Multiple memory-guided saccades: movement memory improves the accuracy of memory-guided saccades.

Silvia Colnaghi; Giorgio Beltrami; Andrea Cortese; Wolfgang Zangemeister; Vittorio Cosi; Maurizio Versino

Multiple memory-guided saccades: movement memory improves the accuracy of memory-guided saccades.

Standard

Multiple memory-guided saccades: movement memory improves the accuracy of memory-guided saccades. / Colnaghi, Silvia; Beltrami, Giorgio; Cortese, Andrea; Zangemeister, Wolfgang; Cosi, Vittorio; Versino, Maurizio.

in: PROG BRAIN RES, Jahrgang 171, 2008, S. 425-427.

Publikationen: SCORING: Beitrag in Fachzeitschrift/Zeitung › SCORING: Zeitschriftenaufsatz › Forschung › Begutachtung

Harvard

Colnaghi, S, Beltrami, G, Cortese, A, Zangemeister, W, Cosi, V & Versino, M 2008, 'Multiple memory-guided saccades: movement memory improves the accuracy of memory-guided saccades.', PROG BRAIN RES, Jg. 171, S. 425-427. <http://www.ncbi.nlm.nih.gov/pubmed/18718336?dopt=Citation>

APA

Colnaghi, S., Beltrami, G., Cortese, A., Zangemeister, W., Cosi, V., & Versino, M. (2008). Multiple memory-guided saccades: movement memory improves the accuracy of memory-guided saccades. PROG BRAIN RES, 171, 425-427. http://www.ncbi.nlm.nih.gov/pubmed/18718336?dopt=Citation

Vancouver

Colnaghi S, Beltrami G, Cortese A, Zangemeister W, Cosi V, Versino M. Multiple memory-guided saccades: movement memory improves the accuracy of memory-guided saccades. PROG BRAIN RES. 2008;171:425-427.

Bibtex

@article{6cba4919f7914c359d2f07927d5330cc,

title = "Multiple memory-guided saccades: movement memory improves the accuracy of memory-guided saccades.",

abstract = "Memory-guided saccades (MGSs) with 3 s memorization delay were recorded in healthy subjects using four different paradigms: two {"}regular{"} MGS paradigms with the peripheral target lit for 0.2 s (MGS2) and for 1.8 s (MGS18); a multiple memory-guided saccade (MMGS) paradigm with the target lit for 1.8 s and the instruction to perform a visually guided saccade (VGS) towards it before the MGS; a trained memory-guided saccades (TMGSs) paradigm where the same target was presented so that the subjects should made 10 VGSs before the MGS. The longer target presentation interval (MGS18 paradigm) did not improve the accuracy of MGS. The execution of the VGSs improved the accuracy of the corrective saccades made after the first MGS to drive the eyes closer to the target, and this improvement was independent from the number of the VGSs (there was no difference between the MMGS and the TMGS paradigms). The VGSs provide a template that improves the capability of the corrective saccades to compensate for the residual position error at the end of the first saccade.",

author = "Silvia Colnaghi and Giorgio Beltrami and Andrea Cortese and Wolfgang Zangemeister and Vittorio Cosi and Maurizio Versino",

year = "2008",

language = "Deutsch",

volume = "171",

pages = "425--427",

journal = "PROG BRAIN RES",

issn = "0079-6123",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Multiple memory-guided saccades: movement memory improves the accuracy of memory-guided saccades.

AU - Colnaghi, Silvia

AU - Beltrami, Giorgio

AU - Cortese, Andrea

AU - Zangemeister, Wolfgang

AU - Cosi, Vittorio

AU - Versino, Maurizio

PY - 2008

Y1 - 2008

N2 - Memory-guided saccades (MGSs) with 3 s memorization delay were recorded in healthy subjects using four different paradigms: two "regular" MGS paradigms with the peripheral target lit for 0.2 s (MGS2) and for 1.8 s (MGS18); a multiple memory-guided saccade (MMGS) paradigm with the target lit for 1.8 s and the instruction to perform a visually guided saccade (VGS) towards it before the MGS; a trained memory-guided saccades (TMGSs) paradigm where the same target was presented so that the subjects should made 10 VGSs before the MGS. The longer target presentation interval (MGS18 paradigm) did not improve the accuracy of MGS. The execution of the VGSs improved the accuracy of the corrective saccades made after the first MGS to drive the eyes closer to the target, and this improvement was independent from the number of the VGSs (there was no difference between the MMGS and the TMGS paradigms). The VGSs provide a template that improves the capability of the corrective saccades to compensate for the residual position error at the end of the first saccade.

AB - Memory-guided saccades (MGSs) with 3 s memorization delay were recorded in healthy subjects using four different paradigms: two "regular" MGS paradigms with the peripheral target lit for 0.2 s (MGS2) and for 1.8 s (MGS18); a multiple memory-guided saccade (MMGS) paradigm with the target lit for 1.8 s and the instruction to perform a visually guided saccade (VGS) towards it before the MGS; a trained memory-guided saccades (TMGSs) paradigm where the same target was presented so that the subjects should made 10 VGSs before the MGS. The longer target presentation interval (MGS18 paradigm) did not improve the accuracy of MGS. The execution of the VGSs improved the accuracy of the corrective saccades made after the first MGS to drive the eyes closer to the target, and this improvement was independent from the number of the VGSs (there was no difference between the MMGS and the TMGS paradigms). The VGSs provide a template that improves the capability of the corrective saccades to compensate for the residual position error at the end of the first saccade.

M3 - SCORING: Zeitschriftenaufsatz

VL - 171

SP - 425

EP - 427

JO - PROG BRAIN RES

JF - PROG BRAIN RES

SN - 0079-6123

ER -