Recommendations for bioinformatics in clinical practice

Ksenia Lavrichenko; Emilie Sofie Engdal; Rasmus L Marvig; Anders Jemt; Jone Marius Vignes; Henrikki Almusa; Kristine Bilgrav Saether; Eiríkur Briem; Eva Caceres; Edda María Elvarsdóttir; Magnús Halldór Gíslason; Maria K Haanpää; Viktor Henmyr; Ronja Hotakainen; Eevi Kaasinen; Roan Kanninga; Sofia Khan; Mary Gertrude Lie-Nielsen; Majbritt Busk Madsen; Niklas Mähler; Khurram Maqbool; Ramprasad Neethiraj; Karl Nyrén; Minna Paavola; Peter Pruisscher; Ying Sheng; Ashish Kumar Singh; Aashish Srivastava; Thomas K Stautland; Daniel T Andreasen; Esmee Ten Berk de Boer; Søren Vang; Valtteri Wirta; Frederik Otzen Bagger

doi:10.1186/s13073-025-01543-4

Recommendations for bioinformatics in clinical practice

Ksenia Lavrichenko, Emilie Sofie Engdal, Rasmus L Marvig, Anders Jemt, Jone Marius Vignes, Henrikki Almusa, Kristine Bilgrav Saether, Eiríkur Briem, Eva Caceres, Edda María Elvarsdóttir, Magnús Halldór Gíslason, Maria K Haanpää, Viktor Henmyr, Ronja Hotakainen, Eevi Kaasinen, Roan Kanninga, Sofia Khan, Mary Gertrude Lie-Nielsen, Majbritt Busk Madsen, Niklas MählerKhurram Maqbool, Ramprasad Neethiraj, Karl Nyrén, Minna Paavola, Peter Pruisscher, Ying Sheng, Ashish Kumar Singh, Aashish Srivastava, Thomas K Stautland, Daniel T Andreasen, Esmee Ten Berk de Boer, Søren Vang, Valtteri Wirta, Frederik Otzen Bagger^*

^*Corresponding author af dette arbejde

Afdeling for Genomisk Medicin DIA

1 Citationer (Scopus)

Abstract

BACKGROUND: Next-generation sequencing (NGS) is well established in clinical diagnostics, and whole-genome sequencing (WGS) is increasingly becoming the method of choice, as a result of lower prices and robust comprehensive data. While guidelines exist for variant interpretation and laboratory quality considerations, there remains a need for standardised bioinformatics practices to ensure clinical consensus, accuracy, reproducibility and comparability.

METHODS: This article presents consensus recommendations developed by 13 clinical bioinformatics units participating in the Nordic Alliance for Clinical Genomics (NACG) by expert bioinformaticians working in clinical production. The recommendations are based on clinical practice and focus on analysis types, test and validation, standardisation and accreditation, as well as core competencies and technical management required for clinical bioinformatics operations.

RESULTS: Key recommendations include adopting the hg38 genome build as reference, and a standard set of recommended analyses, including the use of multiple tools for structural variant (SV) calling and in-house data sets for filtering recurrent calls. Clinical bioinformatics in production should operate at standards similar to ISO 15189, utilising off-grid clinical-grade high-performance computing systems, standardised file formats and strict version control. Reproducibility should be ensured through containerised software environments. Pipelines must be documented and tested for accuracy and reproducibility, minimally covering unit, integration and end-to-end testing. Standard truth sets such as GIAB and SEQC2 for germline and somatic variant calling, respectively, should be supplemented by recall testing of real human samples that have been previously tested using a validated method. Data integrity must be verified using file hashing, while sample identity must be confirmed through fingerprinting and genetically inferred identification markers such as sex and relatedness. Finally, clinical bioinformatics should encompass diverse skills, including software development, data management, quality assurance and domain expertise in human genetics.

CONCLUSIONS: These recommendations provide a consensus framework for standardising bioinformatics practices across clinical WGS applications and can serve as a practical guide to facilities that are new to large-scale sequencing-based diagnostics, or as a reference for those who already run high-volume clinical production using NGS.

Originalsprog	Engelsk
Artikelnummer	124
Tidsskrift	Genome Medicine
Vol/bind	17
Udgave nummer	1
Sider (fra-til)	124
ISSN	1756-994X
DOI	https://doi.org/10.1186/s13073-025-01543-4
Status	Udgivet - 17 okt. 2025

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10.1186/s13073-025-01543-4Licens: CC BY-NC-ND

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Lavrichenko, K., Engdal, E. S., Marvig, R. L., Jemt, A., Vignes, J. M., Almusa, H., Saether, K. B., Briem, E., Caceres, E., Elvarsdóttir, E. M., Gíslason, M. H., Haanpää, M. K., Henmyr, V., Hotakainen, R., Kaasinen, E., Kanninga, R., Khan, S., Lie-Nielsen, M. G., Madsen, M. B., ... Bagger, F. O. (2025). Recommendations for bioinformatics in clinical practice. Genome Medicine, 17(1), 124. Artikel 124. https://doi.org/10.1186/s13073-025-01543-4

Lavrichenko, K, Engdal, ES, Marvig, RL, Jemt, A, Vignes, JM, Almusa, H, Saether, KB, Briem, E, Caceres, E, Elvarsdóttir, EM, Gíslason, MH, Haanpää, MK, Henmyr, V, Hotakainen, R, Kaasinen, E, Kanninga, R, Khan, S, Lie-Nielsen, MG, Madsen, MB, Mähler, N, Maqbool, K, Neethiraj, R, Nyrén, K, Paavola, M, Pruisscher, P, Sheng, Y, Singh, AK, Srivastava, A, Stautland, TK, Andreasen, DT, de Boer, ETB, Vang, S, Wirta, V & Bagger, FO 2025, 'Recommendations for bioinformatics in clinical practice', Genome Medicine, bind 17, nr. 1, 124, s. 124. https://doi.org/10.1186/s13073-025-01543-4

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abstract = "BACKGROUND: Next-generation sequencing (NGS) is well established in clinical diagnostics, and whole-genome sequencing (WGS) is increasingly becoming the method of choice, as a result of lower prices and robust comprehensive data. While guidelines exist for variant interpretation and laboratory quality considerations, there remains a need for standardised bioinformatics practices to ensure clinical consensus, accuracy, reproducibility and comparability.METHODS: This article presents consensus recommendations developed by 13 clinical bioinformatics units participating in the Nordic Alliance for Clinical Genomics (NACG) by expert bioinformaticians working in clinical production. The recommendations are based on clinical practice and focus on analysis types, test and validation, standardisation and accreditation, as well as core competencies and technical management required for clinical bioinformatics operations.RESULTS: Key recommendations include adopting the hg38 genome build as reference, and a standard set of recommended analyses, including the use of multiple tools for structural variant (SV) calling and in-house data sets for filtering recurrent calls. Clinical bioinformatics in production should operate at standards similar to ISO 15189, utilising off-grid clinical-grade high-performance computing systems, standardised file formats and strict version control. Reproducibility should be ensured through containerised software environments. Pipelines must be documented and tested for accuracy and reproducibility, minimally covering unit, integration and end-to-end testing. Standard truth sets such as GIAB and SEQC2 for germline and somatic variant calling, respectively, should be supplemented by recall testing of real human samples that have been previously tested using a validated method. Data integrity must be verified using file hashing, while sample identity must be confirmed through fingerprinting and genetically inferred identification markers such as sex and relatedness. Finally, clinical bioinformatics should encompass diverse skills, including software development, data management, quality assurance and domain expertise in human genetics.CONCLUSIONS: These recommendations provide a consensus framework for standardising bioinformatics practices across clinical WGS applications and can serve as a practical guide to facilities that are new to large-scale sequencing-based diagnostics, or as a reference for those who already run high-volume clinical production using NGS.",

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author = "Ksenia Lavrichenko and Engdal, {Emilie Sofie} and Marvig, {Rasmus L} and Anders Jemt and Vignes, {Jone Marius} and Henrikki Almusa and Saether, {Kristine Bilgrav} and Eir{\'i}kur Briem and Eva Caceres and Elvarsd{\'o}ttir, {Edda Mar{\'i}a} and G{\'i}slason, {Magn{\'u}s Halld{\'o}r} and Haanp{\"a}{\"a}, {Maria K} and Viktor Henmyr and Ronja Hotakainen and Eevi Kaasinen and Roan Kanninga and Sofia Khan and Lie-Nielsen, {Mary Gertrude} and Madsen, {Majbritt Busk} and Niklas M{\"a}hler and Khurram Maqbool and Ramprasad Neethiraj and Karl Nyr{\'e}n and Minna Paavola and Peter Pruisscher and Ying Sheng and Singh, {Ashish Kumar} and Aashish Srivastava and Stautland, {Thomas K} and Andreasen, {Daniel T} and {de Boer}, {Esmee Ten Berk} and S{\o}ren Vang and Valtteri Wirta and Bagger, {Frederik Otzen}",

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doi = "10.1186/s13073-025-01543-4",

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T1 - Recommendations for bioinformatics in clinical practice

AU - Lavrichenko, Ksenia

AU - Engdal, Emilie Sofie

AU - Marvig, Rasmus L

AU - Jemt, Anders

AU - Vignes, Jone Marius

AU - Almusa, Henrikki

AU - Saether, Kristine Bilgrav

AU - Briem, Eiríkur

AU - Caceres, Eva

AU - Elvarsdóttir, Edda María

AU - Gíslason, Magnús Halldór

AU - Haanpää, Maria K

AU - Henmyr, Viktor

AU - Hotakainen, Ronja

AU - Kaasinen, Eevi

AU - Kanninga, Roan

AU - Khan, Sofia

AU - Lie-Nielsen, Mary Gertrude

AU - Madsen, Majbritt Busk

AU - Mähler, Niklas

AU - Maqbool, Khurram

AU - Neethiraj, Ramprasad

AU - Nyrén, Karl

AU - Paavola, Minna

AU - Pruisscher, Peter

AU - Sheng, Ying

AU - Singh, Ashish Kumar

AU - Srivastava, Aashish

AU - Stautland, Thomas K

AU - Andreasen, Daniel T

AU - de Boer, Esmee Ten Berk

AU - Vang, Søren

AU - Wirta, Valtteri

AU - Bagger, Frederik Otzen

PY - 2025/10/17

Y1 - 2025/10/17

N2 - BACKGROUND: Next-generation sequencing (NGS) is well established in clinical diagnostics, and whole-genome sequencing (WGS) is increasingly becoming the method of choice, as a result of lower prices and robust comprehensive data. While guidelines exist for variant interpretation and laboratory quality considerations, there remains a need for standardised bioinformatics practices to ensure clinical consensus, accuracy, reproducibility and comparability.METHODS: This article presents consensus recommendations developed by 13 clinical bioinformatics units participating in the Nordic Alliance for Clinical Genomics (NACG) by expert bioinformaticians working in clinical production. The recommendations are based on clinical practice and focus on analysis types, test and validation, standardisation and accreditation, as well as core competencies and technical management required for clinical bioinformatics operations.RESULTS: Key recommendations include adopting the hg38 genome build as reference, and a standard set of recommended analyses, including the use of multiple tools for structural variant (SV) calling and in-house data sets for filtering recurrent calls. Clinical bioinformatics in production should operate at standards similar to ISO 15189, utilising off-grid clinical-grade high-performance computing systems, standardised file formats and strict version control. Reproducibility should be ensured through containerised software environments. Pipelines must be documented and tested for accuracy and reproducibility, minimally covering unit, integration and end-to-end testing. Standard truth sets such as GIAB and SEQC2 for germline and somatic variant calling, respectively, should be supplemented by recall testing of real human samples that have been previously tested using a validated method. Data integrity must be verified using file hashing, while sample identity must be confirmed through fingerprinting and genetically inferred identification markers such as sex and relatedness. Finally, clinical bioinformatics should encompass diverse skills, including software development, data management, quality assurance and domain expertise in human genetics.CONCLUSIONS: These recommendations provide a consensus framework for standardising bioinformatics practices across clinical WGS applications and can serve as a practical guide to facilities that are new to large-scale sequencing-based diagnostics, or as a reference for those who already run high-volume clinical production using NGS.

AB - BACKGROUND: Next-generation sequencing (NGS) is well established in clinical diagnostics, and whole-genome sequencing (WGS) is increasingly becoming the method of choice, as a result of lower prices and robust comprehensive data. While guidelines exist for variant interpretation and laboratory quality considerations, there remains a need for standardised bioinformatics practices to ensure clinical consensus, accuracy, reproducibility and comparability.METHODS: This article presents consensus recommendations developed by 13 clinical bioinformatics units participating in the Nordic Alliance for Clinical Genomics (NACG) by expert bioinformaticians working in clinical production. The recommendations are based on clinical practice and focus on analysis types, test and validation, standardisation and accreditation, as well as core competencies and technical management required for clinical bioinformatics operations.RESULTS: Key recommendations include adopting the hg38 genome build as reference, and a standard set of recommended analyses, including the use of multiple tools for structural variant (SV) calling and in-house data sets for filtering recurrent calls. Clinical bioinformatics in production should operate at standards similar to ISO 15189, utilising off-grid clinical-grade high-performance computing systems, standardised file formats and strict version control. Reproducibility should be ensured through containerised software environments. Pipelines must be documented and tested for accuracy and reproducibility, minimally covering unit, integration and end-to-end testing. Standard truth sets such as GIAB and SEQC2 for germline and somatic variant calling, respectively, should be supplemented by recall testing of real human samples that have been previously tested using a validated method. Data integrity must be verified using file hashing, while sample identity must be confirmed through fingerprinting and genetically inferred identification markers such as sex and relatedness. Finally, clinical bioinformatics should encompass diverse skills, including software development, data management, quality assurance and domain expertise in human genetics.CONCLUSIONS: These recommendations provide a consensus framework for standardising bioinformatics practices across clinical WGS applications and can serve as a practical guide to facilities that are new to large-scale sequencing-based diagnostics, or as a reference for those who already run high-volume clinical production using NGS.

KW - Computational Biology/methods

KW - Humans

KW - High-Throughput Nucleotide Sequencing/standards

KW - Genomics/standards

KW - Reproducibility of Results

KW - Software

KW - Whole Genome Sequencing/standards

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DO - 10.1186/s13073-025-01543-4

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JO - Genome Medicine

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Recommendations for bioinformatics in clinical practice

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