Alexandra K. Parbery-Clark, PhD, AUD
Seattle, WA 98122
Swedish Surgical Specialists - First Hill
801 Broadway, Seattle, WA 98122
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About Alexandra K. Parbery-Clark
Hearing loss impacts all aspects of daily life creating issues for communicating with others. Alexandra strives to provide comprehensive and compassionate care encompassing both the patient and family members to improve each patient’s quality of life. By understanding each patient’s needs, Alexandra works towards providing patients with the necessary tools to make the best decisions for their hearing health care. Alexandra’s greatest satisfaction is watching patient’s overcome their hearing difficulties through appropriate patient-centered care. Alexandra is an active researcher, publishing her research in a wide-variety of prestigious journals. Alexandra is also affiliated with the University of Washington through research collaborations as well as teaching future Doctors of Audiology.
Virginia Mason
Medical SchoolNorthwestern University
TrainingTraining
Washington Society of Audiology; American Auditory Society; American Board of Audiology; Association for Research in Otolaryngology; Academy of Audiology
- Modification of Osseointegrated Device Parameters to Improve Speech in Noise and Localization Ability: Clinical Recommendations
- Development of subcortical speech representation in human infants
- Musical Training Enhances Neural Processing of Binaural Sounds
- Biological impact of preschool music classes on processing speech in noise
- Effects of hearing loss on the subcortical representation of speech cues
- Musicians' Enhanced Neural Differentiation of Speech Sounds Arises Early in Life: Developmental Evidence from Ages 3 to 30
- Musicians change their tune: How hearing loss alters the neural code
- A dynamic auditory-cognitive system supports speech-in-noise perception in older adults
- Reversal of age-related timing delays with training
- Musical experience strengthens the neural representation of sounds important for communication in middle-age adults
- Musical training during early childhood enhances the neural encoding of speech in noise
- Aging Affects Neural Precision of Speech Encoding
- Auditory Brainstem Response to Complex Sounds Predicts Self-Reported Speech-in-Noise Performance
- Musicians have fine-tuned neural distinction of speech syllables
- Cognitive factors shape brain networks for auditory skills: Spotlight on auditory working memory
- Musical experience offsets age-related delays in neural timing
- Frequency-dependent effects of noise on subcortical response timing
- Context-dependent encoding in the auditory brainstem subserves enhanced speech-in-noise perception in musicians
- Harmonic relationships influence auditory brainstem encoding of chords
- A Neural Basis of Speech-in-Noise Perception in Older Adults
- Table S2
- Results S1
- Musical Experience and the Aging Auditory System: Implications for Cognitive Abilities and Hearing Speech in Noise
- Table S1
- What subcortical-cortical relationships tell us about processing speech in noise
- Musical experience shapes top-down auditory mechanisms: Evidence from masking and auditory attention performance
- Musical Experience Limits the Degradative Effects of Background Noise on the Neural Processing of Sound
- Musician Enhancement for Speech-In-Noise
- Experience-induced Malleability in Neural Encoding of Pitch, Timbre, and Timing
- Reversal of age-related timing delays with training
- Aging Affects Neural Precision of Speech Encoding
- Musicians' Enhanced Neural Differentiation of Speech Sounds Arises Early in Life: Developmental Evidence from Ages 3 to 30
- What subcortical-cortical relationships tell us about processing speech in noise
- Musical experience shapes top-down auditory mechanisms: Evidence from masking and auditory attention performance
- Musicians have fine-tuned neural distinction of speech syllables
- Auditory Brainstem Response to Complex Sounds Predicts Self-Reported Speech-in-Noise Performance
- Musical Experience Limits the Degradative Effects of Background Noise on the Neural Processing of Sound
- Musician Enhancement for Speech-In-Noise
- Harmonic relationships influence auditory brainstem encoding of chords
- Frequency-dependent effects of noise on subcortical response timing
- Development of subcortical speech representation in human infants
- Musical training during early childhood enhances the neural encoding of speech in noise
- A dynamic auditory-cognitive system supports speech-in-noise perception in older adults
- Cognitive factors shape brain networks for auditory skills: Spotlight on auditory working memory
- Musicians change their tune: How hearing loss alters the neural code
- Biological impact of preschool music classes on processing speech in noise
- Musical experience offsets age-related delays in neural timing
- A Neural Basis of Speech-in-Noise Perception in Older Adults
- Experience-induced Malleability in Neural Encoding of Pitch, Timbre, and Timing
Swedish
Adult and pediatric audiology, electrophysiology assessment, hearing aids, bone anchored implants, cochlear implants and clinical research