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Literature DB >> 24812404

Sound strategies for hearing restoration.

Abstract

Hearing loss is the most common sensory deficit in humans, with some estimates suggesting up to 300 million affected individuals worldwide. Both environmental and genetic factors contribute to hearing loss and can cause death of sensory cells and neurons. Because these cells do not regenerate, the damage tends to accumulate, leading to profound deafness. Several biological strategies to restore auditory function are currently under investigation. Owing to the success of cochlear implants, which offer partial recovery of auditory function for some profoundly deaf patients, potential biological therapies must extend hearing restoration to include greater auditory acuity and larger patient populations. Here, we review the latest gene, stem-cell, and molecular strategies for restoring auditory function in animal models and the prospects for translating these approaches into viable clinical therapies.

Entities: CellLine Chemical Disease Gene Species

Mesh：

Year: 2014 PMID： 24812404 PMCID： PMC4148779 DOI： 10.1126/science.1241062

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

79 in total

1. Mechanotransduction in mouse inner ear hair cells requires transmembrane channel-like genes.

Authors: Yoshiyuki Kawashima; Gwenaëlle S G Géléoc; Kiyoto Kurima; Valentina Labay; Andrea Lelli; Yukako Asai; Tomoko Makishima; Doris K Wu; Charles C Della Santina; Jeffrey R Holt; Andrew J Griffith
Journal: J Clin Invest Date: 2011-11-21 Impact factor: 14.808

2. Age-related primary cochlear neuronal degeneration in human temporal bones.

Authors: Chadi A Makary; Jennifer Shin; Sharon G Kujawa; M Charles Liberman; Saumil N Merchant
Journal: J Assoc Res Otolaryngol Date: 2011-07-12

3. Notch signaling alters sensory or neuronal cell fate specification of inner ear stem cells.

Authors: Sang-Jun Jeon; Masato Fujioka; Shi-Chan Kim; Albert S B Edge
Journal: J Neurosci Date: 2011-06-08 Impact factor: 6.167

Review 4. Cochlear infrastructure for electrical hearing.

Authors: Bryan E Pfingst; Sara A Bowling; Deborah J Colesa; Soha N Garadat; Yehoash Raphael; Seiji B Shibata; Stefan B Strahl; Gina L Su; Ning Zhou
Journal: Hear Res Date: 2011-05-14 Impact factor: 3.208

5. Probing the functional equivalence of otoferlin and synaptotagmin 1 in exocytosis.

Authors: Ellen Reisinger; Chris Bresee; Jakob Neef; Ramya Nair; Kirsten Reuter; Anna Bulankina; Régis Nouvian; Manuel Koch; Johanna Bückers; Lars Kastrup; Isabelle Roux; Christine Petit; Stefan W Hell; Nils Brose; Jeong-Seop Rhee; Sebastian Kügler; John V Brigande; Tobias Moser
Journal: J Neurosci Date: 2011-03-30 Impact factor: 6.167

Review 6. Towards gene therapy for deafness.

Authors: Marina Di Domenico; Carmela Ricciardi; Tiziana Martone; Nicoletta Mazzarella; Claudia Cassandro; Giuseppe Chiarella; Luigi D'Angelo; Ettore Cassandro
Journal: J Cell Physiol Date: 2011-10 Impact factor: 6.384

7. Dynamic expression of Lgr5, a Wnt target gene, in the developing and mature mouse cochlea.

Authors: Renjie Chai; Anping Xia; Tian Wang; Taha Adnan Jan; Toshinori Hayashi; Olivia Bermingham-McDonogh; Alan Gi-Lun Cheng
Journal: J Assoc Res Otolaryngol Date: 2011-04-07

8. Viral vector tropism for supporting cells in the developing murine cochlea.

Authors: Abraham M Sheffield; Samuel P Gubbels; Michael S Hildebrand; Stephen S Newton; John A Chiorini; Giovanni Di Pasquale; Richard J H Smith
Journal: Hear Res Date: 2011-04-22 Impact factor: 3.208

9. BAAV mediated GJB2 gene transfer restores gap junction coupling in cochlear organotypic cultures from deaf Cx26Sox10Cre mice.

Authors: Giulia Crispino; Giovanni Di Pasquale; Pietro Scimemi; Laura Rodriguez; Fabian Galindo Ramirez; Romolo Daniele De Siati; Rosa Maria Santarelli; Edoardo Arslan; Mario Bortolozzi; John A Chiorini; Fabio Mammano
Journal: PLoS One Date: 2011-08-18 Impact factor: 3.240

10. Adeno-associated virus-mediated gene delivery into the scala media of the normal and deafened adult mouse ear.

Authors: L A Kilpatrick; Q Li; J Yang; J C Goddard; D M Fekete; H Lang
Journal: Gene Ther Date: 2011-01-06 Impact factor: 5.250

81 in total

1. Rescue of Hearing by Gene Delivery to Inner-Ear Hair Cells Using Exosome-Associated AAV.

Authors: Bence György; Cyrille Sage; Artur A Indzhykulian; Deborah I Scheffer; Alain R Brisson; Sisareuth Tan; Xudong Wu; Adrienn Volak; Dakai Mu; Panos I Tamvakologos; Yaqiao Li; Zachary Fitzpatrick; Maria Ericsson; Xandra O Breakefield; David P Corey; Casey A Maguire
Journal: Mol Ther Date: 2017-01-09 Impact factor: 11.454

2. Gene Expression by Mouse Inner Ear Hair Cells during Development.

Authors: Déborah I Scheffer; Jun Shen; David P Corey; Zheng-Yi Chen
Journal: J Neurosci Date: 2015-04-22 Impact factor: 6.167

3. Generation of inner ear hair cells by direct lineage conversion of primary somatic cells.

Authors: Louise Menendez; Talon Trecek; Suhasni Gopalakrishnan; Litao Tao; Alexander L Markowitz; Haoze V Yu; Xizi Wang; Juan Llamas; Chichou Huang; James Lee; Radha Kalluri; Justin Ichida; Neil Segil
Journal: Elife Date: 2020-06-30 Impact factor: 8.140

4. Tmc gene therapy restores auditory function in deaf mice.

Authors: Charles Askew; Cylia Rochat; Bifeng Pan; Yukako Asai; Hena Ahmed; Erin Child; Bernard L Schneider; Patrick Aebischer; Jeffrey R Holt
Journal: Sci Transl Med Date: 2015-07-08 Impact factor: 17.956

Review 5. Gene therapy for hearing loss.

Authors: Ryotaro Omichi; Seiji B Shibata; Cynthia C Morton; Richard J H Smith
Journal: Hum Mol Genet Date: 2019-10-01 Impact factor: 6.150