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10. Future Approaches for Inner Ear Protection and Repair

Author

Shibata, Seiji B. and Raphael, Yehoash

Abstract

Health care professionals tending to patients with inner ear disease face inquiries about therapy options, including treatments that are being developed for future use but not yet available. The devastating outcome of sensorineural hearing loss, combined with the permanent nature of the symptoms, make these inquiries demanding and frequent. The vast information accessible online and the publicity for breakthroughs in research add to patient requests for access to advanced and innovative therapies, even before these are available for clinical use. This can sometimes be taxing on the health care provider who is in contact with the patients. Here we aim to equip the provider with information about some of the progress made for protective and reparative approaches for treating inner ears. Learning outcomes: (1) Readers will be able to explain why hearing loss is irreversible and common, (2) readers will be able to explain the importance of protective measures and the progress made in discovery and design of novel biological protective molecules, (3) readers will be able to describe reparative approaches currently under investigation (such as tissue engineering), the main difficulties in the design of such therapies and the major hurdles that remain for making novel technologies clinically viable, and (4) readers will be able to explain to their patients some of the progress in developing new treatments without making the promise of imminent clinical use. With this information, readers will be able to guide patients to make better choices for their treatment and to guide students toward research in this exciting field. (Contains 1 figure.)

Published
2010
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20. Contributors

Author

Agrawal, Sumit K., Anderson, Shane R., Arriaga, Moisés A., Aylward, Alana, Banakis Hartl, Renee M., Berenholz, Leonard P., Brackmann, Derald E., Brown, C. Scott, Carey, John P., Carrau, Ricardo L., Casazza, Geoffrey C., Cass, Nathan D., Cass, Stephen P., Cassis, Adam M., Chang, Ray C., Chen, Douglas A., Christopher, Laura H., Connell, Sarah S., Corrales, C. Eduardo, Crane, Benjamin T., Crowson, Matthew G., Cullen, Robert D., Cumpston, Evan C., DeTorres, Alvin, Dewyer, Nicholas A., Dornhoffer, John, Eppsteiner, Robert W., Erbele, Isaac D., Eshraghi, Adrien A., Fayad, Jose N., Friedman, Rick A., Gantz, Bruce J., Gardner, Gale, Gary, Celeste C., Goddard, John C., Gubbels, Samuel P., Gurgel, Richard K., Handzel, Ophir, Hetzler, Laura T., Hillman, Todd A., House, John W., Isaacson, Brandon, Jackler, Robert K., Jenkins, Herman A., Jones, Joel W., Kassam, Amin B., Kaylie, David M., Kesser, Bradley W., Kutz, J. Walter, Jr., Lee, John Y.K., Lippy, William H., Littlefield, Philip D., Liu, Yuan F., London, Nyall R., Jr., Lupo, J. Eric, Mahboubi, Hossein, Manzoor, Nauman, Maxwell, Anne K., McElveen, John T., Jr., McKenna, Michael J., McRackan, Theodore R., Mehta, Rahul, Minor, Lloyd B., Monsell, Edwin M., Muelleman, Thomas J., Nadol, Joseph B., Jr., Nassiri, Ashley M., Netterville, James L., Otto, Steven R., Parnes, Lorne S., Patel, Neil S., Peng, Kevin A., Perry, Brian P., Poe, Dennis S., Prevedello, Daniel M., Redleaf, Miriam I., Rivas, Alejandro, Roberson, Joseph B., Jr., Roberts, Daniel S., Roche, Joseph P., Roland, Peter S., Rybak, Leonard P., Santa Maria, Peter L., Schwam, Zachary G., Schwartz, Marc S., Shea, Martin Coyle, Jr., Sheehy, James L., Shelton, Clough, Shibata, Seiji B., Sinha, Saurabh, Slattery, William H., III, Sowder, Justin C., Sullivan, C. Blake, Sullivan, Christopher A., Syms, Charles A., III, Syms, Mark, Tawfik, Kareem O., Telian, Steven A., Telischi, Fred F., Tjellström, Anders, Wackym, P. Ashley, Wanna, George B., Ward, P. Daniel, Weiner, Joseph P., Weinreich, Heather M., Wiet, R. Mark, Wiet, Richard J., and Wilkinson, Eric P.

Published
2023
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21. The biological underpinnings of radiation therapy for vestibular schwannomas: Review of the literature.

Author

Dougherty, Mark C., Shibata, Seiji B., and Hansen, Marlan R.

Subjects
*RADIOTHERAPY, *PHYSIOLOGICAL effects of radiation, *TREATMENT effectiveness, *SCHWANNOMAS
Abstract

Objective: Radiation therapy is a mainstay in the treatment of numerous neoplasms. Numerous publications have reported good clinical outcomes for primary radiation therapy for Vestibular Schwannomas (VS). However, there are relatively few pathologic specimens of VSs available to evaluate post‐radiation, which has led to a relative dearth in research on the cellular mechanisms underlying the effects of radiation therapy on VSs. Methods: Here we review the latest literature on the complex biological effects of radiation therapy on these benign tumors—including resistance to oxidative stress, mechanisms of DNA damage repair, alterations in normal growth factor pathways, changes in surrounding vasculature, and alterations in immune responses following radiation. Results: Although VSs are highly radioresistant, radiotherapy is often successful in arresting their growth. Conclusion: By better understanding the mechanisms underlying these effects, we could potentially harness such mechanisms in the future to potentiate the clinical effects of radiotherapy on VSs. Level of Evidence: N/A. [ABSTRACT FROM AUTHOR]

Published
2021
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22. Transmastoid and Transtemporal Drainage of Petrous Apicitis with Otitis Media.

Author

Isaac, Heba, Liu, Andrew, Shibata, Seiji B., and Hansen, Marlan R.

Subjects
ANTIBIOTICS, MASTOID process surgery, TEMPORAL bone surgery, COMPUTED tomography, INTRAVENOUS therapy, MAGNETIC resonance imaging, OTITIS media, TEMPORAL bone diseases, TREATMENT effectiveness, MEDICAL drainage, DISEASE complications
Abstract

Background: Petrous apicitis (PA) is a serious infection involving the apical portion of the petrous temporal bone. The classic triad of purulent otorrhea, ipsilateral abducens nerve palsy and retroorbital pain is rarely seen due to early detection and widespread use of antibiotics. Medical management is the primary treatment modality with surgery reserved for cases of recalcitrant petrous apex abscess. Methods and Results: We presented a case of PA with previously untreated otitis media. After multidisciplinary evaluation, the patient was initially treated with intravenous antibiotics followed by drainage of the abscess using a combined transmastoid and middle cranial fossa (MCF) approach. The patient recovered well with no recurrence of the infection based on imaging and symptoms. Discussion: While a variety of different surgical approaches can be used in treatment of PA, we recommend the MCF approach in cases where access to the anterior petrous apex may be challenging via transcanal or transmastoid approach. [ABSTRACT FROM AUTHOR]

Published
2021
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23. Effects of Neurod1 Expression on Mouse and Human Schwannoma Cells.

Author

Kersigo, Jennifer, Gu, Lintao, Xu, Linjing, Pan, Ning, Vijayakuma, Sarath, Jones, Timothy, Shibata, Seiji B., Fritzsch, Bernd, and Hansen, Marlan R.

Abstract

Objectives: The objective was to explore the effect of the proneuronal transcription factor neurogenic differentiation 1 (Neurod1, ND1) on Schwann cells (SC) and schwannoma cell proliferation.Methods: Using a variety of transgenic mouse lines, we investigated how expression of Neurod1 effects medulloblastoma (MB) growth, schwannoma tumor progression, vestibular function, and SC cell proliferation. Primary human vestibular schwannoma (VS) cell cultures were transduced with adenoviral vectors expressing Neurod1. Cell proliferation was assessed by 5-ethynyl-2'-deoxyuridine (EdU) uptake.Study Design: Basic science investigation.Results: Expression of Neurod1 reduced the growth of slow-growing but not fast-growing MB models. Gene transfer of Neurod1 in human schwannoma cultures significantly reduced cell proliferation in dose-dependent way. Deletion of the neurofibromatosis type 2 (Nf2) tumor-suppressor gene via Cre expression in SCs led to increased intraganglionic SC proliferation and mildly reduced vestibular sensory-evoked potentials (VsEP) responses compared to age-matched wild-type littermates. The effect of Neurod1-induced expression on intraganglionic SC proliferation in animals lacking Nf2 was mild and highly variable. Sciatic nerve axotomy significantly increased SC proliferation in wild-type and Nf2-null animals, and expression of Neurod1 reduced the proliferative capacity of both wild-type and Nf2-null SCs following nerve injury.Conclusion: Expression of Neurod1 reduces slow-growing MB progression and reduces human SC proliferation in primary VS cultures. In a genetic mouse model of schwannomas, we find some effects of Neurod1 expression; however, the high variability indicates that more tightly regulated Neurod1 expression levels that mimic our in vitro data are needed to fully validate Neurod1 effects on schwannoma progression.Level Of Evidence: NA Laryngoscope, 131:E259-E270, 2021. [ABSTRACT FROM AUTHOR]

Published
2021
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24. Contributors

Author

Abdul-Aziz, Dunia, Abuzeid, Waleed M., Adams, Meredith E., Adamson, Peter A., Agamah, Edem S., Agrawal, Yuri, Ahmad, Faisal I., Ahmed, Mostafa M., Akst, Seth A., Albergotti, W. Greer, Albers, Sheri L., Allen, Clint T., Alsaied, Abdulmalik S., Alwani, Mohamedkazim, Alyono, Jennifer Christy, Anderson, Carryn, Armstrong, William B., Arnold, Michelle G., Arriaga, Moises A., Arts, H. Alexander, Arvedson, Joan C., Ashram, Yasmine A., Aygun, Nafi, Backous, Douglas D., Baker, Shan R., Balkany, Thomas J., Balsalobre, Leonardo, Baroody, Fuad M., Bastian, Robert W., Basura, Gregory J., Batra, Pete S., Beadle, Beth M., Beckmann, Nicholas A., Bekeny, James R., Bell, Diana M., Bell, Elizabeth Bradford, Benninger, Michael S., Bernknopf, Heidi J., Beswick, Daniel M., Bhattarai, Mukul, Bleier, Benjamin S., Blevins, Nikolas H., Blitzer, Andrew, Boahene, Kofi, Bohm, Lauren A., Bottros, Michael M., Brackmann, Derald E., Bradford, Carol R., Branham, Gregory H., Branstetter, Barton F., IV, Brant, Jason A., Brietzke, Scott E., Brinkmeier, Jennifer, Brodie, Hilary A., Brown, Bena, Budenz, Cameron L., Burns, Clare, Byrd, J. Kenneth, Byrne, Patrick, Cai, Yi, Calloway, Hollin, Campisi, Paolo, Carey, John P., Carniol, Eric T., Carr, Simon D., Casazza, Geoffrey C., Casper, Keith, Castelnuovo, Paolo, Cejas, Ivette, Chang, Kay W., Chegar, Burke E., Cheng, Alan G., Cheng, Alan T.L., Chepeha, Douglas B., Chien, Wade W., Chin, Oliver Y., Choi, Sukgi S., Chole, Richard A., Choudhury, Baishakhi, Christian, James M., Chun, Robert H., Citardi, Martin J., Compton, Andrew Michael, Cosetti, Maura K., Council, M. Laurin, Courey, Mark S., Cover, Renee, Cox, Daniel R., Crane, Benjamin T., Creighton, Francis X., Jr, Crowson, Matthew G., Culicchia, Frank, Cummings, Charles W., Cunningham, Calhoun D., III, Cushing, Sharon L., Dahlin, Brian C., Daniel, Sam J., Dassi, Camila Soares, Day, Terry A., Dedhia, Kavita, Dedmon, Matthew M., Deep, Nicholas L., Della Santina, Charles C., Demke, Joshua C., Derkay, Craig S., Dewyer, Nicholas A., Diaz, Rodney C., Dilger, Amanda E., Driver, Lynn E., Durham, Alison B., Eisbruch, Avraham, Eisele, David W., Eisenberg, Laurie, El-Deiry, Mark, El Rassi, Edward, El-Kashlan, Hussam K., Elliott, Anila B., Elluru, Ravindhra G., Emmett, Susan D., Eu, Donovan, Fakhri, Samer, Fakhry, Carole, Farrior, Edward H., Feller-Kopman, David, Felts, Charles B., Fink, Daniel S., Fletcher, Kenneth C., Jr, Flint, Paul W., Floyd, Elizabeth M., Fokkens, Wytske J., Francis, Howard W., Friedland, David R., Friedman, Oren, Friedman, Rick A., Frodel, John L., Jr, Ganly, Ian, Gantous, Andres, Gantz, Bruce J., Garrett, C. Gaelyn, Gillespie, M. Boyd, Girod, Douglas A., Glick, Hannah, Goddard, John C., Goding, George S., Jr, Goldberg, Andrew N., Goldenberg, David, Goldstein, Nira A., Gonik, Nathan J., Gonzalez, Debra, Gourin, Christine G., Graham, M. Elise, Green, Glenn E., Green, Stephen T., Grégoire, Vincent, Grimmer, J. Fredrik, Gruffi, Catherine A., Gubbels, Samuel P., Gupta, Piyush, Gurgel, Richard K., Gurrola, Jose G., II, Ha, Jennifer F., Ha, Patrick K., Hajnas, Natalia M., Hamilton, Bronwyn E., Hamilton, Grant S., III, Hamoir, Marc, Hanna, Ehab Y., Harmon, Jeffrey J., Jr, Harréus, Ulrich, Banakis Hartl, Renee, Harvey, Richard, Haughey, Bruce H., Hawkins, Peter, Hellings, Peter, Hellstein, John W., Herzer, Kurt, Hilgers, Frans J.M., Hill, Justin D., Hillel, Alexander T., Hinni, Michael L., Hirce, Kellie J., Hoffman, Henry T., Holman, Ashlee E., Hom, David B., Hopkins, Claire, Houlton, Jeffrey J., House, John W., Hullar, Timothy E., Hummel, Thomas, Humtsoe, Joseph O., Hwang, Peter H., Ishman, Stacey L., Jabbour, Jad, Jackler, Robert K., Jackson, Neal M., James, Adrian L., Jameson, Brian, Jan, Taha A., Jenkins, Herman A., Jiam, Nicole T., Jin, Hong-Ryul, Johnson, Christopher M., Johnson, Timothy M., Kamani, Dipti, Karle, William E., Kavitt, Robert T., Kaylie, David M., Kellman, Robert M., Kennedy, David W., Kern, Robert C., Kerolus, Julia L., Kesser, Bradley W., Khan, Majid, Kileny, Paul R., Kim, Jennifer, Kimple, Adam J., King, Ericka F., Kirke, Diana N., Knecht, Elizabeth, Konior, Raymond J., Kraft, Shannon M., Kridel, Russell W.H., Kuan, Edward C., Kumar, Parvesh, Kunduk, Melda, Laccourreye, Ollivier, Lai, Stephen Y., Lal, Devyani, Lalwani, Anil K., Lam, Derek J., Lambert, Paul R., Larsen, Christopher G., Latchaw, Richard E., Lawlor, Claire M., Le Prell, Colleen G., Leahy, Kevin P., Lee, Daniel J., Lee, Edward R., Lee, Nancy, Lesperance, Marci M., Lester, Laeben, Levi, Jessica, Lewis, James S., Jr, Li, Daqing, Lian, Timothy S., Liddy, Whitney, Limb, Charles J., Lin, Frank R., Linkov, Gary, Loh, Thomas, Lorenz, Kai Johannes, Lott, David G., Lund, Valerie J., Lustig, Lawrence R., Lysakowski, Anna, Maisel, Robert H., Makki, Fawaz, Mangat, Devinder S., Marchioni, Daniele, Mark, Lynette J., Markt, Jeffery C., Marsh, Michael, Mattavelli, Davide, Mattox, Douglas E., McCrary, Hilary C., McGee, JoAnn, McGinn, Johnathan D., Mehta, Kinneri, Meier, Jeremy D., Merati, Albert L., Messing, Barbara P., Messner, Anna H., Meyer, Anna, Mierzwa, Michelle, Milczuk, Henry A., Millar, Jennifer L., Miller-Thomas, Michelle, Minor, Lloyd B., Misono, Stephanie, Mitchell, Jenna L., Mobley, Steven Ross, Moore, Eric J., Mostovych, Nadia K., Mowry, Sarah, Muntz, Harlan R., Mydlarz, Wojciech K., Nadimi, Sahar, Nadol, Joseph B., Jr, Naples, James G., Nassif, Paul S., Naunheim, Matthew R., Neel, Gregory S., Nelson, Marc E., Nelson, Rick F., Nicolai, Piero, Nieman, Carrie L., Noel, Richard J., Nouraei, S.A. Reza, Nugent, Ajani, Nuss, Daniel W., Nussenbaum, Brian, Odland, Rick M., Ohye, Richard G., O'Malley, Bert W., Jr, O'Reilly, Robert C., Orlandi, Richard R., Orlowski, Hilary L.P., Ottaviano, Giancarlo, Pagedar, Nitin A., Palmer, James N., Papsin, Blake C., Park, Albert H., Park, Stephen S., Parsons, Matthew S., Patterson, G. Alexander, Pellitteri, Phillip K., Perkins, Jonathan A., Perkins, Stephen W., Pierce, Bailey, Pignatari, Shirley S.N., Pletcher, Steven D., Poe, Dennis S., Popovtzer, Aron, Postma, Gregory N., Prueter, James C., Puglia, Michael P., II, Qian, Z. Jason, Quesnel, Alicia M., Rahbar, Reza, Ramachandran, Virginia, Ramakrishnan, Vijay R., Randolph, Gregory W., Rao, Krishna, Rao, Lesley, Rassekh, Christopher H., Reid, Lisa M., Reinisch, Lou, Rettig, Eleni, Rigby, Matthew H., Rivas, Alejandro, Robbins, K. Thomas, Roberts, Daniel S., Roby, Brianne, Roland, J. Thomas, Jr, Ronen, Ohad, Rosbe, Kristina W., Rosenfeld, Richard M., Rotter, Bruce E., Roxbury, Christopher R., Ruckenstein, Michael J., Runge, Christina L., Rybak, Leonard P., Saadi, Robert, Salinas, Thomas J., Samant, Sandeep, Samlan, Robin A., Sandhu, Guri S., Sarber, Kathleen M., Sauder, Cara L., Scher, Richard L., Schilder, Anne G.M., Schindler, Joshua S., Schmalbach, Cecelia E., Schoem, Scott R., Schubert, Michael C., Schulte, Joseph, Schwarz, Yehuda, Sciubba, James J., Sclafani, Anthony P., Seikaly, Hadi R., Selesnick, Samuel H., Senior, Brent A., Sharma, Anu, Sharon, Jeffrey D., Shearer, A. Eliot, Shelton, Clough, Shibata, Seiji B., Shnayder, Yelizaveta, Shuman, Elizabeth A., Sidell, Douglas R., Sinha, Parul, Sirjani, Davud B., Skirko, Jonathan R., Slager, Heidi K., Slattery, William H., III, Smith, Kristine A., Smith, Richard J.H., Smith, Ryan M., Smith, Timothy L., Soler, Zachary M., Spector, Matthew E., Sperry, Steven M., Stach, Brad A., Stachecki, Robert P., Stamm, Aldo Cassol, Stankiewicz, James A., Steitz, Jeffrey T., Stevens, Shawn M., Steward, David L., Stoddard, David G., Jr, Stokken, Janalee K., Sturm, Angela, Subramanian, Melanie, Sunwoo, John B., Swarm, Robert A., Sykes, Jonathan M., Syme, Noah P., Tardy, M. Eugene, Jr., Tatum, Sherard A., III, Taylor, S. Mark, Teasley, Rod A., Telian, Steven A., Terris, David J., Thatcher, Aaron L., Thomas, J. Regan, Timmons, Sherry R., Tjoa, Tjoson, Toriumi, Dean M., Trimarchi, Matteo, Tsue, Terance T., Tu, Nathan C., Turner, Michael D., Uppaluri, Ravindra, Vaezi, Michael F., Van Abel, Kathryn M., van den Brekel, Michiel W.M., Van Gerven, Laura, Venekamp, Roderick P., Verma, Sunil P., Villwock, Jennifer A., Vivas, Esther X., Vokes, David, Wackym, P. Ashley, Walsh, Edward J., Walvekar, Rohan R., Wang, Jennifer R., Wang, Tom D., Ward, Bryan K., Weber, Randal S., Wein, Richard O., Weinstein, Gregory S., Weitzel, Erik K., Welling, D. Bradley, Whitcroft, Katherine Lisa, Wiggins, Richard H., III, Wilkerson, Brent J., Wilkinson, Eric P., Wingo, Melissa L., Wise, Sarah K., Wishart, Laurelie R., Woodson, Erika, Woodson, Gayle Ellen, Wormald, Peter J., Worrall, Douglas M., Wrobel, Bozena B., Xu, Mary Jue, Yackel, Thomas R., Yan, Carol H., Yingling, Charles D., Yu, Diana H., Yu, Yao, Yueh, Bevan, Zafereo, Mark E., Zaldivar, Renzo, Zanation, Adam M., Zdanski, Carlton J., Zee, David S., Zeitler, Daniel M., Zimbler, Marc S., Zinreich, S. James, Zopf, David, and Zwolan, Teresa A.

Published
2021
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27. Contributors

Author

Abuzeid, Waleed M., Adams, Meredith E., Adamson, Peter A., Adenis, Antoine, Akst, Seth A., Albers, Sheri L., Allen, Clint T., Anderson, Carryn, Armstrong, William B., Arnold, Michelle G., Arriaga, Moisés A., Arts, H. Alexander, Ashram, Yasmine A., Aygun, Nafi, Backous, Douglas D., Baker, Shan R., Balkany, Thomas J., Balsalobre, Leonardo, Baroody, Fuad M., Bartlett, Nancy L., Bastian, Robert W., Basura, Gregory J., Bauer, Carol A., Bearelly, Shethal, Been, Mark J., Bell, Diana M., Benninger, Michael S., Bewley, Arnaud F., Bhama, Prabhat K., Bhatti, Nasir Islam, Bhrany, Amit D., Bleier, Benjamin S., Blitzer, Andrew, Bottros, Michael M., Brackmann, Derald E., Bradford, Carol R., Branham, Gregory H., Branstetter, Barton F., IV, Brant, Jason A., Brenner, Michael J., Brietzke, Scott, Briggs, Robert J.S., Brinkmeier, Jennifer Veraldi, Brodie, Hilary A., Brown, Carolyn J., Brown, David J., Brown, Kevin D., Brown, Lisa M., Budenz, Cameron L., Carey, John P., Casselbrandt, Margaretha L., Castelnuovo, Paolo, Chan, Kenny H., Chegar, Burke E., Chen, Eunice Y., Cheng, Alan G., Chepeha, Douglas B., Chiang, Tendy, Chien, Wade W., Choi, Sukgi S., Chole, Richard A., Christian, James M., Chu, Eugene A., Chun, Robert, Citardi, Martin J., Compton, Andrew Michael, Cotton, Robin T., Couch, Marion Everett, Council, Martha Laurin, Courey, Mark S., Crane, Benjamin T., Cruz, Oswaldo Laércio M., Culicchia, Frank, Cummings, Charles W., Cunningham, Calhoun D., III, Dahlin, Brian C., Daniel, Sam J., Darr, E. Ashlie, Day, Terry A., Della Santina, Charles C., Demke, Joshua C., Denoyelle, Françoise, Derkay, Craig S., Diaz, Rodney C., Dobie, Robert A., Durham, Alison B., Eggers, Scott D.Z., Eisbruch, Avraham, Eisele, David W., Eisler, Lindsay S., El-Deiry, Mark, El-Kashlan, Hussam K., Elluru, Ravindhra G., Emmett, Susan D., Fakhri, Samer, Fakhry, Carole, Cardenas, Marcela Fandiño, Farrior, Edward H., Farrior, Richard T., Faust, Russell A., Ferguson, Berrylin J., Fink, Daniel S., Flint, Paul W., Fokkens, Wytske J., Francis, Howard W., Friedland, David R., Friedman, Oren, Friedman, Rick A., Frodel, John L., Jr, Gailey, Michael P., Doud Galli, Suzanne K., Ganly, Ian, Gantz, Bruce J., Garrett, C. Gaelyn, Gillespie, M. Boyd, Girod, Douglas A., Goddard, Adam C., Goddard, John C., Goding, George S., Jr, Goldberg, Andrew N., Goldenberg, David, Goldstein, Nira A., Gonzalez, Debra, Gourin, Christine G., Green, Glenn, Grégoire, Vincent, Gries, Heike, Griffin, Garrett, Guardiani, Elizabeth, Gubbels, Samuel P., Ha, Patrick K., Hamilton, Bronwyn E., Hamilton, Grant S., III, Hamoir, Marc, Handelsman, Jaynee A., Hanna, Ehab Y., Harmych, Brian M., Harréus, Uli, Harrison, Robert V., Haughey, Bruce H., Heider, Amer, Hellstein, John, Herzer, Kurt R., Hilgers, Frans J.M., Hill, Justin D., Hillel, Alexander T., Hinni, Michael L., Ho, Allen S., Ho, Maria K., Hoffman, Henry T., Holbrook, Eric H., Hom, David B., Houlton, Jeffrey J., House, John W., Hullar, Timothy E., Ing, Steven, Ishman, Stacey L., Jackler, Robert K., Jackson, Neal M., Jackson, Ryan S., Jameson, Brian, Jenkins, Herman A., Jin, Hong-Ryul, Joe, John K., Joe, Stephanie A., Johnson, Christopher M., Johnson, Tiffany A., Johnson, Timothy M., Jones, Nicholas S., Jorissen, Mark, Julieron, Morbize, Kanaan, Alyssa A., Kavitt, Robert T., Kellman, Robert M., Kennedy, David W., Kepchar, Jessica, Kern, Robert C., Kies, Merrill S., Kileny, Paul R., Kim, Alyn J., Kim, Jason H., Kim, Theresa, Kimberling, William J., King, Ericka F., Koh, Jeffrey, Konior, Raymond J., Kozak, Frederick K., Kraft, Shannon M., Kridel, Russell, Kumar, Parvesh, Kunduk, Melda, Laccourreye, Ollivier, Lai, Stephen Y., Lal, Devyani, Lalwani, Anil K., Lam, Derek J., Lambert, Paul R., Larsen, Christopher G., Lassig, Amy Anne, Latchaw, Richard E., Leahy, Kevin P., Lee, Daniel J., Lee, Nancy, Lee, Stella, Lefton-Greif, Maureen A., Leopold, Donald A., Lesperance, Marci M., Levi, Jessica, Lewis, James S., Jr, Li, Daqing, Lian, Timothy S., Liddy, Whitney, Limb, Charles J., Liu, Judy Z., Logemann, Jeri A., Loh, Thomas, Lominska, Christopher, Lonsbury-Martin, Brenda L., Lott, David G., Lustig, Lawrence R., Lysakowski, Anna, Maisel, Robert H., Mandel, Ellen M., Mandel, Susan J., Mangat, Devinder S., Mark, Lynette J., Markt, Jeffrey C., Marsh, Michael, Martin, Glen K., Mattox, Douglas E., McCaffrey, Thomas V., McGee, JoAnn, McGinn, Johnathan D., McGuire, John F., McJunkin, Jonathan, McMurray, J. Scott, Meier, Jeremy D., Merati, Albert L., Merchant, Saumil N., Messner, Anna H., Meyer, Anna, Michelson, James D., Milczuk, Henry A., Millar, Jennifer L., Miller-Thomas, Michelle, Minor, Lloyd B., Mitchell, Jenna L., Mobley, Steven Ross, Moore, Eric J., Muntz, Harlan, Murakami, Craig S., Myers, Jeffrey N., Naclerio, Robert M., Nadol, Joseph B., Jr, Nassif, Paul, Nelson, Marc, Nelson, Rick F., Nicolai, Piero, Nielsen, David R., Niparko, John K., Noel, Richard J., Nouraei, S.A. Reza, Nugent, Ajani, Nuss, Daniel W., Nussenbaum, Brian, Oakley, Gretchen M., Odland, Rick M., Ohye, Richard G., O'Malley, Bert W., Jr, O'Reilly, Robert C., Ospina, Juan Camilo, Ossoff, Robert H., Packer, Mark D., Pagedar, Nitin A., Pallanch, John, Park, Stephen S., Parsons, Matthew S., Patel, Hetal H., Patterson, G. Alexander, Pellitteri, Phillip K., Perkins, Jonathan A., Perkins, Stephen W., Pignatari, Shirley S.N., Pletcher, Steven D., Popovtzer, Aron, Postma, Gregory N., Poti, Shannon M., Potsic, William P., Pross, Seth E., Puscas, Liana, Qian, Zhen Jason, Ramachandran, Virginia, Randolph, Gregory W., Rao, Lesley, Rassekh, Christopher H., Reinisch, Lou, Rhoton, Albert L., Jr, Riaz, Nadeem, Richmon, Jeremy D., Ridgway, James M., Rigby, Matthew H., Rizzi, Mark D., Robbins, K. Thomas, Roberts, Daniel, Roediger, Frederick C., Ronen, Ohad, Rosbe, Kristina W., Rosenfeld, Richard M., Rotter, Bruce E., Rubinstein, Jay T., Ruckenstein, Michael J., Runge, Christina L., Rybak, Leonard P., Saade, Rami E., Sadoughi, Babak, Salinas, Thomas J., Samant, Sandeep, Samlan, Robin A., Samy, Ravi N., Sandhu, Guri S., Sauder, Cara, Scher, Richard L., Schindler, Joshua S., Schmalbach, Cecelia E., Schoem, Scott R., Schubert, Michael C., Schwedt, Todd J., Sciubba, James J., Sclafani, Anthony P., Seshamani, Meena, Shearer, A. Eliot, Shelton, Clough, Shepard, Neil T., Shibata, Seiji B., Shnayder, Yelizaveta, Sie, Kathleen C.Y., Simmen, Daniel B., Singer, Michael C., Sinha, Parul, Slattery, William H., III, Smeds, Henrik, Smith, Marshall E., Smith, Richard J.H., Smith, Timothy L., Sobel, Ryan H., Sofferman, Robert A., Soler, Zachary M., Spear, Samuel A., Sperry, Steven M., Sritharan, Niranjan, Stach, Brad A., Stachecki, Robert P., Staecker, Hinrich, Stamm, Aldo Cassol, Stankiewicz, James A., Stevens, Shawn M., Steward, David L., Stoddard, David G., Jr, Stokken, Janalee K., Sturm-O'Brien, Angela, Sunwoo, John B., Swanson, Veronica C., Swarm, Robert A., Sykes, Jonathan M., Tan, Luke, Tan, Marietta, Taneja, Pravin A., Tardy, M. Eugene, Jr, Tatum, Sherard A., III, Taylor, S. Mark, Teasley, Rod A., Tedeschi, Helder, Telian, Steven A., Terris, David J., Thomas, J. Regan, Tomeh, Chafeek, Toriumi, Dean M., Tran, Aline, Travers, Joseph B., Travers, Susan P., Truong, Mai Thy, Tsue, Terance T., Turner, Michael D., Uppaluri, Ravindra, Vaezi, Michael F., Van Abel, Kathryn M., van den Brekel, Michiel W.M., Van Riper, Lori A., Verma, Sunil P., Vila, Peter M., Vokes, David E., Wackym, P. Ashley, Wakefield, Tamekia L., Walden, Michael J., Walker, Thomas J., Walsh, Edward J., Walvekar, Rohan R., Wang, Tom D., Wang, Tzu-Fei, Warren, Frank M., III, Waters, Heather H., Weber, Randal S., Wein, Richard O., Weinstein, Gregory S., Weitzel, Erik K., Welling, D. Bradley, Wemer, Richard D., Wetmore, Ralph F., Wiggins, Richard H., III, Wilkerson, Brent J., Wippold, Franz J., II, Woodson, Gayle Ellen, Wormald, Peter J., Wright, Harry V., Yellon, Robert F., Yingling, Charles D., Yueh, Bevan, Yung, Rex C., Zaldívar, Renzo A., Zalzal, George H., Zanation, Adam M., Zee, David S., Zimbler, Marc S., Zinreich, S. James, and Zwolan, Teresa A.

Published
2015
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28. HOMER2, a Stereociliary Scaffolding Protein, Is Essential for Normal Hearing in Humans and Mice.

Author

Azaiez, Hela, Decker, Amanda R., Booth, Kevin T., Simpson, Allen C., Shearer, A. Eliot, Huygen, Patrick L. M., Bu, Fengxiao, Hildebrand, Michael S., Ranum, Paul T., Shibata, Seiji B., Turner, Ann, Zhang, Yuzhou, Kimberling, William J., Cornell, Robert A., and Smith, Richard J. H.

Subjects
HEARING, PROTEIN folding, LABORATORY mice, DEAFNESS, HAIR cells, MECHANOTRANSDUCTION (Cytology)
Abstract

Hereditary hearing loss is a clinically and genetically heterogeneous disorder. More than 80 genes have been implicated to date, and with the advent of targeted genomic enrichment and massively parallel sequencing (TGE+MPS) the rate of novel deafness-gene identification has accelerated. Here we report a family segregating post-lingual progressive autosomal dominant non-syndromic hearing loss (ADNSHL). After first excluding plausible variants in known deafness-causing genes using TGE+MPS, we completed whole exome sequencing in three hearing-impaired family members. Only a single variant, p.Arg185Pro in HOMER2, segregated with the hearing-loss phenotype in the extended family. This amino acid change alters a highly conserved residue in the coiled-coil domain of HOMER2 that is essential for protein multimerization and the HOMER2-CDC42 interaction. As a scaffolding protein, HOMER2 is involved in intracellular calcium homeostasis and cytoskeletal organization. Consistent with this function, we found robust expression in stereocilia of hair cells in the murine inner ear and observed that over-expression of mutant p.Pro185 HOMER2 mRNA causes anatomical changes of the inner ear and neuromasts in zebrafish embryos. Furthermore, mouse mutants homozygous for the targeted deletion of Homer2 present with early-onset rapidly progressive hearing loss. These data provide compelling evidence that HOMER2 is required for normal hearing and that its sequence alteration in humans leads to ADNSHL through a dominant-negative mode of action. [ABSTRACT FROM AUTHOR]

Published
2015
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29. TBC1 D24 Mutation Causes Autosomal-Dominant Nonsyndromic Hearing Loss.

Author

Azaiez, Hela, Booth, Kevin T., Bu, Fengxiao, Huygen, Patrick, Shibata, Seiji B., Shearer, A. Eliot, Kolbe, Diana, Meyer, Nicole, Black‐Ziegelbein, E. Ann, and Smith, Richard J.H.

Abstract

ABSTRACT Hereditary hearing loss is extremely heterogeneous. Over 70 genes have been identified to date, and with the advent of massively parallel sequencing, the pace of novel gene discovery has accelerated. In a family segregating progressive autosomal-dominant nonsyndromic hearing loss ( NSHL), we used Oto SCOPE® to exclude mutations in known deafness genes and then performed segregation mapping and whole-exome sequencing to identify a unique variant, p.Ser178Leu, in TBC1 D24 that segregates with the hearing loss phenotype. TBC1 D24 encodes a GTPase-activating protein expressed in the cochlea. Ser178 is highly conserved across vertebrates and its change is predicted to be damaging. Other variants in TBC1 D24 have been associated with a panoply of clinical symptoms including autosomal recessive NSHL, syndromic hearing impairment associated with onychodystrophy, osteodystrophy, mental retardation, and seizures ( DOORS syndrome), and a wide range of epileptic disorders. [ABSTRACT FROM AUTHOR]

Published
2014
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30. Hyaluronic Acid Enhances Gene Delivery into the Cochlea.

Author

Shibata, Seiji B., Cortez, Sarah R., Wiler, James A., Swiderski, Donald L., and Raphael, Yehoash

Subjects
*HYALURONIC acid, *GENE therapy, *COCHLEA, *TREATMENT of deafness, *MIDDLE ear, *GREEN fluorescent protein
Abstract

AbstractCochlear gene therapy can be a new avenue for the treatment of severe hearing loss by inducing regeneration or phenotypic rescue. One necessary step to establish this therapy is the development of a safe and feasible inoculation surgery, ideally without drilling the bony cochlear wall. The round window membrane (RWM) is accessible in the middle-ear space, but viral vectors placed on this membrane do not readily cross the membrane to the cochlear tissues. In an attempt to enhance permeability of the RWM, we applied hyaluronic acid (HA), a nontoxic and biodegradable reagent, onto the RWM of guinea pigs, prior to delivering an adenovirus carrying enhanced green fluorescent protein (eGFP) reporter gene (Ad-eGFP) at the same site. We examined distribution of eGFP in the cochlea 1 week after treatment, comparing delivery of the vector via the RWM, with or without HA, to delivery by a cochleostomy into the perilymph. We found that cochlear tissue treated with HA-assisted delivery of Ad-eGFPdemonstrated wider expression of transgenes in cochlear cells than did tissue treated by cochleostomy injection. HA-assisted vector delivery facilitated expression in cells lining the scala media, which are less accessible and not transduced after perilymphatic injection. We assessed auditory function by measuring auditory brainstem responses and determined that thresholds were significantly better in the ears treated with HA-assisted Ad-eGFPplacement on the RWM as compared with cochleostomy. Together, these data demonstrate that HA-assisted delivery of viral vectors provides an atraumatic and clinically feasible method to introduce transgenes into cochlear cells, thereby enhancing both research methods and future clinical application. [ABSTRACT FROM AUTHOR]

Published
2012
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32. Gene therapy for hair cell regeneration: Review and new data.

Author

Shibata, Seiji B., West, Matthew B., Du, Xiaoping, Iwasa, Yoichiro, Raphael, Yehoash, and Kopke, Richard D.

Subjects
*HAIR cells, *GENE therapy, *CELLULAR therapy, *INNER ear, *SOUND energy, *AUDITORY neuropathy, *VESTIBULAR apparatus diseases
Abstract

Hair cells (HCs) in the cochlea are responsible for transducing mechanical sound energy into neural impulses which lead to the perception of sound. Loss of these sensory cells is the most common cause of sensorineural hearing loss, and spontaneous HC regeneration does not occur in mature mammals. Among the future potential treatment modalities is gene therapy, which is defined as the administration of either DNAs or RNAs as active pharmaceutical ingredients for inducing a clinically-beneficial response. Gene therapy is being envisioned and evaluated as a potential tool for addressing a number of human inner ear disorders. This paper is a hybrid Review and Research Paper, including unpublished data and a review of HC regeneration studies in live animal models. Current gene therapeutic approaches for replacing lost HC populations have been aimed at converting supporting cells surviving within the neuro-epithelium to new HCs by inducing upregulation of bHLH transcription factors such as Atoh1 or reciprocal silencing of Notch signaling with siRNAs, to tip the balance of transcriptional regulation toward a HC fate. Development of one or more of these techniques may yield a path to effective restoration of inner ear form and function. This review also describes other approaches and molecular targets that may prove efficacious and provides perspectives on future clinical challenges and opportunities for gene therapy to become a valuable weapon for the long-anticipated realization of this regenerative treatment. • Gene therapy for hair cell regeneration is a potential approach to restore lost hair cells in the inner ear. • Review of recent advancements made in gene therapy for hair cell regeneration in both the cochlear and vestibular organs. • Ad. Atoh1 induces immature hair cell like cells in normal and deafened neonatal mouse cochleae. • Nanoparticle-encapsulated Hes1 siRNAs can promote hair cell regeneration in deafened guinea pig cochleae. [ABSTRACT FROM AUTHOR]

Published
2020
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33. Differential Effects of AAV.BDNF and AAV.Ntf3 in the Deafened Adult Guinea Pig Ear.

Author

Budenz, Cameron L., Wong, Hiu Tung, Swiderski, Donald L., Shibata, Seiji B., Pfingst, Bryan E., and Raphael, Yehoash

Subjects
HAIR cells, NEURONS, COCHLEAR implants, GUINEA pigs, SENSE organs
Abstract

Cochlear hair cell loss results in secondary regression of peripheral auditory fibers (PAFs) and loss of spiral ganglion neurons (SGNs). The performance of cochlear implants (CI) in rehabilitating hearing depends on survival of SGNs. Here we compare the effects of adeno-associated virus vectors with neurotrophin gene inserts, AAV.BDNF and AAV.Ntf3, on guinea pig ears deafened systemically (kanamycin and furosemide) or locally (neomycin). AAV.BDNF or AAV.Ntf3 was delivered to the guinea pig cochlea one week following deafening and ears were assessed morphologically 3 months later. At that time, neurotrophins levels were not significantly elevated in the cochlear fluids, even though in vitro and shorter term in vivo experiments demonstrate robust elevation of neurotrophins with these viral vectors. Nevertheless, animals receiving these vectors exhibited considerable re-growth of PAFs in the basilar membrane area. In systemically deafened animals there was a negative correlation between the presence of differentiated supporting cells and PAFs, suggesting that supporting cells influence the outcome of neurotrophin over-expression aimed at enhancing the cochlear neural substrate. Counts of SGN in Rosenthal's canal indicate that BDNF was more effective than NT-3 in preserving SGNs. The results demonstrate that a transient elevation in neurotrophin levels can sustain the cochlear neural substrate in the long term. [ABSTRACT FROM AUTHOR]

Published
2015
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34. Mutation-agnostic RNA interference with engineered replacement rescues Tmc1 -related hearing loss.

Author

Iwasa Y, Klimara MJ, Yoshimura H, Walls WD, Omichi R, West CA, Shibata SB, Ranum PT, and Smith RJ

Subjects
Membrane Proteins genetics, Mutation genetics, RNA Interference, Hearing Loss, Sensorineural, Mice, Animals, Hearing Loss genetics, Hearing Loss therapy, Mechanotransduction, Cellular
Abstract

Hearing loss is the most common sensory deficit, of which genetic etiologies are a frequent cause. Dominant and recessive mutations in TMC1 , a gene encoding the pore-forming subunit of the hair cell mechanotransduction channel, cause DFNA36 and DFNB7/11, respectively, accounting for ∼2% of genetic hearing loss. Previous work has established the efficacy of mutation-targeted RNAi in treatment of murine models of autosomal dominant non-syndromic deafness. However, application of such approaches is limited by the infeasibility of development and validation of novel constructs for each variant. We developed an allele-non-specific approach consisting of mutation-agnostic RNAi suppression of both mutant and WT alleles, co-delivered with a knockdown-resistant engineered WT allele with or without the use of woodchuck hepatitis virus post-transcriptional regulatory element (WPRE) to augment transgene expression. This therapeutic construct was delivered into the mature murine model of DFNA36 with an AAV vector and achieved robust hair cell and auditory brainstem response preservation. However, WPRE-enhanced Tmc1 expression resulted in inferior outcomes, suggesting a role for gene dosage optimization in future TMC1 gene therapy development., (© 2022 Iwasa et al.)

Published
2022
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35. Reduction of sporadic and neurofibromatosis type 2-associated vestibular schwannoma growth in vitro and in vivo after treatment with the c-Jun N-terminal kinase inhibitor AS602801.

Author

Dougherty MC, Shibata SB, Clark JJ, Canady FJ, Yates CW, and Hansen MR

Subjects
Humans, Male, Mice, Animals, JNK Mitogen-Activated Protein Kinases metabolism, Mice, Nude, Neurofibromatosis 2 complications, Neurofibromatosis 2 drug therapy, Neuroma, Acoustic drug therapy, Neuroma, Acoustic pathology
Abstract

Objective: Vestibular schwannomas (VSs) are benign nerve sheath tumors that result from mutation in the tumor suppressor gene NF2, with functional loss of the protein merlin. The authors have previously shown that c-Jun N-terminal kinase (JNK) is constitutively active in human VS cells and plays a central role in their survival by suppressing accumulation of mitochondrial superoxides, implicating JNK inhibitors as a potential systemic treatment for VS. Thus, the authors hypothesized that the adenosine 5'-triphosphate-competitive JNK inhibitor AS602801 would demonstrate antitumor activity in multiple VS models., Methods: Treatment with AS602801 was tested in primary human VS cultures, human VS xenografts, and a genetic mouse model of schwannoma (Postn-Cre;Nf2flox/flox). Primary human VS cell cultures were established from freshly obtained surgical tumor specimens; treatment group media was enriched with AS602801. VS xenograft tumors were established in male athymic nude mice from freshly collected human tumor. Four weeks postimplantation, a pretreatment MRI scan was obtained, followed by 65 days of AS602801 (n = 18) or vehicle control (n = 19) treatment. Posttreatment MRI scans were used to measure final tumor volume. Tumors were then harvested. Finally, Postn-Cre;Nf2flox/flox mice were treated with AS602801 (n = 10) or a vehicle (n = 13) for 65 days. Posttreatment auditory brainstem responses were obtained. Dorsal root ganglia from Postn-Cre;Nf2flox/flox mice were then harvested. In all models, schwannoma identity was confirmed with anti-S100 staining, cell proliferation was measured with the EdU assay, and cell death was measured with terminal deoxynucleotidyl transferase-mediated dUTP nick-end labeling staining. All protocols were approved by the local institutional review board and Institutional Animal Care and Use Committees., Results: Treatment with AS602801 decreased cell proliferation and increased apoptosis in primary human VS cultures. The systemic administration of AS602801 in mice with human VS xenografts reduced tumor volume and cell proliferation. Last, the AS602801-treated Postn-Cre;Nf2flox/flox mice demonstrated decreased cell proliferation in glial cells in the dorsal root ganglia. However, AS602801 did not significantly delay hearing loss in Postn-Cre;Nf2flox/flox mice up to 3 months posttreatment., Conclusions: The data suggest that JNK inhibition with AS602801 suppresses growth of sporadic and neurofibromatosis type 2-associated VSs. As such, AS602801 is a potential systemic therapy for VS and warrants further investigation.

Published
2022
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36. An Osseous Destructive Mass of the Infratemporal Fossa.

Author

Vesole AS, Shibata SB, and Hansen MR

Subjects
Aged, Humans, Infratemporal Fossa diagnostic imaging, Infratemporal Fossa surgery, Magnetic Resonance Imaging, Male, Neoplasm Invasiveness, Rhabdomyosarcoma classification, Rhabdomyosarcoma diagnostic imaging, Rhabdomyosarcoma surgery, Risk Factors, Skull Base Neoplasms classification, Skull Base Neoplasms diagnostic imaging, Skull Base Neoplasms surgery, Tomography, X-Ray Computed, Infratemporal Fossa pathology, Rhabdomyosarcoma pathology, Skull Base Neoplasms pathology
Published
2020
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37. Enhanced viral-mediated cochlear gene delivery in adult mice by combining canal fenestration with round window membrane inoculation.

Author

Yoshimura H, Shibata SB, Ranum PT, and Smith RJH

Subjects
Adenoviridae genetics, Animals, Cochlea surgery, Cochlear Implantation, Deafness genetics, Disease Models, Animal, Ear Canal surgery, Female, Genetic Vectors, Hearing Loss genetics, Humans, Male, Mice, Mice, Inbred C3H, Round Window, Ear surgery, Tympanic Membrane surgery, Cochlea physiology, Deafness therapy, Fenestration, Labyrinth methods, Gene Transfer Techniques, Genetic Therapy methods, Hair Cells, Auditory, Inner physiology, Hearing Loss therapy
Abstract

Cochlear gene therapy holds promise for the treatment of genetic deafness. Assessing its impact in adult murine models of hearing loss, however, has been hampered by technical challenges that have made it difficult to establish a robust method to deliver transgenes to the mature murine inner ear. Here in we demonstrate the feasibility of a combined round window membrane injection and semi-circular canal fenestration technique in the adult cochlea. Injection of both AAV2/9 and AAV2/Anc80L65 via this approach in P15-16 and P56-60 mice permits robust eGFP transduction of virtually all inner hair cells throughout the cochlea with variable transduction of vestibular hair cells. Auditory thresholds are not compromised. Transduction rate and cell tropism is primarily influenced by viral titer and AAV serotype but not age at injection. This approach is safe, versatile and efficient. Its use will facilitate studies using cochlear gene therapy in murine models of hearing loss over a wide range of time points.

Published
2018
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38. Intravenous rAAV2/9 injection for murine cochlear gene delivery.

Author

Shibata SB, Yoshimura H, Ranum PT, Goodwin AT, and Smith RJH

Subjects
Administration, Intravenous, Animals, Animals, Newborn, Dependovirus classification, Gene Expression, Genes, Reporter, Genetic Vectors administration & dosage, Immunohistochemistry, Mice, Spiral Ganglion metabolism, Transduction, Genetic, Transgenes, Cochlea metabolism, Dependovirus genetics, Gene Transfer Techniques, Genetic Vectors genetics
Abstract

Gene therapy for genetic deafness is a promising approach by which to prevent hearing loss or to restore hearing after loss has occurred. Although a variety of direct approaches to introduce viral particles into the inner ear have been described, presumed physiological barriers have heretofore precluded investigation of systemic gene delivery to the cochlea. In this study, we sought to characterize systemic delivery of a rAAV2/9 vector as a non-invasive means of cochlear transduction. In wild-type neonatal mice (postnatal day 0-1), we show that intravenous injection of rAAV2/9 carrying an eGFP-reporter gene results in binaural transduction of inner hair cells, spiral ganglion neurons and vestibular hair cells. Transduction efficiency increases in a dose-dependent manner. Inner hair cells are transduced in an apex-to-base gradient, with transduction reaching 96% in the apical turn. Hearing acuity in treated animals is unaltered at postnatal day 30. Transduction is influenced by viral serotype and age at injection, with less efficient cochlear transduction observed with systemic delivery of rAAV2/1 and in juvenile mice with rAAV2/9. Collectively, these data validate intravenous delivery of rAAV2/9 as a novel and atraumatic technique for inner ear transgene delivery in early postnatal mice.

Published
2017
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