Zachary Kistka scite author profile

Objective: While multiple lines of evidence suggest the importance of genetic contributors to risk of preterm birth, the nature of the genetic component has not been identified. We perform segregation analyses to identify the best fitting genetic model for gestational age, a quantitative proxy for preterm birth. Methods: Because either mother or infant can be considered the proband from a preterm delivery and there is evidence to suggest that genetic factors in either one or both may influence the trait, we performed segregation analysis for gestational age either attributed to the infant (infant’s gestational age), or the mother (by averaging the gestational ages at which her children were delivered), using 96 multiplex preterm families. Results: These data lend further support to a genetic component contributing to birth timing since sporadic (i.e. no familial resemblance) and nontransmission (i.e. environmental factors alone contribute to gestational age) models are strongly rejected. Analyses of gestational age attributed to the infant support a model in which mother’s genome and/or maternally-inherited genes acting in the fetus are largely responsible for birth timing, with a smaller contribution from the paternally-inherited alleles in the fetal genome. Conclusion: Our findings suggest that genetic influences on birth timing are important and likely complex.

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Risk for postterm delivery after previous postterm delivery

Kistka¹,

Palomar²,

Boslaugh³

et al. 2007

American Journal of Obstetrics and Gynecology

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Genetic influence on parturition in a twin sample: Examination of parental effect on birth timing

Kistka¹,

DeFranco²,

Ligthart³

et al. 2006

American Journal of Obstetrics and Gynecology

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498: Placental pathology findings in cases of familial spontaneous preterm birth

DeFranco¹,

Shen²,

Wangler³

et al. 2009

American Journal of Obstetrics and Gynecology

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A short interpregnancy interval increases the risk for extreme prematurity

DeFranco

Kistka

Boslaugh

et al. 2006

American Journal of Obstetrics and Gynecology

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700: Heritability of parturition timing: An extended twin design analysis

DeFranco

Kistka

Ligthart

et al. 2007

American Journal of Obstetrics and Gynecology

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OBJECTIVE:The objective of the study was to assess relative maternal and paternal genetic influences on birth timing.STUDY DESIGN: Utilizing The Netherlands Twin Registry, we examined the correlation in birth timing of infants born to monozygotic (MZ) twins and their first-degree relatives (dizygotic twins and siblings of twins). Genetic models estimated the relative influence of genetic and common environmental factors through model fitting of additive genetic (A), common environmental (C), individual-specific environmental factors, and combinations thereof. RESULTS:We evaluated birth timing correlation among the infants of 1390 twins and their 644 siblings. The correlation in MZ female twins (r ϭ 0.330) was greater than MZ male twins (r ϭ Ϫ0.096). Positive correlation were also found in sister-sister pairs (r ϭ 0.223) but not in brother-brother (r ϭ Ϫ0.045) or brother-sister pairs (r ϭ Ϫ0.038).The most parsimonious AE model indicated a significant maternal contribution of genetic and individual-specific environmental factors to birth timing, but no paternal heritability was demonstrated. Heritability of birth timing in women was 34%; and the remaining variance (66%) was caused by individual-specific environmental factors. CONCLUSION:Our data implicate a significant contribution of maternal but not paternal genetic influences on birth timing.Key words: birth timing, parturition, pregnancy, twins, twin study

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Zachary Kistka

Racial disparity in the frequency of recurrence of preterm birth

Heritability of parturition timing: an extended twin design analysis

Mother’s Genome or Maternally-Inherited Genes Acting in the Fetus Influence Gestational Age in Familial Preterm Birth

Risk for postterm delivery after previous postterm delivery

Genetic influence on parturition in a twin sample: Examination of parental effect on birth timing

498: Placental pathology findings in cases of familial spontaneous preterm birth

A short interpregnancy interval increases the risk for extreme prematurity

700: Heritability of parturition timing: An extended twin design analysis

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