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Literature DB >> 27895970

Genetic Advances in Microphthalmia.

Julie Plaisancie¹, Patrick Calvas², Nicolas Chassaing².

Abstract

Congenital ocular anomalies such as anophthalmia and microphthalmia (AM) are severe craniofacial malformations in human. The etiologies of these ocular globe anomalies are diverse but the genetic origin appears to be a predominant cause. Until recently, genetic diagnosis capability was rather limited in AM patients and only a few genes were available for routine genetic testing. While some issues remain poorly understood, knowledge regarding the molecular basis of AM dramatically improved over the last years with the development of new molecular screening technologies. Thus, the genetic cause is now identifiable in more than 50% of patients with a severe bilateral eye phenotype and in around 30% of all AM patients taken together. Such advances in the knowledge of these genetic bases are important as they improve the quality of care, in terms of diagnosis, prognosis, and genetic counseling delivered to the patients and their families.

Entities: Disease Species

Keywords: anophthalmia; eye development; genetic advances; microphthalmia

Year: 2016 PMID： 27895970 PMCID： PMC5123893 DOI： 10.1055/s-0036-1592350

Source DB: PubMed Journal: J Pediatr Genet ISSN： 2146-460X

40 in total

1. Complex microphthalmos.

Authors: A H Weiss; B G Kousseff; E A Ross; J Longbottom
Journal: Arch Ophthalmol Date: 1989-11

Review 2. Eye development genes and known syndromes.

Authors: Anne M Slavotinek
Journal: Mol Genet Metab Date: 2011-09-29 Impact factor: 4.797

3. Postnatal manipulation of Pax6 dosage reverses congenital tissue malformation defects.

Authors: Cheryl Y Gregory-Evans; Xia Wang; Kishor M Wasan; Jinying Zhao; Andrew L Metcalfe; Kevin Gregory-Evans
Journal: J Clin Invest Date: 2013-12-20 Impact factor: 14.808

4. VAX1 mutation associated with microphthalmia, corpus callosum agenesis, and orofacial clefting: the first description of a VAX1 phenotype in humans.

Authors: Anne M Slavotinek; Ryan Chao; Tomas Vacik; Mani Yahyavi; Hana Abouzeid; Tanya Bardakjian; Adele Schneider; Gary Shaw; Elliott H Sherr; Greg Lemke; Mohammed Youssef; Daniel F Schorderet
Journal: Hum Mutat Date: 2011-12-27 Impact factor: 4.878

5. Array comparative genomic hybridization analysis in patients with anophthalmia, microphthalmia, and coloboma.

Authors: Gordana Raca; Craig A Jackson; Laimutis Kucinskas; Berta Warman; Joseph T C Shieh; Adele Schneider; Tanya M Bardakjian; Lisa A Schimmenti
Journal: Genet Med Date: 2011-05 Impact factor: 8.822

6. First implication of STRA6 mutations in isolated anophthalmia, microphthalmia, and coloboma: a new dimension to the STRA6 phenotype.

Authors: Jillian Casey; Riki Kawaguchi; Maria Morrissey; Hui Sun; Paul McGettigan; Jens E Nielsen; Judith Conroy; Regina Regan; Elaine Kenny; Paul Cormican; Derek W Morris; Peter Tormey; Muireann Ní Chróinín; Breandan N Kennedy; SallyAnn Lynch; Andrew Green; Sean Ennis
Journal: Hum Mutat Date: 2011-09-29 Impact factor: 4.878

Review 7. The genetic architecture of microphthalmia, anophthalmia and coloboma.

Authors: Kathleen A Williamson; David R FitzPatrick
Journal: Eur J Med Genet Date: 2014-05-22 Impact factor: 2.708

8. Mutations in BMP4 cause eye, brain, and digit developmental anomalies: overlap between the BMP4 and hedgehog signaling pathways.

Authors: Preeti Bakrania; Maria Efthymiou; Johannes C Klein; Alison Salt; David J Bunyan; Alex Wyatt; Chris P Ponting; Angela Martin; Steven Williams; Victoria Lindley; Joanne Gilmore; Marie Restori; Anthony G Robson; Magella M Neveu; Graham E Holder; J Richard O Collin; David O Robinson; Peter Farndon; Heidi Johansen-Berg; Dianne Gerrelli; Nicola K Ragge
Journal: Am J Hum Genet Date: 2008-01-31 Impact factor: 11.025

9. Requirement of retinoic acid receptor β for genipin derivative-induced optic nerve regeneration in adult rat retina.

Authors: Yoshiki Koriyama; Yusuke Takagi; Kenzo Chiba; Matsumi Yamazaki; Kayo Sugitani; Kunizo Arai; Hirokazu Suzuki; Satoru Kato
Journal: PLoS One Date: 2013-08-06 Impact factor: 3.240

10. Clinical and mutation analysis of 51 probands with anophthalmia and/or severe microphthalmia from a single center.

Authors: Christina Gerth-Kahlert; Kathleen Williamson; Morad Ansari; Jacqueline K Rainger; Volker Hingst; Theodor Zimmermann; Stefani Tech; Rudolf F Guthoff; Veronica van Heyningen; David R Fitzpatrick
Journal: Mol Genet Genomic Med Date: 2013-03-27 Impact factor: 2.183

9 in total

1. Identification of missense MAB21L1 variants in microphthalmia and aniridia.

Authors: Sarah E Seese; Linda M Reis; Brett Deml; Christopher Griffith; Adi Reich; Robyn V Jamieson; Elena V Semina
Journal: Hum Mutat Date: 2021-05-24 Impact factor: 4.878

2. Panel-based whole exome sequencing identifies novel mutations in microphthalmia and anophthalmia patients showing complex Mendelian inheritance patterns.

Authors: Marina Riera; Ana Wert; Isabel Nieto; Esther Pomares
Journal: Mol Genet Genomic Med Date: 2017-08-21 Impact factor: 2.183

3. Distinguishing risk factors between congenital anophthalmia and microphthalmia using multivariable logistic regression.

Authors: Yang Li; Zhijia Hou; Jingwen Ding; Ying Cui; Bixuan Qin; Dongmei Li
Journal: Ann Transl Med Date: 2020-06

Review 4. The Molecular Basis of Human Anophthalmia and Microphthalmia.

Authors: Philippa Harding; Mariya Moosajee
Journal: J Dev Biol Date: 2019-08-14

5. Mutation in the mouse histone gene Hist2h3c1 leads to degeneration of the lens vesicle and severe microphthalmia.

Authors: Sharmilee Vetrivel; Natascia Tiso; Andrea Kügler; Martin Irmler; Marion Horsch; Johannes Beckers; Daniela Hladik; Florian Giesert; Valerie Gailus-Durner; Helmut Fuchs; Sibylle Sabrautzki; Martin Hrabě de Angelis; Jochen Graw
Journal: Exp Eye Res Date: 2019-04-13 Impact factor: 3.467