Publications
These are peer-reviewed publications from the Cochlear Implant lab, PI, Andrew Dimitrijevic. PDFs will be available soon, in the mean time, send me an email for a reprint if you'd like a copy.
andrew.dimitrijevic@sunnybrook.ca
Li KE, Dimitrijevic A, Gordon KA, Pang EW, Greiner HM, Kadis DS
Age-related increases in right hemisphere support for prosodic processing in children. Scientific Reports 2023
Cottrell J, Dixon P, Cao X, Kiss A, Smilsky K,Kaminskas K, Ng A, Shipp D, Dimitrijevic A, Chen J, Lin V, Kyriakopoulou L, Le T
Gene mutations as a non-invasive measure of adult cochlear implant performance: Variable outcomes in patients with select TMPRSS3 mutations, PLOS ONE 2023
Xiu B, Paul BT, Chen JM, Le TN, Lin VY, Dimitrijevic A
Neural responses to naturalistic audiovisual speech are related to listening demand in cochlear implant users Frontiers in Neuroscience 2022.
Paul BT, Bajin D, Uzelac M JM, Le TN, Lin VY, Dimitrijevic A
Evidence of visual crossmodal reorganization positively relates to speech outcomes in cochlear implant users Scientific Reports 2022.
Perron M, Dimitrijevic A, Alain C
Objective and Subjective Hearing Difficulties Are Associated With Lower Inhibitory Control Ear and Hearing, 2022.
Mukherjee S, Kuroiwa M, Oakden W, Paul BT, Noman A, Chen J, Lin V, Dimitrijevic A, Stanisz G, Le TN
Local magnetic delivery of recombinant adeno-associated virus AAV2(quad Y-F) mediated brain-derived neurotrophic factor gene therapy restores hearing after noise injury Mol Ther, 2021.
Paul BT, Chen J, Le T, Lin V, Dimitrijevic A
Cortical alpha oscillations in cochlear implant users reflect subjective listening effort during speech-in-noise perception PLoS One, 2021.
Prince P, Paul BT, Chen J, Le T, Lin V, Dimitrijevic A.
Neural correlates of visual stimulus encoding and verbal working memory differ between cochlear implant users and normal-hearing controlsEuropean J. Neurosci, 2021.
Paul B, Uzelac M, Chan E & Dimitrijevic A
Poor early cortical differentiation of speech predicts perceptual difficulties of severely hearing-impaired listeners in multi-talker environments Scientific Reports, 2020.
Han JH & Dimitrijevic A
Acoustic Change Responses to Amplitude Modulation in Cochlear Implant users: Relationships to Speech Perception Frontiers in Neuroscience, 2020.
Dimitrijevic A, Smith ML, Kadis DS, Moore DR.
Neural indices of listening effort in noisy environments. Scientific Reports. 2019.
Dimitrijevic A, Smith ML, Kadis DS, Moore DR.
Cortical Alpha Oscillations Predict
Speech Intelligibility. Frontiers in human neuroscience. 2017; 11:88.
Dimitrijevic A, Alsamri J, John MS, Purcell D, George S, Zeng FG.
Human Envelope
Following Responses to Amplitude Modulation: Effects of Aging and Modulation
Depth. Ear and hearing. 2016; 37(5):e322-35.
Kadis DS, Dimitrijevic A, Toro-Serey CA, Smith ML, Holland SK.
Characterizing
Information Flux Within the Distributed Pediatric Expressive Language Network: A
Core Region Mapped Through fMRI-Constrained MEG Effective Connectivity Analyses.
Brain connectivity. 2016; 6(1):76-83.
Han JH, Zhang F, Kadis DS, Houston LM, Samy RN, Smith ML, Dimitrijevic A.
Auditory cortical activity to different voice onset times in cochlear implant
users. Clinical neurophysiology : official journal of the International
Federation of Clinical Neurophysiology. 2016; 127(2):1603-1617.
Hutton JS, Horowitz-Kraus T, Mendelsohn AL, DeWitt T, Holland SK. Home Reading
Environment and Brain Activation in Preschool Children Listening to Stories.
Pediatrics. 2015; 136(3):466-78.
Horowitz-Kraus T, Grainger M, DiFrancesco M, Vannest J, Holland SK. Right is not
always wrong: DTI and fMRI evidence for the reliance of reading comprehension on
language-comprehension networks in the right hemisphere. Brain imaging and
behavior. 2015; 9(1):19-31. P
Han JH, Dimitrijevic A.
Acoustic change responses to amplitude modulation: a
method to quantify cortical temporal processing and hemispheric asymmetry.
Frontiers in neuroscience. 2015; 9:38.
Vannest J, Rajagopal A, Cicchino ND, Franks-Henry J, Simpson SM, Lee G, Altaye M,
Sroka C, Holland SK. Factors determining success of awake and asleep magnetic
resonance imaging scans in nonsedated children. Neuropediatrics. 2014;
45(6):370-7.
Mazaheri A, van Schouwenburg MR, Dimitrijevic A, Denys D, Cools R, Jensen O.
Region-specific modulations in oscillatory alpha activity serve to facilitate
processing in the visual and auditory modalities. NeuroImage. 2014; 87:356-62.
Dimitrijevic A, Pratt H, Starr A.
Auditory cortical activity in normal hearing
subjects to consonant vowels presented in quiet and in noise. Clinical
neurophysiology:official journal of the International Federation of Clinical
Neurophysiology. 2013; 124(6):1204-15.
Wynne DP, Zeng FG, Bhatt S, Michalewski HJ, Dimitrijevic A, Starr A.
Loudness
adaptation accompanying ribbon synapse and auditory nerve disorders. Brain : a
journal of neurology. 2013; 136(Pt 5):1626-38.
Mc Laughlin M, Lu T, Dimitrijevic A, Zeng FG. Towards a closed-loop cochlear
implant system: application of embedded monitoring of peripheral and central
neural activity. IEEE transactions on neural systems and rehabilitation
engineering : a publication of the IEEE Engineering in Medicine and Biology
Society. 2012; 20(4):443-54.
Zeng FG, Tang Q, Dimitrijevic A, Starr A, Larky J, Blevins NH. Tinnitus
suppression by low-rate electric stimulation and its electrophysiological
mechanisms. Hearing research. 2011; 277(1-2):61-6.
Dimitrijevic A, Starr A, Bhatt S, Michalewski HJ, Zeng FG, Pratt H. Auditory
cortical N100 in pre- and post-synaptic auditory neuropathy to frequency or
intensity changes of continuous tones. Clinical neurophysiology : official
journal of the International Federation of Clinical Neurophysiology. 2011;
122(3):594-604.
Pratt H, Starr A, Michalewski HJ, Dimitrijevic A, Bleich N, Mittelman N. A
comparison of auditory evoked potentials to acoustic beats and to binaural beats.
Hearing research. 2010; 262(1-2):34-44.
Pratt H, Starr A, Michalewski HJ, Dimitrijevic A, Bleich N, Mittelman N. Cortical
evoked potentials to an auditory illusion: binaural beats. Clinical
neurophysiology : official journal of the International Federation of Clinical
Neurophysiology. 2009; 120(8):1514-24.
Michalewski HJ, Starr A, Zeng FG, Dimitrijevic A. N100 cortical potentials
accompanying disrupted auditory nerve activity in auditory neuropathy (AN):
effects of signal intensity and continuous noise. Clinical neurophysiology :
official journal of the International Federation of Clinical Neurophysiology.
2009; 120(7):1352-63.
Dimitrijevic A, Lolli B, Michalewski HJ, Pratt H, Zeng FG, Starr A. Intensity
changes in a continuous tone: auditory cortical potentials comparison with
frequency changes. Clinical neurophysiology : official journal of the
International Federation of Clinical Neurophysiology. 2009; 120(2):374-83.
Pratt H, Starr A, Michalewski HJ, Dimitrijevic A, Bleich N, Mittelman N.
Auditory-evoked potentials to frequency increase and decrease of high- and
low-frequency tones. Clinical neurophysiology : official journal of the
International Federation of Clinical Neurophysiology. 2009; 120(2):360-73.
Dimitrijevic A, Michalewski HJ, Zeng FG, Pratt H, Starr A.
Frequency changes in a
continuous tone: auditory cortical potentials. Clinical neurophysiology :
official journal of the International Federation of Clinical Neurophysiology.
2008; 119(9):2111-24.
Dimitrijevic A, Stapells DR. Human electrophysiological examination of buildup of
the precedence effect. Neuroreport. 2006; 17(11):1133-7.
Picton TW, Dimitrijevic A, Perez-Abalo MC, Van Roon P. Estimating audiometric
thresholds using auditory steady-state responses. Journal of the American Academy
of Audiology. 2005; 16(3):140-56.
Dimitrijevic A, John MS, Picton TW. Auditory steady-state responses and word
recognition scores in normal-hearing and hearing-impaired adults. Ear and
hearing. 2004; 25(1):68-84.
John MS, Dimitrijevic A, Picton TW. Efficient stimuli for evoking auditory
steady-state responses. Ear and hearing. 2003; 24(5):406-23.
Picton TW, John MS, Dimitrijevic A, Purcell D. Human auditory steady-state
responses. International journal of audiology. 2003; 42(4):177-219.
John MS, Purcell DW, Dimitrijevic A, Picton TW. Advantages and caveats when
recording steady-state responses to multiple simultaneous stimuli. Journal of the
American Academy of Audiology. 2002; 13(5):246-59.
Picton TW, Dimitrijevic A, John MS. Multiple auditory steady-state responses. The
Annals of otology, rhinology & laryngology. Supplement. 2002; 189:16-21.
John MS, Dimitrijevic A, Picton TW. Auditory steady-state responses to
exponential modulation envelopes. Ear and hearing. 2002; 23(2):106-17.
Dimitrijevic A, John MS, Van Roon P, Purcell DW, Adamonis J, Ostroff J, Nedzelski
JM, Picton TW. Estimating the audiogram using multiple auditory steady-state
responses. Journal of the American Academy of Audiology. 2002; 13(4):205-24.
Picton TW, Dimitrijevic A, John MS, Van Roon P. The use of phase in the detection
of auditory steady-state responses. Clinical neurophysiology : official journal
of the International Federation of Clinical Neurophysiology. 2001;
112(9):1698-711.
Dimitrijevic A, John MS, van Roon P, Picton TW. Human auditory steady-state
responses to tones independently modulated in both frequency and amplitude. Ear
and hearing. 2001; 22(2):100-11.
John MS, Dimitrijevic A, Picton TW. Weighted averaging of steady-state responses.
Clinical neurophysiology : official journal of the International Federation of
Clinical Neurophysiology. 2001; 112(3):555-62.
John MS, Dimitrijevic A, van Roon P, Picton TW. Multiple auditory steady-state
responses to AM and FM stimuli. Audiology & neuro-otology. 2001; 6(1):12-27.