| Literature DB >> 25976524 |
Tamás Nagy1, René van Lien2, Gonneke Willemsen2, Gordon Proctor3, Marieke Efting4, Márta Fülöp5, György Bárdos6, Enno C I Veerman7, Jos A Bosch8.
Abstract
Salivary alpha-amylase (sAA) is used as a sympathetic (SNS) stress marker, though its release is likely co-determined by SNS and parasympathetic (PNS) activation. The SNS and PNS show asynchronous changes during acute stressors, and sAA responses may thus vary with sample timing. Thirty-four participants underwent an eight-minute memory task (MT) and cold pressor task (CPT). Cardiovascular SNS (pre-ejection period, blood pressure) and PNS (heart rate variability) activity were monitored continuously. Unstimulated saliva was collected repeatedly during and after each laboratory stressor, and sAA concentration (U/ml) and secretion (U/minute) determined. Both stressors increased anxiety. The MT caused an immediate and continued cardiac SNS activation, but sAA concentration increased at task cessation only (+54%); i.e., when there was SNS-PNS co-activation. During the MT sAA secretion even decreased (-35%) in conjunction with flow rate and vagal tone. The CPT robustly increased blood pressure but not sAA. In summary, sAA fluctuations did not parallel changes in cardiac SNS activity or anxiety. sAA responses seem contingent on sample timing and flow rate, likely involving both SNS and PNS influences. Verification using other stressors and contexts seems warranted.Entities:
Keywords: Acute stress; Alpha-amylase; Parasympathetic nervous system; Saliva; Salivary flow rate; Sympathetic nervous system
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Year: 2015 PMID: 25976524 DOI: 10.1016/j.biopsycho.2015.04.012
Source DB: PubMed Journal: Biol Psychol ISSN: 0301-0511 Impact factor: 3.251