TY - GEN
T1 - Disruptive effect of urban environmental noise on the physiological recovery response after stress testing
AU - Herranz-Pascual, K.
AU - Iraurgi, I.
AU - García-Pérez, I.
AU - Aspuru, I.
AU - García-Borreguero, I.
AU - Herrero-Fernández, D.
PY - 2011
Y1 - 2011
N2 - The relationship between stress, physiological response and health has been extensively analyzed (Berglund et al. 1999; Ising et al. 1999; Maschke 2003; Muzet 2007; Stanfeld & Matheson 2003). There is also evidence of how continued exposure to noise is associated with certain diseases (hypertension, ischemic heart disease, sleep disturbances⋯). The main objective of this paper is to analyze the short-term effect of a disturbing noise source on the heart rate recovery after cognitive stress induced by a test. The method used was a crossed factorial design on two groups of 5 subjects/people randomized in which the sequence of exposure is inverted. (AB /BA; A: test with urban environmental noise, B: test with urban environmental noise + disturbing induced noise). Participants (n = 10) are monitored with a computer to record the heart rate at rest (baseline) and at the experimental stress situation (cognitive test). The results show that all participants, despite their order of exposure, present a higher rate of cardiac frequency in the stress testing compared to the baseline one. However, they recover more slowly to baseline rates when they are exposed to the disturbing noise situation, than when they are in a condition of environmental noise. As conclusions, we would like to highlight that urban environmental noise is a stressor which, in addition to other stress conditions, hampers the physiological recovery response. That is, disturbing noise could affect the standard physiological response of people to stress, obstructing the restorative function of urban spaces designed to be use in leisure and relaxation times.
AB - The relationship between stress, physiological response and health has been extensively analyzed (Berglund et al. 1999; Ising et al. 1999; Maschke 2003; Muzet 2007; Stanfeld & Matheson 2003). There is also evidence of how continued exposure to noise is associated with certain diseases (hypertension, ischemic heart disease, sleep disturbances⋯). The main objective of this paper is to analyze the short-term effect of a disturbing noise source on the heart rate recovery after cognitive stress induced by a test. The method used was a crossed factorial design on two groups of 5 subjects/people randomized in which the sequence of exposure is inverted. (AB /BA; A: test with urban environmental noise, B: test with urban environmental noise + disturbing induced noise). Participants (n = 10) are monitored with a computer to record the heart rate at rest (baseline) and at the experimental stress situation (cognitive test). The results show that all participants, despite their order of exposure, present a higher rate of cardiac frequency in the stress testing compared to the baseline one. However, they recover more slowly to baseline rates when they are exposed to the disturbing noise situation, than when they are in a condition of environmental noise. As conclusions, we would like to highlight that urban environmental noise is a stressor which, in addition to other stress conditions, hampers the physiological recovery response. That is, disturbing noise could affect the standard physiological response of people to stress, obstructing the restorative function of urban spaces designed to be use in leisure and relaxation times.
KW - Health effect
KW - Physiological response
KW - Restorative function
KW - Stress
KW - Urban noise
UR - http://www.scopus.com/inward/record.url?scp=84871478623&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:84871478623
SN - 9781618390790
T3 - Proceedings of the Institute of Acoustics
SP - 426
EP - 433
BT - 10th International Congress on Noise as a Public Health Problem 2011, ICBEN 2011 - Proceedings of the Institute of Acoustics
T2 - 10th International Congress on Noise as a Public Health Problem 2011, ICBEN 2011
Y2 - 24 July 2011 through 28 July 2011
ER -