/L was 1.3% in 1990–1991, 3.7% in 2012–2015 and 3.2% in 2016–2017. Of those sensitized to alpha‐gal >97% reported to consume red meat at least once a week, even for sIgE to alpha‐gal ≥3.5 kUA/L. Male sex, older age, aeroallergen sensitization, cat at home, and blood group A were associated with increased odds of alpha‐gal sensitization. The known protective effect of blood group B was confirmed.ConclusionIn this general adult population, the prevalence of alpha‐gal sensitization had doubled from 1990–1991 to 2016–2017. This could potentially be due to increased tick exposure and an increased atopic predisposition.

show abstract

Increasing prevalence of galactose‐α‐1,3‐galactose sensitization in the Danish general adult population

Leth‐Møller,

van Hage,

Apostolovic

et al. 2024

Allergy

View full text Add to dashboard Cite

show abstract

A deep learning approach to prediction of blood group antigens from genomic data

Moslemi,

Sækmose,

Larsen

et al. 2024

Transfusion

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BackgroundDeep learning methods are revolutionizing natural science. In this study, we aim to apply such techniques to develop blood type prediction models based on cheap to analyze and easily scalable screening array genotyping platforms.MethodsCombining existing blood types from blood banks and imputed screening array genotypes for ~111,000 Danish and 1168 Finnish blood donors, we used deep learning techniques to train and validate blood type prediction models for 36 antigens in 15 blood group systems. To account for missing genotypes a denoising autoencoder initial step was utilized, followed by a convolutional neural network blood type classifier.ResultsTwo thirds of the trained blood type prediction models demonstrated an F1‐accuracy above 99%. Models for antigens with low or high frequencies like, for example, Cw, low training cohorts like, for example, Cob, or very complicated genetic underpinning like, for example, RhD, proved to be more challenging for high accuracy (>99%) DL modeling. However, in the Danish cohort only 4 out of 36 models (Cob, Cw, D‐weak, Kpa) failed to achieve a prediction F1‐accuracy above 97%. This high predictive performance was replicated in the Finnish cohort.DiscussionHigh accuracy in a variety of blood groups proves viability of deep learning‐based blood type prediction using array chip genotypes, even in blood groups with nontrivial genetic underpinnings. These techniques are suitable for aiding in identifying blood donors with rare blood types by greatly narrowing down the potential pool of candidate donors before clinical grade confirmation.

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The American Rare Donor Program: 25 years supporting rare blood needs

Keller,

Nance,

Maurer

et al. 2024

Immunohematology

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Rare donor programs are critically important for those patients with rare phenotypes who have produced the associated alloantibodies that necessitate the provision of rare blood components. We describe the American Rare Donor Program (ARDP) and its establishment, members, and policies. The specific phenotypes meeting the ARDP criteria for inclusion are described. Data on the number of rare donors registered by year, and the number of requests for rare blood components received and fulfilled over the 25 years of the program (1998–2023) are provided, along with a description of some notable cases and discussion of how the program supports patients with sickle cell disease.

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Genetic prediction of 33 blood group phenotypes using an existing genotype dataset

Cited by 3 publications

References 36 publications

Increasing prevalence of galactose‐α‐1,3‐galactose sensitization in the Danish general adult population

Increasing prevalence of galactose‐α‐1,3‐galactose sensitization in the Danish general adult population

A deep learning approach to prediction of blood group antigens from genomic data

The American Rare Donor Program: 25 years supporting rare blood needs

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