Combined assessment of sex- and mutation-specific information for risk stratification in type 1 long QT syndrome

Jason Costa; Coeli M. Lopes; Alon Barsheshet; Arthur J. Moss; Dmitriy Migdalovich; Gregory Ouellet; Scott McNitt; Slava Polonsky; Jennifer L. Robinson; Wojciech Zareba; Michael J. Ackerman; Jesaia Benhorin; Elizabeth S. Kaufman; Pyotr G. Platonov; Wataru Shimizu; Jeffrey A. Towbin; G. Michael Vincent; Arthur A.M. Wilde; Ilan Goldenberg

doi:10.1016/j.hrthm.2012.01.020

Combined assessment of sex- and mutation-specific information for risk stratification in type 1 long QT syndrome

Jason Costa, Coeli M. Lopes, Alon Barsheshet, Arthur J. Moss, Dmitriy Migdalovich, Gregory Ouellet, Scott McNitt, Slava Polonsky, Jennifer L. Robinson, Wojciech Zareba, Michael J. Ackerman, Jesaia Benhorin, Elizabeth S. Kaufman, Pyotr G. Platonov, Wataru Shimizu, Jeffrey A. Towbin, G. Michael Vincent, Arthur A.M. Wilde, Ilan Goldenberg^*

^*Corresponding author for this work

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

52 Scopus citations

Abstract

Background: Men and women with type 1 long QT syndrome (LQT1) exhibit time-dependent differences in the risk for cardiac events. Objective: We hypothesized that sex-specific risk for LQT1 is related to the location and function of the disease-causing mutation in the KCNQ1 gene. Methods: The risk for life-threatening cardiac events (comprising aborted cardiac arrest [ACA] or sudden cardiac death [SCD]) from birth through age 40 years was assessed among 1051 individuals with LQT1 (450 men and 601 women) by the location and function of the LQT1-causing mutation (prespecified as mutations in the intracellular domains linking the membrane-spanning segments [ie, S2-S3 and S4-S5 cytoplasmic loops] involved in adrenergic channel regulation vs other mutations). Results: Multivariate analysis showed that during childhood (age group: 0-13 years) men had >2-fold (P <.003) increased risk for ACA/SCD than did women, whereas after the onset of adolescence the risk for ACA/SCD was similar between men and women (hazard ratio = 0.89 [P =.64]). The presence of cytoplasmic-loop mutations was associated with a 2.7-fold (P <.001) increased risk for ACA/SCD among women, but it did not affect the risk among men (hazard ratio 1.37; P =.26). Time-dependent syncope was associated with a more pronounced risk-increase among men than among women (hazard ratio 4.73 [P <.001] and 2.43 [P =.02], respectively), whereas a prolonged corrected QT interval (<500 ms) was associated with a higher risk among women than among men. Conclusion: Our findings suggest that the combined assessment of clinical and mutation location/functional data can be used to identify sex-specific risk factors for life-threatening events for patients with LQT1.

Original language	English
Pages (from-to)	892-898
Number of pages	7
Journal	Heart Rhythm
Volume	9
Issue number	6
DOIs	https://doi.org/10.1016/j.hrthm.2012.01.020
State	Published - Jun 2012
Externally published	Yes

Funding

Funders	Funder number
GeneDx
National Institutes of Health
National Heart, Lung, and Blood Institute	R01HL051618

Keywords

Cytoplasmic-loop mutations
Long QT syndrome
Sex
Sudden cardiac death

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10.1016/j.hrthm.2012.01.020

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Costa, J., Lopes, C. M., Barsheshet, A., Moss, A. J., Migdalovich, D., Ouellet, G., McNitt, S., Polonsky, S., Robinson, J. L., Zareba, W., Ackerman, M. J., Benhorin, J., Kaufman, E. S., Platonov, P. G., Shimizu, W., Towbin, J. A., Vincent, G. M., Wilde, A. A. M., & Goldenberg, I. (2012). Combined assessment of sex- and mutation-specific information for risk stratification in type 1 long QT syndrome. Heart Rhythm, 9(6), 892-898. https://doi.org/10.1016/j.hrthm.2012.01.020

@article{48299c76400f4b4a9d18b47025cddff7,

title = "Combined assessment of sex- and mutation-specific information for risk stratification in type 1 long QT syndrome",

abstract = "Background: Men and women with type 1 long QT syndrome (LQT1) exhibit time-dependent differences in the risk for cardiac events. Objective: We hypothesized that sex-specific risk for LQT1 is related to the location and function of the disease-causing mutation in the KCNQ1 gene. Methods: The risk for life-threatening cardiac events (comprising aborted cardiac arrest [ACA] or sudden cardiac death [SCD]) from birth through age 40 years was assessed among 1051 individuals with LQT1 (450 men and 601 women) by the location and function of the LQT1-causing mutation (prespecified as mutations in the intracellular domains linking the membrane-spanning segments [ie, S2-S3 and S4-S5 cytoplasmic loops] involved in adrenergic channel regulation vs other mutations). Results: Multivariate analysis showed that during childhood (age group: 0-13 years) men had >2-fold (P <.003) increased risk for ACA/SCD than did women, whereas after the onset of adolescence the risk for ACA/SCD was similar between men and women (hazard ratio = 0.89 [P =.64]). The presence of cytoplasmic-loop mutations was associated with a 2.7-fold (P <.001) increased risk for ACA/SCD among women, but it did not affect the risk among men (hazard ratio 1.37; P =.26). Time-dependent syncope was associated with a more pronounced risk-increase among men than among women (hazard ratio 4.73 [P <.001] and 2.43 [P =.02], respectively), whereas a prolonged corrected QT interval (<500 ms) was associated with a higher risk among women than among men. Conclusion: Our findings suggest that the combined assessment of clinical and mutation location/functional data can be used to identify sex-specific risk factors for life-threatening events for patients with LQT1.",

keywords = "Cytoplasmic-loop mutations, Long QT syndrome, Sex, Sudden cardiac death",

author = "Jason Costa and Lopes, {Coeli M.} and Alon Barsheshet and Moss, {Arthur J.} and Dmitriy Migdalovich and Gregory Ouellet and Scott McNitt and Slava Polonsky and Robinson, {Jennifer L.} and Wojciech Zareba and Ackerman, {Michael J.} and Jesaia Benhorin and Kaufman, {Elizabeth S.} and Platonov, {Pyotr G.} and Wataru Shimizu and Towbin, {Jeffrey A.} and Vincent, {G. Michael} and Wilde, {Arthur A.M.} and Ilan Goldenberg",

note = "Funding Information: This work was supported by research grants HL-33843 and HL-51618 from the National Institutes of Health , Bethesda, MD, and by a research grant from GeneDx to the Heart Research Follow-Up Program in support of the LQTS Registry. ",

year = "2012",

month = jun,

doi = "10.1016/j.hrthm.2012.01.020",

language = "אנגלית",

volume = "9",

pages = "892--898",

journal = "Heart Rhythm",

issn = "1547-5271",

publisher = "Elsevier B.V.",

number = "6",

}

Costa, J, Lopes, CM, Barsheshet, A, Moss, AJ, Migdalovich, D, Ouellet, G, McNitt, S, Polonsky, S, Robinson, JL, Zareba, W, Ackerman, MJ, Benhorin, J, Kaufman, ES, Platonov, PG, Shimizu, W, Towbin, JA, Vincent, GM, Wilde, AAM & Goldenberg, I 2012, 'Combined assessment of sex- and mutation-specific information for risk stratification in type 1 long QT syndrome', Heart Rhythm, vol. 9, no. 6, pp. 892-898. https://doi.org/10.1016/j.hrthm.2012.01.020

TY - JOUR

T1 - Combined assessment of sex- and mutation-specific information for risk stratification in type 1 long QT syndrome

AU - Costa, Jason

AU - Lopes, Coeli M.

AU - Barsheshet, Alon

AU - Moss, Arthur J.

AU - Migdalovich, Dmitriy

AU - Ouellet, Gregory

AU - McNitt, Scott

AU - Polonsky, Slava

AU - Robinson, Jennifer L.

AU - Zareba, Wojciech

AU - Ackerman, Michael J.

AU - Benhorin, Jesaia

AU - Kaufman, Elizabeth S.

AU - Platonov, Pyotr G.

AU - Shimizu, Wataru

AU - Towbin, Jeffrey A.

AU - Vincent, G. Michael

AU - Wilde, Arthur A.M.

AU - Goldenberg, Ilan

N1 - Funding Information: This work was supported by research grants HL-33843 and HL-51618 from the National Institutes of Health , Bethesda, MD, and by a research grant from GeneDx to the Heart Research Follow-Up Program in support of the LQTS Registry.

PY - 2012/6

Y1 - 2012/6

N2 - Background: Men and women with type 1 long QT syndrome (LQT1) exhibit time-dependent differences in the risk for cardiac events. Objective: We hypothesized that sex-specific risk for LQT1 is related to the location and function of the disease-causing mutation in the KCNQ1 gene. Methods: The risk for life-threatening cardiac events (comprising aborted cardiac arrest [ACA] or sudden cardiac death [SCD]) from birth through age 40 years was assessed among 1051 individuals with LQT1 (450 men and 601 women) by the location and function of the LQT1-causing mutation (prespecified as mutations in the intracellular domains linking the membrane-spanning segments [ie, S2-S3 and S4-S5 cytoplasmic loops] involved in adrenergic channel regulation vs other mutations). Results: Multivariate analysis showed that during childhood (age group: 0-13 years) men had >2-fold (P <.003) increased risk for ACA/SCD than did women, whereas after the onset of adolescence the risk for ACA/SCD was similar between men and women (hazard ratio = 0.89 [P =.64]). The presence of cytoplasmic-loop mutations was associated with a 2.7-fold (P <.001) increased risk for ACA/SCD among women, but it did not affect the risk among men (hazard ratio 1.37; P =.26). Time-dependent syncope was associated with a more pronounced risk-increase among men than among women (hazard ratio 4.73 [P <.001] and 2.43 [P =.02], respectively), whereas a prolonged corrected QT interval (<500 ms) was associated with a higher risk among women than among men. Conclusion: Our findings suggest that the combined assessment of clinical and mutation location/functional data can be used to identify sex-specific risk factors for life-threatening events for patients with LQT1.

AB - Background: Men and women with type 1 long QT syndrome (LQT1) exhibit time-dependent differences in the risk for cardiac events. Objective: We hypothesized that sex-specific risk for LQT1 is related to the location and function of the disease-causing mutation in the KCNQ1 gene. Methods: The risk for life-threatening cardiac events (comprising aborted cardiac arrest [ACA] or sudden cardiac death [SCD]) from birth through age 40 years was assessed among 1051 individuals with LQT1 (450 men and 601 women) by the location and function of the LQT1-causing mutation (prespecified as mutations in the intracellular domains linking the membrane-spanning segments [ie, S2-S3 and S4-S5 cytoplasmic loops] involved in adrenergic channel regulation vs other mutations). Results: Multivariate analysis showed that during childhood (age group: 0-13 years) men had >2-fold (P <.003) increased risk for ACA/SCD than did women, whereas after the onset of adolescence the risk for ACA/SCD was similar between men and women (hazard ratio = 0.89 [P =.64]). The presence of cytoplasmic-loop mutations was associated with a 2.7-fold (P <.001) increased risk for ACA/SCD among women, but it did not affect the risk among men (hazard ratio 1.37; P =.26). Time-dependent syncope was associated with a more pronounced risk-increase among men than among women (hazard ratio 4.73 [P <.001] and 2.43 [P =.02], respectively), whereas a prolonged corrected QT interval (<500 ms) was associated with a higher risk among women than among men. Conclusion: Our findings suggest that the combined assessment of clinical and mutation location/functional data can be used to identify sex-specific risk factors for life-threatening events for patients with LQT1.

KW - Cytoplasmic-loop mutations

KW - Long QT syndrome

KW - Sex

KW - Sudden cardiac death

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SN - 1547-5271

VL - 9

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EP - 898

JO - Heart Rhythm

JF - Heart Rhythm

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ER -

Combined assessment of sex- and mutation-specific information for risk stratification in type 1 long QT syndrome

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Keywords

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