{"id":1146,"date":"2017-06-06T12:30:18","date_gmt":"2017-06-06T16:30:18","guid":{"rendered":"https:\/\/lab.research.sickkids.ca\/archies-cochlear-implant\/?page_id=1146"},"modified":"2026-03-10T11:08:20","modified_gmt":"2026-03-10T15:08:20","slug":"peer-reviewed-journal-articles","status":"publish","type":"page","link":"https:\/\/lab.research.sickkids.ca\/archies-cochlear-implant\/publications\/dr-karen-a-gordon\/peer-reviewed-journal-articles\/","title":{"rendered":"Peer Reviewed Journal Articles"},"content":{"rendered":"

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2026<\/strong><\/h3>\n

Hazen, M.,<\/u> Cushing, S.L., Gordon, K.A<\/strong>. Impacts of Hearing History, Etiology, Vestibular and Balance Function, and Socioeconomic Marginalization on Developmental Outcomes in Children with Cochlear Implants, Scientific Reports \u2013 accepted<\/p>\n

Alemu, R.Z<\/u>., Blakeman, Al., Negandhi, J., Papsin, B.C., Cushing, S.L., Gordon, K.A<\/strong>., Benefits of bilateral bone conduction device use including Osia devices in children and adolescents with bilateral atresia, Trends in Hearing \u2013 accepted. Abstract<\/a><\/p>\n

2025<\/strong><\/h3>\n

Hiremath, S., Bitnun, A.,\u00a0 Amirabadi, A.,\u00a0 Cushing, S., Gordon, K<\/strong>., Ertl-Wagner, B., Wagner, M., Vidarsson, L., Genetic and Congenital CMV-Related Hearing Loss in Children: Volumetric MRI Analysis of Auditory and Visual Cortices, American Journal of Neuroradiology \u2013 accepted<\/p>\n

Sabourin CJ<\/u>, Lomber SG, Negandhi J, Cushing SL, Papsin BC, Gordon KA<\/strong>. Long-Term Stability of Electrical Stimulation in Children with Bilateral Cochlear Implants. Trends Hear. Jan-Dec;29:23312165251398130. doi: 10.1177\/23312165251398130. Epub 2025 Nov 19. PMID: 41259266; PMCID: PMC12635042. Abstract<\/a><\/p>\n

E. Loos<\/u>, M. Gerdsen, M. Hazen<\/u>, S.L. Cushing, K.A. Gordon<\/strong>, A. Perez-Fornos, N. Verhaert, C. Desloovere, R. Van de Berg, J. Widdershoven, Bilateral vestibular hypofunction in children, International Journal of Pediatric Otorhinolaryngology, 112506, ISSN 0165-5876 Abstract<\/a><\/p>\n

Cauchi, A.M<\/u>, Negandhi, J., Cushing, S.L, Gordon, K.A<\/strong>., Automatic speech recognition technology to evaluate an audiometric word recognition test: A preliminary investigation, Speech Communication, Volume 173, 103270, ISSN 0167-6393.<\/p>\n

Gordon, K.A<\/strong> & van Wieringen, A., Current state of knowledge regarding cochlear implantation in children with single sided deafness, Ear Hearing, Oct 23. doi: 10.1097\/AUD.0000000000001726. Epub ahead of print. PMID: 41128523. Abstract<\/a><\/p>\n

Gao, H, Bartels, Wener, E., M<\/u>.J, Negandhi, J., Cushing, S.L, Papsin, B.C., Gordon, K.A<\/strong>., Patterns of Cochlear Implant Use and Speech Exposure in Children with Single-Sided Deafness Compared to Bimodal Devices in the Post-Pandemic Period, Ear Hearing, Ear Hear. 2025 Oct 23. doi: 10.1097\/AUD.0000000000001722. Epub ahead of print. PMID: 41128530. Abstract<\/a><\/p>\n

Bartels, H.<\/u> Polonenko, M.J, Negandhi, J., Alemu, R.Z<\/u>., Cushing, S.L, Papsin, B.C., Gordon, K.A<\/strong>.Effects of hearing aid use and residual hearing on speech perception outcomes in children with unilateral cochlear implantation, Ear Hearing, 025 Oct 23. doi: 10.1097\/AUD.0000000000001723. Online ahead of print. PMID: 41128525 Abstract<\/a><\/p>\n

Wener ER, Cushing SL, Papsin BC, Stavropoulos DJ, Mendoza-Londono R, Quercia N,\u00a0Gordon KA. <\/b>The Importance of Newborn Genetic Screening for Early Identification of GJB2 and SLC26A4 Related Hearing Loss. Otolaryngol Head Neck Surg. 2025 Jun;172(6):2082-2089. doi: 10.1002\/ohn.1188. Epub 2025 Feb 26.<\/span>PMID:\u00a040008839. <\/span><\/span>Abstract.<\/a><\/p>\n

Hazen M, Cushing SL,\u00a0Gordon KA. <\/b>A<\/span>ssessment of Balance Deficits in at Risk Pediatric Populations. Ear Hear. 2025 Sep 18. doi: 10.1097\/AUD.0000000000001728. Online ahead of print.<\/span>PMID:\u00a040963160. <\/span><\/span>Abstract.<\/a><\/p>\n

\n
Alemu RZ, Blakeman A, Fung AL, Hazen M, Negandhi J, Papsin BC, Cushing SL,\u00a0Gordon KA. <\/b>Children With Bilateral Cochlear Implants Show Emerging Spatial Hearing of Stationary and Moving Sound.
\n<\/b><\/span><\/span>Trends Hear. 2025 Jan-Dec;29:23312165251356333. doi: 10.1177\/23312165251356333. Epub 2025 Jul 4.<\/span>PMID:\u00a040611671<\/span><\/span> . Abstract.<\/a><\/div>\n
<\/div>\n
Fung AL, Blakeman AW, Alemu RZ, Negandhi J, Cushing SL, Papsin BC, Gordon KA. <\/b>Clinical programming can limit access to binaural cues in children with bilateral cochlear implants. Clin Neurophysiol. 2025 May;173:52-63. doi: 10.1016\/j.clinph.2025.02.271. Epub 2025 Mar 10.<\/span>PMID:\u00a040085994. Abstract.<\/a><\/span><\/span><\/div>\n<\/div>\n

<\/h3>\n

2024<\/strong><\/h3>\n

Honigman T, Cushing SL, Papsin BC, Waltzman S, Woodard J, Neumann S, Fitzgerald MB,\u00a0Gordon KA. <\/b>Safety and Early Outcomes of Cochlear Implantation of Nucleus Devices in Infants: A Multi-Centre Study. Trends Hear. 2024 Jan-Dec;28:23312165241261480. doi: 10.1177\/23312165241261480.<\/span>PMID:\u00a038887094. <\/span><\/span>Abstract.\u00a0<\/a><\/p>\n

Wener ER, McLennan JD, Papsin BC, Cushing SL, Stavropoulos DJ, Mendoza-Londono R, Quercia N,\u00a0Gordon KA. <\/b>Variants in Genes Associated with Hearing Loss in Children: Prevalence in a Large Canadian Cohort. Laryngoscope. 2024 Aug;134(8):3832-3838. doi: 10.1002\/lary.31373. Epub 2024 Mar 1.<\/span>PMID:\u00a038426810. <\/span><\/span>Abstract.<\/a><\/p>\n

Alemu RZ, Papsin BC, Harrison RV, Blakeman A,\u00a0Gordon KA.\u00a0 <\/b>Head and Eye Movements Reveal Compensatory Strategies for Acute Binaural Deficits During Sound Localization. Trends Hear. 2024 Jan-Dec;28:23312165231217910. doi: 10.1177\/23312165231217910.<\/span>PMID:\u00a038297817. <\/span><\/span>Abstract.<\/a><\/p>\n

2023<\/strong><\/h3>\n

Gordon KA<\/strong>, Papsin BC, Cushing SL. Long-term language, educational, and quality-of-life outcomes in adolescents after childhood cochlear implantation. JAMA Otolaryngol Head Neck Surg. 2023 Aug 1;149(8):715-716. doi: 10.1001\/jamaoto.2023.1329. PMID: 37382947.<\/p>\n

Benjamin, Rebecca & Cushing, Sharon & Blakeman, Alan & Campos, Jennifer & Papsin, Blake & Gordon, Karen<\/strong>. (2023). Evaluating the use of a balance prosthesis during balance perturbations in children and young adults with cochleovestibular dysfunction. Scientific Reports. 13. 10.1038\/s41598-023-36613-3. Abstract<\/a><\/p>\n

Karen A. Gordon<\/strong>,\u00a0<\/span>Carly Anderson,\u00a0<\/span>Salima Jiwani,\u00a0<\/span>Melissa J. Polonenko,\u00a0<\/span>Dan Wong,\u00a0<\/span>Sharon Cushing,\u00a0<\/span>Blake Papsin; Non-auditory processing of cochlear implant stimulation after unilateral auditory deprivation in children.\u00a0J Acoust Soc Am<\/em> 1 March 2023; 153 (3_supplement): A205. Abstract<\/a><\/p>\n

Gordon K.A<\/strong>., Alemu R., Papsin B.C., Negandhi J., Cushing S.E., \u201cEffects of age at implantation on outcomes of cochlear implantation in children with short durations of single sided deafness\u201d. Otol Neurotol. Mar 1;44(3):233-240.\u00a0Abstract<\/a><\/p>\n

2022<\/strong><\/h3>\n

Polonenko M.J., Vicente L.C., Papsin B.C., Gordon K.A., \u201cLongitudinal effects of simultaneous and sequential bilateral cochlear implantation on cortical auditory-evoked potentials recorded at Cz in a large cohort of children\u201d. Ear Hear. Sep 29.\u00a0Abstract<\/a><\/p>\n

Gordon K.A., Papsin B.C., Feness M., Negandhi J., Cushing S.L., \u201cFirst generation osseointegrated steady state implant benefits in children with hearing loss\u201d. Otol Neurol Mar 1;43(3):337-344.\u00a0Article<\/a><\/p>\n

Cushing, S.L, Purcell P.L., Papaiaonnou V., Neghandi J., Daien M., Blaser S.I., Ertl-Wagner B., Wagner M., Sheng M., James A.L., Bitnun A., Papsin B.C., Gordon K.A., \u201cHearing instability in children with cytomegalovirus: Evidence and neural consequences\u201d, Laryngoscope,<\/em>\u00a0Sep;132 Suppl 11:S1-S24.\u00a0Abstract<\/a><\/p>\n

Wagner M.W., Cushing S.L., Thsuma M., Gordon K.A., Ertl-Wagner B.B., Vidarsson L., \u201cVolumetric Analysis of Hearing-Related Structures of Brain in Children with GJB2-Related Congenital Deafness\u201d, Children, 9(6), 800.\u00a0Article<\/a><\/p>\n

Gabriel G.A., Harris L.R., Gnanasegaram J.J., Cushing S.L., Gordon K.A., Haycock B.C, Campos J.L., \u201cAge-related changes to vestibular heave and pitch perception and associations with postural control\u201d, Scientific Reports, 12(1):6426.\u00a0Article<\/a><\/p>\n

Anderson C.,\u00a0Papsin B.C., Cushing S.L., Gordon K.A., \u201cCortical imbalance following delayed restoration of bilateral hearing in deaf adolescents\u201d, Human Brain Mapping, Aug 15;43(12):3662-3679.\u00a0Article<\/a><\/p>\n

Vicente L.C., Polonenko M.J.,\u00a0Gordon K.A., Tabanez do Nascimento Silva L., Costa O.A., Alvarenga K.F., \u201cEffects of sequential bilateral cochlear implantation in children: evidence from speech-evoked cortical potentials and tests of speech perception\u201d, Audiology and Neurotology, 27(4):282-296.\u00a0Abstract<\/a><\/p>\n

Tsai P., Wisener N.,\u00a0Papsin B.C., Cushing S.L., Gordon K.A., \u201cToward a method of achieving balanced stimulation of bilateral auditory nerves: Evidence from children receiving matched and unmatched bilateral cochlear implants simultaneously\u201d, Hearing Research, Mar 15;416:108445.\u00a0Abstract<\/a><\/p>\n

2021<\/strong><\/h3>\n

McSweeny C.,\u00a0Cushing S.L., Campos J.L., Papsin B.C., Gordon K.A., \u201cFunctional consequences of poor binaural hearing in development: Evidence from children with unilateral hearing loss and children receiving bilateral cochlear implants\u201d, Trends in Hearing, Oct 18.\u00a0Abstract<\/a><\/p>\n

Cushing S.L., Gordon K.A., Purcell P., Feness M., Negandhi J., Papsin B.C., \u201cSurgical Considerations for an Osseointegrated Steady State Implant (OSIA2\u00ae) in children with hearing loss\u201d, Laryngoscope, Oct 23.\u00a0Abstract<\/a><\/p>\n

Gabriel G., Harris L.R., Gnanasegaram J.J., Cushing S.L., Gordon K.A., Haycock, B.C., Pichora-Fuller M.K., Campos J., \u201cVestibular perceptual thresholds in older adults with and without age-related hearing loss\u201d, Ear Hear, Feb 22;43(2):420-435.\u00a0Abstract<\/a><\/p>\n

Jiwani S.,\u00a0Doesburg S., Papsin B.C., Gordon K.A., \u201cEffects of long-term unilateral cochlear implant use on large-scale network synchronization in adolescents\u201d, Hearing Research, Sep 15;409:108308.\u00a0Abstract<\/a><\/p>\n

Purcell P.L., Deep N.L., Waltzman S.B., Roland Jr. J.T., Cushing S.L., Papsin, B.C., Gordon K.A., \u201cCochlear Implantation\u00a0in\u00a0Infants: Why and How\u201d, Trends in Hearing, Jan-Dec;25:2331216521103175.\u00a0Abstract<\/a><\/p>\n

Deep N.L., Purcell P.L.,\u00a0Gordon K.A., Papsin B.C., Roland Jr. J.T., Waltzman S.B., \u201cCochlear Implantation\u00a0in\u00a0Infants: Evidence of Safety\u201d, Trends in Hearing, Jan\/Dec;25:23312165211014695.\u00a0Abstract<\/a><\/p>\n

Gordon K.A.,\u00a0Baitz\u00a0J., Gnanasegaram J.J., McKnight C., Corneil B.D., Camp A.J.,
\nCushing\u00a0S.L., \u201cResponse Characteristics of Vestibular Evoked Myogenic Potentials Recorded Over Splenius Capitis in Young Adults and Adolescents\u201d, Acta Otorrinolaringologica Espanola, Jun 1;S0001-6519(21)00038-8.\u00a0Abstract<\/a><\/p>\n

Leonard C.G., Dixon P.R., Cushing S.L., Papsin B.C., Gordon K.A., James A.L., \u201cMeasurement Properties of the Hearing Environments and Reflection of Quality of Life (HEAR-QL) 28-item Questionnaire in Cholesteatoma\u201d, Otology and Neurotology, Mar 1;42(3):e304-e310.\u00a0Abstract<\/a><\/p>\n

Zawawi F., Cushing S.L., James A.L., Gordon K.A., Papsin B.C., \u201cHow I do it: Proximal cochlear implant electrode fixation using Ned\u2019s Knot\u201d, International Journal of Pediatric Otorhinolaryngology Mar;142:110593.\u00a0Abstract<\/a><\/p>\n

Deonarain, A.R., Harrison, R.V., Gordon, K.A., Looi, T., Agur, AM.R., Estrada, M., Wolter, N.E., Propst E.J., \u201cLive porcine model for surgical training in tracheostomy and open-airway surgery\u201d, Laryngoscope.\u00a0Abstract<\/a><\/p>\n

Gordon, K.A., Daien, M.F., Negandhi, J, Blakeman, Ganek, H., Papsin, B.C. , Cushing, S.L.,\u00a0 \u201cExposure to Spoken Communication in Children With Cochlear Implants During the COVID-19 Lockdown\u201d, JAMA Otolaryngology-Head & Neck Surgery, 147(4); 368-376.\u00a0Abstract<\/a><\/p>\n

Wolter, N.E., Gordon, K.A., Campos, J., Vilchez-Madrigal, L.D., Papsin, B.C., Cushing, S.L., Impact of the Sensory Environment on Balance in Children with Bilateral Cochleovestibular Loss, Hearing Research, Feb;400:108134.\u00a0Abstract<\/a><\/p>\n

Ganek, H., Forde-Dixon, D., Cushing, S.L, Papsin, B.C., Gordon, K.A., Cochlear implant datalogging accurately characterizes children\u2019s auditory scenes\u201d, Cochlear Implant International,\u00a0 Oct 2;1-11.\u00a0Abstract<\/a><\/p>\n

2020<\/strong><\/h3>\n

Lee, H-J., Smieja, D., Polonenko, M.J., Cushing, S.L., Papsin, B.C., Gordon, K.A., Consistent and chronic cochlear implant use partially reverses cortical effects of single sided deafness in children, Scientific Reports-Nature, Dec 9;10(1):21526.\u00a0Abstract<\/a><\/p>\n

James, A., Gordon, K.A., Papaioannou, V., The limitation of risk factors as a means of prognostication in Auditory Neuropathy Spectrum Disorder of perinatal onset, International Journal of Pediatric Otorhinolaryngology, Aug;135:110112.\u00a0Abstract<\/a>
\nPurcell, P.L., Cushing, S.L., Papsin, B.C., Gordon, K.A., Unilateral Hearing Loss and Single-Sided Deafness in Children: An Update on Diagnosis and Management\u201d, Current Otorhinolaryngology Reports, 8: 259\u2013266.\u00a0Abstract<\/a><\/p>\n

Ganek, H.V., Feness, M., Goulding, G., Liberman, G., Steel., M.M., Ruderman, L.A., Papsin, B.C., Cushing, S.L., Gordon, K.A., A survey of pediatric cochlear implant recipients as young adults, International Journal of Pediatric Otolaryngology, Jan 23;132:109902.\u00a0Abstract<\/a><\/p>\n

Sharma SD, Park E, Purcell PL, Gordon KA, Papsin BC, Cushing SL. Age -related variability in pediatric scalp thickness: Implications for auditory prostheses. International Journal of Pediatric Otolaryngology, Mar;130:109853.\u00a0Abstract<\/a><\/p>\n

Sharma, SD., Cushing, SL., Papsin, B.C., Gordon, KA, Hearing and speech benefits of cochlear implantation in children: review of the literature, International Journal of Pediatric Otolaryngology, Jun;133:109984.\u00a0Abstract<\/a><\/p>\n

Steel., M., Polonenko, M., Giannaantonio, S., Hopyan, T., Papsin, B., Gordon, KA, \u201cMusic perception testing reveals advantages and continued challenges for children using bilateral cochlear implants\u201d, Frontiers in Psychology, section Auditory Cognitive Neuroscience, Jan 21;10:3015.\u00a0Full Article<\/a><\/p>\n

Smieja, D., Dunkley, B.T., Papsin, B.C., Easwar, V., Yamazaki, H., Deighton, M., Gordon, K.A., Interhemispheric auditory connectivity requires normal access to sound in both ears during development, NeuroImage, Mar;208:116455.\u00a0Full Article<\/a><\/p>\n

Abbasalipour, P., Papsin, B.C., Gordon, K.A., \u201cAural Patching\u201d after Bilateral Cochlear Implantation is Challenging for Children with Prior Long-Term Unilateral Implant Experience, Ear and Hearing, Sep\/Oct;41(5):1407-1411.\u00a0Abstract<\/a><\/p>\n

Ganek, H.V., James, E.L., Papaioannou, V., Gordon, K.A., Can Differences in Early Hearing Development be Distinguished by the LittlEARs Auditory Questionnaire?, Ear and Hearing, Jul\/Aug;41(4):998-1008.\u00a0Abstract<\/a><\/p>\n

Ganek, H.V., Cushing, S.L., Papsin, B.C., Gordon, K.A., Cochlear Implant Use Remains Consistent Over Time in Children With Single-Sided Deafness, Ear and Hearing, May\/Jun;41(3):678-685.\u00a0Abstract<\/a><\/p>\n

Low, D., Shipp, D., Gordon, KA., Kuroiwa-Rivero, M., Cushing, S., Papsin, B., Le, T., Lin, V., Chen, J., Long-term implant usage and quality of life in sequential bilateral pediatric cochlear implantation, Otology and Neurotology, Jan;41(1):39-44.\u00a0Abstract<\/a><\/p>\n

Wolter, N.E., Gordon, K.A., Campos, J.L., Vilchez-Madrigal, L.D., Pothier, D.D., Hughes, C.O., Papsin, B.C., Cushing, S.L., BalanCI: Head Referenced Cochlear Implant Stimulation Improves Balance in Children with Bilateral Cochleovestibular Loss, Audiology and NeuroOtology 25(1-2):60-71.\u00a0Abstract<\/a><\/p>\n

2019<\/strong><\/h3>\n

Gorodensky, J.H, Alemu, R.Z, Gill, S.S, Sandor, M.T, Papsin, B.C, Cushing, S.L, Gordon, K.A, Binaural hearing is impaired in children with hearing loss who use bilateral hearing aids, The Journal of the Acoustical Society of America, December; 146(6): 4352.\u00a0Full Article<\/a><\/p>\n

Sharma, S.D, Park, E., Purcell, P.L, Gordon, K.A, Papsin, B.C, Cushing, S.L, Age-related variability in pediatric scalp thickness: Implications for auditory prostheses, International Journal of Pediatric Otorhinolaryngology, December; 130:109853.\u00a0Abstract<\/a><\/p>\n

Smieja, D.A, Dunkley, B.T, Papsin, B.C, Easwar, V., Yamazaki, H., Deighton, M., Gordon, K.A, Interhemispheric auditory connectivity requires normal access to sound in both ears during development, NeuroImage, December; 208: 116455.\u00a0Full Article<\/a><\/p>\n

Siu, J.M, Blaser, S.I, Gordon, K.A, Papsin, B.C, Cushing, S.L, Efficacy of a selective imaging paradigm prior to pediatric cochlear implantation, The Laryngoscope, November; 129(11): 2627-2633.\u00a0Abstract<\/a><\/p>\n

Wolter, N.E, Gordon, K.A, Campos, J.L, Vilchez Madrigal, L.D, Pothier, D.D, Hughes, C.O, Papsin, B.C, Cushing, S.L, BalanCI: Head-Referenced Cochlear Implant Stimulation Improves Balance in Children with Bilateral Cochleovestibular Loss, Audiology and Neurotology, November; 1: 1-12.\u00a0Abstract<\/a><\/p>\n

Vilchez-Madrigal, L.D, Blaser, S.I, Wolter, N.E, James, A.L, Papsin, B.C, Gordon, K.A, Cushin, S.L, Propst, E.J, Children with unilateral cochlear nerve canal stenosis have bilateral cochleovestibular anomalies, The Laryngoscope, October; 129(10): 2403-2408.\u00a0Abstract<\/a><\/p>\n

Cushing, S.L, Gordon K.A, Sokolov, M., Papaioannou, V., Polonenko, M., Papsin B.C, Etiology and therapy indication for cochlear implantation in children with single-sided deafness: Retrospective analysis, HNO, October; 67(10): 750-759.\u00a0Abstract<\/a><\/p>\n

Ganek, H.V, Cushing, S.L, Papsin, B.C, Gordon, K.A, Cochlear Implant Use Remains Consistent Over Time in Children With Single-Sided Deafness, Ear and Hearing, September. doi: 10.1097\/AUD.0000000000000797\u00a0Abstract<\/a><\/p>\n

Deonarain A.R, Harrison, R.V, Gordon, K.A, Wolter, N.E, Looi, T., Estrada, M., Propst, E.J, Live porcine model for surgical training in tracheostomy and open-airway surgery, The Laryngoscope, September. doi: 10.1002\/lary.28309.\u00a0Abstract<\/a><\/p>\n

Purcell P.L, Ziai, H., Xu, J., Gordon, K.A, Papsin, B.C, Cushing, S.L, Management of Traumatic Injury and Osseointegration Failure in Children With Percutaneous Bone Conduction Implants, Otology & Neurotology, September; 40(8): 1040-1046.\u00a0Abstract<\/a><\/p>\n

Sokolov, M., Gordon, K.A., Polonenko, M., Blaser, S.I, Papsin, B.C., Cushing, S.L. Vestibular and balance function is often impaired in children with profound unilateral sensorineural hearing loss. Hearing Research.\u00a0Full Article<\/a><\/p>\n

Polonenko., M.J., Papsin, B.C., Gordon, K.A., Cortical plasticity with bimodal hearing in children with asymmetric hearing loss. Hearing Research.\u00a0Full Article.<\/a><\/p>\n

Gordon, K.A, Papsin, B.C, Special edition on unilateral deafness and hearing loss: An introduction and overview, Hearing Research, February; 372: 1-2.<\/p>\n

Zawawi, F, Cushing S.L, James, A.L, Gordon, K.A, Papsin, B.C, Extrusion of straight cochlear implant electrodes May be diminished by proximal fixation, International Journal of Pediatric Otorhinolaryngology, January; 116:164-167.\u00a0Abstract<\/a><\/p>\n

2018<\/strong><\/h3>\n

Zipori, A.B, Colpa, L., Wong, A.M.F, Cushing S.L, Gordon K.A, Postural stability and visual impairment: Assessing balance in children with strabismus and amblyopia, PLoS One, October; 13(10): e0205857.\u00a0Full Article<\/a><\/p>\n

Polonenko, M.J, Papsin, B.C, Gordon, K.A, Limiting asymmetric hearing improves benefits of bilateral hearing in children using cochlear implants, Scientific Reports, September; 8(1):13201.\u00a0Full Article<\/a><\/p>\n

Zawawi, F., Sokolov, M., Mawby, T.,\u00a0Gordon, K.A.<\/strong>, Papsin, B.C., Cushing, S.L., Emberger Syndrome: A rare association with hearing loss, International Journal of Pediatric Otolaryngology\u00a0Abstract<\/a><\/p>\n

2017<\/strong><\/h3>\n

Camp, A., Gu, C., Cushing, S.,\u00a0Gordon, K.A<\/strong>., Corneil, C. Spelenius Capitis is a reliable target for measuring cervical vestibular evoked myogenic potentials in adults. European Journal of Neuroscience.\u00a0Full Article<\/a><\/p>\n

Easwar, V., Papsin, B.C.,\u00a0Gordon, K.A<\/strong>., Impact of consistency in daily device use on speech perception abilities in children with cochlear implants: Datalogging evidence, Journal of American Academy of Audiology\u00a0Abstract<\/a><\/p>\n

Easwar, V., Yamazaki, H., Deighton, M., Papsin, B.C.,\u00a0Gordon, K.A<\/strong>., Simultaneous bilateral cochlear implants: Developmental advances do not yet achieve normal cortical processing, Brain and Behavior.\u00a0Full Article<\/a><\/p>\n

Easwar,V., Yamazaki,H., Deighton, M., Papsin, B.C.,\u00a0Gordon, K.A,\u00a0<\/strong>Cortical processing of level cues for spatial hearing is impaired in children with prelingual deafness despite early bilateral access to sound, Brain Topography\u00a0Abstract<\/a><\/p>\n

Easwar,V., Yamazaki,H., Deighton, M., Papsin, B.C.,\u00a0Gordon, K.A.,<\/strong>\u00a0Cortical representation of interaural time difference is impaired by deafness in development: evidence from children with early long-term access to sound through bilateral cochlear implants provided simultaneously, Journal of Neuroscience.\u00a0Abstract<\/a><\/p>\n

Good A,\u00a0Gordon KA<\/strong>, Papsin BC, Nespoli G, Hopyan T, Peretz I, Russo FA., Benefits of music training for perception of emotional speech prosody in deaf children with cochlear implants.\u00a0 Ear and Hearing Jan 11, epub ahead of print.\u00a0Abstract<\/a><\/p>\n

Gordon, K.A.,<\/strong>\u00a0Cushing, S.L.,\u00a0Easwar,V., Polonenko, M.<\/u>\u00a0Papsin, B.C,\u00a0<\/strong>Binaural integration: a challenge to overcome for children with hearing loss. Current Opinion Otolaryngology Head and Neck Surgery.\u00a0Abstract<\/a><\/p>\n

Kletke S., Batmanabane V., Dai, T., Vincent A., Li, S.,\u00a0Gordon, KA.<\/strong>, Papsin, C., Cushing, SL., Heon, E. The combination of vestibular impairment and cognential sensorineural hearing loss predisposes patients to ocular anomalies, including Usher syndrome. Clinical Genetics.\u00a0Full Article<\/a><\/p>\n

<\/a>Parkes, W.J., Gnanasegaram, J.J, Cushing, S.L., James, A.L., Gordon, K.A., Papsin, B.C. Preliminary Experience Using a Cochlear Implant with a Novel Linear Pedestal Design. International Journal of Pediatric Otolaryngology \u2013 in press.\u00a0Abstract<\/a><\/p>\n

Parkes, W.J., Gnanasegaram, J.J., Cushing, S.L., McKnight, C.L., Papsin, B.C., Gordon, K.A., Vestibular evoked myogenic potential testing as an objective measure of vestibular stimulation with cochlear implants, Laryngoscope \u2013 Jun 12. doi: 10.1002\/lary.26037.\u00a0Abstract<\/a><\/p>\n

Polonenko, M.J., Giannantonio, S., Papsin, B.C., Marsella, P.,\u00a0Gordon, K.A<\/strong>. Music perception improves in children with bilateral cochlear implants or bimodal devices. Journal of Acoustical Society of America.\u00a0Abstract<\/a><\/p>\n

Polonenko, M.J,\u00a0Gordon, K.A.<\/strong>*(co-first authors), Cushing, S.L, Papsin, B.C., Cortical organization restored by cochlear implantation in young children with single sided deafness, Scientific Reports\u00a0Full Article<\/a><\/p>\n

Polonenko, M.J. Papsin, B.C.,\u00a0Gordon, K.A<\/strong>., Delayed access to bilateral input alters cortical organization in children with asymmetric hearing, NeuroImage Clinical\u00a0Full Article<\/a><\/p>\n

Sokolov, M., Cushing, S.L., Polonenko, M., Blaser, S.I., Papsin, B.C.,\u00a0Gordon, K.A.,<\/strong>\u00a0Clinical characteristics of children with single sided deafness presenting for candidacy assessment for unilateral cochlear implantation, Current Otorhinolaryngology Reports\u00a0Abstract<\/a><\/p>\n

Yamazaki, H., Easwar, V., Polonenko, M.J., Jiwani, S., Wong., D.D.E., Papsin, B.C.,\u00a0Gordon, K.A.<\/strong>, Cortical hemispheric asymmetries are present at young ages and further develop into adolescence, Human Brain Mapping\u00a0Abstract<\/a><\/p>\n

2016<\/strong><\/h3>\n

Easwar, V., Sanfilippo, J., Papsin, B.C.,\u00a0Gordon, K.A<\/strong>., Factors affecting daily cochlear implant use in children: datalogging evidence,\u00a0Journal American Academy of Audiology,\u00a0<\/em>Dec;37(10):1589-1595.\u00a0Abstract<\/a><\/p>\n

Gnanasegaram, J.J, Parkes, W.J., Cushing, S.L., McKnight, C.L., Papsin, B.C.,\u00a0Gordon, K.A<\/strong>. Stimulation from Cochlear Implant Electrodes Assists with Recovery from Asymmetric Perceptual Tilt: Evidence from the Subjective Visual Vertical Test, Frontiers in Integrative Neuroscience, 13 September 2016 Sep 13;10:32.| http:\/\/dx.doi.org\/10.3389\/fnint.2016.00032\u00a0Full Article<\/a><\/p>\n

Gordon, K.A<\/strong>., Abbasalipour, P., Papsin, B.C., Balancing current levels in children with bilateral cochlear implants using electrophysiological and behavioral measures,\u00a0Hearing Research<\/em>, May;335:193-206.\u00a0Abstract<\/a><\/p>\n

Jiwani S, Papsin BC,\u00a0Gordon KA<\/strong>. Early unilateral cochlear implantation promotes mature cortical asymmetries in adolescents who are deaf, Human Brain Mapping Jan 37(1): 135-52.\u00a0Abstract<\/a><\/p>\n

Kletke S, Batmanabane V, Dai T, Vincent A, Li S,\u00a0Gordon<\/strong>\u00a0KA<\/strong>, Papsin BC, Cushing SL, H\u00e9on E., The combination of vestibular impairment and congenital sensorineural hearing loss predisposes patients to ocular anomalies, including Usher syndrome. Clin Genet. 2016 Oct 15. doi: 10.1111\/cge.12895.\u00a0Abstract<\/a><\/p>\n

Litovsky, R,\u00a0Gordon, K.A<\/strong>., Bilateral cochlear implants in children: Effects of auditory experience and deprivation on auditory perception,\u00a0Hearing Research<\/em>, Aug;338:76-87. pii: S0378-5955(15)30200-8. doi: 10.1016\/j.heares. 2016.01.003.\u00a0Abstract<\/a><\/p>\n

Oyewumi, M., Wolter, N., Heon, E.,\u00a0Gordon, K.,<\/strong>\u00a0Papsin, B., Cushing, S., Using balance function to screen for vestibular impairment in children with sensorineural hearing loss and cochlear implants,\u00a0Otol Neurotolol<\/em>. Aug;37(7):926-32.\u00a0Abstract<\/a><\/p>\n

Papsin, B.C., Cushing, S.L., Hubbard, B.J., Wong, D.D.E.,\u00a0Gordon, K.A<\/strong>., Characterization of retentive capacity of the subpericranial pocket in cochlear implants with and without a pedestal.\u00a0The Laryngoscope<\/em>\u00a0\u2013 May;126(5):1175-9.\u00a0Abstract<\/a><\/p>\n

Polonenko, M.J., Carinci, L.,\u00a0Gordon, K.A.,<\/strong>\u00a0Papsin, B.C., Cushing, S.L., Hearing benefit and rated satisfaction in children with unilateral conductive hearing loss using a transcutaneous magnetic coupled bone conduction hearing aid,\u00a0Journal of the American Academy of Audiology<\/em>, Dec;37(10):1589-1595.\u00a0Abstract<\/a><\/p>\n

<\/a>Polonenko, M.J., Cushing, S.L.,\u00a0Gordon, K.A<\/strong>., Allenmang, B., Jewell, S., Papsin, B.C., Stimulation parameters differ between current anti- and peri-modiolar electrode arrays implanted within the same child,\u00a0The Journal of Laryngology and Otology<\/em>\u00a0Nov;130(11):1007-1021.\u00a0Abstract<\/a><\/p>\n

Wolter, N.E., Cushing, S.L., Vilchez-Madrigal, L.D., James, A.L., Papsin, B.C.,\u00a0Gordon, K.A.<\/strong>, Unilateral hearing loss is associated with impaired balance in children: a pilot study,\u00a0Otology & Neurotology<\/em>\u00a0Dec;37(10):1589-1595.\u00a0Abstract<\/a><\/p>\n

2015<\/strong><\/h3>\n

Giannantonio S*, Polonenko MJ*, (*co-first authors) Papsin BC, Paludetti G,\u00a0Gordon KA<\/strong>. Experience changes how emotion in music is judged: evidence from children listening with bilateral cochlear implants, bimodal devices, and normal hearing, PLoS One 28;10(8):e0136685. doi: 10.1371\/journal.pone.0136685. eCollection 2015.\u00a0Abstract<\/a><\/p>\n

Gordon KA<\/strong>, Henkin Y, Kral A, Asymmetric hearing during eevelopment: the aural preference syndrome and treatment options, Pediatrics, 136(1):141-53 Jun 8. pii: peds.2014-3520.\u00a0Abstract<\/a><\/p>\n

Harrison RV, Negandi J, James A, Papsin BC,\u00a0Gordon KA<\/strong>, Auditory neuropathy spectrum disorder (ANSD) and cochlear implantation, International Journal of Pediatric Otolaryngology, Dec 79(12):1980-7.\u00a0Abstract<\/a><\/p>\n

Hopyan T, Manno III, FA, Papsin BC,\u00a0Gordon KA<\/strong>. Sad and happy emotion discrimination in music by children with cochlear implants.\u00a0Child Neuropsychol<\/em>. 2015 Jan 6:1-15. [Epub ahead of print] PMID: 25562621 [PubMed \u2013 as supplied by publisher]\u00a0Abstract<\/a><\/p>\n

Papsin BC, Cushing SL, Hubbard BJ, Wong DDE,\u00a0Gordon KA<\/strong>. Retentive capacity of the subpericranial pocket in cochlear implants with and without a pedestal. The Laryngoscope \u2013 Jul 30. doi: 10.1002\/lary.25502.Abstract<\/a><\/p>\n

Polonenko MJ, Papsin BC,\u00a0Gordon KA<\/strong>. The effects of asymmetric hearing on bilateral brainstem function: findings in children with bimodal (electric and acoustic) hearing, Audiology and Neurotol; 20 Suppl 1:13-20.Abstract<\/a><\/p>\n

Steel MM, Papsin BC,\u00a0Gordon KA<\/strong>. Binaural fusion and listening effort in children who use bilateral cochlear implants: a psychoacoustic and pupillometric study.\u00a0PLoS One<\/em>. 2015 Feb 10;10(2):e0117611. doi: 10.1371\/journal.pone.0117611. eCollection 2015. PMID: 25668423 [PubMed \u2013 in process]\u00a0Free PMC Article<\/a><\/p>\n

<\/a>Wolters N, Papsin BC,\u00a0Gordon KA<\/strong>, Cushing SL. Vestibular and balance impairment contributes to cochlear implant failure in children, Otology and NeuroOtology, 36(6):1029-34.\u00a0Abstract<\/a><\/p>\n

Wolter NE, Holler T, Cushing SL, Chadha NK,\u00a0Gordon KA<\/strong>, James AL, Papsin BC. Pediatric ossiculoplasty with titanium total ossicular replacement prosthesis, Laryngoscope. 2015 Mar;125(3):740-5. doi: 10.1002\/lary.24896. Epub 2014 Aug 22. PMID: 25154744 [PubMed \u2013 in process]\u00a0Abstract<\/a><\/p>\n

2014<\/strong><\/h3>\n

Eskander A,\u00a0Gordon KA<\/strong>, Tirado Y, Hopyan T, Russell L, Papsin BC, Campisi P. Normal-like motor speech parameters measured in children with long-term cochlear implant experience using a novel objective analytic technique.\u00a0JAMA Otolaryngol Head Neck Surg<\/em>\u00a01;140(10):967-74..\u00a0Abstract<\/a><\/p>\n

Gordon KA<\/strong>, Deighton M, Abbasalipour P, Papsin BC. Binaural hearing develops in children who are deaf, PLoS One, Dec 22;9(12):e114841. doi: 10.1371\/journal.pone.0114841.\u00a0eCollection<\/em>\u00a02014\u00a0Abstract<\/a><\/p>\n

Hopyan, T.*, Manno III, F.A.M.*, (*co-first authors), Papsin, B.C.,\u00a0Gordon, K.A<\/strong>., Sad and happy emotion discrimination in music by children with cochlear implants,\u00a0Child Neuropsychology<\/em>, an 6:1-15\u00a0Abstract<\/a><\/p>\n

Hugh S, Wolter N, Propst E,\u00a0Gordon KA<\/strong>, Cushing S; Papsin B. Infant Sleep Machines and Hazardous Sound Pressure Levels,\u00a0Pediatrics<\/em>, 113(4): 1-5.\u00a0Abstract<\/a><\/p>\n

Merdad M, Wolter N, Cushing S,\u00a0Gordon KA<\/strong>, \u00a0Papsin B. Surgical efficiency in bilateral cochlear implantation: A cost analysis. \u00a0Cochlear Implants International<\/em>, 15(1):43-7. \u00a0[CIHR- #MOP-97924]\u00a0Abstract<\/a><\/p>\n

<\/a>Steel MM, Abbasalipour P, Salloum CAM, Hasek D, Papsin BC,\u00a0Gordon KA<\/strong>. Unilateral cochlear implant use promotes normal-like loudness perception in adolescents with childhood deafness,\u00a0Ear and Hearing<\/em>\u00a0\u2013 35(6):e291-301.\u00a0Abstract<\/a><\/p>\n

Volkova A, Trehub S, Schellenberg G, Papsin BC,\u00a0Gordon KA<\/strong>. Children\u2019s identification of familiar songs from pitch and timing cues,\u00a0Frontiers in Psychology<\/em>\u00a06;5:863.\u00a0Abstract<\/a><\/p>\n

2013<\/strong><\/h3>\n

Cushing SL,\u00a0Gordon KA<\/strong>, Rutka JA, James AL, Papsin BC. Vestibular end-organ dysfunction in children with sensorineural hearing loss and cochlear implants: an expanded cohort and etiologic assessment.,\u00a0Otology and NeuroOtology<\/em>: 34(3): 422-428.\u00a0Abstract<\/a><\/p>\n

Gordon KA<\/strong>, Papsin BC. From Nucleus 24 to 513: Changing cochlear implant design affects auditory response thresholds,\u00a0Otology and NeuroOtology<\/em>, 34(3): 436-42.\u00a0Abstract<\/a><\/p>\n

Gordon KA<\/strong>, Jiwani S, Papsin BC. Benefits and detriments of unilateral cochlear implant use on bilateral auditory development in children who are deaf.\u00a0Frontiers in Psychology<\/em>, 4:719: 1-14.\u00a0Abstract<\/a><\/p>\n

Gordon KA<\/strong>, Wong DDE, Papsin BC. Bilateral input protects the cortex from unilaterally driven reorganization in children who are deaf,\u00a0Brain<\/em>, 136(5): 1609-25.\u00a0Abstract<\/a><\/p>\n

Jiwani S, Papsin BC,\u00a0Gordon KA<\/strong>. Central auditory development after long-term cochlear implant use,Clinical Neurophysiology<\/em>, 124(9): 1868-80.\u00a0Abstract<\/a><\/p>\n

Merdad M, \u00a0Wolter N, Cushing S,\u00a0Gordon K<\/strong>, \u00a0Papsin B. Surgical efficiency in bilateral cochlear implantation: a cost analysis. \u00a0Cochlear Implants International<\/em>, 2014 Jan;15(1):43-7. doi: 10.1179\/1754762813Y.0000000042. Epub 2013 Nov 25.\u00a0Abstract<\/a><\/p>\n

Osborn HA, Cushing SL,\u00a0Gordon KA<\/strong>, James AL, Papsin BC. The management of acute mastoiditis in children with cochlear implants: saving the device,\u00a0Cochlear Implants International<\/em>, 2013 Nov;14(5):252-6. doi: 10.1179\/1754762813Y.0000000049. Epub 2013 Aug 30\u00a0Abstract<\/a><\/a><\/p>\n

Papsin BC, Cushing SL, Gordon KA:\u00a0<\/strong>Disruptive technology and the importance of bilateral cochlear implantation in children.\u00a0\u00a0Audiology & Neurotology<\/em>\u00a0Dec: 18 (sup 1): pp 11-13.\u00a0 [CIHR- #MOP-89804, #MOP-97924 ].<\/p>\n

Volkova A, Trehub SE, Schellenberg G, Papsin BC,\u00a0Gordon KA<\/strong>. \u00a0Children with bilateral cochlear implants identify emotion in speech and music,\u00a0Cochlear Implant International<\/em>, 14(2): 80-91.\u00a0Abstract<\/a><\/p>\n

2012<\/strong><\/h3>\n

Chung J, Cushing SL, James AL, Gordon KA, Papsin BC. Congenital cholesteatoma and cochlear implantation:Implications for management.\u00a0Cochlear Implants International<\/em>. Mar. Epub ahead of print.Abstract<\/a><\/p>\n

Cushing SL, Daly MJ, Treaba CG, Chan H, Irish JC, Blaser S,\u00a0Gordon KA<\/strong>, Papsin BC. High resolution cone-beam computed tomography: a potential tool to improve atraumatic electrode design and position.\u00a0Acta Otolaryngol<\/em>, 132(4): 361-8.\u00a0Abstract<\/a><\/p>\n

Cushing SL, Pothier D, Hughes C, Hubbard BJ,\u00a0Gordon KA<\/strong>, Papsin BC, Providing auditory cues to improve stability in children who are deaf. \u00a0Laryngoscope<\/em>\u00b8122 Suppl 4:S101-2. doi: 10.1002\/lary.23807.\u00a0Abstract<\/a><\/p>\n

Gordon KA<\/strong>, Chaikof MH, Salloum C, Goulding G, Papsin B. Toward a method for programming balanced bilateral cochlear implant stimulation levels in children.\u00a0Cochlear Implants International.<\/em>\u00a02012 Feb 2. [Epub ahead of print].\u00a0Abstract<\/a><\/p>\n

Gordon KA<\/strong>, Salloum C, Toor GS, van Hoesel R, Papsin BC. Binaural interactions develop in the auditory brainstem of children who are deaf: effects of place and level of bilateral electrical stimulation.\u00a0Journal of Neuroscience<\/em>, 32(12):4212-23.\u00a0Abstract<\/a><\/p>\n

Hopyan T, Peretz I, Chan LP, Papsin BC,\u00a0Gordon KA<\/strong>., Children using cochlear implants capitalize on acoustical hearing for music perception.\u00a0Frontiers in Auditory Cognitive Neuroscience<\/em>, vol. 3. doi: 10.3389\/fpsyg.2012.00425.\u00a0Abstract<\/a><\/p>\n

Merdad M, Crawford M,\u00a0Gordon K<\/strong>, Papsin B. Unexplained fever after bilateral superficial cervical block in children undergoing cochlear implantation: an observational study.\u00a0Canadian Journal of Anaesthesia<\/em>, 59(1):28-33.\u00a0Abstract<\/a><\/p>\n

Ramsden JD,\u00a0Gordon KA<\/strong>, Aschedorff A, Borucki L, Bunne M, Burdo S, Cochard N, Deguine O, Grolman W, Irving R, Lesinski-Schiedat A, Loundon N, Manrique M, Martin J, Wouters J, Papsin BC. European Bilateral Pediatric Cochlear Implant Forum consensus statement,\u00a0Otology and NeuroOtology<\/em>, 33(4): 561-5.\u00a0Abstract<\/a><\/p>\n

<\/a>Shinghal T, Cushing S,\u00a0Gordon KA<\/strong>, Huber JF, Lee J, Papsin B. Seizure activity following cochlear implantation: is it the implant?\u00a0International Journal of Pediatric Otorhinolaryngology<\/em>, 76(5):704-7.\u00a0Abstract<\/a><\/p>\n

Valero J, Blaser S, James A, Papsin BC,\u00a0Gordon KA<\/strong>. Electrophysiologic and behavioral outcomes of pediatric cochlear implant children with auditory nerve hypoplasia.\u00a0Ear and Hearing<\/em>, 33(1):3-18.\u00a0Abstract<\/a><\/p>\n

2011<\/strong><\/h3>\n

Chadha NK, Papsin BC, Jiwani S,\u00a0Gordon KA<\/strong>. Speech detection in noise and spatial unmasking in children with simultaneous versus sequential bilateral cochlear implants.\u00a0Otology & Neurotology<\/em>. 2011 Jun 30. [Epub ahead of print].\u00a0Abstract<\/a><\/p>\n

Das Purkayastha PK, Jewell S, James AL,\u00a0Gordon K<\/strong>, Papsin B. Soft tissue complications after pediatric cochlear implantation in children younger than 12 months.\u00a0Otology & Neurotology<\/em>, 32(5):780-3.\u00a0Abstract<\/a><\/p>\n

Eskander A,\u00a0Gordon KA<\/strong>, Kadhim L, Papaioannou V, Cushing SL, James AL, Papsin BC. Low pediatric cochlear implant failure rate: contributing factors in large-volume practice.\u00a0Archives of Otolaryngology<\/em>, 137(12):1190-6.\u00a0Abstract<\/a><\/p>\n

Gordon KA<\/strong>, Jiwani S, Papsin BC. What is the optimal timing for bilateral cochlear implantation in children?Cochlear Implants International<\/em>, 12(2):8-14.\u00a0Abstract<\/a><\/p>\n

Gordon, K.A.,<\/strong>\u00a0Tanaka, S., Wong, D.D.E., Stockley, T., Jewell, S. F., Brown, T., Papsin, B.C., Multiple effects of childhood deafness on cortical activity in children\u00a0receiving bilateral cochlear implants simultaneously,\u00a0Clinical Neurophysiology<\/em>, 122(4): 823-33. [CIHR\u00a0#<\/strong>MOP-97924].<\/p>\n

Gordon KA<\/strong>, Wong DD, Valero J, Jewell SF, Yoo P, Papsin BC. Use it or lose it? lessons learned from the developing brains of children who are deaf and use cochlear implants to hear.\u00a0Brain Topography<\/em>, 2011 Apr 11. [Epub ahead of print].\u00a0Abstract<\/a><\/p>\n

Hopyan T,\u00a0Gordon KA<\/strong>, Papsin BC. Identifying emotions in music through electrical hearing in deaf children using cochlear implants.\u00a0Cochlear Implants International<\/em>, 12(1):21-6.\u00a0Abstract<\/a><\/p>\n

<\/a>Papsin BC, Wong DD, Hubbard BJ, Cushing SL,\u00a0Gordon KA<\/strong>. Exploring the relationship between head anatomy and cochlear implant stability in children.\u00a0Cochlear Implant International<\/em>, 12(1):14-8.b\u00a0Abstract<\/a><\/p>\n

Valero J, Blaser S, Papsin BC, James AL,\u00a0Gordon KA<\/strong>. Electrophysiologic and behavioural outcomes of cochlear implantation in children with auditory nerve hypoplasia.\u00a0Ear and Hearing<\/em>. 2011 Jul 18. [Epub ahead of print].\u00a0Abstract<\/a><\/p>\n

2010<\/strong><\/h3>\n

Gordin A, Papsin BC,\u00a0Gordon KA<\/strong>. Packing of the cochleostomy site affects auditory nerve response thresholds in pre-curved array cochlear implants.\u00a0Otology & Neuro-Otology<\/em>, 31(2):204-9.\u00a0Abstract<\/a>.<\/p>\n

Gordon KA,<\/strong>\u00a0Tanaka S, Wong DDE, Stockley T, Jewell SF, Brown T, Papsin BC, Multiple effects of childhood deafness on cortical activity in children receiving bilateral cochlear implants simultaneously,\u00a0Clinical Neurophysiology<\/em>. 2010 Nov 18 [Epub ahead of print] [CIHR #MOP-97924].\u00a0Abstract.<\/a><\/p>\n

Gordon KA<\/strong>, Valero J, Jewell SF, Ahn J, Papsin BC. Auditory development in the absence of hearing in infancy.\u00a0NeuroReport<\/em>, 21(3): 163-7. [CIHR- #MOP-89804].\u00a0Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Wong DDE, Papsin BC. Cortical function in children receiving bilateral cochlear implants simultaneously or after a period of inter-implant delay,\u00a0Otology & Neurotology<\/em>\u00a031(8): 1293-1299 [#MOP-97924].\u00a0Abstract.<\/a><\/p>\n

Gordon T,\u00a0Gordon KA<\/strong>. Neural regeneration in the peripheral nervous system versus the central nervous system and the relevance to speech and hearing after nerve injuries,\u00a0Journal of Communication Disorder<\/em>, 43(4):274-85.\u00a0Abstract<\/a>.<\/p>\n

Holler T, Campisi P, Chadha N, Allegro J, Papsin BC,\u00a0Gordon KA.<\/strong>\u00a0Abnormal voicing in children using cochlear implants.\u00a0Archives of Otolaryngology<\/em>, 136(1): 17-21.\u00a0PDF<\/a>.<\/p>\n

<\/a>Ramsden J, Papaioannou V,\u00a0Gordon KA<\/strong>, James AL, Papsin BC. Parental and program\u2019s decision making In paediatric simultaneous bilateral cochlear implantation: who says no and why?\u00a0International Journal Pediatric Otorhinolaryngology<\/em>. 2009 Jul 16. [Epub ahead of print].\u00a0Abstract.<\/a><\/p>\n

Salloum C, Valero J, Papsin BC, van Hoesel R,\u00a0Gordon KA<\/strong>. Lateralization of inter-implant timing and level differences in children who use bilateral cochlear implants,\u00a0Ear and Hearing<\/em>, \u00a031(4):441-56. [CIHR- #MOP-89804].\u00a0Abstract.<\/a><\/p>\n

2009<\/strong><\/h3>\n

Chadha NK,\u00a0Gordon KA<\/strong>, James AL, Papsin BC. Tinnitus is prevalent in children with cochlear implants.\u00a0Int J Ped Otorhinolaryngol<\/em>\u00a0, 73(5): 671-675.\u00a0Abstract.<\/a><\/p>\n

Chadha NK, James AL,\u00a0Gordon KA<\/strong>, Blaser S, Papsin BC. Bilateral implantation in children with anomalous cochleovestibular anatomy.\u00a0Archives in Otolaryngology \u2013 Head and Neck Surgery<\/em>, 135(9): 903-9. [CIHR\/SickKids #XG07-020R].\u00a0PDF<\/a>.<\/p>\n

Crawford MW, White MC, Propst EJ, Zaarour C, Cushing S, Pehora C, James AL,\u00a0Gordon KA<\/strong>, Papsin BC. Dose-dependent suppression of the electrically elicited stapedius reflex by general anesthetics in children undergoing cochlear implant surgery.\u00a0Anesthesia and Analgesia<\/em>, 108(5): 1480-1487.\u00a0PDF<\/a>.<\/p>\n

Cushing SL, Papsin BC, Rutka JA, James AL, Blaser SL,\u00a0Gordon KA<\/strong>. Vestibular end-organ and balance deficits after meningitis and cochlear implantation in children correlate poorly with functional outcome.Otology and NeuroOtology<\/em>, 30(4): 488-95.\u00a0Abstract<\/a>.<\/p>\n

Cushing S, Papsin BC, Strantzas S,\u00a0Gordon KA<\/strong>. Facial nerve electromyography: a useful tool in detecting non-auditory side effects of cochlear implantation.\u00a0The \u00a0Journal of \u00a0Otolaryngology, Head and Neck Surgery<\/em>, 38(2): 157-65. [PSI-#R05-39].\u00a0Abstract<\/a>.<\/p>\n

Davids T, Ramsden JD,\u00a0Gordon KA<\/strong>, James AL, Papsin BC. Soft tissue complications after small incision pediatric cochlear implantation.\u00a0Laryngoscope,<\/em>\u00a0119(5): 980-983.\u00a0PDF<\/a>.<\/p>\n

Davids T, Valero J, Papsin BC, Harrison RV,\u00a0Gordon KA<\/strong>. Effect of increasing duration of stimulation on the electrically evoked auditory brainstem and middle latency responses in pediatric cochlear implant users.\u00a0The \u00a0Journal of \u00a0 Otolaryngology, Head and Neck Surgery<\/em>, 37(4): 559-564.\u00a0Abstract<\/a>.<\/p>\n

Gordin A, Papsin BC, James A,\u00a0Gordon KA<\/strong>. Evolution of cochlear implant arrays results in changes to behavioral and physiological responses in children.\u00a0Otology and NeuroOtology<\/em>, 30(7):908-915.\u00a0Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Papsin BC. Benefits of short inter-implant delays in children receiving bilateral cochlear implants.\u00a0Otol NeuroOtol<\/em>, 30(3): 319-31.[CIHR- #MOP- 89804].\u00a0Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Papsin BC. Understanding hearing loss in children: what is known and what remains to be learned?\u00a0Otorinolaringologia<\/em>, 59(4):221-7 \u2013 invited review paper.\u00a0Abstract<\/a>.<\/p>\n

Leung R,\u00a0Gordon KA<\/strong>, James A, Papsin BC. Electrogustometric assessment of taste after otologic surgery in children.\u00a0Laryngoscope<\/em>, 119(10): 2061-5.\u00a0PDF<\/a>.<\/p>\n

Ramsden J,\u00a0Gordon KA<\/strong>, Leung R, James A, Papsin B. Bilateral simultaneous cochlear implantation in children: our first 50 cases.\u00a0Laryngoscope<\/em>, 119(12):2444-8. [CIHR\/SickKids #XG07-020R].\u00a0PDF<\/a>.<\/p>\n

Trimble K, Rosella LC, Propst EJ,\u00a0Gordon KA<\/strong>, Papaioannou V, Papsin BC. Speech perception outcome in multiply disabled children following cochlear implantation: Investigating a predictive score.\u00a0Journal of the\u00a0<\/a>American Academy of Audiology<\/em>, 9(8): 602-11, quiz 651.\u00a0Abstract<\/a>.<\/p>\n

Wong DDE,\u00a0Gordon KA<\/strong>. Beamformer suppression of cochlear implant artifacts in electroencephalography data.\u00a0IEEE Transactions in Biomedical Engineering<\/em>, 56(12): 2851-2857. [CIHR #MOP-97924].\u00a0Abstract<\/a>.<\/p>\n

2008<\/strong><\/h3>\n

Cushing SL, Chia R, James AL, Papsin BC,\u00a0Gordon KA<\/strong>. A test of static and dynamic balance function in children with cochlear implants: The Vestibular Olympics.\u00a0Archives of Oto-rhino-laryngology<\/em>, 134(1): 34-38.Abstract<\/a>.<\/p>\n

Cushing SL, Papsin BC, Rutka JA, James AL,\u00a0Gordon KA<\/strong>. Evidence of vestibular and balance dysfunction in children with profound sensorineural hearing loss using cochlear implants.\u00a0Laryngoscope<\/em>, 118(10): 1814-1823.\u00a0PDF<\/a>.<\/p>\n

Davids T, Papsin BC, Valero J,\u00a0Gordon KA<\/strong>. Effects of stimulus manipulation on electrophysiological responses in pediatric cochlear implant users. \u00a0Part I: Duration effects.\u00a0Hearing Research<\/em>, 244(1-2): 7-14.Abstract<\/a>.<\/p>\n

Davids T, Papsin BC, Valero J,\u00a0Gordon KA<\/strong>. Effects of stimulus manipulation on electrophysiological responses in pediatric cochlear implant users. \u00a0Part II: Rate effects.\u00a0Hearing Research<\/em>, 244(1-2): 15-24.Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Tanaka S, Wong DDE, Papsin BC. Characterizing responses from auditory cortex in young people using cochlear implants.\u00a0Clinical Neurophysiology<\/em>, 119(10): 2347-2362.\u00a0Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Valero J, van Hoesel R, Papsin BC. Abnormal timing delays in auditory brainstem responses evoked by bilateral cochlear implant use in children.\u00a0Otology and NeuroOtology<\/em>, 29(2): 193-198. [CIHR-#MOP-82910 and SickKids Foundation \u00a0#XG07-020R].\u00a0Abstract<\/a>.<\/p>\n

<\/a>Hopyan-Misakyan T,\u00a0Gordon KA<\/strong>, Dennis M, Papsin BC. Recognition of affective speech prosody and facial affect in deaf children with unilateral right cochlear implants.\u00a0Child Neuropsychology<\/em>, 15(2): 136-46.\u00a0Abstract<\/a>.<\/p>\n

Papsin BC,\u00a0Gordon KA<\/strong>. Bilateral cochlear implantation should be the standard for children with bilateral sensorineural deafness.\u00a0Current Opinion in Otolaryngology and Head & Neck Surgery<\/em>, 16(1): 69-74. [CIHR-#MOP-82910 and SickKids Foundation \u00a0#XG07-020R].\u00a0Abstract<\/a>.<\/p>\n

2007<\/strong><\/h3>\n

Davids T,\u00a0Gordon KA<\/strong>, Clutton D, Papsin BC. Bone Anchored Hearing Aids (BAHA) in children and infants under the age of five. \u00a0Archives of Otolaryngology-Head and Neck Surgery<\/em>, 133(1): 51-55.\u00a0PDF<\/a>.<\/p>\n

Gordon KA<\/strong>, Papsin BC, Harrison RV. Auditory brainstem activity and development evoked by apical versus basal cochlear implant electrode stimulation in children.\u00a0Clinical Neurophysiology<\/em>, 118(8): 1671-84. [CIHR Fellowship].\u00a0Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Valero J, Papsin BC. Auditory brainstem activity in children with 9 to 30 months of bilateral cochlear implant use.\u00a0Hearing Research<\/em>; 233(1-2):97- 107. Epub 2007 Aug 9. [CIHR-#MOP-82910 and SickKids Foundation \u00a0#XG07-020R].\u00a0Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Valero J, Papsin BC. Binaural processing in children using bilateral cochlear implants.NeuroReport<\/em>\u00a0:18(6): 613-618. [CIHR-#MOP-82910 and SickKids Foundation \u00a0#XG07-020R].\u00a0Abstract<\/a>.<\/p>\n

<\/a>Papsin BC,\u00a0Gordon KA<\/strong>. Cochlear implants for children with severe to profound hearing loss.\u00a0New England Journal of Medicine<\/em>: 357(23): 2380-7.\u00a0PDF<\/a>.<\/p>\n

Propst EJ, Harrison RV,\u00a0Gordon KA<\/strong>, Papsin BC, Blaser S, Stockley T. In reference to temporal bone imaging in GJB2 deafness.\u00a0Laryngoscope<\/em>, 117(6):1127-1129. [HFC].\u00a0PDF<\/a>.<\/p>\n

2006<\/strong><\/h3>\n

Cushing S, Papsin BC, Harrison RV,\u00a0Gordon KA<\/strong>. Incidence and characteristics of facial nerve stimulation in children with cochlear implants.\u00a0Laryngoscope<\/em>, 116: 1787-1791. [PSI#R05-39].\u00a0PDF<\/a>.<\/p>\n

Gordon KA<\/strong>, Papsin BC, Harrison RV. An evoked potential study of the developmental time course of the auditory nerve and brainstem in children using cochlear implants.\u00a0Audiology and NeuroOtology<\/em>: 11:7-23.[CIHR Fellowship].\u00a0Abstract<\/a>.<\/p>\n

<\/a>Propst EJ, Blaser S, Harrison RV,\u00a0Gordon KA<\/strong>, Papsin BC. Temporal Bone Imaging in GJB2 Deafness.Laryngoscope<\/em>\u00a0\u2013 116(12): 2178-2186. [HFC].\u00a0PDF<\/a>.<\/p>\n

Propst EJ, Papsin BC, Stockley T, Harrison RV,\u00a0Gordon KA<\/strong>. Auditory responses in cochlear implant users with and\u00a0without GJB2 deafness. \u00a0Laryngoscope<\/em>, 116(2):317-27.\u00a0PDF<\/a>.<\/p>\n

2005<\/strong><\/h3>\n

Gordon KA<\/strong>, Harrison RV. Changes in human central auditory development caused by deafness in early childhood.\u00a0Journal of the Ohio Speech- Language and Hearing Association<\/em>, 17: 28-34. [CIHR Fellowship].<\/p>\n

Gordon KA<\/strong>, Papsin BC, Harrison RV. Effects of cochlear implant use on the electrically evoked middle latency response in children.\u00a0Hearing Research<\/em>\u00a0204(1-2): 78-89. [CIHR Fellowship].\u00a0Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Tanaka S, Papsin BC. Atypical cortical responses underlie poor speech perception in children using cochlear implants,\u00a0Neuroreport<\/em>, 6(18):2041-5. [CIHR Fellowship].\u00a0Abstract<\/a>.<\/p>\n

Harrison RV,\u00a0Gordon KA<\/strong>, Mount R. Is there a critical period for cochlear implantation in congenitally deaf children? Analysis of hearing and speech perception performance after implantation. \u00a0Developmental Psychobiology<\/em>, 46(3):252-61. [CIHR Fellowship].\u00a0PDF<\/a>.<\/p>\n

<\/a>Propst EJ, Blaser S,\u00a0Gordon KA<\/strong>, Harrison RV, Papsin BC. Temporal bone findings on computed tomography imaging in branchio-oto-renal syndrome,\u00a0Laryngoscope<\/em>, 115(10):1855-1862.\u00a0PDF<\/a>.<\/p>\n

Propst EJ, Papsin BC,\u00a0Gordon KA<\/strong>, Stockley TL, Harrison RV. The genetic profile of mutations in GJB2 (Connexin 26) and GJB6 (Connexin 30) in a multi-cultural Canadian paediatric cochlear implant program.International Journal of Paediatric Otolaryngology<\/em>, 70(3):435-44.\u00a0Abstract.<\/a><\/p>\n

2004<\/strong><\/h3>\n

Gordon KA<\/strong>, Papsin BC, Harrison RV. Programming cochlear implants in Infants: Using a combination of objective measures in the clinical setting.\u00a0International Journal of Audiology<\/em>, 43 Suppl 1:S28-32. [CIHR Fellowship].\u00a0Abstract<\/a>.<\/p>\n

Gordon KA<\/strong>, Papsin BC, Harrison RV. Thalamo-cortical activity and plasticity in children using cochlear implants.\u00a0International Congress Series<\/em>, 1273: 76-79. [CIHR Fellowship].<\/p>\n

<\/a>Gordon KA<\/strong>, Papsin BC, Harrison RV. Toward a battery of behavioral and objective measures to achieve optimal cochlear implant stimulation levels in children.\u00a0Ear and Hearing<\/em>, 25: 447-463. [CIHR Fellowship].Abstract<\/a>.<\/p>\n

MacDonald L, Sohn G, Papsin BC,\u00a0Gordon KA<\/strong>. Use of a graded profile analysis to assess cochlear implant candidacy: Recent findings.\u00a0International Congress Series<\/em>, 1273, p. 215-218. [CIHR Fellowship]<\/p>\n

<\/a>2003<\/strong><\/h3>\n

Gordon KA<\/strong>, Papsin BC, Harrison RV. Activity-dependent developmental plasticity of the auditory brain stem in children who use cochlear implants.\u00a0Ear and Hearing<\/em>, 24(6), 485-500. [CIHR Fellowship] .\u00a0Abstract<\/a>.<\/a><\/p>\n

2002<\/strong><\/h3>\n

Propst EJ,\u00a0Gordon KA<\/strong>, Harrison RV, Abel SM, Papsin BC. Sound frequency discrimination in normal-hearing listeners and cochlear implant users.\u00a0University of Toronto Medical Journal<\/em>, 79(2); 100-106.\u00a0PDF<\/a>.<\/p>\n

2001<\/strong><\/h3>\n

Gordon KA<\/strong>, Ebinger K, Getsin J, Shapiro W. Neural response telemetry in children implanted at 12 to 24 months of age, \u00a0Annals of Otology, Rhinology, Otolaryngology<\/em>, 189: 42-8. [CIHR Fellowship].\u00a0Abstract<\/a>.<\/p>\n

<\/a>Gordon KA<\/strong>, Papsin BC, Harrison RV. Auditory brainstem and midbrain development following cochlear implantation in children.\u00a0Annals of Otology, Rhinology, Otolaryngology<\/em>, 189: 32-7. [CIHR Fellowship].Abstract<\/a>.<\/p>\n

2000<\/strong><\/h3>\n

Gordon KA<\/strong>, Daya H, Harrison RV, Papsin BC. Factors contributing to limited open set speech perception in children who use a cochlear implant. International Journal of Pediatric\u00a0Otolaryngology<\/em>, 56, 101-111. [SickKids CSTP Award].\u00a0Abstract.<\/a><\/p>\n

<\/a>Gordon KA<\/strong>, Harrison RV, Twitchell K, Papsin BC. Effect of residual hearing prior to cochlear implantation on speech perception in children.\u00a0Journal of Otolaryngology<\/em>, 30 (4), 216-223. [SickKids CSTP Award].\u00a0Abstract<\/a>.<\/p>\n

1990\u2019s<\/strong><\/h3>\n

Daya H, Figueirido, J.C,\u00a0Gordon KA<\/strong>, Twitchell K, Gysin C, Papsin BC. (1999) The role of a graded profile analysis in determining candidacy and outcome for cochlear implantation in children. International Journal of Pediatric\u00a0Otorhinolaryngology<\/em>, 49(2): 135-142. [SickKids CSTP Award].\u00a0Abstract<\/a>.<\/p>\n

Harrison RV, Nedzelski J, Picton N, Papsin BC, Russell S, Margar-Bacal F, Ross D, Papaioannou V,\u00a0Gordon KA<\/strong>, Lockyer L, Ingrams J, Barnett S. (1997) The paediatric cochlear implant program at the Hospital for Sick Children, Toronto.\u00a0The Journal of Otolaryngology<\/em>, 26 (3): 180-187.\u00a0Abstract<\/a>.[\/vc_column_text][\/vc_column][\/vc_row]<\/p>\n<\/div>","protected":false},"excerpt":{"rendered":"

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