Fetal and Neonatal Pharmacogenomics

doi:10.1017/CBO9781139051194.026

23 - Fetal and Neonatal Pharmacogenomics

from II - Therapeutic Areas

Published online by Cambridge University Press: 05 June 2012

Edited by

David Flockhart and

Russ B. Altman: Affiliation:
Stanford University, California
David Flockhart: Affiliation:
Indiana University
David B. Goldstein: Affiliation:
Duke University, North Carolina

Book contents

Get access

Summary

No area within the field of pharmacogenomics generates greater excitement and potential for altering the way we practice medicine than fetal and neonatal pharmacogenomics. Though only in its infancy (no pun intended), this area that lies at the crossroads of perinatology, neonatology, pharmacology, and genetics will undoubtedly not only shape the way we diagnose and treat diseases of expectant mothers and their infants, but also improve our overall understanding of fetal and neonatal development. By focusing our attention on variations in genetic code and gene expression between the pre- and postnatal life, pharmacogenomics will likely contribute greatly to our understanding of cellular, tissue, and organ differentiation, physiologic and pathologic fetal development, and important variation in fetal and neonatal drug metabolism.

Fetal exposure to maternal medications may occur as a result of deliberate maternal drug therapy or inadvertent drug exposure. Since the discovery linking thalidomide with birth defects, obstetricians and their expectant patients have had to weigh the balance between maternal drug therapy and potential fetal exposure. As we gain insight into specific medications and their adverse fetal effects, it is clear that not all fetuses exposed to a given medication are at risk for developing its associated malformation. Moreover, if we can identify which fetuses may be at risk during the course of pregnancy, it would greatly benefit expectant mothers taking medications, especially in cases where exposure cannot be avoided as with antiepileptic and antithrombotic medications (1).

Type: Chapter
Information: Principles of Pharmacogenetics and Pharmacogenomics , pp. 263 - 269

DOI: https://doi.org/10.1017/CBO9781139051194.026 [Opens in a new window]

Publisher: Cambridge University Press

Print publication year: 2012

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Leeder, JSDevelopmental and pediatric pharmacogenomicsPharmacogenomics 2003 4 331Google Scholar

Cunningham, FGWilliams, JWWilliams ObstetricsNew YorkMcGraw-Hill 2001

Sadler, TWLangman, JLangman's Medical EmbryologyPhiladelphiaLippincott Williams & Wilkins 2006

Hall, JGPauli, RMWilson, KMMaternal and fetal sequelae of anticoagulation during pregnancyAm J Med 1980 68 122Google Scholar

Bieche, INarjoz, CAsselah, TReverse transcriptase-PCR quantification of mRNA levels from cytochrome (CYP)1, CYP2 and CYP3 families in 22 different human tissuesPharmacogenet Genomics 2007 17 731Google Scholar

Hakkola, JPelkonen, OPasanen, MRaunio, HXenobiotic-metabolizing cytochrome P450 enzymes in the human feto-placental unit: role in intrauterine toxicityCrit Rev Toxicol 1998 28 35Google Scholar

Wang, TChen, MYan, YEXiao, FQPan, XLWang, HGrowth retardation of fetal rats exposed to nicotine in utero: possible involvement of CYP1A1, CYP2E1, and P-glycoproteinEnviron Toxicol 2009 24 33Google Scholar

Leeder, JSMitchell, AAApplication of pharmacogenomic strategies to the study of drug-induced birth defectsClin Pharmacol Ther 2007 81 595Google Scholar

Boyle, CADecoufle, PYeargin-Allsopp, MPrevalence and health impact of developmental disabilities in US childrenPediatrics 1994 93 399Google Scholar

Gaedigk, ABaker, DWTotah, RAVariability of CYP2J2 expression in human fetal tissuesJ Pharmacol Exp Ther 2006 319 523Google Scholar

RodriguezAntona, CJande, MRane, AIngelman-Sundberg, MIdentification and phenotype characterization of two CYP3A haplotypes causing different enzymatic capacity in fetal liversClin Pharmacol Ther 2005 77 259Google Scholar

Gasche, YDaali, YFathi, MCodeine intoxication associated with ultrarapid CYP2D6 metabolismN Engl J Med 2004 351 2827Google Scholar

Cascorbi, IPharmacogenetics of cytochrome p4502D6: genetic background and clinical implicationEur J Clin Invest 2003 33 17Google Scholar

Koren, GCairns, JChitayat, DGaedigk, ALeeder, SJPharmacogenetics of morphine poisoning in a breastfed neonate of a codeine-prescribed motherLancet 2006 368Google Scholar

Allegaert, KVan, denAnker, JNVerbesselt, RO-demethylation of tramadol in the first months of lifeEur J Clin Pharmacol 2005 61 837Google Scholar

Allegaert, Kvan Schaik, RHVermeersch, SPostmenstrual age and CYP2D6 polymorphisms determine tramadol o-demethylation in critically ill neonates and infantsPediatr Res 2008 63 674Google Scholar

Gavin, NIGaynes, BNLohr, KNMeltzer-Brody, SGartlehner, GSwinson, TPerinatal depression: a systematic review of prevalence and incidenceObstet Gynecol 2005 106 1071Google Scholar

Mann, JJThe medical management of depressionN Engl J Med 2005 353 1819Google Scholar

Ferreira, ECarceller, AMAgogue, CEffects of selective serotonin reuptake inhibitors and venlafaxine during pregnancy in term and preterm neonatesPediatrics 2007 119 52Google Scholar

Chambers, CDHernandez-Diaz, SVan Marter, LJSelective serotonin-reuptake inhibitors and risk of persistent pulmonary hypertension of the newbornN Engl J Med 2006 354 579Google Scholar

Oberlander, TFWarburton, WMisri, SAghajanian, JHertzman, CNeonatal outcomes after prenatal exposure to selective serotonin reuptake inhibitor antidepressants and maternal depression using population-based linked health dataArch Gen Psychiatry 2006 63 898Google Scholar

Oberlander, TFBonaguro, RJMisri, SPapsdorf, MRoss, CJSimpson, EMInfant serotonin transporter (SLC6A4) promoter genotype is associated with adverse neonatal outcomes after prenatal exposure to serotonin reuptake inhibitor medicationsMol Psychiatry 2008 13 65Google Scholar

Berle, JOSteen, VMAamo, TOBreilid, HZahlsen, KSpigset, OBreastfeeding during maternal antidepressant treatment with serotonin reuptake inhibitors: infant exposure, clinical symptoms, and cytochrome p450 genotypesJ Clin Psychiatry 2004 65 1228Google Scholar

Carcillo, JADoughty, LKofos, DCytochrome P450 mediated-drug metabolism is reduced in children with sepsis-induced multiple organ failureIntensive Care Med 2003 29 980Google Scholar

Del Vecchio, ALaforgia, NCapasso, MIolascon, ALatini, GThe role of molecular genetics in the pathogenesis and diagnosis of neonatal sepsisClin Perinatol 2004 31 53Google Scholar

Nebert, DWMcKinnon, RAPuga, AHuman drug-metabolizing enzyme polymorphisms: effects on risk of toxicity and cancerDNA Cell Biol 1996 15 273Google Scholar

Daly, AKPharmacogenetics of the major polymorphic metabolizing enzymesFundam Clin Pharmacol 2003 17 27Google Scholar

Joseph, TKusumakumary, PChacko, PAbraham, ARadhakrishna Pillai, MGenetic polymorphism of CYP1A1, CYP2D6, GSTM1 and GSTT1 and susceptibility to acute lymphoblastic leukaemia in Indian childrenPediatr Blood Cancer 2004 43 560Google Scholar

Ashton, LJMurray, JEHaber, MMarshall, GMAshley, DMNorris, MDPolymorphisms in genes encoding drug metabolizing enzymes and their influence on the outcome of children with neuroblastomaPharmacogenet Genomics 2007 17 709Google Scholar

Van Dyke, DCHodge, SEHeide, FHill, LRFamily studies in fetal phenytoin exposureJ Pediatr 1988 113 301Google Scholar

Ginsberg, JSHirsh, JAnticoagulants during pregnancyAnnu Rev Med 1989 40 79Google Scholar

Dai, WSLaBraico, JMStern, RSEpidemiology of isotretinoin exposure during pregnancyJ Am Acad Dermatol 1992 26 599Google Scholar

Book contents

23 - Fetal and Neonatal Pharmacogenomics

Summary

Access options

References

Save book to Kindle

Save book to Dropbox

Save book to Google Drive