Role of Genetics in Diagnosis and Management of Hypertrophic Cardiomyopathy: A Glimpse into the Future

Mohammed Tiseer Abbas; Nima Baba Ali; Juan M. Farina; Ahmed K. Mahmoud; Milagros Pereyra; Isabel G. Scalia; Moaz A. Kamel; Timothy Barry; Steven J. Lester; Charles R. Cannan; Rohit Mital; Susan Wilansky; William Kenneth Freeman; Chieh Ju Chao; Said Alsidawi; Chadi Ayoub; Reza Arsanjani

doi:10.3390/biomedicines12030682

Role of Genetics in Diagnosis and Management of Hypertrophic Cardiomyopathy: A Glimpse into the Future

Mohammed Tiseer Abbas, Nima Baba Ali, Juan M. Farina, Ahmed K. Mahmoud, Milagros Pereyra, Isabel G. Scalia, Moaz A. Kamel, Timothy Barry, Steven J. Lester, Charles R. Cannan, Rohit Mital, Susan Wilansky, William Kenneth Freeman, Chieh Ju Chao, Said Alsidawi, Chadi Ayoub, Reza Arsanjani

Cardiovascular Diseases

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

Abstract

Hypertrophic cardiomyopathy (HCM) is the most common inherited cardiomyopathy. It follows an autosomal dominant inheritance pattern in most cases, with incomplete penetrance and heterogeneity. It is familial in 60% of cases and most of these are caused by pathogenic variants in the core sarcomeric genes (MYH7, MYBPC3, TNNT2, TNNI3, MYL2, MYL3, TPM1, ACTC1). Genetic testing using targeted disease-specific panels that utilize next-generation sequencing (NGS) and include sarcomeric genes with the strongest evidence of association and syndrome-associated genes is highly recommended for every HCM patient to confirm the diagnosis, identify the molecular etiology, and guide screening and management. The yield of genetic testing for a disease-causing variant is 30% in sporadic cases and up to 60% in familial cases and in younger patients with typical asymmetrical septal hypertrophy. Genetic testing remains challenging in the interpretation of results and classification of variants. Therefore, in 2015 the American College of Medical Genetics and Genomics (ACMG) established guidelines to classify and interpret the variants with an emphasis on the necessity of periodic reassessment of variant classification as genetic knowledge rapidly expands. The current guidelines recommend focused cascade genetic testing regardless of age in phenotype-negative first-degree relatives if a variant with decisive evidence of pathogenicity has been identified in the proband. Genetic test results in family members guide longitudinal clinical surveillance. At present, there is emerging evidence for genetic test application in risk stratification and management but its implementation into clinical practice needs further study. Promising fields such as gene therapy and implementation of artificial intelligence in the diagnosis of HCM are emerging and paving the way for more effective screening and management, but many challenges and obstacles need to be overcome before establishing the practical implications of these new methods.

Original language	English (US)
Article number	682
Journal	Biomedicines
Volume	12
Issue number	3
DOIs	https://doi.org/10.3390/biomedicines12030682
State	Published - Mar 2024

Keywords

cascade testing
gene therapy
hypertrophic cardiomyopathy
longitudinal surveillance
next-generation sequencing
phenocopies
sarcomeric genes
whole exome sequencing

ASJC Scopus subject areas

Medicine (miscellaneous)
General Biochemistry, Genetics and Molecular Biology

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10.3390/biomedicines12030682

Cite this

Abbas, M. T., Baba Ali, N., Farina, J. M., Mahmoud, A. K., Pereyra, M., Scalia, I. G., Kamel, M. A., Barry, T., Lester, S. J., Cannan, C. R., Mital, R., Wilansky, S., Freeman, W. K., Chao, C. J., Alsidawi, S., Ayoub, C., & Arsanjani, R. (2024). Role of Genetics in Diagnosis and Management of Hypertrophic Cardiomyopathy: A Glimpse into the Future. Biomedicines, 12(3), Article 682. https://doi.org/10.3390/biomedicines12030682

Abbas, MT, Baba Ali, N, Farina, JM, Mahmoud, AK, Pereyra, M, Scalia, IG, Kamel, MA, Barry, T, Lester, SJ, Cannan, CR, Mital, R, Wilansky, S, Freeman, WK, Chao, CJ, Alsidawi, S, Ayoub, C & Arsanjani, R 2024, 'Role of Genetics in Diagnosis and Management of Hypertrophic Cardiomyopathy: A Glimpse into the Future', Biomedicines, vol. 12, no. 3, 682. https://doi.org/10.3390/biomedicines12030682

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title = "Role of Genetics in Diagnosis and Management of Hypertrophic Cardiomyopathy: A Glimpse into the Future",

abstract = "Hypertrophic cardiomyopathy (HCM) is the most common inherited cardiomyopathy. It follows an autosomal dominant inheritance pattern in most cases, with incomplete penetrance and heterogeneity. It is familial in 60% of cases and most of these are caused by pathogenic variants in the core sarcomeric genes (MYH7, MYBPC3, TNNT2, TNNI3, MYL2, MYL3, TPM1, ACTC1). Genetic testing using targeted disease-specific panels that utilize next-generation sequencing (NGS) and include sarcomeric genes with the strongest evidence of association and syndrome-associated genes is highly recommended for every HCM patient to confirm the diagnosis, identify the molecular etiology, and guide screening and management. The yield of genetic testing for a disease-causing variant is 30% in sporadic cases and up to 60% in familial cases and in younger patients with typical asymmetrical septal hypertrophy. Genetic testing remains challenging in the interpretation of results and classification of variants. Therefore, in 2015 the American College of Medical Genetics and Genomics (ACMG) established guidelines to classify and interpret the variants with an emphasis on the necessity of periodic reassessment of variant classification as genetic knowledge rapidly expands. The current guidelines recommend focused cascade genetic testing regardless of age in phenotype-negative first-degree relatives if a variant with decisive evidence of pathogenicity has been identified in the proband. Genetic test results in family members guide longitudinal clinical surveillance. At present, there is emerging evidence for genetic test application in risk stratification and management but its implementation into clinical practice needs further study. Promising fields such as gene therapy and implementation of artificial intelligence in the diagnosis of HCM are emerging and paving the way for more effective screening and management, but many challenges and obstacles need to be overcome before establishing the practical implications of these new methods.",

keywords = "cascade testing, gene therapy, hypertrophic cardiomyopathy, longitudinal surveillance, next-generation sequencing, phenocopies, sarcomeric genes, whole exome sequencing",

author = "Abbas, {Mohammed Tiseer} and {Baba Ali}, Nima and Farina, {Juan M.} and Mahmoud, {Ahmed K.} and Milagros Pereyra and Scalia, {Isabel G.} and Kamel, {Moaz A.} and Timothy Barry and Lester, {Steven J.} and Cannan, {Charles R.} and Rohit Mital and Susan Wilansky and Freeman, {William Kenneth} and Chao, {Chieh Ju} and Said Alsidawi and Chadi Ayoub and Reza Arsanjani",

note = "Publisher Copyright: {\textcopyright} 2024 by the authors.",

year = "2024",

month = mar,

doi = "10.3390/biomedicines12030682",

language = "English (US)",

volume = "12",

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T2 - A Glimpse into the Future

AU - Abbas, Mohammed Tiseer

AU - Baba Ali, Nima

AU - Farina, Juan M.

AU - Mahmoud, Ahmed K.

AU - Pereyra, Milagros

AU - Scalia, Isabel G.

AU - Kamel, Moaz A.

AU - Barry, Timothy

AU - Lester, Steven J.

AU - Cannan, Charles R.

AU - Mital, Rohit

AU - Wilansky, Susan

AU - Freeman, William Kenneth

AU - Chao, Chieh Ju

AU - Alsidawi, Said

AU - Ayoub, Chadi

AU - Arsanjani, Reza

PY - 2024/3

Y1 - 2024/3

N2 - Hypertrophic cardiomyopathy (HCM) is the most common inherited cardiomyopathy. It follows an autosomal dominant inheritance pattern in most cases, with incomplete penetrance and heterogeneity. It is familial in 60% of cases and most of these are caused by pathogenic variants in the core sarcomeric genes (MYH7, MYBPC3, TNNT2, TNNI3, MYL2, MYL3, TPM1, ACTC1). Genetic testing using targeted disease-specific panels that utilize next-generation sequencing (NGS) and include sarcomeric genes with the strongest evidence of association and syndrome-associated genes is highly recommended for every HCM patient to confirm the diagnosis, identify the molecular etiology, and guide screening and management. The yield of genetic testing for a disease-causing variant is 30% in sporadic cases and up to 60% in familial cases and in younger patients with typical asymmetrical septal hypertrophy. Genetic testing remains challenging in the interpretation of results and classification of variants. Therefore, in 2015 the American College of Medical Genetics and Genomics (ACMG) established guidelines to classify and interpret the variants with an emphasis on the necessity of periodic reassessment of variant classification as genetic knowledge rapidly expands. The current guidelines recommend focused cascade genetic testing regardless of age in phenotype-negative first-degree relatives if a variant with decisive evidence of pathogenicity has been identified in the proband. Genetic test results in family members guide longitudinal clinical surveillance. At present, there is emerging evidence for genetic test application in risk stratification and management but its implementation into clinical practice needs further study. Promising fields such as gene therapy and implementation of artificial intelligence in the diagnosis of HCM are emerging and paving the way for more effective screening and management, but many challenges and obstacles need to be overcome before establishing the practical implications of these new methods.

AB - Hypertrophic cardiomyopathy (HCM) is the most common inherited cardiomyopathy. It follows an autosomal dominant inheritance pattern in most cases, with incomplete penetrance and heterogeneity. It is familial in 60% of cases and most of these are caused by pathogenic variants in the core sarcomeric genes (MYH7, MYBPC3, TNNT2, TNNI3, MYL2, MYL3, TPM1, ACTC1). Genetic testing using targeted disease-specific panels that utilize next-generation sequencing (NGS) and include sarcomeric genes with the strongest evidence of association and syndrome-associated genes is highly recommended for every HCM patient to confirm the diagnosis, identify the molecular etiology, and guide screening and management. The yield of genetic testing for a disease-causing variant is 30% in sporadic cases and up to 60% in familial cases and in younger patients with typical asymmetrical septal hypertrophy. Genetic testing remains challenging in the interpretation of results and classification of variants. Therefore, in 2015 the American College of Medical Genetics and Genomics (ACMG) established guidelines to classify and interpret the variants with an emphasis on the necessity of periodic reassessment of variant classification as genetic knowledge rapidly expands. The current guidelines recommend focused cascade genetic testing regardless of age in phenotype-negative first-degree relatives if a variant with decisive evidence of pathogenicity has been identified in the proband. Genetic test results in family members guide longitudinal clinical surveillance. At present, there is emerging evidence for genetic test application in risk stratification and management but its implementation into clinical practice needs further study. Promising fields such as gene therapy and implementation of artificial intelligence in the diagnosis of HCM are emerging and paving the way for more effective screening and management, but many challenges and obstacles need to be overcome before establishing the practical implications of these new methods.

KW - cascade testing

KW - gene therapy

KW - hypertrophic cardiomyopathy

KW - longitudinal surveillance

KW - next-generation sequencing

KW - phenocopies

KW - sarcomeric genes

KW - whole exome sequencing

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U2 - 10.3390/biomedicines12030682

DO - 10.3390/biomedicines12030682

M3 - Review article

AN - SCOPUS:85188797682

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VL - 12

JO - Biomedicines

JF - Biomedicines

IS - 3

M1 - 682

ER -

Role of Genetics in Diagnosis and Management of Hypertrophic Cardiomyopathy: A Glimpse into the Future

Abstract

Keywords

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