Artificial Intelligence and Cardiovascular Genetics

Chayakrit Krittanawong; Kipp W. Johnson; Edward Choi; Scott Kaplin; Eric Venner; Mullai Murugan; Zhen Wang; Benjamin S. Glicksberg; Christopher I. Amos; Michael C. Schatz; W. H. Wilson Tang

doi:10.3390/life12020279

Artificial Intelligence and Cardiovascular Genetics

Chayakrit Krittanawong, Kipp W. Johnson, Edward Choi, Scott Kaplin, Eric Venner, Mullai Murugan, Zhen Wang, Benjamin S. Glicksberg, Christopher I. Amos, Michael C. Schatz, W. H. Wilson Tang

Quantitative Health Sciences

Research output: Contribution to journal › Review article › peer-review

Abstract

Polygenic diseases, which are genetic disorders caused by the combined action of multiple genes, pose unique and significant challenges for the diagnosis and management of affected patients. A major goal of cardiovascular medicine has been to understand how genetic variation leads to the clinical heterogeneity seen in polygenic cardiovascular diseases (CVDs). Recent advances and emerging technologies in artificial intelligence (AI), coupled with the ever-increasing availability of next generation sequencing (NGS) technologies, now provide researchers with unprecedented possibilities for dynamic and complex biological genomic analyses. Combining these technologies may lead to a deeper understanding of heterogeneous polygenic CVDs, better prognostic guidance, and, ultimately, greater personalized medicine. Advances will likely be achieved through increasingly frequent and robust genomic characterization of patients, as well the integration of genomic data with other clinical data, such as cardiac imaging, coronary angiography, and clinical biomarkers. This review discusses the current opportunities and limitations of genomics; provides a brief overview of AI; and identifies the current applications, limitations, and future directions of AI in genomics.

Original language	English (US)
Article number	279
Journal	Life
Volume	12
Issue number	2
DOIs	https://doi.org/10.3390/life12020279
State	Published - Feb 2022

Keywords

AI
Artificial intelligence
Cardiology
Cardiovascular disease
Deep learning
Genetics
Genomics
Machine learning

ASJC Scopus subject areas

Ecology, Evolution, Behavior and Systematics
General Biochemistry, Genetics and Molecular Biology
Space and Planetary Science
Palaeontology

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title = "Artificial Intelligence and Cardiovascular Genetics",

abstract = "Polygenic diseases, which are genetic disorders caused by the combined action of multiple genes, pose unique and significant challenges for the diagnosis and management of affected patients. A major goal of cardiovascular medicine has been to understand how genetic variation leads to the clinical heterogeneity seen in polygenic cardiovascular diseases (CVDs). Recent advances and emerging technologies in artificial intelligence (AI), coupled with the ever-increasing availability of next generation sequencing (NGS) technologies, now provide researchers with unprecedented possibilities for dynamic and complex biological genomic analyses. Combining these technologies may lead to a deeper understanding of heterogeneous polygenic CVDs, better prognostic guidance, and, ultimately, greater personalized medicine. Advances will likely be achieved through increasingly frequent and robust genomic characterization of patients, as well the integration of genomic data with other clinical data, such as cardiac imaging, coronary angiography, and clinical biomarkers. This review discusses the current opportunities and limitations of genomics; provides a brief overview of AI; and identifies the current applications, limitations, and future directions of AI in genomics.",

keywords = "AI, Artificial intelligence, Cardiology, Cardiovascular disease, Deep learning, Genetics, Genomics, Machine learning",

author = "Chayakrit Krittanawong and Johnson, {Kipp W.} and Edward Choi and Scott Kaplin and Eric Venner and Mullai Murugan and Zhen Wang and Glicksberg, {Benjamin S.} and Amos, {Christopher I.} and Schatz, {Michael C.} and {Wilson Tang}, {W. H.}",

note = "Publisher Copyright: {\textcopyright} 2022 by the authors. Licensee MDPI, Basel, Switzerland.",

year = "2022",

month = feb,

doi = "10.3390/life12020279",

language = "English (US)",

volume = "12",

journal = "Life",

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AU - Krittanawong, Chayakrit

AU - Johnson, Kipp W.

AU - Choi, Edward

AU - Kaplin, Scott

AU - Venner, Eric

AU - Murugan, Mullai

AU - Wang, Zhen

AU - Glicksberg, Benjamin S.

AU - Amos, Christopher I.

AU - Schatz, Michael C.

AU - Wilson Tang, W. H.

PY - 2022/2

Y1 - 2022/2

N2 - Polygenic diseases, which are genetic disorders caused by the combined action of multiple genes, pose unique and significant challenges for the diagnosis and management of affected patients. A major goal of cardiovascular medicine has been to understand how genetic variation leads to the clinical heterogeneity seen in polygenic cardiovascular diseases (CVDs). Recent advances and emerging technologies in artificial intelligence (AI), coupled with the ever-increasing availability of next generation sequencing (NGS) technologies, now provide researchers with unprecedented possibilities for dynamic and complex biological genomic analyses. Combining these technologies may lead to a deeper understanding of heterogeneous polygenic CVDs, better prognostic guidance, and, ultimately, greater personalized medicine. Advances will likely be achieved through increasingly frequent and robust genomic characterization of patients, as well the integration of genomic data with other clinical data, such as cardiac imaging, coronary angiography, and clinical biomarkers. This review discusses the current opportunities and limitations of genomics; provides a brief overview of AI; and identifies the current applications, limitations, and future directions of AI in genomics.

AB - Polygenic diseases, which are genetic disorders caused by the combined action of multiple genes, pose unique and significant challenges for the diagnosis and management of affected patients. A major goal of cardiovascular medicine has been to understand how genetic variation leads to the clinical heterogeneity seen in polygenic cardiovascular diseases (CVDs). Recent advances and emerging technologies in artificial intelligence (AI), coupled with the ever-increasing availability of next generation sequencing (NGS) technologies, now provide researchers with unprecedented possibilities for dynamic and complex biological genomic analyses. Combining these technologies may lead to a deeper understanding of heterogeneous polygenic CVDs, better prognostic guidance, and, ultimately, greater personalized medicine. Advances will likely be achieved through increasingly frequent and robust genomic characterization of patients, as well the integration of genomic data with other clinical data, such as cardiac imaging, coronary angiography, and clinical biomarkers. This review discusses the current opportunities and limitations of genomics; provides a brief overview of AI; and identifies the current applications, limitations, and future directions of AI in genomics.

KW - AI

KW - Artificial intelligence

KW - Cardiology

KW - Cardiovascular disease

KW - Deep learning

KW - Genetics

KW - Genomics

KW - Machine learning

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Artificial Intelligence and Cardiovascular Genetics

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Keywords

ASJC Scopus subject areas

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