Peer-Reviewed Publications
Anbuhl KL, Diez Castro M, Lee NA, Lee VS, Sanes DH (2025) The cingulate cortex facilitates auditory perception under challenging listening conditions. Proceedings of the National Academy of Sciences (PNAS) 122(14), e2412453122.
Anbuhl KL, Cazares O, Hubert KA, Malapata R, Morgan JD (2023) Navigating a research career with a disability. Development 150 (16), dev201906.
Anbuhl KL, Yao JD, Mowery TM, Hotz RA, Sanes DH (2022). Auditory processing remains sensitive to environmental experience during adolescence in a rodent model. Nature Communications 13, 2872.
Huyck J*, Anbuhl KL*, Buran B*, Adler HJ, Atcherson SR, Cakmak O, ... Steyger PS (2021) Supporting equity and inclusion of deaf and hard-of-hearing individuals in professional organizations. Frontiers in Education, 6. *equal contributions
Thornton JL, Anbuhl KL, Tollin DJ (2021) Temporary unilateral hearing loss impairs spatial auditory information processing in neurons in the central auditory system. Frontiers in Neuroscience, 1400.
Brown AD, Anbuhl KL, Gilmer JI, Tollin DJ (2019) Between-ear sound frequency disparity modulates a brainstem biomarker of binaural hearing. Journal of Neurophysiology, 122:3, 1110-1122.
Greene NT*, Anbuhl KL*, Ferber AT, DeGuzman M, Allen PD, Tollin DJ (2018) Spatial hearing ability of the pigmented guinea pig (Cavia porcellus): Minimum audible angle and spatial release from masking in azimuth. Hearing Research 365:62-76. *equal contributions
Brown AD, Benichoux V, Jones, HG, Anbuhl KL, Tollin DJ (2018) Spatial variation in signal and sensory precision both constrain auditory acuity at high frequencies. Hearing Research 370:65-73.
Adler HJ, Anbuhl KL, Atcherson SR, Barlow N, Brennan MA, Brigande JV, Buran BN, Fraenzer JT, Gale JE, Gallun FJ, Gluck SD, Goldsworthy RL, Heng J, Hight AE, Huyck JJ, Jacobson BD, Karasawa T, Kovačić D, Lim SR, Malone A, Nolan LS, Pisano DV, Rao VRM, Raphael RM, Ratnanather JT, Reiss LAJ, Ruffin CV, Schwalje AT, Sinan M, Stahn P, Steyger PS, Tang SJ, Tejani, VD, Wong V, (2017) Community network for deaf scientists (Letter to the Editor). Science 356:386-387.
Anbuhl KL, Benichoux V, Greene NG, Tollin DJ (2017) Development of the head, pinnae, and the acoustical cues to sound location in a precocial species, the guinea pig (Cavia porcellus). Hearing Research 356:35-50.
Benichoux V, Brown AD, Anbuhl KL, and Tollin DJ (2017) Representation of multidimensional stimuli: quantifying the most informative stimulus dimension from neural responses. Journal of Neuroscience 37(31):7332-7346.
Greene NT*, Anbuhl KL*, Tollin DJ (2014) The acoustical cues to sound location in the guinea pig (Cavia porcellus). Hearing Research 316:1-25. *equal contributions
Preprints
Anbuhl KL, Ferber AT, Brown AD, Benichoux V, Greene NT, Tollin DJ (2024) Unilateral auditory deprivation reveals brainstem origin of a sensitive period for spatial hearing. bioRxiv 2024.04. 01.587638.
KL Anbuhl, Diez Castro M, Lee NA, Lee VS, Sanes DH (2023) Cingulate cortex facilitates auditory perception under challenging listening conditions. bioRxiv 2023.11. 10.566668.
Anbuhl KL, Yao JD, Mowery TM, Hotz RA, Sanes DH (2021) Auditory processing remains sensitive to environmental experience during adolescence. bioRxiv 2021.04.12.439537.
Book Chapters and Outreach Articles
Thornton JL, Anbuhl KL, Tollin DJ (2013) “Unilateral conductive hearing loss causes impaired auditory information processing in neurons in the central auditory system.” In: T Dau, S Santurette, Dalsgaard JC, Tranebjærg L, Anderson T, Poulsen T (Eds.), Auditory Plasticity- Listening with the Brain, pp. 171-178 (CFC & Co. A/S).
Anbuhl KL, Uhler KM, Werner LA, and Tollin DJ (2017) “Early Development of the Human Auditory System,” In: Fetal Neonatal Physiology, 5th Ed, R Polin, S Abman, W Benitz, D Rowitch (Eds.), Elsevier Press. Pp 1396-1410.
Anbuhl KL, Tollin DJ (2018) “Say what? Brief periods of hearing loss in childhood can have consequences later in life” Acoustical Society of America online press room. May 7.
Anbuhl KL, Uhler KM, Werner LA, and Tollin DJ (2021) “Early Development of the Human Auditory System,” In: Fetal Neonatal Physiology, 6th Ed, R Polin, S Abman, W Benitz, D Rowitch (Eds.), Elsevier Press. Chapter 135.