Prenatal phenotyping: A community effort to enhance the Human Phenotype Ontology

Ferdinand Dhombres; Patricia Morgan; Bimal P. Chaudhari; Isabel Filges; Teresa N. Sparks; Pablo Lapunzina; Tony Roscioli; Umber Agarwal; Shagun Aggarwal; Claire Beneteau; Pilar Cacheiro; Leigh C. Carmody; Sophie Collardeau-Frachon; Esther A. Dempsey; Andreas Dufke; Michael Henri Duyzend; Mirna el Ghosh; Jessica L. Giordano; Ragnhild Glad; Ieva Grinfelde; Dominic G. Iliescu; Markus S. Ladewig; Monica C. Munoz-Torres; Marzia Pollazzon; Francesca Clementina Radio; Carlota Rodo; Raquel Gouveia Silva; Damian Smedley; Jagadish Chandrabose Sundaramurthi; Sabrina Toro; Irene Valenzuela; Nicole A. Vasilevsky; Ronald J. Wapner; Roni Zemet; Melissa A. Haendel; Peter N. Robinson

doi:10.1002/ajmg.c.31989

Prenatal phenotyping: A community effort to enhance the Human Phenotype Ontology

Ferdinand Dhombres, Patricia Morgan, Bimal P. Chaudhari, Isabel Filges, Teresa N. Sparks, Pablo Lapunzina, Tony Roscioli, Umber Agarwal, Shagun Aggarwal, Claire Beneteau, Pilar Cacheiro, Leigh C. Carmody, Sophie Collardeau-Frachon, Esther A. Dempsey, Andreas Dufke, Michael Henri Duyzend, Mirna el Ghosh, Jessica L. Giordano, Ragnhild Glad, Ieva GrinfeldeDominic G. Iliescu, Markus S. Ladewig, Monica C. Munoz-Torres, Marzia Pollazzon, Francesca Clementina Radio, Carlota Rodo, Raquel Gouveia Silva, Damian Smedley, Jagadish Chandrabose Sundaramurthi, Sabrina Toro, Irene Valenzuela, Nicole A. Vasilevsky, Ronald J. Wapner, Roni Zemet, Melissa A. Haendel, Peter N. Robinson

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Technological advances in both genome sequencing and prenatal imaging are increasing our ability to accurately recognize and diagnose Mendelian conditions prenatally. Phenotype-driven early genetic diagnosis of fetal genetic disease can help to strategize treatment options and clinical preventive measures during the perinatal period, to plan in utero therapies, and to inform parental decision-making. Fetal phenotypes of genetic diseases are often unique and at present are not well understood; more comprehensive knowledge about prenatal phenotypes and computational resources have an enormous potential to improve diagnostics and translational research. The Human Phenotype Ontology (HPO) has been widely used to support diagnostics and translational research in human genetics. To better support prenatal usage, the HPO consortium conducted a series of workshops with a group of domain experts in a variety of medical specialties, diagnostic techniques, as well as diseases and phenotypes related to prenatal medicine, including perinatal pathology, musculoskeletal anomalies, neurology, medical genetics, hydrops fetalis, craniofacial malformations, cardiology, neonatal-perinatal medicine, fetal medicine, placental pathology, prenatal imaging, and bioinformatics. We expanded the representation of prenatal phenotypes in HPO by adding 95 new phenotype terms under the Abnormality of prenatal development or birth (HP:0001197) grouping term, and revised definitions, synonyms, and disease annotations for most of the 152 terms that existed before the beginning of this effort. The expansion of prenatal phenotypes in HPO will support phenotype-driven prenatal exome and genome sequencing for precision genetic diagnostics of rare diseases to support prenatal care.

Original language	English (US)
Pages (from-to)	231-242
Number of pages	12
Journal	American Journal of Medical Genetics, Part C: Seminars in Medical Genetics
Volume	190
Issue number	2
DOIs	https://doi.org/10.1002/ajmg.c.31989
State	Published - Jun 2022
Externally published	Yes

Keywords

GA4GH Phenopacket
HPO
fetal pathology
human phenotype ontology
prenatal diagnosis
prenatal phenotyping

ASJC Scopus subject areas

Genetics
Genetics(clinical)

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10.1002/ajmg.c.31989

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Dhombres, F., Morgan, P., Chaudhari, B. P., Filges, I., Sparks, T. N., Lapunzina, P., Roscioli, T., Agarwal, U., Aggarwal, S., Beneteau, C., Cacheiro, P., Carmody, L. C., Collardeau-Frachon, S., Dempsey, E. A., Dufke, A., Duyzend, M. H., el Ghosh, M., Giordano, J. L., Glad, R., ... Robinson, P. N. (2022). Prenatal phenotyping: A community effort to enhance the Human Phenotype Ontology. American Journal of Medical Genetics, Part C: Seminars in Medical Genetics, 190(2), 231-242. https://doi.org/10.1002/ajmg.c.31989

Dhombres, F, Morgan, P, Chaudhari, BP, Filges, I, Sparks, TN, Lapunzina, P, Roscioli, T, Agarwal, U, Aggarwal, S, Beneteau, C, Cacheiro, P, Carmody, LC, Collardeau-Frachon, S, Dempsey, EA, Dufke, A, Duyzend, MH, el Ghosh, M, Giordano, JL, Glad, R, Grinfelde, I, Iliescu, DG, Ladewig, MS, Munoz-Torres, MC, Pollazzon, M, Radio, FC, Rodo, C, Silva, RG, Smedley, D, Sundaramurthi, JC, Toro, S, Valenzuela, I, Vasilevsky, NA, Wapner, RJ, Zemet, R, Haendel, MA & Robinson, PN 2022, 'Prenatal phenotyping: A community effort to enhance the Human Phenotype Ontology', American Journal of Medical Genetics, Part C: Seminars in Medical Genetics, vol. 190, no. 2, pp. 231-242. https://doi.org/10.1002/ajmg.c.31989

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title = "Prenatal phenotyping: A community effort to enhance the Human Phenotype Ontology",

abstract = "Technological advances in both genome sequencing and prenatal imaging are increasing our ability to accurately recognize and diagnose Mendelian conditions prenatally. Phenotype-driven early genetic diagnosis of fetal genetic disease can help to strategize treatment options and clinical preventive measures during the perinatal period, to plan in utero therapies, and to inform parental decision-making. Fetal phenotypes of genetic diseases are often unique and at present are not well understood; more comprehensive knowledge about prenatal phenotypes and computational resources have an enormous potential to improve diagnostics and translational research. The Human Phenotype Ontology (HPO) has been widely used to support diagnostics and translational research in human genetics. To better support prenatal usage, the HPO consortium conducted a series of workshops with a group of domain experts in a variety of medical specialties, diagnostic techniques, as well as diseases and phenotypes related to prenatal medicine, including perinatal pathology, musculoskeletal anomalies, neurology, medical genetics, hydrops fetalis, craniofacial malformations, cardiology, neonatal-perinatal medicine, fetal medicine, placental pathology, prenatal imaging, and bioinformatics. We expanded the representation of prenatal phenotypes in HPO by adding 95 new phenotype terms under the Abnormality of prenatal development or birth (HP:0001197) grouping term, and revised definitions, synonyms, and disease annotations for most of the 152 terms that existed before the beginning of this effort. The expansion of prenatal phenotypes in HPO will support phenotype-driven prenatal exome and genome sequencing for precision genetic diagnostics of rare diseases to support prenatal care.",

keywords = "GA4GH Phenopacket, HPO, fetal pathology, human phenotype ontology, prenatal diagnosis, prenatal phenotyping",

author = "Ferdinand Dhombres and Patricia Morgan and Chaudhari, {Bimal P.} and Isabel Filges and Sparks, {Teresa N.} and Pablo Lapunzina and Tony Roscioli and Umber Agarwal and Shagun Aggarwal and Claire Beneteau and Pilar Cacheiro and Carmody, {Leigh C.} and Sophie Collardeau-Frachon and Dempsey, {Esther A.} and Andreas Dufke and Duyzend, {Michael Henri} and {el Ghosh}, Mirna and Giordano, {Jessica L.} and Ragnhild Glad and Ieva Grinfelde and Iliescu, {Dominic G.} and Ladewig, {Markus S.} and Munoz-Torres, {Monica C.} and Marzia Pollazzon and Radio, {Francesca Clementina} and Carlota Rodo and Silva, {Raquel Gouveia} and Damian Smedley and Sundaramurthi, {Jagadish Chandrabose} and Sabrina Toro and Irene Valenzuela and Vasilevsky, {Nicole A.} and Wapner, {Ronald J.} and Roni Zemet and Haendel, {Melissa A.} and Robinson, {Peter N.}",

note = "Funding Information: This study was supported by NHGRI [1U24HG011449-01A1] and NIH Office of the Director 2R24OD011883-05A1], the European Union's Horizon 2020 research and innovation program under grant agreement No. 779257 (SOLVE-RD), The European Union's EIT-Health Innovation Program bp2020-2022, #20062 and #211015 (SUOG-Smart Ultrasound in Obstetrics and Gynecology), FIS-ISCIII PMP21/00063, the Australian Federal Government Medical Research Futures Fund (MRFF) PreGen: Filling the Gap—Antenatal Genomics and Newborn Care: The Translational PreGen Consortium and PI 20/01053, and British Heart Foundation grant FS/18/78/33932. This study has been partly generated within the European Reference Network on Rare Congenital Malformations and Rare Intellectual Disability (ERN-ITHACA). ERN-ITHACA is co-funded by the Health Program of the European Union. Funding Information: This study was supported by NHGRI [1U24HG011449‐01A1] and NIH Office of the Director 2R24OD011883‐05A1], the European Union's Horizon 2020 research and innovation program under grant agreement No. 779257 (SOLVE‐RD), The European Union's EIT‐Health Innovation Program bp2020‐2022, #20062 and #211015 (SUOG‐Smart Ultrasound in Obstetrics and Gynecology), FIS‐ISCIII PMP21/00063, the Australian Federal Government Medical Research Futures Fund (MRFF) PreGen: Filling the Gap—Antenatal Genomics and Newborn Care: The Translational PreGen Consortium and PI 20/01053, and British Heart Foundation grant FS/18/78/33932. This study has been partly generated within the European Reference Network on Rare Congenital Malformations and Rare Intellectual Disability (ERN‐ITHACA). ERN‐ITHACA is co‐funded by the Health Program of the European Union. Funding Information: European Commission; National Human Genome Research Institute; NIH Office of the Director; The European Union's EIT‐Health Innovation Program bp2020‐2022, Grant/Award Numbers: #211015, #20062; NIH Office of the Director (OD), the European Union's Horizon 2020 research and innovation program, Grant/Award Number: 779257; NHGRI, Grant/Award Numbers: 2R24OD011883‐05A1, 1U24HG011449‐01A1 Funding information Publisher Copyright: {\textcopyright} 2022 The Authors. American Journal of Medical Genetics Part C: Seminars in Medical Genetics published by Wiley Periodicals LLC.",

year = "2022",

month = jun,

doi = "10.1002/ajmg.c.31989",

language = "English (US)",

volume = "190",

pages = "231--242",

journal = "American Journal of Medical Genetics, Part C: Seminars in Medical Genetics",

issn = "1552-4868",

number = "2",

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T1 - Prenatal phenotyping

T2 - A community effort to enhance the Human Phenotype Ontology

AU - Dhombres, Ferdinand

AU - Morgan, Patricia

AU - Chaudhari, Bimal P.

AU - Filges, Isabel

AU - Sparks, Teresa N.

AU - Lapunzina, Pablo

AU - Roscioli, Tony

AU - Agarwal, Umber

AU - Aggarwal, Shagun

AU - Beneteau, Claire

AU - Cacheiro, Pilar

AU - Carmody, Leigh C.

AU - Collardeau-Frachon, Sophie

AU - Dempsey, Esther A.

AU - Dufke, Andreas

AU - Duyzend, Michael Henri

AU - el Ghosh, Mirna

AU - Giordano, Jessica L.

AU - Glad, Ragnhild

AU - Grinfelde, Ieva

AU - Iliescu, Dominic G.

AU - Ladewig, Markus S.

AU - Munoz-Torres, Monica C.

AU - Pollazzon, Marzia

AU - Radio, Francesca Clementina

AU - Rodo, Carlota

AU - Silva, Raquel Gouveia

AU - Smedley, Damian

AU - Sundaramurthi, Jagadish Chandrabose

AU - Toro, Sabrina

AU - Valenzuela, Irene

AU - Vasilevsky, Nicole A.

AU - Wapner, Ronald J.

AU - Zemet, Roni

AU - Haendel, Melissa A.

AU - Robinson, Peter N.

N1 - Funding Information: This study was supported by NHGRI [1U24HG011449-01A1] and NIH Office of the Director 2R24OD011883-05A1], the European Union's Horizon 2020 research and innovation program under grant agreement No. 779257 (SOLVE-RD), The European Union's EIT-Health Innovation Program bp2020-2022, #20062 and #211015 (SUOG-Smart Ultrasound in Obstetrics and Gynecology), FIS-ISCIII PMP21/00063, the Australian Federal Government Medical Research Futures Fund (MRFF) PreGen: Filling the Gap—Antenatal Genomics and Newborn Care: The Translational PreGen Consortium and PI 20/01053, and British Heart Foundation grant FS/18/78/33932. This study has been partly generated within the European Reference Network on Rare Congenital Malformations and Rare Intellectual Disability (ERN-ITHACA). ERN-ITHACA is co-funded by the Health Program of the European Union. Funding Information: This study was supported by NHGRI [1U24HG011449‐01A1] and NIH Office of the Director 2R24OD011883‐05A1], the European Union's Horizon 2020 research and innovation program under grant agreement No. 779257 (SOLVE‐RD), The European Union's EIT‐Health Innovation Program bp2020‐2022, #20062 and #211015 (SUOG‐Smart Ultrasound in Obstetrics and Gynecology), FIS‐ISCIII PMP21/00063, the Australian Federal Government Medical Research Futures Fund (MRFF) PreGen: Filling the Gap—Antenatal Genomics and Newborn Care: The Translational PreGen Consortium and PI 20/01053, and British Heart Foundation grant FS/18/78/33932. This study has been partly generated within the European Reference Network on Rare Congenital Malformations and Rare Intellectual Disability (ERN‐ITHACA). ERN‐ITHACA is co‐funded by the Health Program of the European Union. Funding Information: European Commission; National Human Genome Research Institute; NIH Office of the Director; The European Union's EIT‐Health Innovation Program bp2020‐2022, Grant/Award Numbers: #211015, #20062; NIH Office of the Director (OD), the European Union's Horizon 2020 research and innovation program, Grant/Award Number: 779257; NHGRI, Grant/Award Numbers: 2R24OD011883‐05A1, 1U24HG011449‐01A1 Funding information Publisher Copyright: © 2022 The Authors. American Journal of Medical Genetics Part C: Seminars in Medical Genetics published by Wiley Periodicals LLC.

PY - 2022/6

Y1 - 2022/6

N2 - Technological advances in both genome sequencing and prenatal imaging are increasing our ability to accurately recognize and diagnose Mendelian conditions prenatally. Phenotype-driven early genetic diagnosis of fetal genetic disease can help to strategize treatment options and clinical preventive measures during the perinatal period, to plan in utero therapies, and to inform parental decision-making. Fetal phenotypes of genetic diseases are often unique and at present are not well understood; more comprehensive knowledge about prenatal phenotypes and computational resources have an enormous potential to improve diagnostics and translational research. The Human Phenotype Ontology (HPO) has been widely used to support diagnostics and translational research in human genetics. To better support prenatal usage, the HPO consortium conducted a series of workshops with a group of domain experts in a variety of medical specialties, diagnostic techniques, as well as diseases and phenotypes related to prenatal medicine, including perinatal pathology, musculoskeletal anomalies, neurology, medical genetics, hydrops fetalis, craniofacial malformations, cardiology, neonatal-perinatal medicine, fetal medicine, placental pathology, prenatal imaging, and bioinformatics. We expanded the representation of prenatal phenotypes in HPO by adding 95 new phenotype terms under the Abnormality of prenatal development or birth (HP:0001197) grouping term, and revised definitions, synonyms, and disease annotations for most of the 152 terms that existed before the beginning of this effort. The expansion of prenatal phenotypes in HPO will support phenotype-driven prenatal exome and genome sequencing for precision genetic diagnostics of rare diseases to support prenatal care.

AB - Technological advances in both genome sequencing and prenatal imaging are increasing our ability to accurately recognize and diagnose Mendelian conditions prenatally. Phenotype-driven early genetic diagnosis of fetal genetic disease can help to strategize treatment options and clinical preventive measures during the perinatal period, to plan in utero therapies, and to inform parental decision-making. Fetal phenotypes of genetic diseases are often unique and at present are not well understood; more comprehensive knowledge about prenatal phenotypes and computational resources have an enormous potential to improve diagnostics and translational research. The Human Phenotype Ontology (HPO) has been widely used to support diagnostics and translational research in human genetics. To better support prenatal usage, the HPO consortium conducted a series of workshops with a group of domain experts in a variety of medical specialties, diagnostic techniques, as well as diseases and phenotypes related to prenatal medicine, including perinatal pathology, musculoskeletal anomalies, neurology, medical genetics, hydrops fetalis, craniofacial malformations, cardiology, neonatal-perinatal medicine, fetal medicine, placental pathology, prenatal imaging, and bioinformatics. We expanded the representation of prenatal phenotypes in HPO by adding 95 new phenotype terms under the Abnormality of prenatal development or birth (HP:0001197) grouping term, and revised definitions, synonyms, and disease annotations for most of the 152 terms that existed before the beginning of this effort. The expansion of prenatal phenotypes in HPO will support phenotype-driven prenatal exome and genome sequencing for precision genetic diagnostics of rare diseases to support prenatal care.

KW - GA4GH Phenopacket

KW - HPO

KW - fetal pathology

KW - human phenotype ontology

KW - prenatal diagnosis

KW - prenatal phenotyping

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Prenatal phenotyping: A community effort to enhance the Human Phenotype Ontology

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Keywords

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