April A. Benasich is an American neuroscientist. She is the Elizabeth H. Solomon Professor of Developmental Cognitive Neuroscience, director of the Infancy Studies Laboratory at the Center for Molecular and Behavioral Neuroscience, and director of the Carter Center for Neurocognitive Research and Professor of Neuroscience at Rutgers University. She is also a principal investigator within the National Science Foundation-funded Temporal Dynamics of Learning Center headquartered at the University of California, San Diego’s Institute for Neural Computation.
April A. Benasich | |
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Nationality | American |
Alma mater |
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Scientific career | |
Fields | Neuroscience |
Institutions | Rutgers University |
Doctoral advisor | Marc Bornstein |
Benasich was the first to link early deficits in rapid auditory processing to later impairments in language and cognition, thus demonstrating that the ability to perform fine non-speech acoustic discriminations in early infancy is critically important to, and highly predictive of, language development in typically developing children as well as children at risk for language learning disorders.[1][2] Her research also suggests that rapid auditory processing ability may be used to identify and remediate infants at highest risk of language delay and impairment regardless of risk status.[1] and she has demonstrated that infants who played a training game developed to encourage them to focus on small aural differences developed more accurate acoustic maps than infants who were not exposed to the same intervention.[3]
Education
editBenasich received Ph.D.s from New York University in experimental/cognitive neuroscience and clinical psychology in 1987 and has a bachelor's of science degree in nursing and extensive medical experience in pediatrics.[4] She completed her initial postdoctoral work at Johns Hopkins University School of Medicine, where she was a member of the Research Steering Committee of the Infant Health and Development Program funded by the Robert Wood Johnson Foundation, and a second postdoctoral fellowship under Paula Tallal at the Center for Molecular and Behavioral Neuroscience.
Research
editBenasich's work has centered on the study of the early neural processes necessary for normal cognitive and language development and the impact of disordered processing in high risk or neurologically impaired infants. At New York University, Benasich and Marc Bornstein studied the relationship of infant behaviors such as attention, habituation and memory to later cognitive and linguistic activity.[5] In her postdoctoral work at Johns Hopkins, she served on the Research Steering Committee for the Infant Health and Development Program, a large national randomized clinical trial of an early intervention program for low birth weight, premature infants.[6]
As a research associate at the Center for Molecular and Behavioral Neuroscience, Benasich developed a behavioral and electrocortical battery that permitted the assessment of rapid auditory temporal processing in infancy and its relationship to subsequent language outcomes. The resulting studies demonstrated that differences in infant discrimination of rapid auditory cues (a critical skill for decoding language) were related to differences in later language comprehension and production.[7][8] At the Infancy Studies Laboratory, Benasich's research, involving more than 1000 children over fifteen years, has continued to focus on neural underpinnings of cognitive and language development as well as the development of temporally-bounded sensory information processing (shown to be a predictor of language impairment and dyslexia in older children).[9] Her research has shown that the ability to perform fine-grained acoustic analyses in the tens of milliseconds time range in early infancy is critical to the decoding of the speech stream and the subsequent establishment of phonemic maps that support later language development.[2][7][10] Currently, the Benasich lab is studying the evolution of infant brain waves (and oscillations) as infants process the critical timing cues important for the construction of prelinguistic acoustic maps that support language acquisition.[11][12] Failure to efficiently process these timing cues can produce difficulties as language is set up, particularly in children with a family history of language learning issues.[13] Studies from the Benasich lab suggest that behavioral intervention in young infants can support and enhance language mapping and rapid auditory processing abilities and that those changes endure.[14][15][16]
Benasich has co-founded RAPT Ventures, a company whose goals are to facilitate technology transfer from the lab to the real world in order to optimize early brain development during the critical periods for early language.[17][18]
References
edit- ^ a b "Dr. April Benasich: Groundbreaking Findings". Temporal Dynamics of Learning Center at UCSD. Retrieved 2013-11-01.
- ^ a b Choudhury, Naseem; Benasich, April A. (February 2011). "Maturation of auditory evoked potentials from 6 to 48 months: Prediction to 3 and 4 year language and cognitive abilities". Clinical Neurophysiology. 122 (2): 320–338. doi:10.1016/j.clinph.2010.05.035. ISSN 1388-2457. PMID 20685161. S2CID 42701563.
- ^ Meyer, Robinson (2014-10-09). "How Whooshes and Beeps Can Make Babies Better Listeners". The Atlantic. Retrieved 2019-05-22.
- ^ "April Benasich". Rutgers SASN. Retrieved 2022-08-24.
- ^ "April Benasich". Rutgers University–Newark. Retrieved 2013-11-01.
- ^ Ramey, C. T.; Bryant, D. M.; Wasik, B. H.; Sparling, J. J.; Fendt, K. H.; LaVange, L. M. (March 1992). "Infant Health and Development Program for low birth weight, premature infants: program elements, family participation, and child intelligence". Pediatrics. 89 (3): 454–465. doi:10.1542/peds.89.3.454. ISSN 0031-4005. PMID 1371341. S2CID 245206431.
- ^ a b Benasich, April A.; Tallal, Paula (2002-10-17). "Infant discrimination of rapid auditory cues predicts later language impairment". Behavioural Brain Research. 136 (1): 31–49. doi:10.1016/S0166-4328(02)00098-0. ISSN 0166-4328. PMID 12385788. S2CID 22831503.
- ^ Benasich, April A.; Thomas, Jennifer J.; Choudhury, Naseem; Leppänen, Paavo H. T. (April 2002). "The Importance of Rapid Auditory Processing Abilities to Early Language Development: Evidence from Converging Methodologies". Developmental Psychobiology. 40 (3): 278–292. doi:10.1002/dev.10032. ISSN 0012-1630. PMC 1569820. PMID 11891639.
- ^ Boets, B., Vandermosten, M., Poelmans, H., Luts, H., Wouters, J., Ghesquiere, P. (2011). Preschool impairments in auditory processing and speech perception uniquely predict future reading problems. Res. Dev. Disabil. 32, 560–570.
- ^ Choudhury, Naseem; Leppanen, Paavo H.T.; Leevers, Hilary J.; Benasich, April A. (March 2007). "Infant information processing and family history of specific language impairment: converging evidence for RAP deficits from two paradigms". Developmental Science. 10 (2): 213–236. doi:10.1111/j.1467-7687.2007.00546.x. ISSN 1363-755X. PMC 1924777. PMID 17286846.
- ^ Cimons, Marlene (2012-02-24). "How the Brain Learns - US News and World Report". Usnews.com. Retrieved 2013-11-01.
- ^ Stix, Gary (2011-08-01). "How to Build a Better Learner". Scientific American. 305 (2): 50–57. doi:10.1038/scientificamerican0811-50. PMID 21827125.
- ^ "Early Interventions: Baby Brains May Signal Later Language Problem". Temporal Dynamics of Learning Center at UCSD. Retrieved 2019-05-22.
- ^ Benasich, April A.; Choudhury, Naseem A.; Realpe-Bonilla, Teresa; Roesler, Cynthia P. (2014-10-01). "Plasticity in Developing Brain: Active Auditory Exposure Impacts Prelinguistic Acoustic Mapping". Journal of Neuroscience. 34 (40): 13349–13363. doi:10.1523/JNEUROSCI.0972-14.2014. ISSN 0270-6474. PMC 6608311. PMID 25274814.
- ^ Ortiz-Mantilla, S.; Realpe-Bonilla, T.; Benasich, A. A. (2019-04-01). "Early Interactive Acoustic Experience with Non-speech Generalizes to Speech and Confers a Syllabic Processing Advantage at 9 Months". Cerebral Cortex. 29 (4): 1789–1801. doi:10.1093/cercor/bhz001. PMC 6418390. PMID 30722000.
- ^ Ortiz-Mantilla, S; Roesler, CP; Realpe-Bonilla, T; Benasich, AA (2022-02-19). "Modulation of Theta Phase Synchrony during Syllable Processing as a Function of Interactive Acoustic Experience in Infancy". Cerebral Cortex. 32 (5): 919–932. doi:10.1093/cercor/bhab256. PMC 8889996. PMID 34403462.
- ^ "RAPT Ventures". RAPT Ventures. Retrieved 2022-10-07.
- ^ Early Brain Trajectories and Evolving Oscillations: Template for Mature Function?, retrieved 2022-10-07
External links
edit- April Benasich Rutgers biography
- Infancy Studies Laboratory website
- Video interview - The Science Network (October 5, 2010)
- Website for Center for Molecular and Behavioral Neuroscience, Rutgers
- Video and article summary: Scientific American (August 2011) How to Build a Better Learner
- "The Art of Simplexity", Time, June 12, 2008.
- Rapt Ventures, Inc.
- Active auditory experience in infancy promotes brain plasticity in Theta and Gamma oscillations