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High-probability grants
According to our matching algorithm, David Sage Vicario is the likely recipient of the following grants.
Years |
Recipients |
Code |
Title / Keywords |
Matching score |
2001 — 2002 |
Vicario, David S |
R21Activity Code Description: To encourage the development of new research activities in categorical program areas. (Support generally is restricted in level of support and in time.) |
Controlling Auditory Feedback in Songbird Vocalization @ Rutgers the St Univ of Nj New Brunswick
DESCRIPTION (provided by applicant): The PI proposes to develop and test a novel method for studying the contribution of auditory feedback from an individual's own vocalizations to vocal production and to vocal learning. This work will be done in a songbird, the zebra finch, because the songbird vocal system provides the most accessible animal model for studying some of the basic mechanisms of human speech. Young songbirds learn their vocalizations from external tutors through a process of imitation that resembles human speech acquisition. Vocal imitation depends on auditory information not only to hear the vocalizations that are copied, but also to process the individual's own vocalizations so that they are shaped to match the tutor's. Vocal production and sensory processing of vocal signals depend on specialized structures that have been identified in the songbird foreb1ain. To date, methods for studying the role of audition in songbird vocal learning have been either crude, e.g. surgical deafening, or partial, e.g. episodic delayed feedback delivered through speakers. A more precise method of delivering auditory information would permit the role of real-time auditory feedback in song learning and maintenance to be quantitatively assessed. The PI proposes 1) to develop a novel headphone-microphone device, worn by the bird, that will enable auditory feedback during vocalization to be controlled and manipulated, 2) to present altered auditory feedback during vocal production in adults and assess song stability, and 3) to present altered auditory feedback in juveniles during vocal practice and assess effects on song production and learning. These studies will produce an initial body of data that will drive significant future research at both the behavioral and neural levels. The eventual results will advance our understanding of fundamental mechanisms of vocal learning in songbirds.
|
0.905 |
2005 — 2009 |
Vicario, David S |
R01Activity Code Description: To support a discrete, specified, circumscribed project to be performed by the named investigator(s) in an area representing his or her specific interest and competencies. |
Integrative Study of Vocal Development @ Rutgers the St Univ of Nj New Brunswick
DESCRIPTION (provided by applicant): The proposed work will advance understanding of the neural mechanisms of sensory-motor learning by providing a quantitative description of the relationship between multiple physiological variables and vocal performance during development in a songbird, the zebra finch. Young male zebra finches learn their songs from adult models through a process of imitation that resembles human speech acquisition. Learned song, consists of a stereotyped sequence of distinct sounds produced by coordinated action of the two brain hemispheres, via right and left sound generators in the bird's syrinx (vocal organ), on patterned respiratory pressure pulses. Behavioral methods have been developed that trigger the vocal imitation process by presenting a model song, then measure the emerging structure of vocal output on a moment-to-moment basis. The bird rapidly transforms its limited, unstable vocal repertoire into a pattern of distinct syllable types defined by temporal and acoustic parameters - a process of differentiation and stabilization. This application proposes an interdisciplinary collaboration to study this learning process at the behavioral, articulatory, and brain levels in laboratories with expertise in physiological, behavioral and computational approaches to motol earning. Using the standardized behavioral paradigm, vocal output and physiological data will be recorded from different levels of the system at critical times during learning. The emerging structure of song will be elated to: 1) articulatory gestures recorded as respiratory pressure patterns and syringeal airflow; 2) premotor activity in subregions of vocal nucleus RA involved in respiratory vs. syringeal control; and 3) the role of synchronizing inputs to vocal nucleus HVC in song initiation and coordination. Quantitative analysis of the behavior and multi-level physiological data will yield a detailed account of how neural activity is structured into a learned temporal pattern during development and how multiple patterns, controlling different vocal effectors, combine to produce the song that is heard.
|
0.905 |