C A Sandman1, J V Patterson. 1. Department of Psychiatry, University of California, CA, Irvine, USA. casandma@uci.edu
Abstract
OBJECTIVES: Valid markers of psychobiological processes, including changes over the lifespan, must be reliable. This study investigated the reliability of the auditory event-related potential (ERP) over a 3 year period. METHODS: Predictable and unpredictable rare tones were embedded in common-to-rare sequences at 3 different ratios (2:3, 2:5 and 2:8). Forty-six older (mean age 72.3 years) volunteers pressed a key to the rare tones, and ERPs (Fz, Cz and Pz) and reaction time (RT) were measured. Reliability across years was assessed using 3 methods: (1) determination of the stability of waveform components (P1, N1, P2, N2 and P3); (2) cross-correlation of successive 15 ms epochs of within-subject ERPs; and (3) cross-correlation of 15 ms epochs of between-subject ERPs. RESULTS: With all analyses, the ERP was stable. Analysis of the scored components indicated that P3 was especially stable in the unpredictable rare (2:8) condition. Earlier components were equally stable across all conditions. Analysis of 15 ms ERP epochs indicated significant ERP stability 60 ms after stimulation, lasting over 640 ms. CONCLUSIONS: Robust within-subject reliability of the ERP strengthens its potential use for detecting preclinical changes in at-risk elderly populations.
OBJECTIVES: Valid markers of psychobiological processes, including changes over the lifespan, must be reliable. This study investigated the reliability of the auditory event-related potential (ERP) over a 3 year period. METHODS: Predictable and unpredictable rare tones were embedded in common-to-rare sequences at 3 different ratios (2:3, 2:5 and 2:8). Forty-six older (mean age 72.3 years) volunteers pressed a key to the rare tones, and ERPs (Fz, Cz and Pz) and reaction time (RT) were measured. Reliability across years was assessed using 3 methods: (1) determination of the stability of waveform components (P1, N1, P2, N2 and P3); (2) cross-correlation of successive 15 ms epochs of within-subject ERPs; and (3) cross-correlation of 15 ms epochs of between-subject ERPs. RESULTS: With all analyses, the ERP was stable. Analysis of the scored components indicated that P3 was especially stable in the unpredictable rare (2:8) condition. Earlier components were equally stable across all conditions. Analysis of 15 ms ERP epochs indicated significant ERP stability 60 ms after stimulation, lasting over 640 ms. CONCLUSIONS: Robust within-subject reliability of the ERP strengthens its potential use for detecting preclinical changes in at-risk elderly populations.
Authors: Manuel Vázquez-Marrufo; Javier J González-Rosa; Alejandro Galvao-Carmona; Antonio Hidalgo-Muñoz; Mónica Borges; Juan Luis Ruiz Peña; Guillermo Izquierdo Journal: PLoS One Date: 2013-05-01 Impact factor: 3.240
Authors: Hannes Devos; Jeffrey M Burns; Ke Liao; Pedram Ahmadnezhad; Jonathan D Mahnken; William M Brooks; Kathleen Gustafson Journal: Front Aging Neurosci Date: 2020-10-19 Impact factor: 5.750